Flow Computer Smith MeterTM SyberTrolTMinfo.smithmeter.com/literature/docs/mn09041.pdf · The Most Trusted Name In Measurement Flow Computer Smith MeterTM SyberTrolTM Programming

The Most Trusted Name In Measurement

Flow ComputerSmith MeterTM SyberTrolTM

Programming Reference

Issue/Rev. 0.8 (4/03) Bulletin MN09041

Caution The default or operating values used in this manual and in the program of the SyberTrol are for factory testing only and should not be construed as default or operating values for your metering system. Each metering system is unique and each program parameter must be reviewed and programmed for that specific metering system application.

Disclaimer FMC Technologies Measurement Solutions, Inc. hereby disclaims any and all responsibility for damages, including but not limited to consequential damages, arising out of or related to the inputting of incorrect or improper program or default values entered in connection with the SyberTrol.

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i

Section I - Introduction 1 Product Description................................................................................................................................................1 How to Use this Manual .........................................................................................................................................1

Section II - Program Mode 2 Program Mode........................................................................................................................................................2 Main Menu..............................................................................................................................................................4 Program Mode Menu .............................................................................................................................................4 Entry to Program Mode ..........................................................................................................................................4

Program Submenu Selection.............................................................................................................................4 Exiting a Submenu to a New Submenu.............................................................................................................4

Exiting the Program Mode......................................................................................................................................5 Exit Without Changes ........................................................................................................................................5 Parameter Selection ..........................................................................................................................................5 Sequential Parameter Selection ........................................................................................................................5 Changing Parameters ........................................................................................................................................5 Numeric Data .....................................................................................................................................................6 Options...............................................................................................................................................................7 Alphanumeric Data ............................................................................................................................................8

Viewing the Help Messages.................................................................................................................................10 Section III - I/O Configuration 12

I/O Configuration Menu....................................................................................................................................12 Digital I/O Menu ...............................................................................................................................................12 Digital Input/Output #XX Configuration............................................................................................................12 Digital I/O # (Toggle between points) ..............................................................................................................13 Function ...........................................................................................................................................................13 Meter/Prover Assignment ................................................................................................................................14 Input/Output ID.................................................................................................................................................14 Polarity .............................................................................................................................................................15 Pulse Units .......................................................................................................................................................15 Volume/Pulse...................................................................................................................................................15 Pulse Width......................................................................................................................................................16 Pulse Duty Cycle..............................................................................................................................................16 Delay On ..........................................................................................................................................................17 Delay Off ..........................................................................................................................................................17 Analog I/O Menu ..............................................................................................................................................17 Analog Input/Output Points #1 through #12 ....................................................................................................17 Analog Input/Output #XX Configuration...........................................................................................................17 Analog Input/Output # (Toggle between points) ..............................................................................................18 Function ...........................................................................................................................................................18 Meter/Prover Assignment ................................................................................................................................18 Input/Output ID.................................................................................................................................................19 Transducer Type..............................................................................................................................................19 Temperature Probe Offset ...............................................................................................................................19 Minimum Current/Volt ......................................................................................................................................20 Minimum Engineering Value............................................................................................................................20 Maximum Current/Volt .....................................................................................................................................20 Maximum Engineering Value...........................................................................................................................21 Calibration #1 Counts ......................................................................................................................................21 Calibration #2 Counts ......................................................................................................................................21 Pulse Input Menu .............................................................................................................................................22 Pulse Input #X Configuration ...........................................................................................................................23 Function ...........................................................................................................................................................24 Pulse Input #5 Solartron Setup........................................................................................................................24 Constant K0 ......................................................................................................................................................25

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Constant K1 ......................................................................................................................................................25 Constant K2 ......................................................................................................................................................26 Constant K18 .....................................................................................................................................................26 Constant K19 .....................................................................................................................................................26 Constant K20a ....................................................................................................................................................26 Constant K20b ....................................................................................................................................................27 Constant K21a ....................................................................................................................................................27 Constant K21b ....................................................................................................................................................27 Temperature Calibration (Tcal) ..........................................................................................................................27 Pressure Calibration (Pcal) ................................................................................................................................28 Sarasota Frequency Densitometer ..................................................................................................................28 Density Correction Factor ................................................................................................................................28 Constant K .......................................................................................................................................................29 Constant D0 ......................................................................................................................................................29 Constant T0 ......................................................................................................................................................29 Temperature Coefficient Tcoef............................................................................................................................29 Calibration Temperature Tcal.............................................................................................................................30 Pressure Coefficient Pcoef..................................................................................................................................30 Calibration Pressure ........................................................................................................................................30 UGC Frequency Densitometer ........................................................................................................................30 Density Correction Factor ................................................................................................................................31 Calibration Constant K0 ....................................................................................................................................31 Calibration Constant K1 ....................................................................................................................................32 Calibration Constant K2 ....................................................................................................................................32 Calibration Constant TC....................................................................................................................................32 Calibration Constant Kt1 ...................................................................................................................................32 Calibration Constant Kt2 ...................................................................................................................................33 Calibration Constant Kt3 ...................................................................................................................................33 Calibration Pressure ........................................................................................................................................33 Pressure Constant Kp1......................................................................................................................................33 Pressure Constant Kp2......................................................................................................................................34 Pressure Constant Kp3......................................................................................................................................34 Other Frequency Densitometers......................................................................................................................34 Density Correction Factor ................................................................................................................................35 Density Transducer Constant A.......................................................................................................................35 Density Transducer Constant B.......................................................................................................................35 Density Transducer Constant C.......................................................................................................................35 Master Meter Pulse..........................................................................................................................................36 S-Mass Frequency Densitometer ....................................................................................................................36 Density Transducer Constant A.......................................................................................................................36 Density Transducer Constant B.......................................................................................................................37

Section IV - System Setup 38 System Setup Menu.............................................................................................................................................38

Time Set...........................................................................................................................................................38 Date Set ...........................................................................................................................................................38 Volume Units Name.........................................................................................................................................38 Volume Units for Conversion ...........................................................................................................................39 Temperature Units ...........................................................................................................................................39 Pressure Units .................................................................................................................................................39 Density Units....................................................................................................................................................40 Mass Units .......................................................................................................................................................40 Flow Rate Time Unit ........................................................................................................................................40 Flow Rate Descriptor .......................................................................................................................................41 Reference Temperature...................................................................................................................................41

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Alarm Relay I/O #.............................................................................................................................................41 FIOM Standalone Mode...................................................................................................................................41 SyberTrol Status Output # ...............................................................................................................................42 Internal Rounding (Version 3 and above of the FCPB firmware) ....................................................................42 Secondary Batch Record Source ....................................................................................................................42

Section V - Alarm Configuration 43 Alarm Configuration Menu ...............................................................................................................................43

Section VI - Skid Setup 47 Skid Setup Menu ..................................................................................................................................................47

Skid # ...............................................................................................................................................................47 Skid Menu ........................................................................................................................................................47 Skid ID..............................................................................................................................................................47 Meters ..............................................................................................................................................................48 Automatic Print Menu.......................................................................................................................................48 Auto Print .........................................................................................................................................................48 Report Type .....................................................................................................................................................48 Reset Option ....................................................................................................................................................49 Report Starting Time........................................................................................................................................49 Report Ending Time.........................................................................................................................................49 Report Print Time.............................................................................................................................................50 Report Interval Time ........................................................................................................................................50 Pulse Output I/O # ...........................................................................................................................................50 Pulse Output Maximum Frequency .................................................................................................................50 Flow Echo I/O Number.....................................................................................................................................51 Flow Echo Type ...............................................................................................................................................51

Flow Control Menu ...............................................................................................................................................52 High Flow Alarm...............................................................................................................................................52 Low Flow Alarm ...............................................................................................................................................52 Default Flow Rate ............................................................................................................................................52

Section VII - Meter Setup 53 Meter Setup Menu................................................................................................................................................53

Meter # .............................................................................................................................................................53 Setup Menu......................................................................................................................................................53 Meter ID ...........................................................................................................................................................53 Meter K-Factor .................................................................................................................................................54 Meter #X Dual Pulse Menu..............................................................................................................................54 Dual Pulse Error Count ....................................................................................................................................54 Dual Pulse Error Reset Select .........................................................................................................................54 Dual Pulse Error Reset Time ...........................................................................................................................55 Dual Pulse Flow Cutoff ....................................................................................................................................55 Dual Pulse Security Level................................................................................................................................55 Meter #X Temperature Menu...........................................................................................................................56 Analog I/O Point...............................................................................................................................................56 Default Temperature ........................................................................................................................................56 High Temperature Alarm .................................................................................................................................57 Low Temperature Alarm ..................................................................................................................................57 Meter #X Density Menu ...................................................................................................................................57 Density Input ....................................................................................................................................................58 Analog I/O # .....................................................................................................................................................58 Pulse I/O # .......................................................................................................................................................58 Share Meter Temperature ...............................................................................................................................59 Temperature Input Point ..................................................................................................................................59 Share Meter Pressure......................................................................................................................................59 Pressure Input Point ........................................................................................................................................60

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Default Density.................................................................................................................................................60 High Density Alarm ..........................................................................................................................................60 Low Density Alarm...........................................................................................................................................61 IP Paper 2 Density Correction .........................................................................................................................61 Default Temperature ........................................................................................................................................61 Default Pressure ..............................................................................................................................................61 High Temperature Alarm .................................................................................................................................62 Low Temperature Alarm ..................................................................................................................................62 High Pressure Alarm........................................................................................................................................62 Low Pressure Alarm.........................................................................................................................................63 Redundant Density Type .................................................................................................................................63 Redundant Pulse I/O #.....................................................................................................................................64 Use Meter Temp for Redundant ......................................................................................................................64 Redundant Temperature I/O #.........................................................................................................................64 Use Meter Pressure for Redundant .................................................................................................................64 Redundant Pressure I/O # ...............................................................................................................................64 Meter #X Pressure Menu.................................................................................................................................65 Analog Input Point............................................................................................................................................65 Default Pressure ..............................................................................................................................................65 High Pressure Alarm........................................................................................................................................65 Low Pressure Alarm.........................................................................................................................................66 Delta-P Strainer Input Point .............................................................................................................................66 Delta-P Strainer Delay .....................................................................................................................................66 Meter #X Sediment & Water Menu ..................................................................................................................67 Sediment & Water Input/Output Point..............................................................................................................67 Sediment & Water Limit ...................................................................................................................................67 Diverter Valve Output Point .............................................................................................................................67 Diverter Valve Status Input ..............................................................................................................................68 Default Sediment & Water ...............................................................................................................................68 Meter #X Flow Control Menu ...........................................................................................................................68 Flow Rate Display Type...................................................................................................................................69 High Flow Alarm...............................................................................................................................................69 Low Flow Alarm ...............................................................................................................................................69 Meter #X Flow Profile Menu ............................................................................................................................70 Low Flow Volume.............................................................................................................................................70 First Trip Volume..............................................................................................................................................70 Final Trip Volume.............................................................................................................................................71 High Flow Rate ................................................................................................................................................71 Low Flow Rate .................................................................................................................................................71 Minimum Flow Rate .........................................................................................................................................71 Flow Tolerance ................................................................................................................................................72 FCV Alarm Clamping .......................................................................................................................................72 Analog FCV Deadband....................................................................................................................................72 Valve Type .......................................................................................................................................................73 Meter #X Analog Valve Control .......................................................................................................................73 Analog Valve Output Point...............................................................................................................................73 Analog Valve Status Input Point ......................................................................................................................73 Meter #X Digital Valve Control.........................................................................................................................74 Upstream Solenoid Output Point .....................................................................................................................74 Downstream Solenoid Output Point.................................................................................................................74 Valve Status Input Point...................................................................................................................................74 Meter #X Two-Stage Valve Control .................................................................................................................75 Upstream Solenoid Output Point .....................................................................................................................75 Downstream Solenoid Output Point.................................................................................................................75

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Valve Status Input Point...................................................................................................................................76 Meter # X Motorized Valve ..............................................................................................................................76 Open Signal Output Point ................................................................................................................................76 Close Signal Output Point................................................................................................................................76 Motorized Valve Open Status Input Point........................................................................................................77 Motorized Valve Close Status Input Point .......................................................................................................77 Flow Echo Output Point ...................................................................................................................................77 Flow Echo Type ...............................................................................................................................................77 Meter #X Back Pressure Control Menu ...........................................................................................................78 Flow Control Method........................................................................................................................................78 Delta Pressure .................................................................................................................................................78 Flow Rate Reduction Timer .............................................................................................................................79 Flow Rate Reduction........................................................................................................................................79 Minimum Flow Rate .........................................................................................................................................79 Flow Recovery Timer .......................................................................................................................................80 Flow Recovery Pressure..................................................................................................................................80 Flow Control Timer...........................................................................................................................................80 Proportional Gain (PID)....................................................................................................................................81 Integral Gain (PID) ...........................................................................................................................................81 Derivative Gain (PID) .......................................................................................................................................81 Flow Ramp Interval ..........................................................................................................................................81 Flow Ramp Delta .............................................................................................................................................82 Remote FCV I/O Point # ..................................................................................................................................82 Flow Control Units............................................................................................................................................82 Meter #X Batch Array Menu ............................................................................................................................82 Batch Starting ..................................................................................................................................................82 Batch Rotation .................................................................................................................................................83 Minimum Batch Volume...................................................................................................................................83 Maximum Batch Volume..................................................................................................................................83 Batch Type.......................................................................................................................................................84 Batch I/O Points ...............................................................................................................................................84 Remote Start Input...........................................................................................................................................84 Remote Stop Input ...........................................................................................................................................85 Remote End of Batch Input..............................................................................................................................85 Product Detect Inputs 1 through 4 ...................................................................................................................85 Pump Output....................................................................................................................................................86 Pulse Output Setup Menu................................................................................................................................86 Pulse Output I/O # ...........................................................................................................................................87 Pulse Output Maximum Frequency .................................................................................................................87 Meter #X Sampler Setup Menu .......................................................................................................................87 Sampler Digital Output Point ...........................................................................................................................87 Can Setup Menu ..............................................................................................................................................88 Can Size...........................................................................................................................................................88 Can Units .........................................................................................................................................................88 Grab Size .........................................................................................................................................................88 Sampler Interval Type......................................................................................................................................89 Interval by Volume ...........................................................................................................................................89 Interval by Time ...............................................................................................................................................89 Alarm Type.......................................................................................................................................................89 Alarm Count .....................................................................................................................................................90 Percent Full Alarm ...........................................................................................................................................90 Sampler Full I/O Point......................................................................................................................................90 Meter #X Automatic Print Menu.......................................................................................................................90 Meter #X Prover Menu.....................................................................................................................................90

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Detector Switch Input.......................................................................................................................................91 Master Meter Input...........................................................................................................................................91 Pulse Interpolation ...........................................................................................................................................91 Meter Factor Shift ............................................................................................................................................92 Pulse Multiplier.................................................................................................................................................92 NSV Tolerance Menu.......................................................................................................................................92 NSV Tolerance Percentage .............................................................................................................................92 NSV Tolerance Volume ...................................................................................................................................92 Alarm Shut-down .............................................................................................................................................93

Section VIII - Product Setup 94 Product Setup.......................................................................................................................................................94

Product Number...............................................................................................................................................94 Product Setup Menu ........................................................................................................................................94 Product Name ..................................................................................................................................................94 Meter Factor Menu...........................................................................................................................................95 Product #XX Meter Factor Menu .....................................................................................................................95 Meter Factors 1 through 6 ...............................................................................................................................95 Flow Rates 1 through 6....................................................................................................................................96 Pressure Menu.................................................................................................................................................96 Calculation Method Select ...............................................................................................................................96 Edit Vapor Pressure Curve ..............................................................................................................................97 Product Vapor Pressure #1, #2, #3, #4 ...........................................................................................................97 Product Vapor Pressure Temperature #1, #2, #3 and #4 ...............................................................................97 Pressure Coefficient Setting ............................................................................................................................98 API Table .........................................................................................................................................................98 API Table, Product and Reference Density.....................................................................................................98 Reference Density ...........................................................................................................................................99

Section IX - Prover Setup 100 Prover Setup Menu ............................................................................................................................................100

Prover Selection.............................................................................................................................................100 Max % Flow Adjustment Interval ...................................................................................................................100 Flow Adjustment Interval................................................................................................................................100 Prover Name..................................................................................................................................................101 Prover Address ..............................................................................................................................................101 Prover Type ...................................................................................................................................................101 Prover Description Menu ...............................................................................................................................102 Prover Serial Number ....................................................................................................................................102 Prover Measurement Units ............................................................................................................................102 Prover Inside Diameter ..................................................................................................................................102 Prover Wall Thickness ...................................................................................................................................103 Prover Construction Material .........................................................................................................................103 Prover Material - Other ..................................................................................................................................103 Prover Volume #1 ..........................................................................................................................................103 Prover Volume #2 ..........................................................................................................................................104 Detect #2 Volume #1 .....................................................................................................................................104 Detect #2 Volume #2 .....................................................................................................................................104 Prove Cycle Wait Time ..................................................................................................................................105 Prove Delta Temperature ..............................................................................................................................105 Prove Stability ................................................................................................................................................105

Master Meter ......................................................................................................................................................106 Master Meter K Factor ...................................................................................................................................106 Meter Factors 1 through 6 .............................................................................................................................106 Flow Rates 1 through 6..................................................................................................................................106 Prover Control I/O Menus ..............................................................................................................................107

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Prover Bidirectional Control I/O Menu ...........................................................................................................107 Prover Unidirectional Control I/O Menu.........................................................................................................107 Prover SVP Control I/O Menu........................................................................................................................107 Prover Master Meter Control I/O Menu..........................................................................................................107

Bidirectional Prover ............................................................................................................................................108 Detector Switch Time-out ..............................................................................................................................108 4-Way Valve (Forward) Output Point.............................................................................................................108 4-Way Valve (Reverse) Output Point ............................................................................................................108 4-Way Valve Status (Forward) Input Point ....................................................................................................108 4-Way Valve Status (Reverse) Input Point ....................................................................................................109 Seal Status Input Point ..................................................................................................................................109 Prover Volume Input Point .............................................................................................................................109 Prover Inlet Temperature Input Point.............................................................................................................110 Prover Outlet Temperature Input Point..........................................................................................................110 Prover Inlet Pressure Input Point...................................................................................................................110 Prover Outlet Pressure Input Point ................................................................................................................111 Prover Alarms ................................................................................................................................................111 Inlet High Temperature Alarm........................................................................................................................111 Inlet Low Temperature Alarm ........................................................................................................................112 Outlet High Temperature Alarm.....................................................................................................................112 Outlet Low Temperature Alarm......................................................................................................................112 Inlet High Pressure Alarm..............................................................................................................................113 Inlet Low Pressure Alarm...............................................................................................................................113 Outlet High Pressure Alarm ...........................................................................................................................113 Outlet Low Pressure Alarm............................................................................................................................113 Prover Inlet Default Temperature ..................................................................................................................114 Prover Outlet Default Temperature................................................................................................................114 Prover Inlet Default Pressure.........................................................................................................................114 Prover Outlet Default Pressure......................................................................................................................114 Prover Status Output Point ............................................................................................................................115 Prover Pump Output Point .............................................................................................................................115 Prover Pump Status Input Point ....................................................................................................................115

Unidirectional Prover..........................................................................................................................................116 Detector Switch Time Out..............................................................................................................................116 Sphere Launch Output Point .........................................................................................................................116 Seal Status Input Point ..................................................................................................................................116 Prover Volume Input Point .............................................................................................................................117 Prover Inlet Temperature Input Point.............................................................................................................117 Prover Outlet Temperature Input Point..........................................................................................................117 Prover Inlet Pressure Input Point...................................................................................................................118 Prover Outlet Pressure Input Point ................................................................................................................118 Prover Status Output Point ............................................................................................................................118 Prover Pump Output Point .............................................................................................................................118 Prover Pump Status Point..............................................................................................................................119

Small Volume Prover..........................................................................................................................................119 Prover Inlet Temperature Input Point.............................................................................................................119 Prover Outlet Temperature Input Point..........................................................................................................119 Prover Inlet Pressure Input Point...................................................................................................................120 Prover Outlet Pressure Input Point ................................................................................................................120 Prover Status Output Point ............................................................................................................................120 Prover Pump Output Point .............................................................................................................................121 Prover Pump Status Point..............................................................................................................................121 SVP Communications Port ............................................................................................................................121

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Master Meter Control I/O Menu..........................................................................................................................122 Prover Inlet Temperature Input Point.............................................................................................................122 Prover Outlet Temperature Input Point..........................................................................................................122 Prover Inlet Pressure Input Point...................................................................................................................122 Prover Outlet Pressure Input Point ................................................................................................................123 Prover Status Output Point ............................................................................................................................123 Prover Pump Output Point .............................................................................................................................123 Prover Pump Status Point..............................................................................................................................124 Master Meter Pulse Count .............................................................................................................................124 Prover Method Menu .....................................................................................................................................124 Round Trips per Prove...................................................................................................................................124 Prove Repeatability #1...................................................................................................................................125 Prove Repeatability Tolerance #1..................................................................................................................125 Prove Repeatability #2...................................................................................................................................125 Prove Repeatability Tolerance #2..................................................................................................................125 Group Setup Menu.........................................................................................................................................126 Number of Groups .........................................................................................................................................126 Number of Runs.............................................................................................................................................126 Save All Trips.................................................................................................................................................126 Meter Factor Method......................................................................................................................................127

Section X - Communications 128 Communications.................................................................................................................................................128

Communications Menu ..................................................................................................................................128 Port Structure.................................................................................................................................................128 Protocol Type.................................................................................................................................................128 Baud Rate ......................................................................................................................................................129 Data Format ...................................................................................................................................................129 Communications Port ID................................................................................................................................130 Communications Handshake.........................................................................................................................130 Communications Address..............................................................................................................................130 Shared ISC Address ......................................................................................................................................130 Communications Port 5..................................................................................................................................131

Section XI - Security 132 Security ..............................................................................................................................................................132

Security Level Menus.....................................................................................................................................132 Security Name ...............................................................................................................................................132 Passcode .......................................................................................................................................................133 Resetting Passcode.......................................................................................................................................133 Digital Input Point...........................................................................................................................................133 Previous Level ...............................................................................................................................................133 Set Security....................................................................................................................................................133 Run Mode Security ........................................................................................................................................134 Assigning Security Levels..............................................................................................................................134

Section XII - Diagnostics 136 Diagnostics.........................................................................................................................................................136

FIOM Diagnostics (Input/Output Board) ........................................................................................................136 Analog I/O Test ..............................................................................................................................................136 Digital I/O Test ...............................................................................................................................................137 Pulse Input Test .............................................................................................................................................137 Diagnostic Test Menu ....................................................................................................................................138 CANbus Test..................................................................................................................................................138 Watchdog Reset Test ....................................................................................................................................138 Powerup Diagnostics .....................................................................................................................................138 FCPB Diagnostics (Main Processor Board) ..................................................................................................139

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Communications Test ....................................................................................................................................139 Default Test Database Initialization ...............................................................................................................139 Factory Database Initialization.......................................................................................................................140 Field Test Database Initialization...................................................................................................................140 Reset Batch Numbers....................................................................................................................................140 Watchdog Reset Test ....................................................................................................................................140 Powerup Diagnostics .....................................................................................................................................141 Boolean/Algebraic Processing.......................................................................................................................141 User-defined Boolean Registers....................................................................................................................141 User-defined Algebraic Registers ..................................................................................................................141 Boolean Equation Results .............................................................................................................................142 Algebraic Equation Results............................................................................................................................142 General Purpose Timers................................................................................................................................143 Default/User Literals ......................................................................................................................................143 Non-Resettable Totals ...................................................................................................................................144 Digital I/O Test ...............................................................................................................................................144 Factory Digital I/O Test – Input ......................................................................................................................144 Factory Digital I/O Test – Output ...................................................................................................................144 Densitometer Control and Status...................................................................................................................144 FCDB Diagnostics (Display Board) ...............................................................................................................145 Keypad Test...................................................................................................................................................145 Character Display Test ..................................................................................................................................145 Pixel Display Test ..........................................................................................................................................145

Section VIII - Valve Setup 146 Valve Setup ........................................................................................................................................................146

Select Valve Number .....................................................................................................................................146 Valve Setup Menu..........................................................................................................................................146 Valve ID..........................................................................................................................................................146 Open Command I/O Point..............................................................................................................................147 Open Status I/O Point ....................................................................................................................................147 Close Command I/O Point .............................................................................................................................147 Close Command I/O Point .............................................................................................................................147 Open Timeout ................................................................................................................................................148 Close Timeout................................................................................................................................................148 Overlapping Status ........................................................................................................................................148

Section XIV - Index 149

Section I – Introduction

MN09041 Issue/Rev. 0.8 (4/03) 1

Product Description

The Smith MeterTM SyberTrolTM is a microprocessor-based, fully programmable, electronic flow computer designed to continuously monitor and control the flow of liquid petroleum products.

The SyberTrolTM can operate as a high-integrity stand alone flow computer or as a powerful building block for integration into a supervisory computer control system. The flow computer includes either an explosion-proof or general purpose housing, inter-facing for remote communications, temperature, pressure and density monitoring, process loop con-trol, and report printing. Along with these capabilities the SyberTrol is capable of providing analog and pulse outputs to remote equipment. The modular construction and internal communications scheme of the instrument provides the capability of adding in-puts and outputs and adding remote displays to meet the requirements of most applications.

How to Use this Manual

This manual is divided into fourteen sections: Intro-duction, Program Mode, I/O Configuration, System Setup, Alarm Configuration, Meter Setup, Product Setup, Prover Setup, Communications, Security, Di-agnostics, Valve Setup, Index, and Related Publica-tions.

“Program Mode” describes how to get into the Pro-gram Mode, Menu Selection, Parameter Selection, how to change a parameter and viewing the Help Messages.

Sections III through X provide a description of each of the program parameters that are associated with the upper level menus. Also included is a description of all the critical and fatal warnings that are associ-ated with each parameter.

The "Index" is provided to help the reader locate the topic or parameter he seeks.

"Related Publications" lists additional manuals that are related to the product.

The examples presented in this manual are for clar-ity and convenience. The values will vary for each particular installation and/or operation.

Section II – Program Mode

2 MN09041 Issue/Rev. 0.8 (4/03)

Program Mode

The pushbuttons on the keypad perform the follow-ing functions while the instrument is in Program Mode:

0 – 9 Used to enter the access code, para-meters and data entries.

CLEAR Used for clearing incorrect entries, getting

from a parameter to the menu or for getting to an Exit point.

ENTER Used to enter Program Mode and to enter

program data into memory. MODE Used to switch or toggle between related

entries, (i.e., meters, products, I/O points, etc.).

Used for scrolling through menus and

parameters and the movement of the cursor in alphanumeric entries.

Used for scrolling through menus and

parameters, and the movement of the cursor in alphanumeric entries.

F1 Used in Program Mode in conjunction with the ALT key to set the security levels of the parameters.

ALT Used to display the Alternate Menu or

used to set the security levels of the parameters.

F2 Not used in Program Mode. F3 Not used in Program Mode. F4 Not used in Program Mode. F5 Used in Program Mode to clear existing

values and enter exponents, configure densitometer, etc.

+/- Used to enter a positive or negative sign

for numerical values. Pressing this key toggles negative sign on/off.

. Used to enter decimal points.


MN09041 Issue/Rev. 0.8 (4/03) 3


4 MN09041 Issue/Rev. 0.8 (4/03)

Main Menu

Entry into the Program Mode is made from the Main Menu after the proper security level or levels have been satisfied.

Main Menu 1. Print Reports Menu 2. Data Displays Menu 3. Operations Menu 4. Sampler Menu 5. Prove Menu 6. Alarms - Active 7. Alarms - Logged 8. Program Mode Menu 9. Batch Recalculation 10. Contrast and Brightness Adjust

3:24:04 PM Jun 27, 2001

Program Mode Menu

The Program Mode Menu is divided into eleven submenus. Access this menu by pressing ENTER when the cursor is positioned in front of selection “8. Program Mode Menu” on the main menu. Enter the passcode. If the correct passcode is entered, then the SyberTrol goes to the Program Main Menu. If an incorrect passcode is entered, then a message ap-pears stating "Access Denied. Press CLEAR to re-enter."

Program Mode Menu Access Level 1 - Prg Mode

1. I/O Configuration Menu 2. System Setup Menu 3. Skid Setup Menu 4. Meter Setup Menu 5. Product Setup Menu 6. Prover Setup Menu 7. Communications Menu 8. Security Menu 9. Diagnostic Menu 10. Valve Setup Menu 11. Exit Without Changes

1

Entry to Program Mode

When the operator enters the Program Mode, he will be prompted for the security level. The user will have access to all parameters other than “No Entry” parameters. “No Entry” parameters or menus will appear with lower intensity brightness than related selectable items on the SyberTrol screens. They will be “No Entry” because the function or parameter is not used in the SyberTrol as it has been pro-grammed. These items will be referred to as “No En-try” or “No Entries” throughout the manual. The user will be allowed to program only those parameters that are the same security level or the level below the one that was entered. After the digital inputs are checked and in the correct position, the access code or codes assigned to the level(s) will display the as-sociated prompts as programmed by the user when the system is configured. An error message will ap-pear if an incorrect security sequence occurs. The default security level as the unit ships from the fac-tory is 0000. Press ENTER to access Program Mode for the first time.

Program Submenu Selection Once in the Program Mode, the Main Program Menu will be displayed. Submenus can be accessed in one of two ways:

Use the up and down arrows to move the cursor to the submenu desired, then press ENTER

Use the numeric keypad to enter the number associated with the submenu required, then press ENTER.

If the selected entry has more than one digit, a popup screen will appear and the second digit will be requested.

Exiting a Submenu to a New Submenu Exiting a submenu and entering a new submenu can be accomplished by pressing the CLEAR key until the main menu is reached, then following the in-structions that are described in the Program Sub-menu Selection.


MN09041 Issue/Rev. 0.8 (4/03) 5

Exiting the Program Mode

To exit the Program Mode press CLEAR until the Program Mode is exited. This could take a number of keystrokes depending on how deep the operator is into the program menus or program codes. When exiting the program mode the user will be taken back to the Main Menu. If programming errors exist, then the operator is taken to the error handling screen that shows the first sixteen criticals. The pa-rameters in question will have to be corrected before the unit will save the entries and return to the main menu. The user may not exit the program mode with existing criticals unless “Exit Without Changes” on the Program Mode Menu is selected and the opera-tor consciously exits without any of the changes made being saved in the unit.

Exit Without Changes Selection 11 on the Program Mode Menu is "Exit Without Changes." This selection allows the opera-tor to exit the program mode without implementing any of the changes that were made while in the Pro-gram Mode. If "Exit Without Changes" is selected when exiting Program Mode, a popup menu will be activated confirming that no changes are to be made to the database.

Program Mode Menu

1. I/O Configuration Menu 2. System Setup Menu 3. Skid Setup Menu 4. Meter Setup Menu 5. Product Setup Menu 6. Prover Setup Menu 7. Communication Menu 8. Security menu 9. Diagnostic Menu 10. Valve Setup Menu 11. Exit Without Changes

11

Confirmation

Are you sure? 1. No 2. Yes

No - Takes you back to the Program Mode Menu. Yes - Takes you back to the Main Menu without any

changes being implemented.

Parameter Selection Once in the Program Mode, access the parameters by stepping through the menus until the parameter is reached.

Sequential Parameter Selection To review the parameters in the sequence in which they appear on the menus, use the up and down ar-row keys to move the cursor through the parameter listings. When the cursor is beside the appropriate parameter, press ENTER to advance to the input section of that parameter. Once at the input section of the parameter, the information for the parameter can be changed.

Changing Parameters The parameters can be changed to either enhance the performance of SyberTrol or to accommodate application changes. There are three types of pa-rameters in SyberTrol: parameters that require nu-merical data; parameters where choices have to be made as to option 1, 2, 3, etc.; and parameters where alphanumeric data is entered. Once a code has been selected, change its programmed contents by entering a new value through the keypad. If an incorrect entry is indicated, or an entry conflicts with other entries already made, the value for that pa-rameter will blink.


6 MN09041 Issue/Rev. 0.8 (4/03)

Numeric Data The numeric data is entered into the parameters via the keypad just as numbers are entered into a calcu-lator. For example, to change the parameters for the high flow rate for a meter:

1. View the contents of the parameters via one of the methods previously described.

Flow Profile Meter #1 - FQT 1000

1. Low Flow Volume 10 BBL 2. First Trip Volume 1.0 BBL 3. Final Trip Volume 0.10 BBL 4. High Flow Rate 3600 BPH 5. Low Flow Rate 100 BPH 6. Min Flow Rate 80 BPH 7. Flow Tolerance 5% 8. FCV Alarm Clamping No 9. Analog FCV Download 0 BPH

1

2. Using the down arrow move to the High Flow

Rate parameter or press "4".


1. Low Flow Volume 10 BBL 2. First Trip Volume 1.0 BBL 3. Final Trip Volume 0.10 BBL 4. High Flow Rate 3600 BPH 5. Low Flow Rate 100 BPH 6. Min Flow Rate 80 BPH 7. Flow Tolerance 5% 8. FCV Alarm Clamping No

4

3. Press ENTER to display the screen that allows the flow rate to be changed and displays the Help Message.


4. High Flow Rate 3600 BPH Enter New Value Enter the maximum flow rate for this meter position. An entry of 0 will not allow the valve to open.

4. Using the numerical keys on the SyberTrol enter

the new flow rate required (i.e., 4000 BPH).


4. High Flow Rate 3600 BPH Enter New Value 4000 Enter the maximum flow rate for this meter position. An entry of 0 will not allow the valve to open.

Note: Leading zeros are not required. Note: Pressing the CLEAR key will clear the last entry. Pressing CLEAR a second time will clear the rest and will return the original value. 5. Press ENTER to store the new flow rate and

return the display to the "Meter # X Flow Profile" Menu.


MN09041 Issue/Rev. 0.8 (4/03) 7


1. Low Flow Volume 10 BBL 2. First Trip Volume 1.0 BBL 3. Final Trip Volume 0.10 BBL 4. High Flow Rate 4000 BPH 5. Low Flow Rate 100 BPH 6. Min Flow Rate 7. Flow Tolerance 5% 8. FCV Alarm Clamping No 9. Analog FCV Download 0 BPH

4

Options The codes that have a number of options (i.e., 1, 2, 3, etc.,) are changed by entering the number that correlates to the option that is required for the appli-cation.

EXAMPLE: To change the parameters for the API table and density (Product Menu): 1. View the contents of the parameter via one of the

methods previously described.

Setup Menu Product #1 - Crude Oil

1. Product Name Crude Oil 2. Meter Factor Menu 3. Pressure Menu 4. API Table 6A API 46.1 API

1

2. Using the down arrow move to the API Table

parameter code or press "4".


1. Product Name Crude Oil 2. Meter Factor Menu 3. Pressure Menu 4. API Table 6A API 46.1 API

4

3. Press ENTER to display the screen that allows the API Table to be changed and displays the Help Message.

API Table Menu Product #1 - Crude Oil

Select API Table 1. No API Table 2. Table 5A 3. Table 5B 4. Table 5D 5. Table 6A 6. Table 6B 7. Table 6C more... Enter API 46.1 Select the temperature base API Table and enter its corresponding density.

4. Using the numerical keys on the unit, enter 6 (the

option number of the API Table required) (i.e., 6B) or use the arrow keys to move the cursor to the table required and press ENTER to change the table.



Note: Leading zeros are not required. Note: Pressing the CLEAR key will clear the last entry. Pressing CLEAR a second time will clear the rest and will return the original value.


8 MN09041 Issue/Rev. 0.8 (4/03)

5. The arrow automatically moves to the box for entering the new API associated with this pro-duct and Table 6B.



6. Press ENTER to store the new API Table,

density and to return the display to the "Product # 01 Menu".


1. Product Name Crude Oil 2. Meter Factor Menu 3. Pressure Menu 4. API Table and 6B API 36.1

1

Alphanumeric Data The parameters that require alphanumeric data will be programmed using the following keys on the Sy-berTrol:

Key Description

Right Arrow moves the cursor one space to the right when pressed

Left Arrow moves the cursor one space to the

left when pressed F1 moves the cursor to the capital

letters for character selection ABCDEFGHIJKLMNOPQRSTUVWXYZ F2 moves the cursor to the lowercase

letters for character selection abcdefghijklmnopqrstuvwxyz F3 moves the cursor to the numbers for

selection 0123456789 F4 moves the cursor to the special

characters for selection ! @#$%^&*()_-+={}[]|\:;"<>,./?' I ENTER When the cursor is in one of the

character sets the ENTER key selects the character that the cursor is highlighting and displays it in the new name.

When the cursor is located in the new name, press-ing ENTER will enter the new name in memory and return the display to the menu. Once the name is en-tered in memory it cannot be edited. A change re-quires a complete reentry.


MN09041 Issue/Rev. 0.8 (4/03) 9


1. Product Name Crude Oil Enter New Value F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ F2 - abcdefghijklmnopqrstuvwxyz F3 - 123456789 F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’I Enter a nine character alphanumeric product name.

Example: To enter a new product name (Product Menu). 1. View the contents of the parameter via one of the



1. Product Name Crude Oil 2. Meter Factor Menu 3. Pressure Menu 4. API Table Table 6A API 46.1

1

2. Press ENTER to display the screen that allows the Product Name to be changed and the Help Message to be displayed.


1. Product Name Crude Oil Enter New Value F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ F2 - abcdefghijklmnopqrstuvwxyz F3 - 123456789 F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’I Enter a nine character alphanumeric product name.

3. To enter a new product name or to change a

product name (i.e., Gasoline) press F1. The cursor will be moved to the uppercase char-acters.


1. Product Name Crude Oil Enter New Value F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ ^ F2 - abcdefghijklmnopqrstuvwxyz F3 - 123456789 F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ I Enter a nine character alphanumeric product name.


10 MN09041 Issue/Rev. 0.8 (4/03)

4. Press the " " key until the cursor is under the "G" and press ENTER. The "G" will appear where the cursor had been located in the New Name.


1. Product Name Crude Oil Enter New Value G F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ F2 - abcdefghijklmnopqrstuvwxyz F3 - 123456789 F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ I Enter up to a nine character alphanumeric product name.

5. Press "F2" to move the cursor to the lowercase

letters. The cursor will be located under the "a". Press ENTER. The "a" will appear in the New Value.


1. Product Name Crude Oil Enter New Value Ga F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ F2 - abcdefghijklmnopqrstuvwxyz F3 - 123456789 F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ I Enter a nine-character alphanumeric product name.

6. Continue the process until the new value is complete (i.e., Gasoline). Pressing ENTER when the cursor is located in the New Value will store the new name in memory and return the display to the Product #01 Menu.


1. Product Name Gasoline 2. Meter Factor Menu 3. Pressure Menu 4. API Table Table 6A API 46.1

1

Viewing the Help Messages The SyberTrol features unique "Help Messages" that allow the operator to review the requirements and the options that are available for each individual pa-rameter by simply pressing the ENTER key when the " " is pointing to the parameter. The "Help Mes-sages" will be displayed on the bottom of the screen with each parameter. Press CLEAR to return to the previous menu.

Example: To display the Help Message for the Flow Rate Timer (Meter #1 Back Pressure Control Menu.) 1. View the contents of the parameter via one of the


Back Pressure Control Meter #1 - FQT 1000

1. Flow Control Method Pressure 2. Delta Pressure 0.0 PSI 3. Flow Rate Reduction Timer 0 Secs 4. Flow Rate Reduction 0% 5. Minimum Flow Rate 400 BPH 6. Flow Recovery Timer 0 Secs 7. Flow Recovery Pressure 0.0 PSI

1


MN09041 Issue/Rev. 0.8 (4/03) 11

2. Using the down arrow move to the Flow Rate Timer parameter or press "3".



3

3. Press ENTER to display the parameter and the

Help Message.


3. Flow Rate Reduction Timer 0 Secs Enter new value 0 Enter the time in seconds, allowed to reach the desired flow rate. An entry of 0 will disable this feature.

4. Press CLEAR to return to the Meter #1 Back Pressure Control Menu.



3

Section III – I/O Configuration

12 MN09041 Issue/Rev. 0.8 (4/03)

I/O Configuration Section I/O Configuration Menu

I/O Configuration Menu 1. Digital I/O Menu 2. Analog I/O Menu 3. Pulse Input Menu

1

This is the main I/O Configuration Menu. It provides access to all the Digital, Analog, and Pulse Input and Output parameters. It is selected by pressing EN-TER when the cursor is in front of "1. I/O Configuration Menu."

Digital I/O Menu

Digital I/O Menu 1. I/O #1 Dig I/O 1 2. I/O #2 Dig I/O 2 3. I/O #3 Dig I/O 3 4. I/O #4 Dig I/O 4 5. I/O #5 Dig I/O 5 6. I/O #6 Dig I/O 6 7. I/O #7 Dig I/O 7 8. I/O #8 Dig I/O 8 9. I/O #9 Dig I/O 9 10. I/O #10 Dig I/O10 11. I/O #11 Dig I/O11 12. I/O #12 Dig I/O12 13. I/O #13 Dig I/O13 14. I/O #14 Dig I/O14 15. I/O #15 Dig I/O15 16. I/O #16 Dig I/O16 more... Press F1 to page up and F2 to page down.

1

Note: DIO #33 can be used as an output only, and DIO #34 can be used as an input only.

This menu lists all the digital input and output points and nine-character ID that has been programmed by the operator to identify the point. The nine-digit ID is “Read Only” on this menu; it can be changed on the "Digital I/O #XX Configuration Menu." The digital in-puts and outputs can be programmed to a function through the Digital I/O Menu or they can be pro-grammed through the function parameters for the Meters, Products, Provers, etc.

Note: I/O points 17 through 34 are available by pressing the down arrow.

Digital Input/Output #XX Configuration

Digital I/O #1 Configuration 1. Function Not Assigned Meter/prover # 2. I/O ID Sample 3. Polarity Active High 4. Pulse Units Gross 5. Volume/Pulse 0.000 6. Pulse Width 0.000 Secs 7. Pulse Duty Cycle 1% 8. Delay On 0 9. Delay Off 0

1

This menu is used to set up the parameters for each of the digital I/O points available in the SyberTrol. The parameters are: 1. Function Meter/Prover Number 2. Input/Output Identification 3. Polarity (Active High or Active Low) 4. Pulse Units (Not available in Rev. 0 of firmware) 5. Volume per Pulse (Not available in Revision 0 of

firmware) 6. Pulse Width (Not available in Revision 0 of

firmware) 7. Pulse Duty Cycle (Percentage) (Not available in

Revision 0 of firmware) 8. Delay On 9. Delay Off Note: Not all parameters are valid for all function assignments. Those not valid for a function will not be displayed.


MN09041 Issue/Rev. 0.8 (4/03) 13

Digital I/O # (Toggle between points)

Enter Digital I/O #

To change the digital I/O # without going back to the Digital I/O menu, press the "MODE" key. A popup screen will appear where the new Digital I/O point can be entered. This allows the operator to toggle between I/O points from the current screen.

Function

Digital I/O #1 Configuration 1. Function Not Assigned Meter # 1 Select Function -> 1.Not Assigned 2.Up Flw Ctrl Vlve 3.Down Flw Ctrl Vlve 4.Flw Ctrl Vlve Stat 5.Cmd Opn Motor Vlve 6.Cmd Cls Motor Vlve 7.Motor Vlv Opn Stat 8.Motor Vlv Cls Stat more... Assign a function for this I/O channel. Press F1 to page up and F2 to page down.

This screen permits the relays to be configured to the function required for the application.

Relay output selections are: 1 - Not assigned 2 - Upstream flow control (digital) valve

(Output) 3 - Downstream flow control (digital) valve

(Output) 4 - Flow Control Valve Status (Input) 5 - Command to Open Motorized Valve

(Output) 6 - Command to Close Motorized Valve

(Output) 7 - Motorized Valve Open Status (Input) 8 - Motorized Valve Closed Status (Input) 9 - Two-Stage Valve Upstream (Output) 10 - Two-Stage Valve Downstream (Output) 11 - Two-Stage Valve Status (Input) 12 - Analog Valve Status (Input) 13 - Pulse Output (Revision 2 and above of the

FCPB firmware) 14 - Sampler Output 15 - Remote Start (Input) 16 - Remote Stop (Input) 17 - Product Detect 1 (Input) 18 - Product Detect 2 (Input) 19 - Product Detect 3 (Input) 20 - Product Detect 4 (Input) 21 - Pump Control (Output) 22 - End of Batch (Input) 23 - Alarm (Output) 24 - Security Switch (Input) 25 - Delta-P Strainer (Input) 26 - BS&W Diverter Valve (Output) 27 - BS&W Diverter Valve Status (Input) 28 - Prover 4-Way Command Forward

(Output) 29 - Prover 4-Way Command Reverse

(Output) 30 - Prover 4-Way Status Forward (Input)


14 MN09041 Issue/Rev. 0.8 (4/03)

31 - Prover 4-way Status Reverse (Input) 32 - Prover Sphere Launch (Output) 33 - Prover Seal Status (Input) 34 - Prover Detector Switch (Input) 35 - Prover Volume Select (Input) 36 - Prover Status (Input) 37 - Prover Pump (Output) 38 - Prover Pump Status (Input) 39 - General Relay (Output) 40 - General Relay (Input) 41 - SyberTrol Status (Output) (Version 1 and

above of the FCPB firmware) 42 - Skid Pulse (Output) (Version 2 and above

of the FCPB firmware) 43 - Prover Detector Switch #2 (Version 2 and

above of the FCPB firmware) 44 - Redundancy Status (Version 11 and above

of the FCPB firmware) 45 - Sampler Full Status (Version 11 and above

of the FCPB firmware) Note 1: Options 9 through 45 will be displayed by pressing the down arrow until the desired function is revealed. Note 2: Prover detector switches can only be installed on I/O points 1, 2, 9, 10, 17, 18, 25, or 26. Note 3: Pulse outputs can only be installed on I/O points 1, 2, 9, 10, 17, 18, 25 and/or 26.

Warning Critical: Duplicate configuration assignments are not allowed.

Fatal Warnings Fatal: This function is not allowed for this I/O point. Fatal: Entry is out of specified range.

Meter/Prover Assignment

Digital I/O #1 Configuration Function Up Flw Ctrl Vlve Meters # 1 Select Function 1.Not Assigned 2.Up Flw Ctrl Vlve 3.Down Flw Ctrl Vlve 4.Flw Ctrl Vlve Stat 5.Cmd Opn Motor Vlve 6.Cmd Cls Motor Vlve 7.Motor Vlv Opn Stat 8.Motor Vlv Cls Stat Meter # 1 Assign meters for this I/O channel.

This screen is displayed after the Digital I/O function has been selected and ENTER pressed. It allows the function to be set to a meter, prover, a number of meters (up to six) or provers (up to three).

Input/Output ID

Digital I/O #1 Configuration 2. I/O ID Dig I/O 1 Enter new value Sampler F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ

F2 - abcdefghijklmnopqrstuvwxyz

F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’I

Enter up to a nine-character alphanumeric identifier for this I/O channel.

This parameter allows the operator to assign up to a nine-character alphanumeric identification to the Input/Output point. This identification will be displayed on the Digital Input/Output Menu.


MN09041 Issue/Rev. 0.8 (4/03) 15

Polarity

Digital I/O #1 Configuration 3. Polarity Active High Select new value 1. Active High 2. Active Low Assign the polarity of this I/O channel.

This code allows the operator to assign the polarity of the relay. There are two options for each relay: 1 - Active High 2 - Active Low Fatal Warning Fatal: Entry is out of specified range.

Pulse Units

Digital I/O #1 Configuration 4. Pulse Units Gross Select new value 1. Raw 2. Gross 3. GST 4. GSV 5. Mass 6. NSV Select the registration for the pulse output.

This parameter defines whether the pulse output or sampler output registers in Raw, Gross, GST, GSV, NSV or Mass units. 1 - Pulse Output Based on Raw Volume 2 - Pulse Output Based on Gross Volume 3 - Pulse Output Based on Gross @ Standard

Temperature (GST) Volume 4 - Pulse Output Based on Gross @ Standard

Temperature and Pressure (GSV) 5 - Pulse Output Based on Mass (Kg., Lb., or

Tons) 6 - Pulse Output Based on Gross at Standard

Temperature and Pressure (GSV) minus the Sediment and Water (NSV).

Warning This option is not available. Fatal Warning Fatal: Entry is out of specified range. Note: Only one pulse unit can be set for each meter or skid.

Volume/Pulse

Digital I/O #1 Configuration 5. Volume/Pulse 0.00 Enter new value 1.00 Enter the pulse output resolution per unit of registration. The range is 000.01 to 999.99.


16 MN09041 Issue/Rev. 0.8 (4/03)

This five-digit code defines the pulse output resolu-tion. The number is entered as the portion of the units of registration (fractional or whole) for which an output pulse is desired. (For example, an entry of 000.10 indicates a pulse will be output for each tenth of a unit. An entry of 010.0 will output a pulse for each 10 units.) The range of this parameter is 000.01 to 999.99.

Fatal Warning Fatal: Entry is out of specified range. Note 1: When this parameter is not applicable for the selected input/output function, it will not be accessible. Note 2: Maximum output frequency of all the pulse outputs of the unit is 1 kHz (i.e., fusing all 8 pulse outputs, the maximum frequency of each would be 1000/8 or 125 Hz).

Pulse Width

Digital I/O #1 Configuration 6 Pulse Width 0.007 Enter new value 0.125 Enter the width of the output pulse in seconds (time the pulse is to be on).

This parameter defines the width of the output pulse in seconds (the time the pulse is to be ON). Pulse width is typically used for pulse output or sampler output functions. This parameter can also be used to output a single pulse of fixed duration (for example, if a single pulse is desired at the end of a batch).

The range of this entry if programmed for SyberTrol status is 0.1 sec to 99.999 seconds.

For Pulse Output or Skid Pulse Output, the range is 0.001 to 0.125 seconds.

If entries are made for the percent duty cycle and pulse width, then the entry resulting in the largest pulse width will be used.

Note: When this parameter is not applicable for the selected Input/Output function, it will not be accessible. Fatal Warnings Fatal: Entry is out of specified range. Fatal: SyberTrol status output pulse width cannot be less than 0.1 sec. Note: This fatal message applies to function 41 - SyberTrol Status. The combination of pulse width and pulse duty cycle should be programmed such that the output frequency is between 0.1 Hz and 5 Hz. Fatal: Pulse output width cannot be greater than 0.125 sec.

Pulse Duty Cycle

Digital I/O #1 Configuration 7. Pulse Duty Cycle 1% Enter new value 5% Enter the pulse duty cycle (% of the time the pulse should be on). Range is 0% to 95%.

This parameter defines the percentage of the total pulse time (on and off time) the pulse is to be "on". Valid entries for the percent duty cycle are 0 to 95%. If entries are made for both the percent duty cycle and pulse width, then the entry resulting in the largest pulse width will be used. Note: When this parameter is not applicable for the selected input/output function, it will not be accessible. Fatal Warnings Fatal: Entry is out of specified range. Fatal: SyberTrol status output pulse duty cycle can-not be greater than 50% Note: This fatal message applies to Function 41 - SyberTrol Status. The combination of pulse width and pulse duty cycle should be programmed such that the output frequency is between 0.1 Hz and 5 Hz.


MN09041 Issue/Rev. 0.8 (4/03) 17

Delay On

Digital I/O #1 Configuration 8. Delay On 0 Secs Enter new value 10 Enter delay time in seconds before turning the relay on.

This two-digit parameter is the time (in seconds) that the output relay will be delayed after it has been commanded to open. If programmed as an input, this is the number of seconds before the status is checked. The range of this entry is 00 to 99 seconds.

Note: "00" disables the delay on feature. Fatal Warning Fatal: Entry is out of specified range.

Delay Off

Digital I/O #1 Configuration 9. Delay Off 0 Secs Enter new value 10 Enter delay time in seconds before turning the relay off.

This two-digit parameter is the time (in seconds) that the output relay will be delayed after it has been commanded to close. If programmed as an input, this is the number of seconds before the status is checked. The range of this entry is 00 to 99 seconds.

Note: "00" disables the delay off feature. Fatal Warning Fatal: Entry is out of specified range.

Analog I/O Menu

Analog I/O Menu 1. I/O #1 Ana I/O 1 2. I/O #2 Ana I/O 2 3. I/O #3 Ana I/O 3 4. I/O #4 Ana I/O 4 5. I/O #5 Ana I/O 5 6. I/O #6 Ana I/O 6 7. I/O #7 Ana I/O 7 8. I/O #8 Ana I/O 8 9. I/O #9 Ana I/O 9 10. I/O #10 Ana I/O10 11. I/O #11 Ana I/O11 12. I/O #12 Ana I/O12

Analog Input/Output Points #1 through #12 This menu lists all the Analog Input/Output points and the nine-digit ID that is programmed by the operator to identify the point. The nine-digit ID is to be read only on this menu; it can be changed on the "Analog I/O #XX Configuration Menu."

The Analog Inputs/Outputs can be programmed to a function through the Analog I/O Menu or they can be programmed through the function parameters for the meters, products, provers, etc.

Analog Input/Output #XX Configuration

Analog I/O #4 Configuration 1. Function Density Meter # 2 2. I/O ID M2 Dens 3. Transducer Type 4-20 mA 4. RTD Offset 5. Min. Current/Volt 4.0000 mA 6. Min. Eng. Value 34.64 Lb/Ft3 7. Max. Current/Volt 20.0000 mA 8. Max. Eng. Value 77.15 Lb/Ft3 9. Cal 1 12288 10. Cal 2 53248


18 MN09041 Issue/Rev. 0.8 (4/03)

This menu is used to set up the parameters for each of the analog I/O points available in the SyberTrol. The parameters are:

1. Function and Meter or Prover Number 2. Input/Output Identification 3. Transducer Type 4. RTD Offset 5. Minimum Current/Voltage 6. Minimum Engineering Value 7. Maximum Current/Voltage 8. Maximum Engineering Value 9. Calibration #1 Counts 10. Calibration #2 Counts

Analog Input/Output # (Toggle between points)

Enter Analog I/O #

To change the Analog I/O number without going back to the Analog I/O Menu, press the MODE key and then enter the desired Analog I/O number. This allows the operator to toggle between I/O points without leaving the current screen.

Function

Analog I/O #4 Configuration Function Temperature Meter # 1 Select function 1. Not Assigned 2. Temperature 3. Pressure 4. Density 5. Density Temp 6. Density Pressure 7. BS&W 8. Prover Inlet Temp more... Assign a function for this I/O channel.

Note: Press F1 to page up and F2 to page down.

This entry selects the function for which this analog input/output will be used: 1 - Not Assigned 2 - Temperature (Input) 3 - Pressure (Input) 4 - Density (Input) 5 - Density Temperature (Input) 6 - Density Pressure (Input) 7 - BS&W (Input) 8 - Prover Inlet Temperature (Input) 9 - Prover Inlet Pressure (Input) 10 - Prover Outlet Temperature (Input) 11 - Prover Outlet Pressure (Input) 12 - Analog Flow Control Valve (PID algorithm)

(Output) 13 - Flow Rate Echo (Output) 14 - General Output Relay 15 - General Input Relay 16 - Skid Flow Rate Echo (Output) (Version 2 and above of the FCPB firmware) 17- Remote Flow Control Valve Input (Version

11 and above of the FCPB firmware) Warning Critical: Duplicate configuration assignments are not allowed. Fatal Warnings Fatal: This function is not allowed for this I/O point. Fatal: Entry is out of specified range.

Meter/Prover Assignment

Analog I/O #4 Configuration Function Temperature Meter # 1 Select function 1. Not Assigned 2. Temperature 3. Pressure 4. Density 5. Density Temp 6. Density Pressure 7. BS&W 8. Prover Inlet Temp Meter # 1,4 Assigns meters for this I/O channel.

Note: Press F1 to page up and F2 to page down.


MN09041 Issue/Rev. 0.8 (4/03) 19

This screen is displayed after the Analog I/O func-tion has been selected and ENTER pressed. It al-lows the function to be set to a meter, prover, or skid, a number of meters (up to six), and provers (up to three).

Input/Output ID

Analog I/O #4 Configuration 2. I/O ID M2 Dens Enter new value M3 Dens F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’


This parameter allows the operator to assign up to a nine-character alphanumeric identification to the Input/Output point. This identification will be displayed on the Analog Input/Output Menu.

Transducer Type

Analog I/O #4 Configuration 3. Transducer Type RTD Select new value 1. RTD 2. 4-20 mA 3. 1-5 Vdc. Select the type of transducer that will be used with this I/O channel.

This entry selects the type of input that will be re-ceived by the SyberTrol from the transducer. The range of this entry is 1 - 3.

1 - RTD 2 - 4-20 mA 3 - 1-5 Vdc. Warning Critical: RTDs are only valid for temperature input functions. Fatal Warning Fatal: Entry is out of specified range.

Temperature Probe Offset

Analog I/O #4 Configuration 4. RTD offset 0.0°F Enter new value -0.1° Enter the value to correct for the temperature probe offset error.

This entry specifies the RTD temperature probe offset error. This entry will be used to correct the temperature value calculated from the RTD. This is a three-digit entry. The first digit must be a + or a - to indicate polarity: + equals positive and - equals negative. The second and third digits are the offset required in tenths of a degree. Fatal Warning Fatal: Entry is out of specified range.


20 MN09041 Issue/Rev. 0.8 (4/03)

Minimum Current/Volt

Analog I/O #4 Configuration 5. Min. Current/Volt 4.0000 mA Enter new value 4.0000 Enter the minimum value for the current or voltage for this I/O channel.

This entry will allow the operator to define the minimum value for the analog input scale. Depending on the units selected for transducer type, this is generally 4 mA or 1 Vdc.

Warning Warning: Maximum value must be greater than mini-mum value. Note: This entry is not valid if an RTD temperature probe is selected as a Transducer Type.

Minimum Engineering Value

Analog I/O #4 Configuration 6. Min. Eng. Value 34.64 Lb/Ft3 Enter new value 35.65 Enter the engineering value associated with the minimum current or voltage for this I/O channel.

This entry will allow the operator to enter the temperature, density, pressure or S&W that is to be represented by the minimum current/volt value. This six-digit entry, when used as a temperature unit input, will represent the minimum temperature units with a minimum level signal into the SyberTrol. The first digit must be a + or a - to show polarity, where a + equals positive and a - equals negative. The range of this entry is - 999.99 to + 999.99 temperature units.

The six-digit entry, when used as a density, pres-sure or S&W input, will represent the minimum units with a minimum level signal into the SyberTrol. The range of this entry is 0000.01 to 9999.99 density units, or 0 to 99.99% for S&W input.

Note: This entry is not valid if an RTD temperature probe is selected as a Transducer Type. Warning Warning: Maximum value must be greater than mini-mum value.

Fatal Warning Fatal: Entry is out of specified range.

Maximum Current/Volt

Analog I/O #4 Configuration 7. Max. Current/Volt 20.0000 mA Enter new value 20.0000 Enter the maximum value for the current or voltage for this I/O channel.

This entry will allow the operator to define the maximum value for the analog input scale. Depending on the units selected for transducer type, this is generally 20 mA or 5 Vdc.

Note: This entry is not valid if an RTD temperature probe is selected as a transducer type. Warning Warning: Maximum value must be greater than mini-mum value.


MN09041 Issue/Rev. 0.8 (4/03) 21

Maximum Engineering Value

Analog I/O #4 Configuration 8. Maximum Eng. Value 77.15 Lb/Ft3 Enter new value 77.25 Enter the engineering value associated with the maximum current or voltage for this I/O channel.

This entry will allow the operator to enter the temperature, density, pressure, or S&W that is to be represented by the maximum current/volt value.

This six-digit entry, when used as a temperature unit input, will represent the maximum temperature units with a maximum level signal into the SyberTrol. The first digit must be a + or a - to show polarity, where a + equals positive and a - equals negative. The range of this entry is -999.99 to +999.99 temperature units.

The six-digit entry, when used as a density, pressure or S&W input, will represent the maximum units with a maximum level signal into the SyberTrol. The range of this entry is 0000.01 to 9999.99 density units.

Note: This entry is not valid if an RTD temperature probe is selected as a transducer type. Warning Maximum value must be greater than minimum value. Fatal Warning Fatal: Entry is out of specified range.

Calibration #1 Counts

Analog I/O #4 Configuration 9. Cal 1 12288 Enter new value 12288 Enter the counts for the first calibration value (CAL 1). Factory default calibration is 12288.

The entry allows the operator to enter the correction factor (CAL #1) for each of the analog modules that are installed in the SyberTrol. This calibration factor can be found on the top label of each of the analog modules. The default values that are programmed in the SyberTrol will meet the accuracy of the specification. To get the maximum accuracy possible, the actual calibration #1 factor of each module should be programmed in this parameter.

Calibration #2 Counts

Analog I/O #4 Configuration 10. Cal 2 53248 Enter new value 53248 Enter the counts for the second calibration value (CAL 2). Factory default calibration is 53248.

The entry allows the operator to enter the correction factor (CAL #2) for each of the analog modules that are installed in the SyberTrol. This calibration factor can be found on the top label of each of the analog modules. The default values that are programmed in the SyberTrol will meet the accuracy of the specification. To get the maximum accuracy possible, the actual calibration #2 factor of each module should be programmed in this parameter.


22 MN09041 Issue/Rev. 0.8 (4/03)

Pulse Input Menu This menu allows the operator to set up the SyberTrol for the number of meter runs, configured as dual or single pulse transmitters; and the densitometers, if any, that are being used. There are five modes of operation for which the SyberTrol can be programmed. The setups and corresponding screens are listed below. From the I/O Configuration menu the pulse input menu is selected by moving the cursor to "3. Pulse Input Menu" and pressing ENTER.

Pulse Input Menu 1. Mode 1 Pulse Input #1 M1 Pulse Input #2 M2 Pulse Input #3 M3 Pulse Input #4 M4 2. Pulse Input #5 M5 3. Pulse Input #6 M6

1

1 - Mode 1 Pulse Input/Output #1 -Meter #1 single channel Pulse Input/Output #2 -Meter #2 single channel Pulse Input/Output #3 -Meter #3 single channel Pulse Input/Output #4 -Meter #4 single channel Pulse Input/Output #5 -Meter #5 single channel

or frequency densitometer Pulse Input/Output #6 -Meter #6 single channel

or frequency densitometer Pressing ENTER with the cursor in front of “1. Mode” will display the screen where the mode of inputs can be changed.

Pulse Input Menu 1. Mode 1 Enter new value 2 Enter the desired pulse input configuration mode. Range for this entry is 1 to 5.

Pressing ENTER will display the screen for Mode 2.

Pulse Input Menu 1. Mode 2 Pulse Input #1 M1 A Pulse Input #2 M1 B Pulse Input #3 M2 A Pulse Input #4 M2 B 2. Pulse Input #5 Pulse I/O 1 3. Pulse Input #6 Pulse I/O 2 Forward and reverse direction detect and error detect on Meter #1 and 2.

1

2 - Mode 2 Pulse Input/Output #1 -Meter #1 channel A Pulse Input/Output #2 -Meter #1 channel B Pulse Input/Output #3 -Meter #2 channel A Pulse Input/Output #4 -Meter #2 channel B Pulse Input/Output #5 -Meter #3 single channel


or frequency densitometer Note: Input/Output #5 and #6 utilizes I/O points and 25 and 26 when in Mode 2.

Pulse Input Menu 1. Mode 3 Pulse Input #1 M1 A Pulse Input #2 M1 B Pulse Input #3 N/A Pulse Input #4 M2 2. Pulse Input #5 Pulse I/O 1 3. Pulse Input #6 Pulse I/O 2 Forward and reverse direction detect and error detect on Meter #1.

1


MN09041 Issue/Rev. 0.8 (4/03) 23

3 - Mode 3 Pulse Input/Output #1 -Meter #1 channel A Pulse Input/Output #2 -Meter #1 channel B Pulse Input/Output #3 -not used Pulse Input/Output #4 -Meter #2 single channel Pulse Input/Output #5 -Meter #3 single channel


or frequency densitometer

Pulse Input Menu 1. Mode 4 Pulse Input #1 M1 A Pulse Input #2 M1 B Pulse Input #3 M2 A Pulse Input #4 M2 B 2. Pulse Input #5 M3 A 3. Pulse Input #6 M3 B Valid pulses (direction not detected) and error detect on Meter #1, 2 and 3.

1

4 - Mode 4 Pulse Input/Output #1 -Meter #1 channel A Pulse Input/Output #2 -Meter #1 channel B Pulse Input/Output #3 -Meter #2 channel A Pulse Input/Output #4 -Meter #2 channel B Pulse Input/Output #5 -Meter #3 channel A Pulse Input/Output #6 -Meter #3 channel B

Pulse Input Menu 1. Mode 5 Pulse Input #1 M1 A Pulse Input #2 M1 B Pulse Input #3 M2 A Pulse Input #4 M2 B 2. Pulse Input #5 Pul I/O 1 3. Pulse Input #6 Pul I/O 2 Valid pulses (direction not detected) and error detect on Meter #1 and 2.

1

5 - Mode 5 Pulse Input/Output #1 -Meter #1 channel A Pulse Input/Output #2 -Meter #1 channel B Pulse Input/Output #3 -Meter #2 channel A Pulse Input/Output #4 -Meter #2 channel B

Pulse Input/Output #5 -Meter #3 single channel or frequency densitometer

Pulse Input/Output #6 -Meter #4 single channel or frequency densitometer

Note: Valid pulses (direction not detected) and error detect on Meter #1 and 2. Fatal Warning Fatal: Entry is out of specified range.

Pulse Input #X Configuration This entry allows the selection of the desired setup for inputs 5 and 6. To select this screen from the Pulse Input Menu, choose either 2 or 3 “Pulse Input #5 or #6" and press ENTER. From this screen the function of the input is selected as a densitometer input and the setup can be selected for editing.

Pulse Input #5 Configuration 1. Function Meter Input Meter #

1


24 MN09041 Issue/Rev. 0.8 (4/03)

Function

Pulse Input #5 Configuration Function Solartron Freq Dens Meter # 3 Redundant Meter # 2 ` Select Function 1. Not Assigned 2. Meter Input 3. Solartron Frq Dens 4. Sarasota Freq Dens 5. UGC Freq Dens 6. Other Freq Dens 7. Master Meter Pulse 8. S-Mass Freq Dens Assign a function for this I/O channel.

This entry selects the function that will be assigned to the pulse input. The range of this entry is 1-8. 1 - Not Assigned 2 - Meter Pulse Input 3 - Solartron Frequency Densitometer 4 - Sarasota Frequency Densitometer 5 - UGC Frequency Densitometer 6 - Other Frequency Densitometer 7 - Master Meter Pulse 8 – S-Mass Frequency Densitometer Note: Functions 3 through 8 only apply to pulse inputs #5 and #6. Note: Option 8, S-Mass Frequency Density, applies only to Revision 13 and above firmware. Warning Warning: Not all coefficients are defined for this type densitometer. Fatal Warning Fatal: This option is not available. Fatal: Entry is out of specified range.

Pulse Input #5 Solartron Setup 1. Function Solartron Frq Dens Meter # 3 Redundant Meter # None

2. Densitometer Setup 3. Maximum Frequency 0 Hz 4. Minimum Frequency 0 Hz

This entry selects the Setup Menu for the Solartron Frequency Densitometer. When ENTER is pressed, the following menu will be displayed. Solartron Frequency Densitometer Setup

Pulse Input #5 Solartron Setup 1. Identifier M1 Dens 2. Density Correction Factor 0.0000 3. K0 0.000000E+000 4. K1 0.000000E+000 5. K2 0.000000E+000 6. K18 0.000000E+000 7. K19 0.000000E+000 8. K20a 0.000000E+000 9. K20b 0.000000E+000 10. K21a 0.000000E+000 11. K21b 0.000000E+000 12. Tcal 0.0000000 13. Pcal 0.0000000

Enter all values in English units.

1

This selection will allow the Solartron densitometer constants to be entered. This parameter only applies to pulse inputs 5 and 6.

1. Identifier 2. Density Correction Factor 3. Ko Calibration constant for uncompensated

density. 4. K1 Calibration constant for uncompensated


density. 6. K18 Calibration constant for temperature

compensated density. 7. K19 Calibration constant for temperature

compensated density. 8. K20A Calibration constant for pressure

compensated density. 9. K20B Calibration constant for pressure

compensated density. 10. K21A Calibration constant for pressure

compensated density. 11. K21B Calibration constant for pressure

compensated density. 12. Tcal Factory Temperature Calibration 13. Pcal Factory Pressure Calibration


MN09041 Issue/Rev. 0.8 (4/03) 25

Identifier

Pulse Input #5 Solartron Setup 2. Identifier M1 Dens Enter new value M1 Dens F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’I


This entry allows the operator to program up to a nine-character alphanumeric identifier for this densitometer.

Density Correction Factor

Pulse Input #5 Solartron Setup 2. Density Correction Factor 0.1000 Enter new value 0.1000 Enter the value that corrects the calculated density from the actual density.

This entry allows the operator to enter the density correction factor for computing the calculated density from the actual density.

Constant K0

Pulse Input #5 Solartron Setup 3. K0 0.000000E+000 Enter new value 0.000000E+000 Enter the calibration constant for uncompensated density.

Exp

This entry allows the operator to enter the Constant K0 from the Solartron densitometer. Enter the base number (six digits) and then press function key "F5" to enter the exponent of the number.


Constant K1


Exp




26 MN09041 Issue/Rev. 0.8 (4/03)

Constant K2


Exp



Constant K18

Pulse Input #5 Solartron Setup 6. K18 0.000000E+000 Enter new value 0.000000E+000 Enter the calibration constant for temperature compensated density.

Exp



Constant K19

Pulse Input #5 Solartron Setup 7. K19 0.000000E+000 Enter new value 0.000000E+000 Enter the calibration constant for temperature compensated density.

Exp



Constant K20a

Pulse Input #5 Solartron Setup 8. K20a 0.000000E+000 Enter new value 0.000000E+000 Enter the calibration constant for pressure compensated density.

Exp

This entry allows the operator to enter the Constant K20a from the Solartron densitometer. Enter the base number (six digits) and then press function key "F5" to enter the exponent of the number.



MN09041 Issue/Rev. 0.8 (4/03) 27

Constant K20b

Pulse Input #5 Solartron Setup 9. K20b 0.000000E+000 Enter new value 0.000000E+000 Enter the calibration constant for pressure compensated density.

Exp

This entry allows the operator to enter the Constant K20b from the Solartron densitometer. Enter the base number (six digits) and then press function key "F5" to enter the exponent of the number.


Constant K21a

Pulse Input #5 Solartron Setup 10. K21a 0.000000E+000 Enter new value 0.000000E+000 Enter the calibration constant for pressure compensated density.

Exp

This entry allows the operator to enter the Constant K21a from the Solartron densitometer. Enter the base number (six digits) and then press function key "F5" to enter the exponent of the number.


Constant K21b

Pulse Input #5 Solartron Setup 11. K21b 0.000000E+000 Enter new value 0.000000E+000 Enter the calibration constant for pressure compensated density.

Exp

This entry allows the operator to enter the Constant K21b from the Solartron densitometer. Enter the base number (six digits) and then press function key "F5" to enter the exponent of the number.

Temperature Calibration (Tcal)

Pulse Input #5 Solartron Setup 12. Tcal 0.000000 Enter new value 0.000000 Enter the temperature calibration value.

Exp

This entry allows the operator to enter the temperature at which the densitometer was calibrated at the factory.


28 MN09041 Issue/Rev. 0.8 (4/03)

Pressure Calibration (Pcal)

Pulse Input #5 Solartron Setup 13. Pcal 0.000000 Enter new value 0.000000 Enter the Pressure calibration value.

Exp

This entry allows the operator to enter the pressure at which the densitometer was calibrated at the factory.

Sarasota Frequency Densitometer This selection allows the Sarasota densitometer constants to be entered when it is selected as the densitometer. This parameter only applies to pulse inputs 5 and 6.

Pulse Input #5 Sarasota Setup 1. Identifier M1 Dens 2. Density Correction Factor 0.0000 3. K 0.000000 4. D0 0.000000 5. T0 0.000000 6. Tcoef 0.000000 7. Tcal 0.000000 8. Pcoef 0.000000 9. Pcal 0.000000


1

1. Identifier 2. Density Correction Factor 3. K 4. DO Calibration constant, mass/volume. 5. TO Calibration constant in microseconds. 6. TCoef Temperature coefficient,

microseconds/degree F. 7. TCal Calibration Temperature in degrees F. 8. PCoef Pressure coefficient in microseconds/psig. 9. PCal Calibration pressure in psig.


Identifier

Pulse Input #5 Sarasota Setup 1. Identifier M1 Dens Enter new value M1 Dens F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ I




Pulse Input #5 Sarasota Setup 2. Density Correction Factor 0.000000 Enter new value 0.000000 Enter the value that corrects the calculated density from the actual density.



MN09041 Issue/Rev. 0.8 (4/03) 29

Constant K

Pulse Input #5 Sarasota Setup 3. K 0.000000 Enter new value 0.000000 Enter the spool calibration constant.

This entry allows the operator to enter the calibration constant for the spool on the Sarasota densitometer.


Constant D0

Pulse Input #5 Sarasota Setup 4. D0 0.000000 Enter new value 0.000000 Enter the calibration constant, mass/volume.

This entry allows the operator to enter the constant D0 from the Sarasota densitometer.


Constant T0

Pulse Input #5 Sarasota Setup 5. T0 0.000000 Enter new value 0.000000 Enter the calibration constant in microseconds.

This entry allows the operator to enter the T0 constant from the Sarasota densitometer. This constant is in microseconds.


Temperature Coefficient Tcoef

Pulse Input #5 Sarasota Setup 6. Tcoef 0.000000 Enter new value 0.000000 Enter the temperature coefficient in microseconds.

This entry is used for entering the temperature coefficient constant from the Sarasota densitometer in microseconds/degree F.



30 MN09041 Issue/Rev. 0.8 (4/03)

Calibration Temperature Tcal

Pulse Input #5 Sarasota Setup 7. Tcal 0.000000 Enter new value 0.000000 Enter the calibration temperature.

This entry allows the operator to enter the temperature at which the densitometer was calibrated at the factory.


Pressure Coefficient Pcoef

Pulse Input #5 Sarasota Setup 8. Pcoef 0.000000 Enter new value 0.000000 Enter the pressure coefficient in microseconds.

This entry is used for entering the pressure coefficient constant from the Sarasota densitometer in microseconds/PSIG.


Calibration Pressure

Pulse Input #5 Sarasota Setup 9. Pcal 0.000000 Enter new value 0.000000 Enter the calibration pressure.



UGC Frequency Densitometer

Pulse Input #5 UGC Setup 1. Identifier M1 Dens 2. Density Correction Factor 0.1000 3. K0 0.000000E+000 4. K1 0.000000E+000 5. K2 0.000000E+000 6. Tc 0.000000 7. Kt1 0.000000E+000 8. Kt2 0.000000E+000 9. Kt3 0.000000E+000 10. Pc 0.000000 11. Kp1 0.000000E+000 12. Kp2 0.000000E+000 13. Kp3 0.000000E+000


1

This selection allows the UGC densitometer constants to be entered when the UGC densitometer is selected. This parameter only applies to pulse inputs 5 and 6.


MN09041 Issue/Rev. 0.8 (4/03) 31

1. Identifier 2. Density Correction Factor 3. KO Calibration constant for uncompensated



density. 6. TC Calibration temperature in degrees F for

corrected density. 7. Kt1 Temperature constant for corrected density. 8. Kt2 Temperature constant for corrected density. 9. Kt3 Temperature constant for corrected density. 10. PC Calibration pressure (psig) for corrected

density. 11. Kp1 Pressure constant for corrected density. 12. Kp2 Pressure constant for corrected density. 13. Kp3 Pressure constant for corrected density.

Pulse Input #5 UGC Setup 1. Identifier M1 Dens Enter new value M1 Dens F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ I




Pulse Input #5 UGC Setup 2. Density Correction Factor 0.0000 Enter new value 0.0000 Enter the value that corrects the calculated density from the actual density.


Calibration Constant K0

Pulse Input #5 UGC Setup 3. K0 0.000000E+000 Enter new value 0.000000E+000 Enter the calibration constant for uncompensated density.

Exp

This entry allows the operator to enter the Constant K0 from the UGC densitometer. Enter the base number (six digits) and then press function key "F5" to enter the exponent of the number.



32 MN09041 Issue/Rev. 0.8 (4/03)



Exp





Exp



Calibration Constant TC

Pulse Input #5 UGC Setup 6. Tc 0.000000 Enter new value 0.000000 Enter the calibration temperature in degrees F for corrected density.

Exp

This entry allows the operator to enter the temperature that the densitometer was calibrated at the factory.


Calibration Constant Kt1

Pulse Input #5 UGC Setup 7. Kt1 0.000000E+000 Enter new value 0.000000E+000 Enter the temperature constant for corrected density.

Exp

This entry allows the operator to enter the Constant Kt1 from the UGC densitometer. Enter the base number (six digits) and then press function key "F5" to enter the exponent of the number.



MN09041 Issue/Rev. 0.8 (4/03) 33



Exp

This entry allows the operator to enter the Constant Kt2 from the UGC densitometer. Enter the base number (six digits) and then press Function key "F5" to enter the exponent of the number.




Exp

This entry allows the operator to enter the Constant Kt3 from the UGC densitometer. Enter the base number (six digits) and then press function key "F5" to enter the exponent of the number.


Calibration Pressure

Pulse Input #5 UGC Setup 10. Pc 0.000000 Enter new value 0.000000 Enter the calibration pressure (psig) for corrected density.

Exp



Pressure Constant Kp1

Pulse Input #5 UGC Setup 11. Kp1 0.000000E+000 Enter new value 0.000000E+000 Enter the pressure constant for corrected density.

Exp

This entry allows the operator to enter the Pressure Constant Kp1 from the UGC densitometer. Enter the base number (six digits) and then press function key "F5" to enter the exponent of the number.



34 MN09041 Issue/Rev. 0.8 (4/03)



Exp

This entry allows the operator to enter the Constant Kp2 from the UGC densitometer. Enter the base number (six digits) and then press function key "F5" to enter the exponent of the number.




Exp

This entry allows the operator to enter the Constant Kp3 from the UGC densitometer. Enter the base number (six digits) and then press function key "F5" to enter the exponent of the number.


Other Frequency Densitometers This selection allows the densitometer constants for other densitometers to be entered, when other densitometers are selected. This parameter only applies to pulse inputs 5 and 6.

Pulse Input #5 Densitometer Setup 1. Identifier M1 2. Density Correction Factor 0.0000 3. Constant A 0.000000E+000 4. Constant B 0.000000E+000 5. Constant C 0.000000E+000

1

1. Identifier 2. Density Correction Factor 3. Constant A 4. Constant B 5. Constant C

Identifier

Pulse Input #5 Densitometer Setup 1. Identifier M1 Dens Enter new value M1 Dens F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ I




MN09041 Issue/Rev. 0.8 (4/03) 35


Pulse Input #5 Densitometer Setup 2. Density Correction Factor 0.0000 Enter new value 0.0000 Enter the value that corrects the calculated density from the actual density.


Density Transducer Constant A

Pulse Input #5 Densitometer Setup 3. Constant A 0.000000E+000 Enter new value 0.000000E+000 Enter the Constant A used to calculate density, equation is a(T**2) + bT + c.

This code allows the operator to enter the constant “a” by which the density will be calculated according to the following formula:

Density = aT2 + bT + c

Where: T is the period of the incoming signal and a, b, and c are the programmed constants.

Eleven digits must be entered for constant a. The first eight digits represent the base number and the last three numbers represent the exponent. The first digit and the ninth digit entered represent the polarity of the base number and the exponent respectively. If the sign is not entered it is assumed to be positive; if it is not positive, then enter a negative (-) sign.

Density Transducer Constant B

Pulse Input #5 Densitometer Setup 4. Constant B 0.000000E+000 Enter new value 0.000000E+000 Enter the Constant B used to calculate density, equation is a(T**2) + bT + c.

Exp

This parameter allows the operator to enter the constant “b” by which the density will be calculated according to the following formula:



Eleven digits must be entered for constant b. The first eight digits represent the base number and the last three numbers represent the exponent. The first digit and the ninth digit entered represent the polarity of the base number and the exponent respectively. If the sign is not entered it is assumed to be positive; if it is not positive, then enter a negative (-) sign.

Density Transducer Constant C

Pulse Input #5 Densitometer Setup 5. Constant C 0.000000E+000 Enter new value 0.000000E+000 Enter the Constant C used to calculate density, equation is a(T**2) + bT + c.

Exp


36 MN09041 Issue/Rev. 0.8 (4/03)

This parameter allows the operator to enter the con-stant "c" by which the density will be calculated ac-cording to the following formula:



Eleven digits must be entered for constant c. The first eight digits represent the base number and the last three numbers represent the exponent. The first digit and the ninth digit entered represent the polarity of the base number and the exponent respectively. If the sign is not entered it is assumed to be positive; if it is not positive, then enter a negative (-) sign.

Master Meter Pulse This selection allows the operator to assign the master meter pulse count to this I/O channel when Master Meter is selected as the function for this input. This parameter only applies to pulse inputs 5 and 6.

Pulse Input #5 Configuration 1. Function Master Meter Pulse Meter # 1,2

1

S-Mass Frequency Densitometer

Pulse Input #5 S-Mass Setup 1. Identifier Densitometer 2. Constant A 0.000000E+000 3. Constant B 0.000000E+000

1

This selection allows the S-Mass densitometer constants to be entered when S-Mass is selected as the function for this input. This parameter only applies to pulse inputs 5 and 6.

Note: This option is available only in Revision 13 and above firmware.

1. Identifier 2. Constant A 3. Constant B

Identifier

Pulse Input #5 S-Mass Setup 1. Identifier Densitometer Enter new value Densitometer F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ I

Enter up to a nine character alphanumeric identifier for this I/O channel.


Density Transducer Constant A

Pulse Input #5 S-Mass Setup 2. Constant A 0.000000E+000 Enter new value 0.000000E+000 Enter the Constant A used to calculate density, equation is a/T + b. Suggested values are: 1. 1.000E+7 (Kg/M3) 2. 6.242797E+5 (Lb/Ft3)

This code allows the operator to enter the constant “a” by which the density will be calculated according to the following formula:



MN09041 Issue/Rev. 0.8 (4/03) 37


Eleven digits must be entered for constant a. The first eight digits represent the base number and the last three numbers represent the exponent. The first digit and the ninth digit entered represent the polarity of the base number and the exponent respectively. If the sign is not entered it is assumed to be positive; if it is not positive, then enter a negative (-) sign.

Density Transducer Constant B

Pulse Input #5 S-Mass Setup 3. Constant B 0.000000E+000 Enter new value 0.000000E+000 Enter the Constant B used to calculate density, equation is a/T + b. B is an offset to correct density by a fixed value.

Exp

This parameter allows the operator to enter the con-stant “b” by which the density will be calculated ac-cording to the following formula:

Density = a/T + b

Where: T is the period of the incoming signal and a and b are the programmed constants.

Eleven digits must be entered for constant b. The first eight digits represent the base number and the last three numbers represent the exponent. The first digit and the ninth digit entered represent the polarity of the base number and the exponent respectively. If the sign is not entered it is assumed to be positive; if it is not positive, then enter a negative (-) sign.

Section IV – System Setup

38 MN09041 Issue/Rev. 0.8 (4/03)

System Setup Menu The System Setup Menu is used to set up parameters for the SyberTrol that are common to the operation of all meters and provers. To enter the System Setup Menu select option "2. System Setup Menu" and press ENTER.

System Setup Menu 1. Time 2:23:15 PM 2. Date Mar 12, 2000 3. Volume Units Name Gal 4. Volume Units Gal 5. Temperature Units Fahrenheit 6. Pressure Units PSI 7. Density Units No Density Used 8. Mass Units LB 9. Flow Rate Time Unit per min 10. Flow Rate Descriptor BPH 11. Reference Temperature 0.0 F 12 Alarm Relay I/O # 0 13. FIOM Standalone Mode No 14. SyberTrol Status Output # 0 15. Internal Rounding No Rounding 16. Alarm Configuration Menu

Press arrow keys to see more.

1

Time Set

Enter New Time Current Time: 2:27:54 PM Hours 2 Minutes 27 Time Type 1. AM 2. PM 3. Mil

Press ENTER to make selection and move to

next entry.

A correction to the time may be made through this entry. The first four numbers entered consist of two digits for the hour and two digits for the minutes. The last number entered will indicate military time or AM or PM for standard time. Seconds are always reset to zero when setting the time.

1 - AM 2 - PM 3 - Military Time Fatal Warning Fatal: The time entered is in error or has inconsistent format.

Date Set

Enter New Date Current Date: Mar 12, 2000 Month 3 Day 12 Year 2000

Press ENTER to make selection and move to next

entry.

This entry allows the operator to set the date on the SyberTrol. To change the date, enter the correct month next to the cursor and press ENTER. The cursor will automatically move to the next entry. Once the last entry has been changed, pressing ENTER will store the new date in memory.

Volume Units Name

System Setup Menu 3. Volume Units Name Gal Enter new value BBL F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ I

Enter up to a three character alphanumeric identifier for the volume units.

This parameter will allow the entry of a three character alphanumeric message to serve as the volume unit identifier (for example, GAL, LIT, BBL).


MN09041 Issue/Rev. 0.8 (4/03) 39

Volume Units for Conversion

System Setup Menu 4. Volume Units BBL Select new value 1. GAL - Gallons 2. BBL - Barrels 3. DEK - Dekaliters 4. LIT - Liters 5. M3 - Cubic Meters Select the volume units to be used in the volume to mass conversion.

This selection is used to select the volume units to be used in the internal volume to mass conversion. The volume units that may be selected are as follows:

1 - GAL - Gallons 2 - BBL - Barrels 3 - DEK - Dekaliters 4 - LIT - Liters 5 - M3 - Cubic Meters Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.

Temperature Units

System Setup Menu 5. Temperature Units Fahrenheit Select new value 1. No Temp Used 2. Fahrenheit 3. Celsius Select the temperature units to be used.

This one-digit entry is used to establish which temperature scale is to be used.

The permissible entries are as follows: 1 - No Temperature Used 2 - Fahrenheit Scale 3 - Celsius Scale Note: An entry of one, signifying no temperature selected, will cause all associated parameters to be "No Entry." Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.

Pressure Units

System Setup Menu 6. Pressure Units PSI Select new value 1. No Press Used 2. PSI 3. Bar 4. Kg/Cm2 5. Kpa Select the pressure units to be used.

This one-digit entry is used to establish which pressure scale will be used if there is a pressure transducer installed.

1 - No pressure used 2 - PSI used (absolute or gauge but cannot be

mixed) 3 - Bar used

4 - Kg/cm2 (Kilograms/centimeter squared) used

5 - Kpa (Kilopascals) used Note: An entry of one, signifying no pressure transducer installed, will cause any associated parameters to be ’No Entry’. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.


40 MN09041 Issue/Rev. 0.8 (4/03)

Density Units

System Setup Menu 7. Density Units No Density Used Select new value 1. No Density Used 2. Lb/Ft3 3. Kg/M3 Select the density units to be used.

This one-digit entry is used to establish which density scale is to be used.

The permissible entries are as follows: 1 - No Densitometer used 2 - Lb/Ft3 (Pound/Foot cubed) used 3 - Kg/M3 (Kilograms/Meter cubed) used Note: An entry of one, signifying no densitometer installed, will cause all associated parameters to be "No Entry." Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.

Mass Units

System Setup Menu 8. Mass Units Lb Select new value 1. Lb 2. Kg 3. U.S. Ton 4. Metric Ton 5. Long Ton Select the mass units to be used.

This one-digit entry is used to select the mass units to be used. The mass units that may be selected are as follows:

1 - Lb (pounds) 2 - Kg (kilogram) 3 - U.S. Ton 4 - Metric Ton 5 - Long Ton Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.

Flow Rate Time Unit

System Setup Menu 9. Flow Rate Time Unit per Min Select new value 1. per Min 2. per Hour Select the time base units for this meter.

This one-digit entry allows the operator to select the time unit to be used for flow rate. The selections are:

1 - Per Minute 2 - Per Hour Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.


MN09041 Issue/Rev. 0.8 (4/03) 41

Flow Rate Descriptor

System Setup Menu 10. Flow Rate Descriptor BPH Enter new value BPH F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ I

Enter up to a three-character alphanumeric identifier for the flow rate.

This parameter will allow a three-character entry message to serve as the flow rate unit identifier. The data entry will allow alphanumeric entry (for example, GPM, LPM, BPH).

Reference Temperature

System Setup Menu 11. Reference Temperature 0.0 F Enter new value 60.0 Enter the reference temperature that is used as the base for correction of liquid volume.

The actual uncompensated volume throughput is temperature compensated to its equivalent volume using this four-digit reference temperature. The most common reference temperatures are 60.0 F and 15.0 C. Note: If the temperature units are programmed "1", no temperature used, this parameter will be "No Entry." Fatal Warning Fatal: Entry is out of specified range.

Alarm Relay I/O #

System Setup Menu 12. Alarm Relay I/O # 0 Enter new value 0 Enter or view the digital I/O channel that the alarm relay is connected to.

This entry is used to set up the I/O point that the alarm relay is connected to. When the output point is entered, the corresponding Digital Output Configuration Menu will be displayed, allowing the output to be defined (see I/O Configuration Section for details.) Fatal Warning Fatal: Entry is out of specified range.

FIOM Standalone Mode

System Setup Menu 13. FIOM Standalone Mode No Enter new value 1. No 2. Yes Select whether or not to shutdown the FIOM if the CANbus line is disabled.

This entry allows the operator to set the SyberTrol System up to operate as independent modules if the communication line between the computer board (FCPB) and the I/O board (FIOM) becomes disabled. If yes is selected, the FIOM module will continue to operate, collecting data as it occurs and holding it until communications is reestablished. The data will then be communicated to the (FCPB) and all the data records will be updated. While communications is disabled the FIOM will continue to operate with the last commands that had been sent to it by the FCPB. If “No” is selected, the FIOM module will shut down the system on the loss of communications.


42 MN09041 Issue/Rev. 0.8 (4/03)

SyberTrol Status Output #

System Setup Menu

14. SyberTrol Status Output # 2 Enter new value 2 Enter the digital I/O channel to be used for the status pulse output indicating that the SyberTrol is functioning properly.

This entry allows the operator to set up an output to be used as a signal to indicate if the SyberTrol is running. A pulse output signal will be present on the selected digital I/O channel as long as the processor is running. The absence of the pulse will indicate that the SyberTrol has watchdogged or the power has been cycled. If a watchdog or power cycle occurs, the status output will not pulse for a period of fifteen to twenty seconds while the SyberTrol is checking its memory locations.

Note: When an I/O point is used for the Status Output it should be programmed such that the pulse width and duty cycle limits the output frequency to a range of 0.1 to 5 Hz.

Internal Rounding (Version 3 and above of the FCPB firmware)

System Setup Menu

15. Internal Rounding No Rounding Select new value 1. No Rounding 2. API Rounding Select no internal rounding or rounding to API Chapter 12 recommendations.

This entry allows the operator to select the internal rounding that will be used by the SyberTrol. The choices are either no rounding or rounding per the API recommendations. If API rounding is selected, the following values will be rounded as indicated. Load average meter factor 1.0000

Average Temperature 0.0 F, 0.05 C

Average Pressure 0.0 Bar, kg/cm2

0 Kpa, Psi

Average Density 0.0

Average BS&W 0.000%

API Gravity 0.0

Reference Density 0.0

Relative Density 0.0000

GSV Factor 0.0000

Raw Volume 0.00

CTL 1.0000

CPL 1.0000

CCF (CTL * CPL) 1.0000

When no rounding is selected, the internal values will be carried out to fifteen digits. Secondary Batch Record Source

System Setup Menu

17. Sec. Batch Rec. Source Primary Select new value 1. Primary 2. Secondary Select the source of the batch records stored on the secondary.

This display allows the operator to select either the primary or the secondary batch record to be stored on the secondary in a redundant pair. Note: This option is only available on Revision 14 and above firmware.

Section V – Alarm Configuration

MN09041 Issue/Rev. 0.8 (4/03) 43

Alarm Configuration Menu

System Setup Menu 1. Time 2. Date 3. Volume Units Name 4. Volume Units 5. Temperature Units 6. Pressure Units 7. Density Units 8. Mass Units 9. Flow Rate Time Unit 10. Flow Rate Descriptor 11. Reference Temperature 12. Alarm Relay I/O # 13. FIOM Standalone Mode 14. SyberTrol Status Output # 15. Internal Rounding 16. Alarm Configuration Menu

Choose this entry to display the "Select Alarm Type" menu, from which either the system alarms or the meter and prover alarms can be selected.

Select Alarm Type 1.System Alarms 2.Meter/Prover Alarms 3.Skid Alarms

1

Selecting “System Alarms” will display the systems alarms that can be configured by the user.

System Alarm Action Status RAM Error -A-CD ROM Error -A-CD Watch Dog Reset PA-CD Parameter Reinitialized PA-CD Flash Error PA-CD CANbus Down PA-CD FIOM RAM Test Failed PA-CD FIOM ROM Test Failed PA-CD FIOM Flash Test Failed PA-CD FIOM Watchdog PA-CD Enter Prg Mode to Save Change PA-CD Security Levels Reset PA-CD Power Fail Byte Limit Reached PA-CD FCPB Power Failure PA-CD System Alarm 1 PA--D System Alarm 2 PA--D F1=Page Up, F2=Page Down, F5=Help

There are three pages of alarms that can be displayed on this screen. The first page is shown above. The second page will include the following: System Alarm 3 System Alarm 4 System Alarm 5 System Alarm 6 System Alarm 7 System Alarm 8 System Alarm 9 System Alarm 10 Report Queue Full Valve #1 Alarm Valve #2 Alarm Valve #3 Alarm Valve #4 Alarm Valve #5 Alarm Valve #6 Alarm Valve #7 Alarm


44 MN09041 Issue/Rev. 0.8 (4/03)

Access the second page of System Alarms by pressing “F2” when the first page is displayed. To go back to the first page, press “F1”. The third page of alarms is as follows: Valve #8 Alarm BACKUP HAS FAILED Backup Comm Timeout Backup Comm NAK Backup Seq Error Backup Modbus Error -- Becoming BACKUP -- PRIMARY HAS FAILED Primary Comm Timeout Primary Comm NAK Primary Seq Error Primary Modbus Error -- Becoming PRIMARY -- ** Resync Complete ** Synchronizing Secondary Configuration Error The third page of System Alarms is accessed by pressing “F2” when the second page is displayed. To go back to the second page, press “F1”. To go to page one, press “F1” twice. The fourth page of System Alarms is accessed by pressing "F2" when the third page is displayed. To go back to the third page, press "F1". To go to page one, press "F1" three times. Critical Checks Bypassed PIO #1 Frequency Error PIO #2 Frequency Error Invalid Passcode Entry Selecting "Meter/Prover Alarms" will display the meter and prover alarms that can be configured by the user.

Meter/Prover Alarm Action Status

High Flow PA-CD Low Flow PA-CD No Flow PA-CD High Temperature PA-CD Low Temperature PA-CD High Pressure PA-CD Low Pressure PA-CD High Density PA-CD Low Density PA-CD High Density Temperature PA-CD Low Density Temperature PA-CD High Density Pressure PA-CD Low Density Pressure PA-CD Pulse Security Error PA-CD Sampler Full PA-CD Pulse Error Count Alarm PA-CD F1=Page Up, F2=Page Down, F5=Help

There are six pages of meter/prover alarms that can be displayed on the screen. The first page is shown above. The remaining pages will include sixteen alarms per page as follows: Page 2: BS&W Limit Exceeded Delta Pressure Back Pressure Diverter Valve Failure Valve Fault Pulse Transmission Prove: Meter Out of Range Prove: Meter Not Defined Prove: Prover Not Defined Prove: No Batch in Progress Prove: Resources Unavailable Prove: Pump Failure Prove: Temps Didn’t Converge Prove: Detect Switch Failure Prove: Seal Status Failure Prove: Four-Way Valve Failure


MN09041 Issue/Rev. 0.8 (4/03) 45

Page 3: Prove: SVP Error Prove: Method Out of Range Prove: Sphere Launch Failure Prove: Invalid Sequence Prove: Flow Rate High/Low Prove: Too Few Meter Pulses Prove: User Requested Abort Prove: Bidi Prover Required Prove: SVP E01 (Diagnostic) Prove: SVP E02 (Bypass Open) Prove: SVP E03 (Piston Ret) Prove: SVP E04 (Bypass Seal) Prove: SVP E05 (Piston Seal) Prove: SVP E06 (1st Detect) Prove: SVP E07 (2nd Detect) Prove: SVP E08 (Flag Stuck) Page 4: Prove: SVP E09 (Piston Seal) Prove: SVP E10 (Counter) Prove: SVP E11 (Pulse/Rev) Prove: SVP E12 (Opto) Prove: SVP E13 (Mtr Pulse) Prove: Peer to Peer Comm Fail Prove: SVP Prover Required Meter/Skid Alarm 1 Meter/Skid Alarm 2 Meter/Skid Alarm 3 Meter/Skid Alarm 4 Meter/Skid Alarm 5 Prove: Flash Error Prove: Inlet High Temp Prove: Inlet Low Temp Prove: Inlet High Pres Page 5: Prove: Inlet Low Pres Prove: Outlet High Temp Prove: Outlet Low Temp Prove: Outlet High Pres Prove: Outlet Low Pres Transducer Failure Temperature Transducer Failure Pressure Transducer Failure BS&W Transducer Failure Densitometer Temp Transducer Densitometer Press Transducer Prove Inlet Temp Transducer

Prover Inlet Press Transducer Prover Outlet Temp Transducer Prover Outlet Press Transducer Page 6: Totals Reset NSV Tolerance Exceeded Sampling Can Full Temperature Sensor Maintenance* Pressure Sensor Maintenance* Density Sensor Maintenance* BS&W Sensor Maintenance* Density Temperature Maint.* Density Pressure Maint.* Prover Inlet Press Maint.* Prover Outlet Temp Maint.* Prover Outlet Press Maint.* Density Source PID 1* Density Source PID 2* * Note: These alarms are available only in Rev. 14 and above firmware. Selecting "Skid Alarms" will display the skid alarms that can be configured by the user.

Skid Alarm Action Status

Skid High Flow PA-CD Skid Low Flow PA-CD F1=Page Up, F2=Page Down, F5=Help

There is one page of skid alarms. Full descriptions of each of the alarms can be found in the Alarms section of the Operations Manual (MN09045). To program the system, meter/prover alarms, or skid alarms, move the arrow to the alarm desired using either the up and down arrow keys or entering the number of the alarm on the screen, and then pressing ENTER. The following menu will be displayed.

System Alarm Configuration Menu 1. Print Alarm Report Yes 2. Set alarm output Yes 3. Shutdown on Alarm No 4. Auto Clear Ack’d Alarm Yes 5. Display onscreen message Yes


46 MN09041 Issue/Rev. 0.8 (4/03)

Selecting one of the five menu items and pressing ENTER will determine the configuration of this alarm. Each time the ENTER key is pressed, the se-lected item will toggle between YES and NO. If YES is selected, the alarm is then configured for the ac-tion. For example, if the selected menu item is SET ALARM OUTPUT and NO is indicated, then the se-lected action will be ignored when this alarm occurs.

When the alarm screen is displayed, pressing “F5” will display the help screen that describes the mean-ing of the letters on the right-hand side of the alarm screen.

Alarm Status Screen Help The currently configured action for each alarm is shown by the letters in the column on the right as follows P=Print alarm report A=Assert Alarm Output digital I/O S=Shutdown current batch C=Clear any acknowledged D=Display a message on the SyberTrol Display

Pressing CLEAR will return to the alarm screen. If an alarm is selected for which not all options are available, the configuring display will have that option or options grayed out on the screen and the operator will not be able to select it.

Section VI – Skid Setup

MN09041 Issue/Rev. 0.8 (4/03) 47

Skid Setup Menu

The Skid Setup Menu is used to set up parameters for the SyberTrol that are related to combinated meters where the same product is running through multiple meters and the totals are being combined into one total for the system or skid. To enter the skid setup menu, select option “3. Skid Setup Menu” from the Program Mode Menu.



Pressing ENTER will display a menu allowing the operator to select one of the skids that are set up in the SyberTrol.

Select Skid 1. Skid #1 North #1 2. Skid #2 East #1 3. Skid #3 West #1

Skid # The “Select Skid” screen allows the operator to select one of the three possible skids for setup. With the cursor in front of the skid that is to be set up, press ENTER. The parameters for that skid will be displayed. Within the Skid Setup Menu structure, the user may toggle between the skids by pressing the MODE key and selecting a different skid.

Skid Menu

Setup Menu Skid #1 - North #1

1. Skid ID North #1 2. Meters 1, 2 3. Automatic Print Menu 4. Pulse Output I/O # 0 5. Pulse Output Max. Freq. 0 Hz 6. Flow Echo I/O # 0 7. Flow Echo Type Raw 8. Flow Control Menu

This is the main skid menu. From this menu, the items or submenu can be selected by moving the cursor to the desired item and pressing ENTER.

Skid ID


1. Skid ID North #1 Enter new value North #1 F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ Enter up to a nine character alphanumeric identifier for this skid.

This entry allows entry of an alphanumeric message of up to nine characters to serve as the identification for this skid.


48 MN09041 Issue/Rev. 0.8 (4/03)

Meters


Meters 1,2 Enter new value 13 Enter the meters to be associated with this skid (ex. enter ‘13’ to select meters 1 and 3).

This parameter allows the operator to assign meters to a skid or a skid-type operation. An example would be a product coming into a pipeline station and being split between two metering systems. These systems would be required to maintain their individual totals, as well as a combinated throughput for the skid (system).

Automatic Print Menu

Automatic Report Menu Skid #1 - North #1

1. Rpt 1 AutoPrint Rpt-End of Batch 2. Rpt 1 Type Summary Report 3. Rpt 1 Reset Option No Reset 4. Rpt 1 Start Time 5. Rpt 1 End Time 6. Rpt 1 Print Time 12:00 3/12/00 7. Rpt 1 Interval Time 8:00 Hrs 8. Rpt 2 AutoPrint No Auto Report 9. Rpt 2 Type 10. Rpt 2 Reset Option 11. Rpt 2 Start Time 12. Rpt 2 End Time 13. Rpt 2 Print Time 14. Rpt 2 Interval Time

The Automatic Print Menu allows the operator to set up the system to print reports automatically at the end of each batch or at timed intervals. If reports are selected to be printed automatically, the type of report, the reset option, the start time, the end time, the report print time, and the interval that a report is to be printed are programmable through this menu. Only the items that are associated with a function will be accessible on the menu (i.e., start time and end time apply to a summary type report). If no report is selected for printing, the remainder of the items on the menu will not be accessible.

Auto Print


1 Rpt 1 Auto Print Rpt-Time Interval Select new value 1. No Auto Report 2. Rpt-End of Batch 3. Rpt-Time Interval Select the automatic report that is to be generated.

This parameter determines when a report will automatically be generated. If “No Auto Report” is selected, all reports will have to be generated on demand. If “Report-End of Batch” is selected, the report will be generated after each batch is completed. A report can also be set up to print at regular intervals (i.e., 8-hour intervals, 24-hour intervals, etc.). When set up for time interval printing, the reports will be printed at the programmed intervals as well as when the batch ends. If a summary report is selected as the “Type,” the start time, end time, and print time for the date must be programmed.

Report Type This entry allows the operator to select the type of report to be printed. When the cursor is in front of “2. Rpt 1 Type” and ENTER is pressed, a pop-up menu will appear.

Report Selection 1. Default Reports 2. User Configurable Reports

Selecting “1. Default Reports” will display the listing of Default Reports that are available in the Syber-Trol.


MN09041 Issue/Rev. 0.8 (4/03) 49

Default Reports Main Menu 1. Meter Report 2. Batch Report 3. Summary Report 4. Product Record Report 5. Skid Batch Report 6. Skid Summary Report 7. Prover Report 8. Prover Quick Trips Report 9. Configuration Report 10. Prove Summary Report

1

For details and examples of each of the reports, refer to the Operations Manual (MN09045).

Selecting “2. User Configurable Reports” will display the listing of Configurable Reports that have been set up by the user.

User Defined Report Main Menu 1. Meter 1 Report 2. Meter 2 Report 3. Skid #1 Report 4. Prover Report

1

These reports are defined and downloaded from the SyberMate PC program to the SyberTrol. For details on setting up user-defined reports, refer to the SyberMate Installation/Operations Manual (MN09047).

Reset Option


3. Rpt 1 Reset Option No Reset Select new value 1. No Reset 2. Averages 3. Totals & Avgs Select if the averages and/or totals are to be reset.

This parameter allows the operator to select if the to-tals (GRS, GSV, etc.) and averages (temperature, pressure, etc.) will be reset after each report is printed or will be allowed to accumulate throughout the entire batch. If “1. No Reset” is selected, no av-erages or totals will be reset until the batch has been completed. If “2. Averages” is selected, the average temperature, pressure, etc. will be reset after each report is printed. If “3. Totals & Avgs” is selected, both the totals (GRS, GSV, etc.) and the average temperature, pressure, etc. will be reset after each report is printed.

Report Starting Time

Report Starting Time Enter Starting Time and Date 13: 00 14/12/00 Enter the time (hh:mm dd/mm/yy military format) or press CLEAR to return to the selection menu.

This entry sets up the starting time and date of the report in military format. Pressing ENTER after each value is entered will move the cursor to the next entry. When the last value is entered and ENTER is pressed, the unit will return to the Automatic Report Menu.

Report Ending Time

Report Ending Time Enter Starting Time and Date 13: 00 15/12/00 Enter the time (hh:mm dd/mm/yy military format) or press CLEAR to return to the selection menu.

This entry allows the operator to set up the ending time and date of the Summary or Skid Summary report in military format. Pressing ENTER after each value is entered will move the cursor to the next entry. When the last value is entered and ENTER is pressed, the unit will return to the Automatic Report Menu.


50 MN09041 Issue/Rev. 0.8 (4/03)

Report Print Time

Report Print Time Enter Print Time and Date 0: 00 0/0/00 Enter the time (hh:mm dd/mm/yy military format) or press CLEAR to return to the selection menu.

This entry sets the initial print time (in military format) of the report, if selected on an interval basis. Pressing ENTER after each value is entered will move the cursor to the next entry. When the last value is entered and ENTER is pressed, the unit will return to the Automatic Report Menu.

Report Interval Time

Report Interval Time 7. Report Interval Time 0.00 Hrs. Enter new value 0.00 Enter in hours, how often the report should be generated.

This parameter sets the interval that an automatic report will be printed. Once the time of the report has been set using this parameter, a report will be printed based on that initial time and the interval programmed. The interval is entered in hours with two whole numbers and two decimal places. For example, 23 hours and 45 minutes would be entered 23.75.

The description for the parameters for setting up Report Number 2 are identical to the parameters for Report Number 1, except that they start with parameter 8 and end with parameter 14.

Pulse Output I/O # Selecting “4. Pulse Output I/O #” and pressing ENTER from the skid menu will display the screen where the I/O can be set up for the pulse output if it hasn’t already been set up in the I/O Configuration Menu.


4. Pulse Output I/O # 0 Enter new value 9 Enter the digital I/O # to be used for the pulse output. Valid I/O numbers are 1, 2, 9, 10, 17, 18, 25, and 26. Enter 0 if no pulse output is desired.

This parameter assigns the digital output point that will be used for the skid pulse output. When the output point is entered, the Digital I/O # Configuration Menu will appear. See "Section III - I/O Configuration" for details on these parameters. The pulse output assigned in the skid menu will be the combinated pulse output of all the meters assigned to the skid. To assign the pulse output to a specific meter, refer to "Section III - I/O Configuration" or "Section VI - Meter Setup."

Pulse Output Maximum Frequency Selecting “5. Pulse Output Max. Freq.” and pressing ENTER from the skid menu will display the screen with the maximum frequency for the pulse output from the meters assigned to the skid.


5. Pulse Output Max. Freq. Enter Starting Time and Date 0 Hz Enter new value 125 Enter the frequency to limit the pulse output to. Valid range is 0-1000 Hz.


MN09041 Issue/Rev. 0.8 (4/03) 51

This four-digit parameter defines the maximum fre-quency of the pulse output for this skid (combinated meters). When only one pulse output is used, the maximum frequency is 1000 Hz. If all eight of the pulse outputs are being used in the SyberTrol, the maximum frequency for each is 125 Hz (1000 8). If four of the pulse outputs are being used, the maxi-mum frequency for each is 250 Hz (1000 4).

Flow Echo I/O Number


6. Flow Echo I/O # 0 Enter new value 1 Enter the analog output point that is assigned to the flow rate output.

Enter the analog output point that is assigned to echo the flow rate of the skid (combinated meters). When the output point is entered, the corresponding Analog Output Configuration Menu will appear. (See I/O Configuration Section for details.) If the output has already been assigned to an I/O point, the I/O point number will appear on this screen and the skid menu.

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range.

Flow Echo Type


7. Flow Echo Type Raw Select new value 1. Raw 2. Gross 3. GST 4. GSV 5. Mass Select the volume type that the flow rate echo output will be based upon.

This parameter selects the type of flow rate that will be output through the flow echo point assigned to the skid. The selections are as follows: 1. Raw (Raw Pulse) 2. Gross (Raw Pulse Meter Factor) 3. GST (Gross at Standard Temperature = Raw

Pulse Meter Factor CTL) 4. GSV (Gross at Standard Volume = Raw Pulse

Meter Factor CTL CPL) 5. Mass Fatal Warnings Fatal: This option is not available. Fatal: Entry is out of specified range.


52 MN09041 Issue/Rev. 0.8 (4/03)

Flow Control Menu

Flow Control Menu Skid #1 – North #1

1. High Flow Alarm 0 BPH 2. Low Flow Alarm 0 BPH 3. Default Flow Rate 0 BPH

3

The "Flow Control Menu" is used to set up or view the flow control parameters for the skid. The SyberTrol flow control parameters include a high flow alarm, a low flow alarm, and a default flow rate. High Flow Alarm

Flow Control Menu Skid #1 - North #1

1. High Flow Alarm 0 BPH Enter new value 0 Enter the High Flow Alarm for the Skid.

This five-digit entry defines the set point in units per minute for the high flow alarm. The high flow alarm will be triggered whenever a flow rate is equal to or higher than the programmed limit and is maintained for at least eight seconds. The range of this entry is 00000 to 99999 flow units. Warnings A zero entry will disable this alarm feature. High Alarm value must be greater than Low Alarm value.

Low Flow Alarm


1. Low Flow Alarm 0 BPH Enter new value 0 Enter the Low Flow Alarm for the Skid.

This five-digit entry defines the set point in units per minute for the low flow alarm. The low flow alarm will be triggered whenever a flow rate is equal to or lower than the programmed limit and is maintained for at least eight seconds. The low flow alarm is not triggered in cases where there is no flow. The range of this entry is 00000 to 99999 flow units.

Warnings Warning: A zero entry will disable this alarm feature. Warning: High Alarm value must be greater than Low Alarm value. Fatal Warning Fatal: This entry is out of specified range. Default Flow Rate


1. Default Flow Rate 0 BPH Enter new value 0 Enter the Default Flow Rate for the Skid.

If no flow set point is programmed in the batch defi-nition, the default flow set point will be set for the batch.

Section VII – Meter Setup

MN09041 Issue/Rev. 0.8 (4/03) 53

Meter Setup Menu



4

Selecting "4. Meter Setup Menu" from the main "Program Mode Menu" and pressing ENTER will display a menu allowing the selection of one of the meters that are set up in the SyberTrol.

Note: The meters are setup by selecting a mode of operation from the "Pulse Input Menu" of the unit.

Meter # The "Select Meter" screen allows the operator to select any of the meters that are set up for use in the system. If a meter is not set up it will be “Not Selectable”. If a meter is “Not Selectable” but required for the operation of the unit, the mode of operation from the Pulse Input Menu needs to be changed.

Select Meter 1. Meter #1 FQT 1000 2. Meter #2 FQT 1001 3. Meter #3 FQT 1002 4. Meter #4 FQT 1003 5. Meter #5 FQT 1004 6. Meter #6 FQT 1005

1

Within the Meter Setup Menu structure the user may toggle between defined meters by pressing the MODE key and entering the desired meter number.

Setup Menu

Setup Menu Meter #1 - FQT 1000

1. ID FQT 1000 2. K-Factor 8400.00 BPH 3. Dual Pulse Menu 4. Temperature Menu 5. Density Menu 6. Pressure Menu 7. Sediment & Water Menu 8. Flow Control Menu 9. Batch Array Menu 10. Pulse Output Menu 11. Sampler Menu 12. Automatic Print Menu 13. Prover Menu 14. Pulse Count Full Pulses 15. NSV Tolerance Menu

1

This is the main meter setup menu. From this menu the items or submenus can be selected by moving the cursor to them and pressing ENTER.

Meter ID


1. ID FQT 1001 Enter new value FQT 1001 F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ I

Enter up to a nine character alphanumeric identifier for this meter.

This entry allows the entry of a nine-character alphanumeric message to serve as the ID for this meter.


54 MN09041 Issue/Rev. 0.8 (4/03)

Meter K-Factor


2. K-Factor 1000.00 Pulses/BBL Enter new value 8400.00 Enter the number of pulses required per one unit of registration. The range for the K-Factor is 0.01 to 99999.99.

This seven-digit code defines the nominal number of pulses from the meter for one unit of registration.

Note: The value entered in this code must not be 00000.00. Fatal Warnings Fatal: This entry must not be zero. Fatal: Entry is out of specified range.* *Will be displayed only through communications.

Meter #X Dual Pulse Menu

Dual Pulse Menu Meter #1 - FQT 1001

1. Error Count 0 2. Error Reset Select No Reset 3. Error Reset Time 8:45 hhhh:mm 4. Flow cutoff 0 BPH 5. Level A/B Security No Security

1

The "Dual Pulse Menu" sets up the SyberTrol for operation with a dual pulse transmitter. From this menu the operator sets the number of errors allowed before alarming, the method of resetting the error counter, the flow cutoff, and the level of security required for the operation.

Dual Pulse Error Count


1. Error Count 0 Enter new value 10 Enter the number of pulse input errors allowed before an alarm occurs. Range for the Error Count is 1 to 999.

This three-digit parameter defines the number of error counts you may receive from a dual pulse transmitter before causing an error count alarm.

Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.

Dual Pulse Error Reset Select


2. Error Reset Select Programmed Time Select new value 1. No Reset 2. Programmed Time 3. Totals Reset Select how the Dual Pulse Count (DPC) error count is reset.

This entry will allow the dual pulse error count to be reset under the following conditions: 1 - No dual pulse error count reset 2 - Reset error count based on programmed

time (hour/minute) 3 - Reset error count when totals are reset (end

of batch or fixed time interval such as a Daily Report)

Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications. Note: If No Dual Pulse or Totals Reset is selected, then Error Reset Time becomes "No Entry".


MN09041 Issue/Rev. 0.8 (4/03) 55

Dual Pulse Error Reset Time


3. Error Reset Time 8:45 hhhh:mm Enter new value 8 hrs 45 mins Enter the time to reset the totals. Range for hours is 0 to 9999 and the range for minutes is 0 to 59.

This entry will allow the dual pulse error reset counter to be reset after the programmed amount of time has elapsed. There are four digits allowed for the number of hours and two digits for the number of minutes.


Dual Pulse Flow Cutoff


4. Flow Cutoff 0 BPH Enter new value 10 Enter the flow rate at which the dual pulse comparator’s errors will be counted.

This three-digit parameter defines the flow rate at which the errors of the dual pulse transmitters will begin to be counted. The errors will be ignored be-low this flow rate. The range of this entry is 000 to 999 units of flow.


Dual Pulse Security Level


5. Level A/B Security No Security Select new value 1. No Security 2. Level A 3. Level B Select the desired security level for the dual pulse input.

This selection defines the IP 252/76 security level to which the dual pulse input conforms. If “Level A” is selected, error counts are applied to volume totals. If level B is selected, the error counts are counted but are not added to the volume totals.

1 - No Security - No Dual Pulse Security used. 2 - Level A - Applied to volume totals and alarms. 3 - Level B - Not applied to the volume totals,

alarms only. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.


56 MN09041 Issue/Rev. 0.8 (4/03)

Meter #X Temperature Menu

Temperature Menu Meter #1 - FQT 1001

1. Analog I/O Point 0 2. Default Temp. 0.0 F 3. High Temperature Alarm 0 F 4. Low Temperature Alarm 0 F

1

The "Temperature Menu" is used to set up the temperature I/O point associated with the meter, the default temperature, and the high and low temperature alarms.

Analog I/O Point


1. Analog I/O Point 0 Enter new value 4 Enter the analog I/O channel that the temperature transducer is connected to.

Enter the analog input number to which the temperature transducer is connected. When the input point is entered, the corresponding Analog Input Configuration Menu will appear, allowing the input point to be further defined. (See I/O Configuration for details.) Warnings Critical: Selected I/O point is not currently configured for this function. Critical: Duplicate configuration assignments are not allowed. Warning: This I/O point is currently defined for addi-tional meters.


Default Temperature


2. Default Temp. 0.0 F Enter new value 60.0 F Enter the default temperature to be used if a temperature transducer is not installed or if the temperature exceeds the alarm limits. An entry of -999 will disable this feature.

This parameter allows for the entry of a default temperature to be used when a temperature probe is not installed but temperature-related calculations are desired. This value is also used if the actual temperature reading falls outside the programmed high/low alarm values. The temperature units will be as programmed in the Temperature Units parameter in the System Setup Menu. This five-digit entry has a range of +999.9 to -999.8 temperature units.

Warning A -999.9 entry will disable this feature. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.


MN09041 Issue/Rev. 0.8 (4/03) 57

High Temperature Alarm


3. High Temperature Alarm 0 F Enter new value 90 F Enter the temperature that will signal an alarm for high temperature. An entry of 999 will disable this feature.

This parameter allows the entry of the temperature reading that will cause a high temperature alarm to be generated for the meter run. The temperature units are as programmed in the Temperature Units parameter in the System Setup Menu. This four-digit entry has a range of -999 to +999 degrees Fahrenheit or Celsius.

Warning High Alarm value must be greater than Low Alarm value. Warning A +999 entry will disable this alarm feature. Fatal Warning Fatal: Entry is out of specified range.

Low Temperature Alarm


3. Low Temperature Alarm 0 F Enter new value 10 F Enter the temperature that will signal an alarm for low temperature. An entry of -999 will disable this feature.

This parameter allows the entry of the temperature reading that will cause a low temperature alarm to be generated for the meter run. The temperature units are as programmed in the Temperature Units parameter in the System Setup Menu. This four-digit entry has a range of -999 to +999 degrees Fahren-heit or Celsius.

Warnings High Alarm value must be greater than Low Alarm value. A -999 entry will disable this alarm feature. Fatal Warning Fatal: Entry is out of specified range.

Meter #X Density Menu

Density Menu Meter #1 - FQT 1000

1. Density Input Type Analog 2. Analog I/O # 0 3. Pulse I/O # 0 4. Share Meter Temperature Yes 5. Temperature I/O # 0 6. Share Meter Pressure No 7. Pressure I/O # 0 8. Default Density 0.0 Lb/Ft3 9. High Density Alarm 0 Lb/Ft3 10. Low Density Alarm 0 Lb/Ft3 11. IP Paper 2 Density Correction NO 12. Default Temperature 0.0 13. Default Pressure 0.00 PSI 14. High Temp Alarm 0 F 15. Low Temp Alarm 0 F

The Density Menu is used to set up the density parameters for the associated meter. They are the type of densitometer input used, the I/O points associated with the densitometer, a default density in case the densitometer fails, high and low alarm values, default temperature and pressure, high and low temperature alarms, and high and low pressure alarms. In addition to the options shown on the screen, there are the following: "16. High Press Alarm," "17. Low Press Alarm," "18. Redundant Density Type," "19. Redundant Pulse I/O #," "20. Use Meter Temperature for Redundant," "21. Redundant Temperature I/O #," "22. Use Meter Pressure for Redundant," and "23. Redundant Pressure I/O #."


58 MN09041 Issue/Rev. 0.8 (4/03)

Density Input


1. Density Input Type Analog Select new value 1. No Density 2. Analog 3. Solartron 4. Sarasota 5. UGC 6. Other 7. S-Mass Select either no density, linear (analog) or pulse (frequency) density type.

This entry allows the selection of the type of density input that will be used for this meter. The selections are as follows:

1 - No Density (Input) 2 - Analog (Input) 3 - Solartron (Densitometer) 4 - Sarasota (Densitometer) 5 - UGC (Densitometer) 6 - Other (Densitometer) 7 - S-Mass (Densitometer) Note: If No Density is selected, both Analog and Pulse I/O points are ’No Entry’. If Analog Density Input Type is selected then Pulse I/O # is ’No Entry’. If either Solartron, Sarasota, UGC or Other is selected for a Pulse I/O Point, then the Analog I/O # is not selectable. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications. Note: The S-Mass option is available only on Rev. 13 and above firmware.

Analog I/O #


2. Analog I/O # 3 Enter new value 4 Enter the analog I/O channel that the density transducer is connected to.

Enter the analog input number to which the 4-20 mA density transducer is connected. When the input point is entered, the corresponding Analog Input Configuration Menu will appear, allowing the Input point to be further defined. (See I/O Configuration Section for details.)


Pulse I/O #


3. Pulse I/O # 0 Enter new value 5 Enter the pulse I/O channel that the density transducer is connected to.


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Enter the digital input number to which a densitome-ter with a frequency output is connected. The fre-quency output of the densitometer must be pro-grammed to input 5 or 6 only. No other entries are allowed. When the input point is entered the corre-sponding Pulse Input Configuration Menu will ap-pear, allowing the input point to be further defined. (See I/O Configuration Section for details.)


Share Meter Temperature


4. Share Meter Temperature No Enter new value 1. No 2. Yes Select if the meter temperature is used for the density temperature.

This entry is used to select whether or not the temperature being used for the meter should also be used for the densitometer. If the meter and the densitometer are to share the same temperature input this parameter should be programmed to "yes".

Temperature Input Point


5. Temperature I/O # 0 Enter new value 1 Select the analog I/O channel for the temperature transducer that is being used to compensate the densitometer input.

This parameter is used to select or view the analog input that is to be used for temperature compensat-ing the densitometer frequency signal. If the I/O point has previously been set up, the I/O number will appear on the right side of the display. The I/O point can be set up or changed through this parameter. When a number is entered and ENTER is pressed the corresponding "Analog Input Configuration Menu" will appear, allowing the point to be further defined. (See I/O Configuration Section for details.) If the densitometer is sharing the temperature input of the meter, this parameter will not be accessible.

Warnings Critical: Selected I/O point is not currently configured for this function. Critical: Duplicate configuration assignments are not allowed. Fatal Warning Fatal: Entry is out of specified range.

Share Meter Pressure


6. Share Meter Pressure No Enter new value 1. No 2. Yes Select if the meter pressure is used for the density pressure.

This entry is used to select whether or not the pressure being used for the meter should also be used to compensate the densitometer. If the meter and the densitometer are to be shared, this parameter should be programmed to “Yes”.


60 MN09041 Issue/Rev. 0.8 (4/03)

Pressure Input Point


7. Pressure I/O # 0 Enter new value 2 Enter the analog I/O channel for the pressure transducer that is being used to compensate the densitometer input.

This parameter is used to select or view the analog input that is to be used for pressure compensating the densitometer frequency signal. If the I/O point has previously been set up, the I/O number will appear on the right side of the display. The I/O point can be set up or changed through this parameter. When a number is indicated and ENTER is pressed the corresponding "Analog Input Configuration Menu" will appear, allowing the point to be further defined. (See I/O Configuration Section for details.) If the densitometer is sharing the pressure input of the meter, this parameter will not be accessible.

Warnings Critical: Selected I/O point is not currently configured for this function. Critical: Duplicate configuration assignments are not allowed. Fatal Warning Fatal: Entry is out of specified range. Default Density


8. Default Density 0.0 Lb/Ft3 Enter new value 6.5 Enter the default density to be used if a density transducer is not installed or if the density exceeds the alarm limits. An entry of 0.0 will disable this feature.

This parameter allows the entry of a default density to be used when a density transducer is not installed but density-related calculations are desired. This value is also used if the actual density reading falls outside the programmed high/low alarm values. The density units are as programmed in the Density Units parameter in the System Setup Menu. This four-digit entry has a range of 0 to 9999 density units.


High Density Alarm


9. High Density Alarm 0 Lb/Ft3 Enter new value 7 Enter the density that will signal an alarm for high density. An entry of 0.0 will disable this feature.

This parameter allows for the entry of the density reading that will generate a high density alarm. The density units are as programmed in the Density Units parameter in the System Setup Menu. This four-digit entry has a range of 0000 to 9999 density units.

Warnings Warning: High Alarm value must be greater than Low Alarm value. Warning: A zero entry will disable this alarm feature. Fatal Warning Fatal: Entry is out of specified range.


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Low Density Alarm


10. Low Density Alarm 0 Lb/Ft3 Enter new value 6 Enter the density that will signal an alarm for low density. An entry of 0.0 will disable this feature.

This parameter allows the entry of the density reading that will generate a low density alarm. The density units are as programmed in the Density Units parameter in the System Setup Menu. This four-digit entry has a range of 0000 to 9999 density units. Warnings Warning: High Alarm value must be greater than Low Alarm value. Warning: A zero entry will disable this alarm feature. Fatal Warning Fatal: Entry is out of specified range.

IP Paper 2 Density Correction


11. IP Paper 2 Density Correction No Select new value 1. No 2. Yes A value of 2 enables IP Paper 2 density correction, a one disables it.

Selecting “Yes” for IP Paper 2 Density Correction corrects the density measured at line conditions of a low vapor pressure (stabilized) crude oil to a density at reference conditions. This correction is only valid for crude oils, and should only be used when the SyberTrol is configured for API tables 6A, 24A or 54A. This method corrects the line density of crude oil to reference conditions for both pressure and temperature.

Default Temperature


12. Default Temp. 0.0 F Enter new value 60.0 F Enter the default temperature to be used if a temperature transducer is not installed or fails. An entry of –999.9 will disable this feature.

This parameter allows for the entry of a default temperature to be used when a temperature probe is not installed but temperature-related calculations are desired. This value is also used if the actual temperature reading falls outside the programmed high/low alarm values. The temperature units will be as programmed in the Temperature Units parameter in the System Setup Menu. This five-digit entry has a range of +999.9 to -999.8 temperature units.

Warning A -999.9 entry will disable this feature. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications. Note: This option is available only on Rev. 14 and above firmware. Default Pressure


13. Default Pressure 0.00 PSI Enter new value 0.00 Enter the default pressure to be used if a pressure transducer is not installed or fails. An entry of 0.0 will disable this feature.


62 MN09041 Issue/Rev. 0.8 (4/03)

This parameter allows the entry of a default pressure to be used when a pressure transducer is not in-stalled but pressure-related calculations are desired. This value is also used if the actual pressure reading falls outside the programmed high and low alarm values. The pressure units are as programmed in the Pressure Units parameter in the System Setup Menu. This five-digit entry has a range of 000.00 to 999.99 pressure units. An entry of 000.00 will dis-able the feature.

Note: A non-zero entry will override the pressure transducer input if installed or if it has failed. Warning Warning: A zero entry will disable this feature. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications. Note: This option is available only on Rev. 14 and above firmware. High Temperature Alarm


14. High Temp Alarm 0 F Enter new value 90 F Enter the temperature that will signal an alarm for high temperature. An entry of 999 will disable this feature.

This parameter allows the entry of the temperature reading that will cause a high temperature alarm to be generated for the densitometer. The temperature units are as programmed in the Temperature Units parameter in the System Setup Menu. This four-digit entry has a range of -999 to +999 degrees Fahrenheit or Celsius.

Warning High Alarm value must be greater than Low Alarm value. Fatal Warning Fatal: Entry is out of specified range. Note: This option is available only on Rev. 14 and above firmware.

Low Temperature Alarm


3. Low Temp Alarm 0 F Enter new value 10 F Enter the temperature that will signal an alarm for low temperature. An entry of -999 will disable this feature.

This parameter allows the entry of the temperature reading that will cause a low temperature alarm to be generated for the densitometer. The temperature units are as programmed in the Temperature Units parameter in the System Setup Menu. This four-digit entry has a range of -999 to +999 degrees Fahrenheit or Celsius.

Warnings High Alarm value must be greater than Low Alarm value. A -999 entry will disable this alarm feature. Fatal Warning Fatal: Entry is out of specified range. Note: This option is available only on Rev. 14 and above firmware.

High Pressure Alarm


16. High Press Alarm 0.00 PSI Enter new value 80.0 Enter the pressure that will signal an alarm for high pressure. An entry of 0.0 will disable this feature.

This parameter allows the entry of the pressure reading that will generate a high densitometer pressure alarm. The pressure units are as programmed in the Pressure Units parameter in the System Setup Menu. This five-digit entry has a range of 000.00 to 999.99 pressure units.


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Warnings Warning: High Alarm value must be greater than Low Alarm value. Warning: A zero entry will disable this alarm feature. Fatal Warning Fatal: Entry is out of specified range. Note: This option is available only on Rev. 14 and above firmware.

Low Pressure Alarm


17. Low Press Alarm 0.00 PSI Enter new value 10.0 Enter the pressure that will signal an alarm for low pressure. An entry of 0.0 will disable this feature.

This parameter allows the entry of the pressure reading that will generate a low densitometer pressure alarm. The pressure units are as programmed in the Pressure Units parameter in the System Setup Menu. This five-digit entry has a range of 000.00 to 999.99 pressure units.

Warnings High Alarm value must be greater than Low Alarm value. A zero entry will disable this alarm feature. Fatal Warning Fatal: Entry is out of specified range. Note: This option is available only on Rev. 14 and above firmware.

Redundant Density Type

Density Menu

Meter #1 – FQT 1001 18. Redundant Density Type S-Mass Select new value

1. No Density

2. Analog 3. Solartron 4. Sarasota 5. UGC 6. Other

7. S-Mass Select either no density, linear (analog) or pulse (frequency) density type.

This entry selects a redundant densitometer type. The range of this entry is 1 to 7. 1 - No Density 2 - Analog 3 - Solartron Frequency Densitometer 4 - Sarasota Frequency Densitometer 5 - UGC Frequency Densitometer 6 - Other Frequency Densitometer 7 - S-Mass Frequency Densitometer Note: Option 7, S-Mass Frequency Density, applies only to Revision 13 and above firmware. Fatal Warning Fatal: This option is not available. Fatal: Entry is out of specified range.


64 MN09041 Issue/Rev. 0.8 (4/03)

Redundant Pulse I/O #

Density Menu

Meter #1 – FQT 1001 19. Redundant Pulse I/O # 0 Enter new value 0 Enter the pulse I/O channel that the density transmitter is connected to.

This entry selects a redundant densitometer type. The range of this entry is 1 to 8. Fatal Warning Fatal: Density Configuration Conflict Fatal: Entry is out of specified range.

Use Meter Temp for Redundant

Density Menu

Meter #1 – FQT 1001 20. Use Meter Temp. for redundant No Select new value

1. No 2. Yes

Select if the meter temperature is used for the density temperature.

This entry allows the operator to indicate whether meter temperature is to be used for a redundant densitometer. Choose "Yes" to use meter temperature or "No" to disregard meter temperature.

Redundant Temperature I/O #

Density Menu

Meter #1 – FQT 1001 21. Redundant Temperature I/O # 0 Enter new value

Enter the analog I/O channel for the temperature transducer that is being used to compensate the densitometer input.

This entry allows the operator to indicate the I/O channel for the temperature transducer to be used to compensate the densitometer input. The range of this entry is 0 to 12.


Use Meter Pressure for Redundant

Density Menu

Meter #1 – FQT 1001 22. Use Meter Press. for redundant No Select new value

1. No 2. Yes

Select if the meter pressure is used for for the density pressure.

This entry allows the operator to indicate whether meter pressure is to be used for a redundant densitometer. Choose "Yes" to use meter pressure or "No" to disregard meter pressure.

Redundant Pressure I/O #

Density Menu

Meter #1 – FQT 1001 22. Redundant Pressure I/O # 0 Enter new value

Enter the analog I/O channel for the pressure transducer that is being used to compensate the densitometer input.

This entry allows the operator to indicate the I/O channel for the pressure transducer to be used to compensate the densitometer input. The range of this entry is 0 to 12.



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Meter #X Pressure Menu

Pressure Menu Meter #1 - FQT 1001

1. Analog I/O # 0 2. Default Pressure 0.00 PSI 3. High Press. Alarm 0.00 PSI 4. Low Press. Alarm 0.00 PSI 5. P Strainer I/O # 0 6. P Strainer Delay 0 Secs

1

The "Pressure Menu" is used to set up the pressure parameters for the associated meter if a pressure transducer is installed. From this menu, the operator can set up the analog I/O point, the default pressure, the high and low pressure alarm values, the I/O point for the delta P across the strainer, and the delay to be used with the delta P input.

Analog Input Point


1. Analog I/O # 0 Enter new value 2 Enter the analog I/O channel that the pressure transducer is connected to.

Enter the analog input point to which the pressure transducer is connected. When the input number is entered, the corresponding Analog Input Configuration Menu will appear, allowing the input point to be defined. (See I/O Configuration Section for details.) Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range.

Default Pressure


2. Default Pressure 0.00 PSI Enter new value 0.00 Enter the default pressure to be used if a pressure transducer is not installed or fails. An entry of 0.0 will disable this feature.

This parameter allows the entry of a default pressure to be used when a pressure transducer is not installed but pressure-related calculations are desired. This value is also used if the actual pressure reading falls outside the programmed high and low alarm values. The pressure units are as programmed in the Pressure Units parameter in the System Setup Menu. This five-digit entry has a range of 000.00 to 999.99 pressure units. An entry of 000.00 will disable the feature.

Note: A non-zero entry will override the pressure transducer input if installed or if it has failed. Warning Warning: A zero entry will disable this feature. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.

High Pressure Alarm


3. High Press. Alarm 0.00 PSI Enter new value 80.0 Enter the pressure that will signal an alarm for high pressure. An entry of 0.0 will disable this feature.


66 MN09041 Issue/Rev. 0.8 (4/03)

This parameter allows the entry of the pressure reading that will generate a high pressure alarm. The pressure units are as programmed in the Pres-sure Units parameter in the System Setup Menu. This five-digit entry has a range of 000.00 to 999.99 pressure units.

Warnings Warning: High Alarm value must be greater than Low Alarm value. Warning: A zero entry will disable this alarm feature. Fatal Warning Fatal: Entry is out of specified range.

Low Pressure Alarm


4. Low Press. Alarm 0.00 PSI Enter new value 10.0 Enter the pressure that will signal an alarm for low pressure. An entry of 0.0 will disable this feature.

This parameter allows the entry of the pressure reading that will generate a low pressure alarm. The pressure units are as programmed in the Pressure Units parameter in the System Setup Menu. This five-digit entry has a range of 000.00 to 999.99 pressure units.

Warnings High Alarm value must be greater than Low Alarm value. A zero entry will disable this alarm feature. Fatal Warning Fatal: Entry is out of specified range.

Delta-P Strainer Input Point


5. P Strainer I/O # 0 Enter new value 5 Enter the digital I/O channel that the delta pressure across the strainer is assigned to.

This parameter allows the entry of the digital input point that will be assigned to monitor the Delta Pressure across the strainer. When the input number is entered, the appropriate Digital Input Configuration Menu will appear. (See I/O Configuration Section for details.) Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function.

Delta-P Strainer Delay


6. P Strainer Delay 0 Secs Enter new value 10 Enter the number of seconds that the delta pressure across the strainer is high before an alarm is generated.

Enter the amount of time in seconds that the Delta Pressure across the strainer can be equal to or above the setpoint before an alarm is generated. The range of this entry is from 000 to 999 seconds.



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Meter #X Sediment & Water Menu

Sediment and Water Menu Meter #1 - FQT 1000

1. Analog I/O # 0 2. Sediment & Water Limit 0.00% 3. Diverter Valve I/O # 0 4. Diverter Status I/O # 0 5. Default Sediment & Water 0.00%

1

The "Sediment & Water Menu" is used to set up the Analog I/O point to monitor the amount of sediment and water in the product, to command and monitor the status of the diverter valve, and to designate the percentage of sediment and water allowed before diverting.

Sediment & Water Input/Output Point


1. Analog I/O # 0 Enter new value 0 Enter the analog I/O channel that sediment and water is connected to.

This parameter allows the entry of the Analog I/O point that will be assigned to the Sediment and Water input. This input monitors the amount of sediment and water in the product. When the I/O number is entered, the appropriate Analog I/O Configuration Menu will appear. (See I/O Configuration Section for details.)

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range.*

Sediment & Water Limit


2. Sediment & Water Limit 0.000% Enter new value 0.000% Enter the maximum percentage of sediment and water allowed before the product is diverted to another line. An entry of 0.0 will disable this feature.

This entry sets the maximum percentage of sediment and water (S&W) permitted in the metered product before the "bad product" is diverted to another line. The range of this code is 00.01 to 99.99%. An entry of 0.000 will disable this feature.

Warning Warning: A zero entry will disable this feature. Fatal Warning Fatal: Entry is out of specified range.

Diverter Valve Output Point


3. Diverter Valve I/O # 0 Enter new value 6 Enter the digital I/O channel that the diverter valve is assigned to.

This parameter allows the entry of the digital output point that has been assigned to the diverter valve. When the sediment and water limit has been reached, the SyberTrol will activate this digital I/O channel. When the Output number is entered, the appropriate Digital Output Configuration Menu will appear. (See I/O Configuration Section for details.) If the output has been assigned, the number of that point will appear on this menu.


68 MN09041 Issue/Rev. 0.8 (4/03)


Diverter Valve Status Input


4. Diverter Status I/O # 0 Enter new value 7 Enter the digital I/O channel that the diverter valve feedback is assigned to.

This parameter allows the entry of the digital input point that will be assigned to the diverter valve feedback. This input will monitor the status of the diverter valve (open or closed). When the digital input number is entered, the appropriate Digital Input Configuration Menu will appear. (See I/O Configuration Section for details.) If the input point has already been assigned the number of that point will appear on this menu.


Default Sediment & Water


5. Default Sediment & Water 0.000% Enter new value 0.000% Enter the default percentage of sediment and water.

In the event that the sediment and water sensor fails, the default sediment and water setting will be used in place of the live input.

Meter #X Flow Control Menu

Flow Control Menu Meter #1 - FQT 1000

1. Flow Rate Type Raw 2. High Flow Alarm 600 BPH 3. Low Flow Alarm 40 BPH 4. Flow Profile 5. Valve Type Analog Valve 6. Flow Echo I/O Point # 0 7. Flow Echo Type Raw 8. Back Pressure Control 9. Flow Control Timer 0.0/Min 10. Proportional Gain (PID) 0.00 11. Integral Gain (PID) 0.0000 12. Derivative Gain (PID) 0.00 13. Flow Ramp Interval 0 Secs 14. Flow Ramp Delta 0 BPH 15. Remote FCV I/O Point 0

1

The "Flow Control Menu" is used to set up or view the flow control parameters for the meter. The SyberTrol flow control parameters include a timer, flow rate type, flow alarms, profile, type of valve being used, flow rate output point, back pressure control, the gains to be set for analog valves, the time between steps when ramping, the amount of time to ramp each interval, and the analog I/O point used for remote set point input. Not shown on this screen is "16. Flow Control Units."


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Flow Rate Display Type


1. Flow Rate Display Type Raw Enter new value 1. Raw 2. Gross 3. GST 4. GSV 5. Mass Select the type of flow rate that will be used in the instrument.

This entry selects the type of flow rate that will be displayed in the instrument. The selection is used for display, printed on reports (if configured) and used in the flow control calculations. The selections are as follows:

1 - Raw (Indicated Volume - Raw Pulses) 2 - Gross (Raw Pulses Meter Factor) 3 - GST (Gross at Standard Temperature) (Raw Pulses Meter Factor CTL)

4 - GSV (Gross at Standard Volume) (Raw Pulses Meter Factor CTL CPL)

5 - Mass Fatal Warnings Fatal: This option is not available. Fatal: Entry is out of specified range.* *Will be displayed only through communications.

High Flow Alarm


2. High Flow Alarm 800 BPH Enter new value 900 Enter the maximum flow rate before a high flow alarm is generated. An entry of 0 will disable this feature.

This five-digit entry defines the set point in units per minute for the high flow alarm. The high flow alarm will be triggered whenever a flow rate is equal to or higher than the programmed limit and is maintained for at least eight seconds. The range of this entry is 00000 to 99999 flow units.

Warnings A zero entry will disable this alarm feature. High Alarm value must be greater than Low Alarm value. Fatal Warning Fatal: This entry is out of specified range. Low Flow Alarm


3. Low Flow Alarm 40 BPH Enter new value 30 Enter the minimum flow rate allowed before a low flow alarm is generated. An entry of 0 will disable this feature.

This five-digit entry defines the setpoint in units per minute for the low flow alarm. The low flow alarm will be triggered whenever a flow rate is equal to or lower than the programmed limit and is maintained for at least eight seconds. The low flow alarm is not triggered in cases where there is no flow. The range of this entry is 00000 to 99999 flow units.

Warnings Warning: A zero entry will disable this alarm feature. Warning: High Alarm value must be greater than Low Alarm value. Fatal Warning Fatal: This entry is out of specified range.


70 MN09041 Issue/Rev. 0.8 (4/03)

Meter #X Flow Profile Menu


1. Low Flow Volume 200 BBL 2. First Trip Volume 40 BBL 3. Final Trip Volume 1.6 BBL 4. High Flow Rate 500 BPH 5. Low Flow Rate 50 BPH 6. Min Flow Rate 30 BPH 7. Flow Tolerance 7% 8. FCV Alarm Clamping No 9. Analog FCV Deadband 0 BPH

1

The Meter Flow Profile Menu is used to set up the low flow, first trip and final trip volumes; the high, low and minimum flow rates; and the flow tolerance that are to be used to control this metering run. All the selections on this menu apply to the analog valves and the digital valves. “1. Low Flow Volume”, “2. First Trip Volume”, and “3. Final Trip Volume” apply to Two Stage Valves. The other selections will be no entries allowed. When the Motorized Valve is selected only “3. Final Trip Volume” will be allowed an entry on this menu. The FCV Alarm clamping option, when enabled, will inhibit the SyberTrol from commanding flow rates outside the high and low alarm settings.

Low Flow Volume


1. Low Flow Volume 200 BBL Enter new value 100 Enter the volume for delivery during low flow start. An entry of 0 will disable this feature.

This four-digit entry shows the volume to be delivered during low flow start. The range is 0 to 9999 units of volume.

Note: Low flow start, if programmed in, will always be initiated from a zero flow condition. It will be initiated for the low flow start volume selected if the programmed low flow rate is less than the desired flow. Otherwise, the desired flow will take priority.

Warning Warning: A zero entry will disable this feature. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications. First Trip Volume


2. First Trip Volume 4 BBL Enter new value 3 Enter the volume remaining when slow-down occurs.

This four-digit entry designates the volume of product remaining in the delivery when flow slow-down begins. When using combinated meters, the values entered in the First Trip Volumes of all the meters being combinated will be added together and used as a system first trip volume. The range of this entry is 0000 to 9999 units.

Warning Warning: First trip value must be greater than final trip value. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.


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Final Trip Volume


3. Final Trip Volume 0.2 BBL Enter new value 0.4 Enter the volume remaining before valve closure is signaled.

This three-digit entry defines the volume (in tenth of volume units) remaining for this product when the final valve closure signal is given. When using Combinated Meters the values entered in the Final Trip Volume of all the meters being combinated will be added together and used as a system final trip volume. The range is 0-99.9 units of volume.

Warning Warning: First trip value must be greater than final trip value. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.

High Flow Rate


4. High Flow Rate 1700 BPH Enter new value 1600 Enter the maximum flow rate for this meter position. An entry of 0 will not allow the valve to open.

This five-digit code defines the maximum flow rate for this meter run. The range of this entry is 00001 to 99999 flow units.

Warnings Warning: High flow rate value must be greater than minimum flow rate value. Warning: A zero entry will not allow the valve to open. Fatal Warning Fatal: Entry is out of specified range.

Low Flow Rate


5. Low Flow Rate 50 BPH Enter new value 40 Enter the flow rate during low flow start for this meter position.

This five-digit code defines the flow rate used at this meter during low flow start. The range of this entry is 00000 to 99999 flow units.


Minimum Flow Rate


6. Min Flow Rate 30 BPH Enter new value 20 Enter the minimum flow rate for this meter position.

This five-digit entry defines the lowest programmed flow rate for this meter position. This is the flow rate used for the last step in the ramp down process. This parameter would normally be set at or above the recommended minimum flow of the metering system.


72 MN09041 Issue/Rev. 0.8 (4/03)

Warning Warning: High flow rate value must be greater than minimum flow rate value. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.

Flow Tolerance


7. Flow Tolerance 7% Enter new value 9% Enter the desired flow rate tolerance in % of the high flow rate that will be allowed without a valve correction.

This one-digit entry designates the percentage of the high flow rate that any preprogrammed flow rate is permitted to vary from its programmed value without a valve correction signal from the SyberTrol. Note that this is not true for analog valve control.

Example High flow rate programmed at 3600 BPH Flow Tolerance 4% All flow rates can vary 144 BPH (3600 BPH 4% = 144 BPH) without a valve correction signal from the SyberTrol. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.

FCV Alarm Clamping


8. FCV Alarm Clamping No Select new value 1. No 2.Yes If enabled, setpoints outside of the low/high flow alarm range will be disallowed.

When FCV Alarm clamping is enabled, the allowable range of set points is limited by the span at the high and low flow rate alarm point.

Analog FCV Deadband


9. Analog FCV Deadband 999 BPH Select new value 999 The FCV will not be adjusted within the range defined by the current setpoint plus or minus the analog deadband

If an analog FCV deadband is configured, the PID will not adjust the valve position until the difference (plus or minus) between the current flow rate and the setpoint is greater than the deadband value. The range of this entry is 0 to 9999. An entry of 0 disables this feature.

Note: This option is available only on Rev. 14 and above firmware.


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Valve Type


5. Valve Type No Flow Control Enter new value 1. No Flow Control 2. Analog Valve 3. Digital Valve 4. 2-Stage Valve 5. Motorized Valve Enter the type of valve being used for flow control.

Enter the type of valve being used for flow control. When the selection has been entered, either the Digital Valve Control or Analog Valve Control Menu will appear allowing the I/O channel to be configured.

1 - No Flow Control Valve Used 2 - Analog Valve Control 3 - Digital Valve 4 - 2-Stage Valve 5 - Motorized Valve Note: If analog valve is not chosen as the valve type, Proportional Gain, Integral Gain, and Derivative Gain become "No Entry" on the Flow Control Menu. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.

Meter #X Analog Valve Control If Analog Valve Control is selected as valve type, the following menu is displayed.

Analog Valve Menu Meter #1 - FQT 1000

1. Valve Analog Output # 0 2. Valve Status Digital In # 0

1

The Analog Valve Menu is used to set up or view the Input and Output points for the Analog Control Valve.

Analog Valve Output Point


1. Valve Analog Output # 0 Enter new value 2 Enter the analog output point that is being used for analog valve control.

Enter the analog output point that controls the analog valve. When the output number is entered, the corresponding Analog Output Configuration Menu will appear, allowing the output point to be further defined. (See I/O Configuration Section for details.) Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range.

Analog Valve Status Input Point


2. Valve Status Digital In # 0 Enter new value 5 Enter the digital input point that is being used for the analog valve status.

Enter the digital input point that will be used to monitor the analog valve status (open or closed). When the input point is entered the corresponding Digital Input Configuration Menu will appear, allowing the input point to be defined. (See I/O Configuration Section for details.)


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Meter #X Digital Valve Control If Digital Valve Control is selected as the valve type the following menu is displayed:

Digital Valve Menu Meter #1 - FQT 1000

1. Upstream Digital Output # 0 2. Downstream Digital Out # 0 3. Valve Status Digital In # 0

1

The “Digital Value Menu” is used to set up or view the Input and Output points for the Digital Control Valve.

Upstream Solenoid Output Point


1. Upstream Digital Output # 0 Enter new value 10 Enter the digital output point that is being used for upstream solenoid control.

Enter the digital output point to which the upstream solenoid of the digital valve is connected. When the output point is entered, the corresponding Digital Output Configuration Menu will appear, allowing the output point to be defined. (See I/O Configuration Section for details.)


Downstream Solenoid Output Point


2. Downstream Digital Out # 4 Enter new value 4 Enter the digital output point that is being used for the downstream solenoid control.

Enter the digital output point to which the downstream solenoid of the digital valve is connected. When the output point is entered, the corresponding Digital Output Configuration Menu will appear, allowing the output point to be defined. (See I/O Configuration Section for details.)


Valve Status Input Point


3. Valve Status Digital Input # 0 Enter new value 12 Enter the digital input point that is being used for the valve status.


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Enter the digital input point that will be used to moni-tor the Digital Valve status (open or closed). When the input point is entered, the corresponding Digital Input Configuration Menu will appear, allowing the input point to be defined. (See I/O Configuration Section for details.)

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range. Meter #X Two-Stage Valve Control If 2-Stage Valve is selected as the valve type the following menu is displayed:

2-Stage Valve Menu Meter #1 - FQT 1000

1. Upstream Digital Output # 0 2. Downstream Digital Out # 0 3. Valve Status Digital In # 0

1

This menu is used to set up the I/O points that will be used to control a two-stage valve operation such as the Smith 296.

Upstream Solenoid Output Point


1. Upstream Digital Output # 0 Enter new value 10 Enter the digital output point that is being used for upstream solenoid control.

Enter the digital output point to which the upstream solenoid of the two-stage valve is connected. When the output point is entered, the corresponding Digital Output Configuration Menu will be displayed, allow-ing the output to be defined. (See I/O Configuration Section for details.)

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range. Downstream Solenoid Output Point


2. Downstream Digital Out # 0 Enter new value 11 Enter the digital output point that is being used for downstream solenoid control.

Enter the digital output point to which the downstream solenoid of the two-stage valve is connected. When the output point is entered, the corresponding Digital Output Configuration Menu will be displayed, allowing the output to be defined. (See I/O Configuration Section for details.)



76 MN09041 Issue/Rev. 0.8 (4/03)

Valve Status Input Point


3. Valve Status Digital In # 0 Enter new value 12 Enter the digital input point that is being used for the valve status.

Enter the digital input point that will be used to monitor the two-stage valve status (open or closed). When the input point is entered, the corresponding Digital Input Configuration will be displayed, allowing the input point to be defined. (See I/O Configuration Section for details.)


Meter # X Motorized Valve If Motorized Valve Control is selected as the valve type, the following menu is displayed:

Motorized Valve Menu Meter #1 - FQT 1000

1. Open Signal Digital Output # 0 2. Close Signal Digital Out # 0 3. Open Valve Status Dig In # 0 4. Close Valve Status Dig In #

1

This menu is used to set up or view the I/O points that are used to control the operation of a motorized valve.

Open Signal Output Point


1. Open Signal Digital Output # 0 Enter new value 14 Enter the digital output point that is being used for opening of the motorized valve.

Enter the digital output point that will be connected to the motorized valve to drive the valve open. When the output is entered, the corresponding Digital Output Configuration Menu will appear, allowing the point to be defined. (See I/O Configuration Section for details.)


Close Signal Output Point


2. Close Signal Digital Out # 0 Enter new value 15 Enter the digital output point that is being used for closing of the motorized valve.

Enter the digital output point that will be connected to the motorized valve to drive the valve closed. When the output is entered, the corresponding Digital Output Configuration Menu will appear, allowing the point to be defined. (See I/O Configuration Section for details.)


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Motorized Valve Open Status Input Point


3. Open Valve Status Dig In # 0 Enter new value 16 Enter the digital input point that is being used for open valve status.

Enter the digital input point that will be used to monitor the motorized valve open status. When the input point is entered, the corresponding Digital Input Configuration Menu will appear, allowing the input point to be defined. (See I/O Configuration Section for details.)


Motorized Valve Close Status Input Point


4. Close Valve Status Dig In # 0 Enter new value 0 Enter the digital input point that is being used for close valve status.

Enter the digital input point that will be used to moni-tor the motorized valve close status. When the input point is entered, the corresponding Digital Input Configuration Menu will appear, allowing the input to be defined. (See I/O Configuration section for de-tails.)

Flow Echo Output Point


6. Flow Echo I/O Point # 0 Enter new value 0 Enter the analog output point that has been assigned to the flow rate output.

Enter the analog output point that echoes the flow rate calculated for the meter in the SyberTrol. When the output point is entered the corresponding Analog Output Configuration Menu will appear. (See I/O Configuration Section for details.) If the output has been assigned the number of that point will appear on this menu.


Flow Echo Type


7. Flow Echo Type Raw Select new value 1. Raw 2. Gross 3. GST 4. GSV 5. Mass Select the volume type that the flow rate echo output will be based upon.


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This entry selects the type of flow rate that will be output through the flow echo point. Selections are as follows:

1 - Raw 2 - Gross 3 - GST (Gross at Standard Temperature) 4 - GSV (Gross at Standard Volume) 5 - Mass Fatal Warnings Fatal: This option is not available. Fatal: Entry is out of specified range.* *Will be displayed only through communications.

Meter #X Back Pressure Control Menu


1. Flow Control Method Flow Rate 2. Delta Pressure 0.0 PSI 3. Flow Rate Timer 0 Secs 4. Flow Rate Reduction 0% 5. Minimum Flow Rate 0 GPM 6. Flow Recovery Timer 0 Secs 7. Flow Recovery Pressure 0.0 PSI

1

This menu allows the operator to set up the back pressure that is to be maintained on the meter run. If Flow Control Method is set to “Flow Rate,” then Delta Pressure becomes “Not Selectable” and no entry is allowed. If the Flow Control Method is set to “None,” then the remaining items on the menu are not accessible.

Flow Control Method


1. Flow Control Method Flow Rate Select new value 1. None 2. Flow Rate 3. Pressure Select the method for controlling back pressure.

This entry sets up the type of back pressure control that will be used by SyberTrol to maintain the back pressure on this meter run. Three selections are possible:

1 - None 2 - Flow Rate - Maintains the back pressure on

the meter run by determining the flow rate at which the system is capable of running (if less than the programmed high flow rate) and decreasing the flow by the percentage programmed in the “Flow Rate Reduction” parameter.

3 - Pressure - Maintains the back pressure on the meter run by monitoring the pressure of the meter run. The pressure method will try to maintain a pressure equal to the vapor pressure of the product plus the delta pressure programmed.


Delta Pressure


2. Delta Pressure 0.0 PSI Enter new value 10 Enter the delta pressure to be maintained above the product vapor pressure. An entry of 0.0 will disable this feature.

This four-digit entry allows the operator to select the delta pressure in units as programmed in the Pressure Units parameter in the System Setup Menu. This is the additional pressure to be maintained above the vapor or back pressure. This option is not available if Flow Control Method is set to Flow Rate.


MN09041 Issue/Rev. 0.8 (4/03) 79

If SyberTrol is controlling flow with a two-stage valve, no alarm is issued and flow is not halted if the pressure drops below the programmed limit deter-mined by the vapor pressure and differential pres-sure. Therefore, this differential pressure feature should not be used with a two-stage valve. In this situation the low pressure alarm must be set high enough to ensure that the pressure does not fall be-low the product's vapor pressure.

The range of this entry is 000.0 to 999.9 pressure units. An entry of 0.0 will disable pressure control of the valve by a pressure transducer.

Warning Warning: A zero entry will disable pressure control of the valve. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.

Flow Rate Reduction Timer


3. Flow Rate Reduction Timer 0 Secs Enter new value 0 Enter the time, in seconds, allowed to reach the desired flow rate. An entry of 0 will disable this feature.

This two-digit entry allows the operator to select the minimum time, in seconds, allowed for the unit to achieve a desired flow rate. At this point the flow rate will be lowered by a percentage because of insufficient back pressure. (This percentage may be programmed in the Flow Rate Pressure Reduction code.) If the flow rate falls below the back pressure minimum flow, an alarm will be issued and if the unit is programmed to shut down on alarm, the transaction will shut down. The range of this entry is 0 to 99 seconds.

Note: A non-zero entry here will override any other programmed type of back pressure flow control. Warning Warning: A zero entry will disable this feature. Fatal Warning Fatal: Entry is out of specified range. Flow Rate Reduction


4. Flow Rate Reduction 50% Enter new value 85% Enter the percentage of system flow rate to be used during the time of insufficient back pressure. The range of this entry is 50% to 90%.

This two-digit entry allows the operator to enter the percentage of flow rate to be used during insufficient back pressure or insufficient flow conditions. (For example, an entry of 90% will cause the flow rate to be reduced to 90% of the current flow rate during insufficient back pressure conditions, e.g., 600 BPH 0.90 = 540 BPH.) Fatal Warning Fatal: Entry is out of specified range.

Minimum Flow Rate


5. Minimum Flow Rate 0 BPH Enter new value 0 Enter the minimum flow rate allowed during insufficient back pressure operation before an alarm is generated. An entry of 0.0 will disable this feature.


80 MN09041 Issue/Rev. 0.8 (4/03)

This five-digit entry allows the operator to define the minimum flow rate that will not cause an alarm. Any time the flow rate is being controlled because of in-sufficient back pressure and it falls below this pro-grammed rate, a back pressure alarm will be issued. If the unit is programmed to shut down on an alarm, the batch will shut down. The range of this entry is 00000 to 99999.

Flow Recovery Timer

Back Pressure Control Meter #1 – FQT 1001

6. Flow Recovery Timer 0 Secs Enter new value 0 Enter the time, in Seconds, to Check for Possible Flow Recovery. Valid Range is 0 – 99999 secs.

This two-digit entry allows the operator to select the time, in seconds, that the SyberTrol will wait before opening the control valve and trying to achieve the maximum flow rate programmed in the unit. This program code can be used in cases where a pressure transmitter is not installed in the system. The range of this entry is 1 to 99 seconds.

Warning Warning: A zero entry will disable this alarm feature. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications. Flow Recovery Pressure


7. Flow Recovery Pressure 0.0 PSI Enter new value 0 Enter the Pressure where Flow Recovery will be attempted. Valid Range is 0 – 999.9 pressure units.

This three-digit entry will allow the operator to select the delta pressure, in psi, bars, or kg/cm2 (units de-pendent on the Pressure Units Select entry.) This is the designated pressure above the vapor pressure to allow the SyberTrol to signal the valve to recover the high flow rate that is programmed.

If SyberTrol is controlling flow with a two-stage valve, no alarm is issued and flow is not halted if the pressure drops below the programmed limit determined by the vapor pressure and differential pressure. Therefore, this back pressure recovery feature should not be used with a two-stage valve.

The range of this entry is 0 to 999.9 pressure units. An entry of 000 will disable flow recovery.

Note: A non-zero entry here will override any other programmed type of back pressure flow control. Help Message Enter the differential pressure above vapor pressure to attempt flow recovery.

Flow Control Timer


9. Flow Control Timer 0.0/Min Enter new value 8.0 Enter the number of times per minute that the flow control algorithm will try to correct the flow rate to the set point. The range for this entry is 0.01 to 99.9.

The Flow Control Timer entry is the number of times per minute that the flow control algorithm will try to correct the flow rate to the set point. The timer is adjusted to a particular system depending on the density of the product and how rapidly the system needs to respond to flow rate differences. This entry is used for analog values only and will be grayed out for other valve selections.



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Proportional Gain (PID)


10. Proportional Gain (PID) 0.00 Enter new value 0.07 Enter the desired PID proportional gain for the analog flow control valve.

This entry selects the desired proportional gain coefficient in the PID algorithm used to control the analog flow control valve. A larger number produces faster valve action.

Note: This parameter is only accessible if Analog Valve is selected in the Valve Type parameter. Fatal Warning Fatal: Entry is out of specified range.

Integral Gain (PID)


11. Integral Gain (PID) 0.0000 Enter new value 0.0000 Enter the desired PID integral gain for the analog flow control valve.

This entry selects the desired integral gain coefficient (also referred to as reset time and reset rate) in the PID algorithm used to control the analog flow control valve. This entry is used to reduce the steady state offset error to 0. Too large of a gain will cause uncontrollable oscillations on the output signal.


Derivative Gain (PID)


12. Derivative Gain (PID) 0.00 Enter new value 1.00 Enter the desired PID derivative gain for the analog flow control valve.

This entry selects the desired derivative gain coefficient in the PID algorithm used to control the analog flow control valve. The entry is used to control the initial overshoot and resulting oscillations when the desired flow rate changes.


Flow Ramp Interval


13. Flow Ramp Interval 0 Secs Enter new value 0 Enter the time interval between ramping flow rate adjustments

When the flow ramp interval and the flow ramp delta are non-zero, the SyberTrol will limit changes in the flow rate. The maximum flow rate change will be limited to the flow ramp delta over the time specified by the flow ramp interval. Example: With a flow ramp interval of 60 seconds and a flow ramp delta of 100, if a setpoint change of +500 is requested, the SyberTrol will increase the flow by 100, then wait 60 seconds, then increase the flow by another 100, then wait 60 more seconds, etc. until the setpoint change of 500 is achieved.


82 MN09041 Issue/Rev. 0.8 (4/03)

Flow Ramp Delta


14. Flow Ramp Delta 0 BPH Enter new value 0 Enter the amount the flow rate should be adjusted for each interval.

When it is necessary to limit the change in flow rate, this parameter will control the amount of flow rate changed per ramp interval.

Remote FCV I/O Point #


15. Remote FCV I/O Point # 0 Enter new value 0 Enter the analog output point that is being used for the remote FCV input.

The SyberTrol can be configured to receive setpoint control via an analog signal. If it is desirable to control flow in this way, the analog I/O point to which the signal is wired should be entered here.

Flow Control Units


16. Flow Control Units Row Enter new value 1. Row 2. Gross 3. GST 4. GSV 5. Mass Select the units used for flow control

The units used for flow control are selected on this screen. This would be in contrast to the flow rate display type (what flow rate type is shown on the display). The flow control units determine the units used for valve control. In revisions previous to Revi-sion 25, the flow control is always done on raw vol-ume units. This value should be set to the same units as the display rate display type in order to avoid confusion and inaccuracy.

Meter #X Batch Array Menu

Batch Array Menu Meter #1 - FQT 1000

1. Batch Starting Automatically 2. Batch Rotation No rotation 3. Min. Batch Volume 0 4. Max. Batch Volume 0 5. Batch Type Independent 6. Batch I/O Point Menu

1

The "Batch Array Menu" is used to set up the parameters for the operation of batches. Parameters to be set are how the batch is started, if there is batch rotation, the minimum and maximum batch sizes, the type of batch, and the I/O point menu.

Batch Starting


1. Batch Starting Automatically Select new value 1. Manually 2. Automatically Enter how a batch will be started, either manually or automatically.


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This one-digit entry determines how batches will be started. Two choices are provided for the starting of a batch.

1 - Manually (A batch may be started manually by an operator pressing a key at the Syber-Trol, through communications, or through a contact input.)

2 - Automatically (The next batch starts auto-

matically, immediately after the previous batch has been completed.)


Batch Rotation


2. Batch Rotation No Rotation Select new value 1. No rotation 2. Continuous Enter whether the batches that have been set up will have no rotation or continuous rotation.

This one-digit entry defines how the batch records will be designated. Nine batches may be defined for each meter run.

1 - No rotation (Each batch for a metering system will be run, then removed from the batch array.)

2 - Continuous (Each batch array will be a con-tinuous loop until changed.)


Minimum Batch Volume


3. Min. Batch Volume 0 Enter new value 0 Enter the minimum volume allowed for any batch. An entry of 0 will disable this feature.

This six-digit entry programs the minimum batch volume. The range of this entry is 000000 to 999999 units.

Warnings Warning: Maximum value must be greater than minimum value. Warning: A zero entry will disable this feature.

Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications. Maximum Batch Volume


4. Max. Batch Volume 0 Enter new value 0 Enter the maximum volume allowed for any batch. An entry of 0 will disable this feature.

This nine-digit entry establishes the largest batch volume that can be set. The range of this entry is 000000001 to 999999999 units.


84 MN09041 Issue/Rev. 0.8 (4/03)

Warnings Warning: Maximum value must be greater than minimum value. Warning: A zero entry will disable this feature. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.

Batch Type


5. Batch Type Independent Select new value 1. Independent 2. Skid #1 3. Skid #2 4. Skid #3 Enter the relationship between the batches from this meter position to other meter positions.

This one-digit entry defines the type of batch that will be run through the meter position.

1 - Independent (No relationship to other meter positions.)

2 - Skid #1 (The batch totals for this meter will be combined with the meter positions assigned to Skid #1 for one report.)



Fatal Warning Entry is out of specified range.* *Will be displayed only through communications.

Batch I/O Points

Batch I/O Points Meter #1 - FQT 1000

1. Remote Start I/O # 0 2. Remote Stop I/O # 0 3. Remote End of Batch I/O # 0 4. Product Detect 1 I/O # 0 5. Product Detect 2 I/O # 0 6. Product Detect 3 I/O # 0 7. Product Detect 4 I/O # 0 8. Pump I/O # 0

1

This screen is used to configure Batch Control I/O points.

Remote Start Input


1. Remote Start I/O # 0 Enter new value 0 Enter the digital input point that is being used for a remote start for the batches run from this meter position.

This entry allows the operator to view or assign the digital input point to be used as a remote start for the batches run from this meter position. When the input is entered, the appropriate digital I/O menu will appear. (See I/O Configuration Section for details.)



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Remote Stop Input


2. Remote Stop I/O # 0 Enter new value 2 Enter the digital input point that is being used for a remote stop for the batches run from this meter position.

This entry allows the operator to view or assign the digital input point to be used as a remote stop for the batches being run from this meter position. When the input is entered, the appropriate digital I/O menu will appear. (See I/O Configuration Section for details.)

Remote End of Batch Input


3. Remote End of Batch I/O # 0 Enter new value 0 Enter the digital input point that is being used for the end of batch for this meter position.

This entry allows the operator to view or assign the digital input point that is being used to signal the end of the batch for this meter position. When the input is entered, the appropriate digital I/O menu will appear. (See I/O Configuration Section for details.)


Product Detect Inputs 1 through 4


4. Product Detect 1 I/O # 0 Enter new value 0 Enter the digital input point that is being used for product detection for this meter position.

These four entries allow the operator to view or assign the digital input points that are being used for product detection for this meter position. The positions of these four switches are decoded by the SyberTrol to determine which product of the sixteen possibilities is being delivered.

Product Detect Switches Product

SW4 SW3 SW2 SW1 Number

0 0 0 0 1

0 0 0 1 2

0 0 1 0 3

0 0 1 1 4

0 1 0 0 5

0 1 0 1 6

0 1 1 0 7

0 1 1 1 8

1 0 0 0 9

1 0 0 1 10

1 0 1 0 11

1 0 1 1 12

1 1 0 0 13

1 1 0 1 14

1 1 1 0 15

1 1 1 1 16

When an input is entered, the appropriate digital I/O menu will appear. (See I/O Configuration Section for details.)


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Pump Output


8. Pump I/O # 0 Enter new value 10 Enter the digital output point that is being used for the pump output for the batches run from this meter position.

This entry allows the operator to view or assign the digital output point being used as a pump output for the batches run from this meter position. When the output is entered, the appropriate digital I/O menu will appear. (See I/O Configuration Section for details.) If the output has been assigned the number of that point will appear on this menu.


Pulse Output Setup Menu

Pulse Output Menu Meter #1 - FQT 1000

1. Pulse Output I/O # 0 2. Pulse Output Max. Freq. 0Hz


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The “Pulse Output Menu” is used to set up the pro-gram parameters necessary for the pulse output of the meter. To program a pulse output to more than one meter position, go to the Skid Menu.

Pulse Output I/O #


1. Pulse Output I/O # 0 Enter new value 1 Enter the digital I/O# to be used for the pulse output. Valid I/O #s are 1,2,9,10,17,18,25 and 26. Enter 0 if no pulse output is desired.

This entry assigns the digital output points that will be used for the pulse output for this meter position. When the output point is entered the output point number and the meter position or meter positions will be listed on the screen and the Digital Output Configuration Menu will appear. Only Digital I/O numbers 1, 2, 9, 10, 17, 18, 25, and 26 may be used for pulse output.

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: This I/O point cannot be used for this function. Fatal: Entry is out of specified range

Pulse Output Maximum Frequency


2. Pulse Output Max. Freq. 0 Hz Enter new value 125 Enter the frequency to limit the pulse output. Valid range is 0-1000 Hz.

This four-digit parameter defines the maximum fre-quency of the pulse output for this skid (combinated meters). When only one pulse output is used, the maximum frequency is 1000Hz. If all eight of the pulse outputs are being used in the SyberTrol, the maximum frequency for each is 125Hz (1000 8). If four of the pulse outputs are being used, the maxi-mum frequency for each is 250Hz (1000 4).

Meter #X Sampler Setup Menu

Sampler Setup Meter #1 - FQT 1000

1. Digital I/O Point # 0 2. Can Setup Menu 0 Lits 3. Grab Size 0 cc 4. Interval Type Volume 5. Interval by Volume 0 Lit 6. Interval by Time 7. Alarm Type Count 8. Alarm Count 0 9. Percent Full Alarm 10. Sampler Full I/O Point 0

1

The "Sampler Menu" is used to set up the parameters necessary for the operation of the sampler that is associated with the metering system.

Sampler Digital Output Point


1. Digital I/O Point # 0 Enter new value 0 Enter the digital I/O channel that is assigned for sample output.


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Enter the digital output point to which the sampler is connected. When the digital output number is en-tered, the appropriate Digital Output Configuration Menu will appear. (See I/O Configuration Section for details.) If more than one meter position is assigned to the same digital output point, then the sampler output will use the combinated meter volumes.


Can Setup Menu

Can Setup Menu Meter #1 - FQT 1000

1. Can Size 0.0 2. Can Units Gallons

This screen is used to configure can size and can units.

Can Size


1. Can Size 0.0 Enter new value 10.0 Enter the size of the Can in the Currently Selected Units.

Enter the size of the sampler can. In batching mode, samples will be spaced over the duration of the batch to fill a can. The range of this entry is 0 to 99. Units are based on the selection of volume to mass conversion (Volume Units, System Setup Menu). Gallons if Gal and BBL are selected, or Liters if Liters, Dekaliters or Cubic Meters is selected.

Fatal Warning Fatal Warning: Entry is out of specified range.* *Will be displayed only through communications.

Can Units


2. Can Units cc’s Select new value 1. Gallons 2. Liters 3. cc’s Enter the Units that the Can is Measured in.

Enter the volume units which are used to specify the sampler can size.

Grab Size


3. Grab Size 0 cc Enter new value 10 Enter the size of each sample grab.

Enter the size of each sampler grab. The range of this entry is 0 to 999 cc.

Fatal Warning Fatal Warning: Entry is out of specified range.* *Will be displayed only through communications.


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Sampler Interval Type


4. Interval Type Volume Enter new value 1. Volume 2. Time Select which interval method to use for sampling.

This entry selects the type of interval that will be used for sampling. There are two choices:

1 - Volume - Based on programmed volume; units as programmed in the System Setup.

2 - Time - Based on programmed time in minutes. If “Volume” is selected for Interval Type, then Interval by Time becomes “No Entry”. If “Time” is selected, then Interval by Volume becomes “No Entry”. Fatal Warning Fatal Warning: Entry is out of specified range.* *Will be displayed only through communications.

Interval by Volume


5. Interval by Volume 0 BBL Enter new value 0 Enter the volume amount flowing between each sampler grab.

This entry selects the amount of volume flowing between each sampler grab. The range of this entry is 0 to 999 volume units.

Warning Warning: A zero entry will disable this feature.

Fatal Warning Fatal Warning: Entry is out of specified range.

Interval by Time


6. Interval by Time 0 Mins Enter new value 10 Enter the time lapse in minutes between each sampler grab.

This entry selects the amount of time between each sampler grab. The range of this entry is 0 to 999 minutes.

Warning Warning: A zero entry will disable this feature. Fatal Warning Fatal Warning: Entry is out of specified range.

Alarm Type


7. Alarm Type Count Select new value 1. Count 2. Percentage Select which alarm method to use for sampling.

This parameter selects the method that will be used for disabling the sampler and setting the sampler alarm. There are two possible methods:

1. Count - Number of sampler pulses. 2. Percentage - Based on percent full of the

sampler can.


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If “Alarm Type” is "Count," the “Percentage Full Alarm” becomes “No Entry.” If “Alarm Type” is “Per-centage,” “Alarm Count” becomes “No Entry.”


Alarm Count


8. Alarm Count 0 Enter new value 100 Enter the sampler alarm point count.

This entry sets the number of sampler pulses that will be used for the sampler alarm point limit. If this count is reached the sampler alarm is set and sampling is disabled. The range of this count is 0 to 65535.

Warning Warning: A zero entry will disable this alarm feature. Fatal Warning Fatal Warning: Entry is out of specified range.

Percent Full Alarm


9. Percent Full Alarm 0% Enter new value 0% Enter the percentage to fill the sampler can before generating an alarm. An entry of 0.0 will disable this feature.

Enter the percent to fill the sampler can before generating an alarm. Sampling will be discontinued until the alarm is cleared and the sampler set active again. The range of this entry is 0 to 99%.

Warning Warning: A zero entry will disable this alarm feature. Fatal Warning Fatal Warning: Entry is out of specified range.* *Will be displayed only through communications.

Sampler Full I/O Point


10. Sampler Full I/O Point 0 Enter new value 0 Enter the Digital I/O Point for the Sampler Full Alarm.

The digital I/O point to which the sampler full signal is connected should be entered in this parameter.

Meter #X Automatic Print Menu Refer to "Automatic Print Menu" on the “Skid Setup Menu” for details.

Meter #X Prover Menu

Prover Menu Meter #1 - FQT 1000

1. Detector Switch 1 I/O # 1 2. Detector Switch 2 I/0 # 1 3. Master Meter Pulse I/O # 0 4. Pulse Interpolation Enabled No 5. MF Curve Shift Enabled No

The "Prover Menu" allows the definition of the detec-tor switch I/O points, the master meter pulse input channel, pulse interpolation method, and if the meter factor shift is enabled or disabled for the meter.


MN09041 Issue/Rev. 0.8 (4/03) 91

Detector Switch Input


1. Detector Switch 1 I/O # 1 Enter new value 1 Enter the digital I/O channel that is assigned to the detector switch.

Enter the digital input point to which the first set of detector switches of a Unidirectional or Bidirectional prover is connected. When the input point is entered, the corresponding Digital I/O Configuration menu will appear. (See I/O Configuration Section for details.)


2. Detector Switch 2 I/O # 2 Enter new value 2 Enter the digital I/O channel that is assigned to the second detector switch. Enter 0 if not using dual detector switches.

Enter the digital input point to which the second set of detector switches of a Unidirectional or Bidirectional prover is connected. When the input point is entered, the corresponding Digital I/O Configuration menu will appear. (See I/O Configuration Section for details.) If only one set of detector switches is being used, this value must be set to zero. Note: Only digital I/O points 1, 2, 9, 10, 17, 18, 25, and 26 may be used as detector switch inputs.

Master Meter Input


3. Master Meter Pulse I/O # 0 Enter new value 0 Enter the pulse I/O channel that is assigned to the master meter pulse.

Enter the pulse input point that is to be used for the master meter input. Note: Master meter input is limited to pulse inputs five or six; no other value will be accepted on the screen. When five or six is entered, the corresponding Pulse Input Menu will be displayed. (See Pulse Input Section for details).

Pulse Interpolation


4. Pulse Interpolation Enabled No Select new value 1. No 2. Yes Select Yes to allow fractional pulses in prove pulse counts.

If Pulse Interpolation is enabled, the proving pulse counts will be counted to three decimal places. Otherwise, the proving pulse counts will be counted to the nearest pulse.


92 MN09041 Issue/Rev. 0.8 (4/03)

Meter Factor Shift


5. MF Curve Shift Enabled No Select new value 1. No 2. Yes Select Yes to shift the entire meter factor curve when accepting a new meter factor.

If the Meter Factor Curve Shift is enabled, the acceptance of a new meter factor will shift all defined points in the meter factor curve by the difference between the new and old meter factor.

Pulse Multiplier


14. Pulse Count Full Pulses Select new value 1. Full Pulses 2. Half Pulses Select the method of counting the incoming pulses. Full Pulse will count only the rising edge of the pulse and Half pulse will count both the rising and falling edge.

This entry can be used to double the input pulses coming into the SyberTrol.

1 - Full Pulses (counts rising edges only)

2 - Half Pulses (counts rising and falling edges)


NSV Tolerance Menu

NSV Tolerance Menu Meter #1 - FQT 1000

1. NSV Tolerance Percentage 0.00% 2. NSV Tolerance Volume 0.0 BBL

In a redundant configuration, an NSV tolerance alarm will be generated if there is a non-zero value for either the NSV volume or NSV tolerance and the difference between the NSV volume on the primary and the NSV volume on the secondary exceeds the largest programmed tolerance.

NSV Tolerance Percentage


1. NSV Tolerance Percentage 0.00% Enter new value 0.00% Enter the NSV Tolerance as a Percent Difference.

Use this screen to select the NSV tolerance percentage to configure the NSV tolerance alarm.

NSV Tolerance Volume


2. NSV Tolerance Volume 0.0 BBL Enter new value 0.0 Enter the NSV Tolerance as an Absolute Volume.

Use this screen to select the NSV tolerance as absolute volume to configure the NSV tolerance alarm.


MN09041 Issue/Rev. 0.8 (4/03) 93

Alarm Shut-down


15. Shut-down on Alarm No Select new value 1. No 2. Yes Select whether to shutdown this meter position if any meter alarms occur.

This parameter allows the operator to select if the SyberTrol will shut down the meter position when an alarm occurs. If selected as “No” the SyberTrol will display the alarm to be acknowledged or cleared but will not shut down the delivery. If “Yes” is selected the alarm will be displayed for acknowledging and clearing, and the batch in progress will shut down.

Fatal Warning Fatal Warning: Entry is out of specified range. Revision 0 Through 4 Firmware Revision 5 firmware moved this function to the Con-figurable Alarm Menu.

Section VIII – Product Setup

94 MN09041 Issue/Rev. 0.8 (4/03)

Product Setup



5

Selecting "5. Product Setup Menu" from the main Program Mode Menu and pressing ENTER will display the products that are set up in the SyberTrol.

Product Number

Select Product 1. Product 1 DIESEL 2. Product 2 Product 2 3. Product 3 Product 3 4. Product 4 Product 4 5. Product 5 Product 5 6. Product 6 Product 6 7. Product 7 Product 7 8. Product 8 Product 8 9. Product 9 Product 9 10. Product 10 Product 10 11. Product 11 Product 11 12. Product 12 Product 12 13. Product 13 Product 13 14. Product 14 Product 14 15. Product 15 Product 15 16. Product 16 Product 16

The "Select Product" screen allows the operator to select any of the products that are set up in the system. Once into any of the setup menus, the product can be changed without going back to the "Select Product" screen. Pressing "MODE" on the keypad will pop up a screen where a different product can be selected. Once a new product is selected the display will change to the data programmed for the new product.

Product Setup Menu


1. Product Name Crude Oil 2. Meter Factor Menu 3. Pressure Menu 4. API Table Table 5B Live Density Used

1

This is the main product setup menu. From this menu, the items or submenus can be selected by moving the cursor to them and pressing ENTER.

Product Name


1. Product Name Crude Oil Enter new value Crude Oil F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ I

Enter a nine character alphanumeric product name.

This code allows a message of up to nine characters to be entered as a product identifier.


MN09041 Issue/Rev. 0.8 (4/03) 95

Meter Factor Menu The selection of the Meter Factor Menu from the Main Menu will bring up the display for the selection of the meter that is measuring the product.

Select Meter 1. FQT 1001 2. FQT 1002 3. FQT 1003 4. FQT 1004 5. FQT 1005 6. FQT 1006

When the meter is selected the Product Meter Factors Menu will be displayed.

Meter Factors Menu Product #1 - Crude Oil Meter #1 - FQT 1000

1. Meter Factor #1 1.0000 2. Flow Rate #1 10000 BPH 3. Meter Factor #2 0.9997 4. Flow Rate #2 8000 BPH 5. Meter Factor #3 0.9996 6. Flow Rate #3 6000 BPH 7. Meter Factor #4 0.9995 8. Flow Rate #4 4000 BPH 9. Meter Factor #5 0.9994 10. Flow Rate #5 2000 BPH 11. Meter Factor #6 0.9993 12. Flow Rate #6 1000 BPH

1

This display allows the operator to view or change the meter factors and associated flow rates for this product and meter.

The mode key will allow you to select another product and the F1 key will allow the user to select another meter. This is the only menu that the F1 key operates in the Product Setup Menu.

You may also select another product by pressing the mode key while the meter selection screen is visible. You cannot select another meter from the product selection screen.

Product #XX Meter Factor Menu

Meter Factors Menu Product #1 - Product 1 Meter #1 - FQT 1000

1. Meter Factor #1 1.0000 Enter new value 0.9995 Meter Factor = (Actual Volume x Input Resolution)/Input Pulses. This entry must not be zero.

Meter Factors 1 through 6 These five-digit entries are the meter factors for the flow rates that are set in entries 2, 4, 6, 8, 10 and 12. The formula for meter factor is:

Where: MF = Meter Factor Act. Vol. = Actual Volume Input Res. = Input Resolution If only a single meter factor is used, it must be put into Meter Factor #1, and the flow rate selected for flow rate #1 or #2 must be set to "0000". Under these conditions any other meter factors programmed will be ignored.

Note: A zero entry in meter factor 1 will be considered an invalid entry. Zero entries in the remaining factors will result in that factor and subsequent factors not being used. (For example, if a zero entry is made for factor 3, factors 3 and 4 will not be used.) Fatal Warnings (for Meter Factor 1 only) Fatal: This entry must not be zero. Fatal: Entry is out of specified range.

MF = (Act. Vol.)(Input Res.) (Input Pulses)


96 MN09041 Issue/Rev. 0.8 (4/03)

Flow Rates #1 through #6

Meter Factors Menu Product #1 - Crude Oil Meter #1 - FQT 1000

2. Flow Rate #1 2000 BPH Enter new value 10000 Enter the corresponding Flow Rate for the Meter Factor.

These six-digit entries 2, 4, 6, 8, 10 and 12 are the flow rates at which the meter factors (see previous) are defined beginning with the highest flow rate in flow rate #1 and descending in order to the lowest flow rate in flow rate #6. If only one meter factor is used, flow rate #1 or flow rate #2 must be set at ’0000’.

Warning Critical: Flow rates must be entered in descending order. Critical: Corresponding Meter Factor not defined. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.

Pressure Menu

Pressure Menu Product #1 - Crude Oil

1. Calculation Method Linearize Vapor 2. Edit Vapor Pressure Curve 3. Pressure Coefficient 0.0019

The "Pressure Menu" allows the operator to select the type of pressure correction that will be used by the SyberTrol for this product. After the type of control is selected the vapor pressure curve can be viewed or edited and the pressure coefficient entered.

Calculation Method Select


1. Calculation Method Linearize Vapor Select new value 1. Linearize Vapor 2. GPA TP-15 Vapor Choose whether to calculate vapor pressure by straight line approximation or as outlined in the GPA TP-15.

This menu allows the operator to choose by which method the vapor pressure will be calculated. The first method is by linearizing the vapor pressure points as programmed in the Straight Line Approximation Menu. The second method calculates the vapor pressure through the use of the formula as outlined in the Gas Processors Association Table 15 (GPA TP-15).

1 - Linearize Vapor Pressure Points 2 - GPA TP-15 Vapor Pressure Formula Warning Critical: The vapor pressure method selected requires relative density. Warning (Applies to GPA Method) Warning: This method computes vapor pressure in absolute (not gage). Fatal Warning Fatal: Entry is out of specified range.


MN09041 Issue/Rev. 0.8 (4/03) 97

Edit Vapor Pressure Curve

Straight Line Approximation Menu Product #1 - Crude Oil

1. Pressure #1 10.0 PSI 2. Temperature #1 20 F 3. Pressure #2 20.0 PSI 4. Temperature #2 25 F 5. Pressure #3 30 PSI 6. Temperature #3 30 F 7. Pressure #4 40 PSI 8. Temperature #4 35 F

1

These entries allow the operator to define the parameters that make up the vapor pressure curve of the product. The values for pressure #1 and temperature #1 are one point on the curve.

Product Vapor Pressure #1, #2, #3, #4


1. Pressure #1 0.0 PSI Enter new value 10 Enter the product vapor pressure at the corresponding Product Temperature.

These four parameters allow the operator to select the vapor pressure(s) that will be used to define the vapor pressure versus temperature curve. This curve is used to calculate the current vapor pressure. The pressure(s) are defined beginning with the lowest pressure ascending in order to the highest pressure. The range of these four-digit entries is 000.0 to 999.9 pressure units. The units for this entry will be dependent on the entry made in the Pressure Units parameter on the System Setup Menu. Note: The vapor pressure calculation determined from the entries made here will be used in the CPL equation as the ’Pe’ entry; therefore, careful consideration should be given in determining these points and their accuracy.

Warning Critical: Vapor pressures must be defined in ascending order. Fatal Warning Fatal: Entry is out of specified range.

Product Vapor Pressure Temperature #1, #2, #3 and #4


2. Temperature #1 0 F Enter new value 20 Enter the product temperature at the corresponding product vapor pressure.

These four parameters allow the operator to define the temperature(s) that will be used to define the vapor pressure versus temperature curve. This curve is used to calculate the current vapor pressure. These temperatures correspond with the vapor pressures entered above. The first digit of the entry indicates polarity where + is positive and - is negative. The range of these four-digit entries will be -999 to +999 degrees. The units for this entry will be dependent on the entry made in the Temperature Units Select parameter on the System Setup Menu.

Note: The vapor pressure calculation determined from the entries made here will be used in the CPL equation as the "Pe" entry. Therefore, careful consideration should be given in determining these points and their accuracy.

Warning Critical: Corresponding vapor pressure not defined. Fatal Warning Fatal: Entry is out of specified range.


98 MN09041 Issue/Rev. 0.8 (4/03)

Pressure Coefficient Setting


3. Pressure Coefficient 00000 Enter new value 00019 Enter the compressibility factor used to calculate the CPL.

This parameter allows for the entry of a compressibility factor that will be used by the system to calculate the CPL. This entry should be zeroed if a densitometer is installed. The value is entered as a whole number, five places in length.

Note: This value will represent the "F" variable in the CPL equation. (Formatted as 0.0000XXXXX where XXXXX is the value entered here.) Note: An entry of ’00000’ will disable the Pressure Coefficient Factor. Fatal Warning Fatal: Entry is out of specified range.

API Table



API Table, Product and Reference Density This parameter allows the operator to enter the API table and product and the reference density. The selections are as follows:

01 = No API Table 02 = API Table 5A 03 = API Table 5B 04 = API Table 5D 05 = API Table 6A 06 = API Table 6B 07 = API Table 6C 08 = API Table 6D 09 = API Table 23A 10 = API Table 23B 11 = API Table 23D 12 = API Table 24 13 = API Table 24A 14 = API Table 24B 15 = API Table 24D 16 = API Table 53A 17 = API Table 53B 18 = API Table 53D 19 = API Table 54 20 = API Table 54A 21 = API Table 54B 22 = API Table 54C 23 = API Table 54D 24 = API Table 23 25 = API Table 53 26 = API Table 6 27 = API Table 23E 28 = API Table 24E 29 = Table BR1A 30 = Table BR1P 31 = Table BR2P 32 = NH3 This screen will display only the API Tables that are available for the temperature that is selected in the System Setup (i.e., F tables 5A through 24D will be displayed, C tables 53A through 54D will be displayed.) Examples of products handled by the tables are as follows:


MN09041 Issue/Rev. 0.8 (4/03) 99

Product Table(s)

Crude Oils 5A, 6A, 23A, 24A

Diesel, Heating, and Fuel Oils 5B, 6B, 23B, 24B

Jet Fuels and Kerosene 5B, 6B, 23B, 24B

Gasolines and Napthanes 5B, 6B, 23B, 24B

Lube Oils 5D, 6D

LPG-Type Products 23, 24, 53, 54, 23E, 24E

Alcohol BR1A

Petroleum (Live Density) BR1P

Petroleum (Reference Density)

BR2P

Ammonia NH3

Reference Density


Select API Table 1. No API Table 2. Table 5A 3. Table 5B 4. Table 5D 5. Table 6A 6. Table 6B 7. Table 6C 8. Table 6D Enter Percent per Degree Temp. 0.0000 Mass Calculations Units 1. Gross 2. GSV Select the temperature base API Table and enter its corresponding density.

This part of the parameter allows the operator to enter the reference density. The format must be consistent with the API table selected. This part of the parameter will have a constant five-digit entry with a floating decimal point and format based on the table and product selection. The parameter format and data entry allow the programmable entry of a reference density when table 54 is selected, relative density when table 24 is selected, an API value when table 6 is selected, and temperature coefficient when

a C table is selected. (Note that when table 6 is se-lected the leading digit will be used to indicate polar-ity: + is positive and - is negative.) This five-digit en-try represents the reference value used to calculate the volume correction factor. When 6C or 54C is se-lected after entering the density, the user will be prompted to select the units to be used for mass calculations. The range of this value will vary with the table selection chosen.

Note: If API table 00 is selected, the "Density Not Used" is displayed. Note: If API table 5, 23, or 53 is selected, live density is to be used and "Live Density Used" will be displayed. Note: Mass calculation units will only appear on the display if tables 6C or 54C are selected.

Entry range based on table selection. 1. Table 6: -999.9 to +999.9 API 2. Table 24: 0.0000 to 9.9999 Relative Density 3. Table 54: 0000.0 to 9999.9 Reference Density 4. C Tables: 0.0000 to 0.9999 Percent per Degree

Temperature Note: If the API table selection is changed, the previous five-digit entry for reference will not be converted. The decimal point will be moved within the five digits to conform to the formats shown above. However, range errors may result. For example, if a reference density of 1079.5 was entered for table 54B and then the API table selection was changed to table 54C, the reference would be displayed as 1.0795 percent per degree temperature and a fatal range error would result. To enter this value, proceed as follows: The following are examples of the display when tables 6A, 6B, 6C, 24, or 54 and 54C are selected. Table 6A or 6B selected +050.0 API Table 6C or 54C selected 0.9875%/ F Table 24 selected 0.9875 Rel Density Table 54 selected 848.6 Kg/M3 Fatal Warnings Fatal: This entry is out of specified range. Fatal: This option is not available. Fatal: The API Table selected uses live density.

Section IX – Prover Setup

100 MN09041 Issue/Rev. 0.8 (4/03)

Prover Setup Menu



6

Selecting "6. Prover Setup Menu" from the main Program Mode Menu and pressing the ENTER key will display the "Select Prover" screen.

Prover Selection

Select Prover 1. Prover #1 Prover 1 2. Prover #2 Prover 2 3. Prover #3 Prover 3 4. Max. % Flow Adj. / Int. 0% 5. Flow Adjustment Interval 0 Secs

1

This screen allows the user to select the prover to be displayed or configured. While viewing any of the prover displays the "MODE" key may be pressed, allowing the user to select another prover without exiting to the Prover Main Menu.

Prover Setup Menu Prover #1 - Prover 1

1. Prover Name Prover 1 2. Prover Address 0 3. Prover Type Unidirectional 4. Prover Description menu 5. Prover Control I/O Menu 6. Prover Method Menu

1

Once the prover has been selected from the "Select Prover Menu" and ENTER pressed, the parameters for setting up that prover will be displayed. From this display the parameters can be selected for viewing or programming.

When a proving flow rate is set for a meter in a skid and both the Max. % Flow Adj./Int. and Flow Adjustment Interval are programmed, the setpoint(s) of the other meter(s) on the skid will be reduced to attain the desired flow through the meter to be proved.

Max % Flow Adjustment Interval

Select Prover 4. Max. % Flow Adj. / Int. 0% Enter new value 0

This parameter sets the maximum amount by which the setpoint(s) of the other meter(s) on the skid will be reduced for each interval.

Flow Adjustment Interval

Select Prover 5. Flow Adjustment Interval 0 Secs Enter new value 0

This is the delay time, in seconds, between setpoint adjustments made to attain the correct proving flow rate.


MN09041 Issue/Rev. 0.8 (4/03) 101

Prover Name

Prover Setup Menu Product #1 - Prover 1

1. Prover Name Prover 1 Enter new value Prov West F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ I

Enter up to a nine-character alphanumeric name for identifying this prover.

This screen allows entry of an alphanumeric prover name of up to nine characters for the prover being configured.

Prover Address


2. Prover Address 0 Enter new value 3 Enter a unique one-digit address for this prover.

This entry is a one-digit number to be used as the prover's address. The range of this entry is from one to nine, with zero indicating that the prover is not being used. This entry should be unique among all provers defined in a network of SyberTrols.


Prover Type


3. Prover Type Prover Not Used Select new value 1. Prover Not Used 2. Unidirectional 3. Bidirectional 4. Smith SVP 5. Master Meter Select the prover type for the prover that is being set up.

There are four prover types that are supported by the SyberTrol. The selection of the type of prover must be entered for proving to be enabled. The range of the prover type is from 1 to 5.

1 - Prover Not Used 2 - Unidirectional Prover 3 - Bidirectional Prover 4 - Smith Small Volume Prover 5 - Master Meter Fatal Warning Fatal: I/O has been incompletely configured for this type of prover. Fatal: Entry is out of specified range.* *Will be displayed only through communications.


102 MN09041 Issue/Rev. 0.8 (4/03)

Prover Description Menu

Prover Description Menu Prover #1 - Prover 1

1. Serial Number 123456789 2. Measurement Units Inches 3. Inside Diameter 0.000 in 4. Wall Thickness 0.00 in 5. Const. Material Carbon Steel 6. Volume #1 0.00000 Gal 7. Volume #2 0.00000 Gal 8. Detect #2 Vol. #1 0.00000 Gal 9. Detect #2 Vol. #2 0.00000 Gal 10. Prove Cycle Wait 0% 11. Prove Delta Temp 0.000 F 12. Prove Stability 0 min MoE 30000000 PSI CoE 0.0000186 %/ F

This menu allows the operator to enter information for the selected prover type. This menu is used for all prover types except master meter.

Prover Serial Number


1. Serial Number 123456789 Enter new value ABCDEFGHI F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ I

Enter the serial number of the prover.

This entry allows a nine-character alphanumeric serial number to be entered to identify the prover.

Prover Measurement Units


2. Measurement Units Inches Select new value 1. Inches 2. Millimeters Select the measurement units for the prover.

This one-digit entry is used to set the measurement units to be used with the prover. These units are used for the wall thickness and inside diameter of the prover.

1 - Inches 2 - Millimeters Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications. Prover Inside Diameter


3. Inside Diameter 0.00 in Enter new value 0.000 Enter the inside diameter of the prover.

This parameter allows the operator to enter the inside diameter of the prover. The range of this entry is from 0 to 999.999 units.



MN09041 Issue/Rev. 0.8 (4/03) 103

Prover Wall Thickness


4. Wall Thickness 0.000 in Enter new value 0.100 Enter the wall thickness of the prover.

This code allows the operator to enter the wall thickness of the prover. The range of this entry is 0 to 99.999 units.

Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications. Prover Construction Material


5. Const. Material Carbon Steel Select new value 1. Carbon Steel 2. Stainless Steel 3. Other Material Select the type of steel used in the construction of the prover.

This one-digit code is used to select the type of material that was used in the construction of the prover. 1 - Carbon Steel 2 - Stainless Steel 3 - Other Material Note: If “Other” is selected as the type of material the SyberTrol will prompt the operator for the Modulus of Elasticity and the Coefficient of Thermal Expansion of the material.

Default Values for Modulus of Elasticity and Coef-ficient of Thermal Expansion

Prover Carbon Stainless Steel

Type C of E Modules C of E Modules

Ball (Uni/Bidi) 0.0000186%/ F0.0000335%/ C

30000000 0.0000265%/ F0.0000477%/ C

28000000

SVP 0.0000124 30000000 0.0000177 28000000

Note: If the default values for Carbon Steel and Stainless Steel are not acceptable, select Other and enter the correct values. Prover Material - Other

Other Material Parameters MoE PSI 30000000 CoE %/ F 0.0000186

Enter the value of the modulus of elasticity then press the ENTER key to enter the Coefficient of Thermal Expansion. After entering the value press the ENTER key to store the values in memory.


Prover Volume #1


6. Volume #1 0.00000 BBL Enter new value 30.87552 Enter the standard or default prover volume as determined by the waterdraw calibration.


104 MN09041 Issue/Rev. 0.8 (4/03)

This code allows the entry of the standard or the de-fault prover volume as determined by the waterdraw calibration. The range of this entry is 0 to 9999.99999.

Note: The volume units displayed in this code are programmed in the System Setup Menu. Note: The prover volumes that are stamped on the nameplates of Smith Manufactured Provers are corrected to 60 F. If using a reference temperature other than 60 F the prover volumes must be recalculated to the new reference temperature. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications. Prover Volume #2


7. Volume #2 0.00000 BBL Enter new value 31.12345 Enter the standard or default prover volume as determined by the waterdraw calibration.

This code allows the entry of a second standard prover volume as determined by the waterdraw calibration. When two volumes are used, a digital input point for prover volume select is used to determine which volume to use at the start of the prove if the input is asserted the second volume will be used. The range of this entry is 0 to 999.99999.

Note: The volume units displayed in this code are programmed in the System Setup Menu. Note: The prover volumes that are stamped on the nameplates of Smith Manufactured Provers are corrected to 60 F. If using a reference temperature other than 60 F the prover volumes must be recalculated to the new reference temperature. Fatal Warning Fatal: Entry is out of specified range.*

Detect #2 Volume #1


8. Detect #2 Vol. #1 0.00000 BBL Enter new value 31.67890 Enter the prover volume to be used with the second detector switch I/O.

This parameter allows the entry of a prover volume as determined by the waterdraw calibration for a second set of detector switches. The range of this entry is 0 to 9999.99999.

Note: The volume units displayed in this code are programmed in the System Setup Menu.

Fatal Warning Fatal: Entry is out of specified range.*

*Will be displayed only through communications. Detect #2 Volume #2


9. Detect #2 Vol. #2 0.00000 BBL Enter new value 31.67890 Enter the prover volume to be used with the second detector switch I/O.

This parameter allows the entry of a second prover volume as determined by the waterdraw calibration for the second set of detector switches. When the volumes are used for the second set of detector switches, a digital input point for prover volume select is used to determine which volume to use at the start of the prove. If the input is asserted, the second volume will be used. The range of this entry is 0 to 9999.99999.


MN09041 Issue/Rev. 0.8 (4/03) 105

Note: The volume units displayed in this code are programmed in the System Setup Menu.


Prove Cycle Wait Time


10. Prove Cycle Wait 0% Enter new value 5% Enter the desired cycle wait percentage.

This parameter allows the entry of the desired percentage of the half trip time that the bi-directional prover will wait before cycling the four-way valve to begin another half trip. The percentage entered in this code is a percentage of the half trip cycle time of the prover sphere. The half trip time is the time it takes the sphere to travel from the first detect switch to the second detect switch. If 100 is entered, the time after the second detect switch until the cycle of the four-way valve will be equal to the half trip time (first detect switch to the second detect switch). The range for this parameter is 0% to 100%. This parameter is valid for bidirectional provers only.


Prove Delta Temperature


11. Prove Delta Temp 0.000 F Enter new value 3.30 Enter the maximum difference in temperature allowed between the meter to be proved and the prover.

This code allows the entry of the maximum differ-ence in the product temperature allowed between the meter and the prover. The prover temperature may be the Inlet Temperature or an average of the two if both are configured. If the delta temperature is exceeded, the temperature will be rechecked every 10 seconds until the stability time-out expires or the temperatures converge. If the delta temperature is still exceeded after the timeout, the prove will be aborted. The temperature units are as selected in the System Setup Menu. The range of this entry is 0 to 99.99 degrees.


Prove Stability


12. Prove Stability 0 mins Enter new value 5 Enter the time in minutes to allow the meter and prover temperatures to converge.

This parameter allows the entry of the delay time, in minutes, that the prove will be delayed to allow the temperature to stabilize. If the temperatures do not converge within this time limit, the prove will be aborted. The range of this entry is 0 to 99 minutes.

Note: If this time does not exceed the auto reset by at least one minute, there will never be a temperature stability alarm. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.


106 MN09041 Issue/Rev. 0.8 (4/03)

Master Meter

When "Master Meter" is selected for the prover type from the Prover Description Menu, the SyberTrol will display the following data.

Prover Master Meter Description Menu Prover #1 - Prover 1

1. Serial Number 2. Prove Delta Temp 3. Prove Stability 4. Master Meter K Factor 5. Meter Factor 1 6. Flow Rate 1 7. Meter Factor 2 8. Flow Rate 2 9. Meter Factor 3 10. Flow Rate 3 11. Meter Factor 4 12. Flow Rate 4 13. Meter Factor 5 14. Flow Rate 5 15. Meter Factor 6 16. Flow Rate 6

These entries set up the parameters required for operating a master meter for proving of line meters. The Serial Number, Prover Delta Temperature, and Prover Stability are configured just as they were for the other types of provers. The Master Meter K factor, Meter Factors, and Flow Rates are described below.

Master Meter K Factor


4. Master Meter K Factor 8400.00 Enter new value 0.00 Enter the number of pulses required per one unit of registration. The range for the K Factor is 0.01 to 99999.99.

This seven-digit parameter defines the nominal number of pulses from the master meter for one unit of registration. The range for this entry is between 00000.01 and 99999.99 pulses/unit.

Note: The value entered in this code must not be 00000.00. Fatal Warning Fatal: This entry must not be zero. Fatal: Entry is out of specified range.* *Will be displayed only through communications.

Meter Factors 1 through 6


5. Meter Factor 1 0.0000 Enter new value 0.9995 Meter Factor = (Actual Volume x Input Resolution)/Input Pulses.

These five-digit entries are the master meter’s meter factors for the products and the flow rates that are set in entries 6, 8, 10, 12, 14 and 16 for those products. (See "Meter Factor Menu" in the Product Setup Section for the meter factor formula.)

Flow Rates 1 through 6


6. Flow Rate 1 0 BPH Enter new value 0 Enter the corresponding Flow Rate for the meter factor.

These six-digit entries are the flow rates at which the master meter’s meter factors are defined, beginning with the highest flow rate in Flow Rate #1 and descending in order to the lowest flow rate in Flow Rate #6.

Warnings Critical: Flow rates must be entered in descending order. Critical: Corresponding meter factor is not defined.


MN09041 Issue/Rev. 0.8 (4/03) 107


Prover Control I/O Menus

These menus describe the I/O necessary for prover control. Entries in these directories determine the I/O required to operate the prover. The subdirectory that appears will correspond to the prover type selected.

Prover Bidirectional Control I/O Menu

Prover BI-DI Control I/O Menu Prover #1 - Prover 1

1. Detector Switch Time-out 1 Mins 2. 4-way Forward I/O # 0 3. 4-way Reverse I/O # 0 4. 4-way Forward Status I/O # 0 5. 4-way Reverse Status I/O # 0 6. Seal Status I/O # 22 7. Prover Volume I/O # 23 8. Prover In Temperature I/O # 24 9. Prover Out Temperature I/O # 25 10. Prover In Pressure I/O # 26 11. Prover Out Pressure I/O # 27 12. Prover Alarm Limits 13. Prover Status I/O # 28 14. Prover Pump I/O # 29 15. Prover Pump Status I/O # 30

Prover Unidirectional Control I/O Menu

Prover UNI Control I/O Menu Prover #1 - Prover 1

1. Detector Switch Time-out 0 Mins 2. Sphere Launch I/O # 0 3. Seal Status I/O # 0 4. Prover Volume I/O # 0 5. Prover In Temperature I/O # 0 6. Prover Out Temperature I/O # 0 7. Prover In Pressure I/O # 0 8. Prover Out Pressure I/O # 0 9. Prover Alarm Limits 0 10. Prover Status I/O # 0 11. Prover Pump I/O # 0 12. Prover Pump Status I/O # 0

Prover SVP Control I/O Menu

Prover SVP Control I/O Menu Prover #1 - Prover 1

1. Prover In Temperature I/O # 0 2. Prover Out Temperature I/O # 0 3. Prover In Pressure I/O # 0 4. Prover Out Pressure I/O # 0 5. Prover Alarm Limits 0 6. Prover Status I/O # 0 7. Prover Pump I/O # 0 8. Prover Pump Status I/O # 0 9. SVP Comm. Port No Comm Port

Prover Master Meter Control I/O Menu

Prover Master Meter Control I/O Menu Prover #1 - Prover 1

1. Prover In Temperature I/O # 0 2. Prover Out Temperature I/O # 0 3. Prover In Pressure I/O # 0 4. Prover Out Pressure I/O # 0 5. Prover Alarm Limits 0 6. Prover Status I/O # 0 7. Prover Pump I/O # 0 8. Prover Pump Status I/O # 0 9. Master Meter Pulse Count 0

Note that an I/O point entry will result in either the Analog or Digital I/O Configuration Menu appearing. From here, the operator can further define the I/O parameter. (For details on the I/O point programming, see I/O Configuration Section.)


108 MN09041 Issue/Rev. 0.8 (4/03)

Bidirectional Prover Detector Switch Time-out

Prover BIDI Control I/O Menu Prover #1 - Prover 1

1. Detector Switch Time-out 0 mins Enter new value 1 Enter the length of time in minutes to wait before aborting the proving sequence if the first detect switch is not activated. The range is 1 to 99 mins.

This entry is the length of time in minutes that the SyberTrol will wait for the detector switch to be activated. If the first detector switch has not been activated within this period of time, the prove sequence will be aborted. When the first detector switch has been met, the timer will be restarted. The time between the signal from the first detector switch and the second detector switch also must not exceed the value programmed in this code, or the prove will be aborted. The range of this entry is 1 to 99 minutes. Fatal Warning Fatal: Entry is out of specified range.

4-Way Valve (Forward) Output Point


2. 4-way Forward I/O # 0 Enter new value 2 Enter the digital I/O channel that is assigned to the forward 4-way valve.

This entry defines the digital output point that will be used to command the 4-Way Valve to forward position. When the output point is entered the corresponding Digital Output Configuration Menu will appear, allowing the output point to be defined. (See Digital Input/Output Configuration for details).


4-Way Valve (Reverse) Output Point


3. 4-way Reverse I/O # 0 Enter new value 3 Enter the digital I/O channel that is assigned to the reverse 4-way valve.

This entry defines the digital output point that will be used to command the 4-Way Valve to a reverse position. When the output point is entered the corresponding Digital Output Configuration Menu will appear, allowing the output point to be defined. (See digital Input/Output Configuration for details).

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range. 4-Way Valve Status (Forward) Input Point


4. 4-way Forward Status I/O # 0 Enter new value 4 Enter the digital I/O channel that is assigned to the forward 4-way valve status.


MN09041 Issue/Rev. 0.8 (4/03) 109

This entry defines the digital input point that will be used to check the forward status of the 4-Way Valve. When the input point is entered the corre-sponding Digital Input Configuration Menu will ap-pear, allowing the input point to be defined. (See Digital Input/Output Configuration section for de-tails).


4-Way Valve Status (Reverse) Input Point


5. 4-way Reverse Status I/O # 0 Enter new value 5 Enter the digital I/O channel that is assigned to the reverse 4-way valve status.

This entry defines the digital input point that will be used to check the reverse status of the 4-Way Valve. When the input point is entered the corresponding Digital Input Configuration Menu will appear, allowing the input point to be defined. (See Digital Input/ Output Configuration section for details).


Seal Status Input Point


6. Seal Status I/O # 6 Enter new value 6 Enter the digital I/O channel that is assigned to the seal status.

This entry defines the digital input point that is configured for use with the 4-Way Valve seal status on the bi-directional prover. When the input point is entered the corresponding Digital Input/Output Configuration Menu will appear, allowing the information to be viewed or changed. (See Digital Input/Output Configuration Section for Details.)

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range. Prover Volume Input Point


7. Prover Volume I/O # 0 Enter new value 0 Enter the digital I/O channel that is assigned to the prover volume.


110 MN09041 Issue/Rev. 0.8 (4/03)

This entry defines the digital input point that is set up for the SyberTrol to determine which prover volume to use. (This entry is only used when two prover vol-umes are programmed.) If this I/O point is either not assigned or not asserted, prover volume #1 will be used. If this I/O point is asserted, prover volume #2 will be used. When the input point is entered the cor-responding Digital Input/Output Configuration Menu will appear, allowing the information to be viewed or changed. (See Digital Input/Output Configuration Section for Details).


Prover Inlet Temperature Input Point


8. Prover In Temperature I/O # 7 Enter new value 7 Enter the analog I/O channel that is assigned to the prover inlet temperature.

This entry is used to set up or view the analog input channel that is used for the inlet temperature of the prover. When the input number is entered the corresponding Analog Input/Output Configuration Menu will appear, allowing the information for this input point to be viewed or changed. (See Analog Input/Output Configuration Section for details).


Prover Outlet Temperature Input Point


9. Prover Out Temperature I/O # 8 Enter new value 8 Enter the analog I/O channel that is assigned to the prover outlet temperature.

This entry is used to set up or view the analog input that is used for the outlet temperature of the prover. When the input number is entered the corresponding Analog Input/Output Configuration Menu will appear, allowing the information for this input point to be viewed or changed. (See Analog Input/Output Configuration Section for details.)

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range. Prover Inlet Pressure Input Point


10. Prover In Pressure I/O # 10 Enter new value 10 Enter the analog I/O channel that is assigned to the prover inlet pressure.

This entry is used to set up or view the analog input that is used for the inlet pressure of the prover. When the input number is entered the corresponding Analog Input/Output Configuration Menu will appear, allowing the information for this input point to be viewed or changed. (See Analog Input/Output Configuration Section for details).


MN09041 Issue/Rev. 0.8 (4/03) 111


Prover Outlet Pressure Input Point


11. Prover Out Pressure I/O # 11 Enter new value 11 Enter the analog I/O channel that is assigned to the prover outlet pressure.

This entry is used to set up or view the analog input that is used for the outlet pressure of the prover. When the input number is entered the corresponding Analog Input/Output Configuration Menu will appear, allowing the information for this input point to be viewed or changed. (See Analog Input/Output Configuration Section for details).


Prover Alarms

Prover Alarm Limits Prover #1 - Prover 1

1. In High Temp Alarm 80 F 2. In Low Temp Alarm 10 F 3. Out High Temp Alarm 80 F 4. Out Low Temp Alarm 10 F 5. In High Press Alarm 70 PSI 6. In Low Press Alarm 10 PSI 7. Out High Press Alarm 70 PSI 8. Out Low Press Alarm 10 PSI 9. In Default Temp 0.0 F 10. Out Default Temp 0.0 F 11. In Default Press 0.00 PSI 12. Out Default Press 0.00 PSI

The Prover Alarm Limits Menu allows the operator to select and set the inlet and outlet temperature and pressure values that will trigger alarms if the values are either exceeded or not met. This menu is selectable for each of the prover types: bidirectional, unidirectional, Master Meter, and SVP.

Inlet High Temperature Alarm


1. In High Temp Alarm 80 F Enter New Value 80 Enter the temperature that will signal an alarm for high temperature. An entry of 999 will disable this feature.


112 MN09041 Issue/Rev. 0.8 (4/03)

This entry defines the high temperature reading on the inlet of the prover that when exceeded will cause a high temperature alarm. The temperature units are dependent on the entry made for temperature on the System Menu. The range of this entry is from -999 to 999 degrees F or C. Using the +/- key will toggle be-tween the + or - when entering temperatures. A value of 999 will disable this alarm. The units are displayed after the symbol and will either be N = No temperature used, C = Celsius, or F = Fahren-heit.

Inlet Low Temperature Alarm


2. In Low Temp Alarm 10 F Enter New Value 10 Enter the temperature that will signal an alarm for low temperature. An entry of -999 will disable this feature.

This entry defines the low temperature reading on the inlet of the prover that when exceeded will cause a low temperature alarm. The temperature units are dependent on the entry made for temperature on the System Menu. The range of this entry is from -999 to 999 degrees F or C. Using the +/- key will toggle between the + or - when entering temperatures. A value of -999 will disable this alarm. The units are displayed after the symbol and will either be N = No temperature used, C = Celsius, or F = Fahrenheit Out High Temp Alarm.

Outlet High Temperature Alarm


3. Out High Temp Alarm 80 F Enter New Value 80 Enter the temperature that will signal an alarm for high temperature. An entry of 999 will disable this feature.

This entry defines the high temperature reading on the outlet of the prover that when exceeded will cause a high temperature alarm. The temperature units are dependent on the entry made for temperature on the System Menu. The range of this entry is from -999 to 999 degrees F or C. Using the +/- key will toggle between the + or - when entering temperatures. A value of 999 will disable this alarm. The units are displayed after the symbol and will either be N = No temperature used, C = Celsius, or F = Fahrenheit.

Outlet Low Temperature Alarm


4. Out Low Temp Alarm 10 F Enter New Value 10 Enter the temperature that will signal an alarm for low temperature. An entry of -999 will disable this feature.


MN09041 Issue/Rev. 0.8 (4/03) 113

This entry defines the low temperature reading on the outlet of the prover that when exceeded will cause a low temperature alarm. The temperature units are dependent on the entry made for tempera-ture on the System Menu. The range of this entry is from -999 to 999 degrees F or C. Using the +/- key will toggle between the + or - when entering tem-peratures. A value of -999 will disable this alarm. The units are displayed after the symbol and will either be N = No temperature used, C = Celsius, or F = Fahrenheit.

Inlet High Pressure Alarm


5. In High Press Alarm 70.00 PSI Enter New Value 70.00 Enter the pressure that will signal an alarm for high pressure. An entry of 0.0 will disable this feature.

This entry defines the high pressure reading on the inlet of the prover that when exceeded will cause a high pressure alarm. The pressure units are dependent on the entry mode for pressure on the System Menu. The range of this entry is from 0.00 to 999.99. A value of 0.00 will disable this alarm. If no pressure counts are programmed into the System Menu, this display will indicate the units as No Pre=No pressure used.

Inlet Low Pressure Alarm


6. In Low Press Alarm 10.00 PSI Enter New Value 10.00 Enter the pressure that will signal an alarm for low pressure. An entry of 0.0 will disable this feature.

This entry defines the low pressure reading on the inlet of the prover that when exceeded will cause a low pressure alarm. The pressure units are depend-ent on the entry mode for pressure on the System Menu. The range of this entry is from 0.00 to 999.99. A value of 0.00 will disable this alarm. If no pressure counts are programmed into the System Menu, this display will indicate the units as No Pre=No pressure used.

Outlet High Pressure Alarm


7. Out High Press Alarm 70.00 PSI Enter New Value 70.00 Enter the pressure that will signal an alarm for high pressure. An entry of 0.0 will disable this feature.

This entry defines the high pressure reading on the outlet of the prover that when exceeded will cause a high pressure alarm. The pressure units are dependent on the entry mode for pressure on the System Menu. The range of this entry is from 0.00 to 999.99. A value of 0.00 will disable this alarm. If no pressure counts are programmed into the System Menu, this display will indicate the units as No Pre=No pressure used.

Outlet Low Pressure Alarm


8. Out Low Press Alarm 10.00 PSI Enter New Value 0.00 Enter the pressure that will signal an alarm for low pressure. An entry of 0.0 will disable this feature.


114 MN09041 Issue/Rev. 0.8 (4/03)

This entry defines the low pressure reading on the outlet of the prover that when exceeded will cause a low pressure alarm. The pressure units are depend-ent on the entry mode for pressure on the System Menu. The range of this entry is from 0.00 to 999.99. A value of 0.00 will disable this alarm. If no pressure counts are programmed into the System Menu, this display will indicate the units as No Pre=No pressure used.

Prover Inlet Default Temperature


9. In Default Temp 0.0 F Enter new value 60 Enter the default temperature to be used if a temperature transducer is not installed or fails. An entry of –999.9 will disable this feature.

This entry defines the default temperature for the inlet of the prover, to be used if a pressure transducer is not installed or fails. The temperature units are dependent on the entry made for temperature on the System Menu. The range of this entry is from -999 to 999 degrees F or C. Using the +/- key will toggle between the + or - when entering temperatures. The units are displayed after the symbol and will either be N = No temperature used, C = Celsius, or F = Fahrenheit.

Note: This option is only available in Rev. 14 and above firmware.

Prover Outlet Default Temperature


10. Out Default Temp 0.0 F Enter new value 10 Enter the default temperature to be used if a temperature transducer is not installed or fails. An entry of –999.9 will disable this feature.

This entry defines the default temperature for the outlet of the prover, to be used if a pressure trans-ducer is not installed or fails. The temperature units are dependent on the entry made for temperature on the System Menu. The range of this entry is from -999 to 999 degrees F or C. Using the +/- key will toggle between the + or - when entering tempera-tures. The units are displayed after the symbol and will either be N = No temperature used, C = Celsius, or F = Fahrenheit.


Prover Inlet Default Pressure


11. In Default Press 0.00 PSI Enter new value 0.00 Enter the default pressure to be used if a pressure transducer is not installed or fails. An entry of 0.0 will disable this feature.

This entry defines the default pressure for the inlet of the prover that when exceeded will cause a pressure alarm. The pressure units are dependent on the entry made for pressure on the System Menu. The range of this entry is from 0 to 99999.99.


Prover Outlet Default Pressure


12. Out Default Press 0.00 PSI Enter new value 0.00 Enter the default pressure to be used if a pressure transducer is not installed or fails. An entry of 0.0 will disable this feature.


MN09041 Issue/Rev. 0.8 (4/03) 115

This entry defines the default pressure for the outlet of the prover that when exceeded will cause a pres-sure alarm. The pressure units are dependent on the entry made for pressure on the System Menu. The range of this entry is from 0 to 99999.99.


Prover Status Output Point


13. Prover Status I/O # 0 Enter new value 0 Enter the digital I/O channel that is assigned to the prover status.

This entry is used to set up or view the digital I/O point that has been configured to monitor the prover status. When the output number is entered the corresponding Digital Input/Output Configuration Menu will appear, allowing the information for this output point to be viewed or changed. (See Digital Input/Output Configuration Section for details).


Prover Pump Output Point


14. Prover Pump I/O # 0 Enter new value 6 Enter the digital I/O channel that is assigned to the prover pump.

This entry is used to define the digital output point that is used to control the prover pump. When the output number is entered the corresponding Digital Input/Output Configuration Menu will appear, allow-ing the information for this output point to be viewed or changed. (See Digital Input/Output Configuration Section for details).


Prover Pump Status Input Point

Prover BI-DI Control I/O Menu Prover #1 - Prover 1

15. Prover Pump Status I/O # 0 Enter new value 0 Enter the digital I/O channel that is assigned to the prover pump status.

This entry is used to set up or view the digital input point that is used to monitor the status of the prover pump. When the input number is entered the corresponding Digital Input/Output Configuration Menu will appear allowing the information for that input point to be viewed or changed. (See Digital Input/Output Configuration Section for details).



116 MN09041 Issue/Rev. 0.8 (4/03)

Unidirectional Prover Detector Switch Time Out


1. Detector Switch Time-Out 10 mins. Enter new value 10 Enter the length of time in minutes to wait before aborting the proving sequence if the first detect switch is not activated. The range is 1 to 99 mins.

This entry is the length of time in minutes that the SyberTrol will wait for the detector switch to be activated. If the first detector switch has not been activated within this period of time, the prove sequence will be aborted. When the first detector switch has been met, the timer will be restarted. The time between the signal from the first detector switch and the second detector switch also must not exceed the value programmed in this code, or the prove will be aborted. The range of this entry is from 1 to 99 minutes.

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range. Sphere Launch Output Point


2. Sphere Launch I/O # 0 Enter new value 6 Enter the digital I/O channel that is assigned to the sphere launch.

This entry defines the digital output point that will be used for the Sphere Launch. When the output point is entered the corresponding Digital Output Configu-ration Menu will appear, allowing the output point to be defined. (See Digital Input/Output Configuration Section for details).


Seal Status Input Point


3. Seal Status I/O # 0 Enter new value 3 Enter the digital I/O channel that is assigned to the seal status.

This entry defines the digital input point that will be used for the Seal Status. When the input point is entered the corresponding Digital Input Configuration Menu will appear, allowing the input point to be defined. (See Digital Input/Output Configuration Section for details).



MN09041 Issue/Rev. 0.8 (4/03) 117

Prover Volume Input Point


4. Prover Volume I/O # 0 Enter new value 7 Enter the digital I/O channel that is assigned to the prover volume.

This entry defines the digital input point that will be used for the Prover Volume. When the input point is entered the corresponding Digital Input Configuration Menu will appear, allowing the input point to be defined. (See Digital Input/Output Configuration Section for details).


Prover Inlet Temperature Input Point



This entry defines the analog input point that will be used for the Prover Inlet Temperature. When the input point is entered the corresponding Analog Input Configuration Menu will appear, allowing the input point to be defined. (See Analog Input/Output Configuration Section for details).




6. Prover Out Temperature I/O # 0 Enter new value 2 Enter the analog I/O channel that is assigned to the prover outlet temperature.

This entry defines the analog input point that will be used for the Prover Outlet Temperature. When the input point is entered the corresponding Analog Input Configuration Menu will appear, allowing the input point to be defined. (See Analog Input/Output Configuration Section for details).



118 MN09041 Issue/Rev. 0.8 (4/03)

Prover Inlet Pressure Input Point



This entry defines the analog input point that will be used for the Prover Inlet Pressure. When the input point is entered the corresponding Analog Input Configuration Menu will appear, allowing the input point to be defined. (See Analog Input/Output Configuration Section for details).





This entry defines the analog input point that will be used for the Prover Outlet Pressure. When the input point is entered the corresponding Analog Input Configuration Menu will appear, allowing the input point to be defined. (See Digital Input/Output Configuration Section for details).





This entry defines the digital output point that will be used for the Prover Status. When the output point is entered the corresponding Digital Output Configuration Menu will appear, allowing the Output point to be defined. (See Digital Input/Output Configuration Section for details).

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range. Prover Pump Output Point




MN09041 Issue/Rev. 0.8 (4/03) 119

This entry defines the digital output point that will be used for the Prover Pump. When the output point is entered the corresponding Digital Output Configura-tion Menu will appear, allowing the output point to be defined. (See Digital Input/Output Configuration Sec-tion for details.)

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range. Prover Pump Status Point



This entry defines the digital input point that will be used for the Prover Pump Status. When the input point is entered the corresponding Digital Input Configuration Menu will appear, allowing the input point to be defined. (See Digital Input/Output Configuration Section for details.)


Small Volume Prover Prover Inlet Temperature Input Point



This entry defines the analog input point that will be used for the Prover Inlet Temperature. When the input point is entered the corresponding Analog Input Configuration Menu will appear, allowing the input point to be defined. (See Digital Input/Output Configuration Section for details.)

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range. Prover Outlet Temperature Input Point


2. Prover Out Temp. I/O # 0 Enter new value 12 Enter the analog I/O channel that is assigned to the prover outlet temperature.


120 MN09041 Issue/Rev. 0.8 (4/03)

This entry defines the analog input point that will be used for the Prover Outlet Temperature. When the input point is entered the corresponding Analog In-put Configuration Menu will appear, allowing the in-put point to be defined. (See Digital Input/Output Configuration Section for details.)


Prover Inlet Pressure Input Point



This entry defines the analog input point that will be used for the Prover Inlet Pressure. When the input point is entered the corresponding Analog Input Configuration Menu will appear, allowing the input point to be defined. (See Digital Input/Output Configuration Section for details.)





This entry defines the analog input point that will be used for the Prover Outlet Pressure. When the input point is entered the corresponding Analog Input Configuration Menu will appear, allowing the input point to be defined. (See Digital Input/Output Configuration Section for details.)

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range. Prover Status Output Point




MN09041 Issue/Rev. 0.8 (4/03) 121

This entry defines the digital output point that will be used for the Prover Status. When the output point is entered the corresponding Digital Output Configura-tion Menu will appear, allowing the output point to be defined. (See Digital Input/Output Configuration Sec-tion for details.)


Prover Pump Output Point



This entry defines the digital output point that will be used for the Prover Pump. When the output point is entered the corresponding Digital Output Configuration Menu will appear, allowing the output point to be defined. (See Digital Input/Output Configuration Section for details.)


Prover Pump Status Point



This entry defines the digital input point that will be used for the Prover Pump Status. When the input point is entered the corresponding Digital Input Configuration Menu will appear, allowing the input point to be defined. (See Digital Input/Output Configuration Section for details.)

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range. SVP Communications Port


9. SVP Comm. Port No Comm Port Enter new value 1. No Comm Port 2. Comm Port #1 3. Comm Port #2 4. Comm Port #3 Select the communications port to be used for communications with Smith Meter’s Small Volume Prover.


122 MN09041 Issue/Rev. 0.8 (4/03)

This entry allows the operator to select the commu-nications port that will be used with the Small Vol-ume Prover.

1 - No Comm Port 2 - Comm Port #1 3 - Comm Port #2 4 - Comm Port #3 Additional parameters for SVP Communications must be programmed for the selected communication port in the Communications Menu.

Warning Warning: This comm port has already been assigned another function.


Master Meter Control I/O Menu Prover Inlet Temperature Input Point



This entry defines the analog input point that will be used for the Prover Inlet Temperature. When the input point is entered the corresponding Analog Input Configuration Menu will appear, allowing the input point to be defined. (See Analog Input/Output Configuration Section for details.)




2. Prover Out Temp. I/O # 0 Enter new value 11 Enter the analog I/O channel that is assigned to the prover outlet temperature.

This entry defines the analog input point that will be used for the Prover Outlet Temperature. When the input point is entered the corresponding Analog Input Configuration Menu will appear, allowing the input point to be defined. (See Analog Input/Output Configuration Section for details.)

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range. Prover Inlet Pressure Input Point



This entry defines the analog input point that will be used for the Prover Inlet Pressure. When the input point is entered the corresponding Analog Input Configuration Menu will appear, allowing the input point to be defined. (See Analog Input/Output Configuration Section for details).


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This entry defines the analog input point that will be used for the Prover Outlet Pressure. When the input point is entered the corresponding Analog Input Configuration Menu will appear, allowing the input point to be defined. (See Digital Input/Output Configuration Section for details).





This entry defines the digital output point that will be used for the Prover Status. When the output point is entered the corresponding Digital Output Configura-tion Menu will appear, allowing the output point to be defined. (See Digital Input/Output Configuration Sec-tion for details).

Warnings Critical: Duplicate configuration assignments are not allowed. Critical: Selected I/O point is not currently configured for this function. Fatal Warning Fatal: Entry is out of specified range. Prover Pump Output Point



This entry defines the digital output point that will be used for the Prover Pump. When the output point is entered the corresponding Digital Output Configuration Menu will appear, allowing the output point to be defined. (See Digital Input/Output Configuration Section for details).



124 MN09041 Issue/Rev. 0.8 (4/03)

Prover Pump Status Point



This entry defines the digital input point that will be used for the Prover Pump Status. When the input point is entered the corresponding Digital Input Configuration Menu will appear, allowing the input point to be defined.


Master Meter Pulse Count


9. Master Meter Pulse Count 0 Enter new value 10000 Enter the number of master meter input pulses to count and compare to the meter being proved.

This entry selects the number of master meter input pulses to count and compare to the meter being proved. The range of this entry is 0 through 99999.


Prover Method Menu

Prover Methods Menu Prover #1 - Prover 1

1. Round Trips per Prove 0 2. Repeatability #1 0 3. Repeatability Tolerance #1 0.00% 4. Repeatability #2 0 5. Repeatability Tolerance #2 0.00% 6. Group Entry 7. Save all Trips No 8. Meter Factor Method Avg Data

The Prover Methods Menu is used to set up the number of round trips per prove, two sets of repeatability parameters and an entry for setting up groups.

Round Trips per Prove

Prover Methods Menu Prover #1 – Prover 1

1. Round Trips per Prove 0 Enter new value 2 Enter the maximum number of round trips to achieve repeatability of pulses. The range of this entry is 2 to 99.

This parameter defines the maximum number of round trips that will be run while attempting to collect repeatability data. This parameter is used when running consecutive or progressive consecutive proves. Fatal Warning Fatal: Entry is out of specified range.


MN09041 Issue/Rev. 0.8 (4/03) 125

Prove Repeatability #1


2. Repeatability #1 0 Enter new value 3 Enter the number of consecutive round trips whose pulses are within the repeatability tolerance. Range for this entry is 1 to 10.

This code allows the entry of the required number of consecutive round trips whose pulses are within the repeatability tolerance #1.

Fatal Warning Fatal: Entry is out of specified range. Prove Repeatability Tolerance #1


3. Repeatability Tolerance #1 0.00% Enter new value 1.00% Enter the pulse deviation limit as a percent value.

This code allows the entry of the maximum pulse deviation allowed in the programmed number of consecutive round trips for repeatability #1. A typical tolerance is 0.05%. The range of this entry is from 0.00 to 99.99 percent.


Prove Repeatability #2


4. Repeatability #2 0 Enter new value 5 Enter the second number of consecutive round trips whose pulses are within the repeatability tolerance if the first requirement isn’t met (Progressive Consecutive proving).

This code allows the entry of the required number of consecutive round trips whose pulses are within the repeatability tolerance #2. The second set of repeatability/tolerance parameters is used in the progressive consecutive proving method. The range of this entry is 1 to 10 trips.

Fatal Warning Fatal: Entry is out of specified range. Prove Repeatability Tolerance #2


5. Repeatability Tolerance #2 0.00% Enter new value 1.00% Enter the second percent pulse deviation limit if the first pulse deviation isn’t met (Progressive Consecutive proving).

This code allows the entry of the maximum desired pulse deviation allowed in the second programmed number of consecutive round trips. The range of this entry is from 0.00 to 99.99 percent. For example, parameters may be programmed to allow five consecutive trips within 0.05% repeatability, or 10 trips within 0.08% repeatability.


126 MN09041 Issue/Rev. 0.8 (4/03)


Group Setup Menu

Group Setup Menu Prover #1 - Prover 1

1. Number of Groups 0 2. Number of Runs 0

1

These entries are used in the Groups method of proving for the maximum number of groups to runs and the number of runs to average for each group.

Number of Groups

Group Setup Menu Prover #1 – Prover 1

1. Number of Groups 0 Enter new value 5 Enter the maximum number of groups to achieve repeatability of pulses. Range for this entry is 1 to 99.

This entry is used to set up the maximum number of groups of runs that will be run during the proving cycle. This parameter is similar to the Round Trips per Prove parameter used for consecutive and progressive consecutive proving.


Number of Runs


2. Number of Runs 0 Enter new value 5 Enter the number of runs per proving group. Range for this entry is 1 to 10.

This entry is used to define the number of runs that will be made for each group during the proving cycle. This data is then averaged, with the average value serving as a single data item in the repeatability check.

Fatal Warning Fatal: Entry is out of specified range. Save All Trips


7. Save All Trips No Select new value 1. No 2. Yes Enable saving all trips in a prove including the non-repeatable trips. Note that this reduces the maximum number of round trips to ten.

This entry is used to indicate whether to save all prover trips, or only those that are repeatable. Select "No" to save only repeatable trips, or "Yes" to save all.


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Meter Factor Method


8. Meter Factor Method Avg Data Select new value 1. Avg Data 2. Avg Mtr Factor Select the method for calculating the meter factor and determining repeatability.

This entry is used to select the method used for cal-culating the new meter factor. If the average data method is selected, the data from all trips will be av-eraged to produce a single meter factor. If the aver-age meter factor method is selected, the data from each trip will be used to create a meter factor and the resulting meter factors will be averaged to pro-duce the final meter factor.

Section X – Communications

128 MN09041 Issue/Rev. 0.8 (4/03)

Communications


1. I/O Configuration Menu 2. System Setup Menu 3. Skid Setup Menu 4. Meter Setup Menu 5. Product Setup Menu 6. Prover Setup Menu 7. Communications Menu 8. Security menu 9. Diagnostic Menu 10. Valve Setup Menu 11. Exit Without Changes

7

Selecting "7. Communications Menu" from the Main Program Mode Menu and pressing ENTER will display the menu for setting up SyberTrol Communications.

Communications Menu

Communications Menu

1. Comm Port #1 Menu Comm 1 2. Comm Port #2 Menu Comm 2 3. Comm Port #3 Menu Comm 3 4. Comm Port #4 Menu Comm 4 5. Aux. Comm Port Menu 6. Unit Communication Address 1 7. Shared ISC Address

1

This menu when selected will display the communications ports and communications address that can be configured.

Port Structure

Communications Port 1 Menu

1. Comm Protocol Report Out 2. Baud Rate 300 Baud 3. Data Format 7 Bits-Even Parity 4. Communications ID Comm 1 5. Comm. Handshake No Handshaking

1

These entries are used to set the communications port up to operate with various external equipment. Each of the three ports is set up independently as to the following:

1. Communications Protocol 2. Baud Rate 3. Data Format 4. Communications ID 5. Communications Handshaking Protocol Type


1. Comm Protocol Report Out Select new value 1. No Communications 2. Report Out 3. Display Out 4. Smith SVP Comm 5. Prover Control 6. Smith ASCII LRC 7. Smith ASCII CR 8. Smith Binary 9. Modbus 10. Inter SyberTrol Enter the type of communications that will be used on this port.


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This entry sets the type of communications that the Comm Port will be used for. The various types of communications are as follows: 1 - No Communications 2 - Report Out 3 - Display Out – Comm 4 Only 4 - Smith SVP Communications 5 - Prover Control 6 - Smith ASCII LRC 7 - Smith ASCII CR 8 - Smith ASCII Binary 9 - Modbus 10 - Inter SyberTrol* - Auxiliary Comm Port Only *Rev. 11 and above Note: If Inter SyberTrol communications is selected, the baud rate and data format are programmed internally and are not available as user selections. Warning Critical: Address must not be zero if a Smith protocol is selected. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications. Baud Rate


2. Baud Rate 9600 Baud Select new value 1. 600 Baud 2. 1200 Baud 3. 2400 Baud 4. 4800 Baud 5. 9600 Baud 6. 19200 Baud 7. 38400 Baud Select the Baud rate for this communications port.

This entry is used to select the baud rate at which the EIA-232/485 communications port is to communicate with other devices. The following baud rates are available.

1 - 600 Baud 2 - 1200 Baud 3 - 2400 Baud 4 - 4800 Baud 5 - 9600 Baud 6 - 19200 Baud 7 - 38400 Baud Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications. Data Format


3. Data Format 7 Bits-Even Parity Select new value 1. 7 Bits-Even Parity 2. 7 Bits-Odd Parity 3. 8 Bits-No Parity Select the data format: number of bits per character and type of parity.

This parameter is used to select the data format of the EIA-232/485 communication port. Selections are as follows: 1 - 7 Bits Even Parity 2 - 8 Bits Odd Parity 3 - 8 Bits No Parity Fatal Warning Fatal: Entry is out of specified range.


130 MN09041 Issue/Rev. 0.8 (4/03)

Communications Port ID

Communications Port 1 Menu 4. Communications ID Display Enter new value Comm 01 F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’I

Enter the identification name for this communication port.

This nine-character alphanumeric entry is the identification name for the communications port.

Communications Handshake


5. Comm Handshake No Handshaking Select new value 1. No Handshaking 2. XON/XOFF 3. RTS/CTS Enter the handshaking that will be used between the SyberTrol and other communicating devices.

This entry assigns the handshaking that will be used between the SyberTrol and the printer on which reports are produced. Selections are as follows:

1 - No Handshaking 2 - XON/XOFF 3 - RTS/CTS* Note: *Only for Comm Port 1. Fatal Warning Fatal: Entry is out of specified range.* *Will be displayed only through communications.

Communications Address

Communications Menu

6. Unit Communication Address 0 Enter new value 02 Enter a unique communication address to identify this unit.

This code is used to assign a unique identity to the SyberTrol for use during remote proving or when multiple SyberTrols are being controlled by a supervisory computer system. The address range is from 01 to 99 with 00 being an invalid address.

Warning Critical: Address must not be zero if a Smith protocol is selected. Fatal Warning Fatal: Entry is out of specified range. Shared ISC Address

Communications Menu

7. Shared ISC Address 0 Enter new value 02 Enter a unique communication address to identify this unit.

This address is used only in a redundant system. It allows a supervisory system to send data or a command to both SyberTrols with a single command. When a communications command is sent to the shared address, both SyberTrols receive the command, but only the primary SyberTrol sends a response. The secondary SyberTrol sends an acknowledgement to the primary, indicating that it also received the command. If the primary does not receive the acknowledgement within a certain time period, an alarm is set.


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When configuring SyberTrols for redundancy, the operator should not acknowledge the "Resync in Progress" alarm. This alarm indicates that the proc-ess of synchronizing has not been successfully completed. If the alarm is acknowledged, an opera-tor may not realize that the two SyberTrols are not yet in sync due to the suppression of the alarm popup. If the operator does choose to acknowledge the alarm, he must check the active alarms for a "Resync in Progress" and verify that none exists to know that redundancy is working properly. Note that this alarm exists on the secondary.

Note: This feature applies only to Rev. 11 and above firmware. Note: Enter the same address in both the primary and secondary units of a redundant pair Note: This address is to be used to send data or commands to the SyberTrol, never to read data from a SyberTrol.

Communications Port 5


1. Comm. Protocol No Communication Select new value 1. No Communications 2. Report Out Enter the type of communications that will be used for this port.

Communications Port 5 is limited to the two functions shown above. Select either "1. No Communications" or "2. Report Out."

Section XI – Security

132 MN09041 Issue/Rev. 0.8 (4/03)

Security



8

Selecting "8. Security Menu" from the Main Program Mode Menu and pressing ENTER will display the menu for setting up security for the SyberTrol.

Up to five security levels may be created and each security level may have an access code and/or a digital input assigned. Each parameter in the database may then be assigned a security level and may not be changed unless the security restrictions have been met. This will allow access to sensitive parameters, such as those that affect volume accuracy, to be restricted to the degree of security desired. NOTE: The operator must have the highest security level programmed in order to change any data on the security menu.

Security Menu

1. Security level #1 Menu Prg Mode 2. Security Level #2 Menu W&M 3. Security Level #3 Menu Sys Admin 4. Security level #4 Menu 5. Security Level #5 Menu 6. Set Parameter Security 7. Run Mode Security No Security

1

From the Security Menu, each of the five levels can be selected for programming. The Set Parameter Security option can be used if the operator wants to set all parameters to the same security level.

Security Level Menus

Setup Menu Security Level #1 - Prg Mode

1. Name Prg Mode 2. Passcode 0 3. Digital I/O Pt 0 4. Previous Level Required No

1

Selecting one of the security levels and pressing ENTER will allow the operator to program the name, passcode, and digital I/O point, and indicate whether the previous level of security is also required to enter the level being programmed.

From the security level menus the operator can select and program the parameters associated with each level. To make a selection, place the cursor in front of the desired parameter and press ENTER.

Security Name

Setup Menu Security level #1 - Prg Mode

1. Name Prg Mode Enter new value Prg Mode F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ I

Enter a nine character alphanumeric security level ID.

This is the user-defined nine-character alphanumeric name given to the security level that corresponds to the level number assigned.


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Passcode


2. Passcode 0 Enter new value 0 Enter a 4-digit passcode for this level.

A passcode may be required to gain access to a set of parameters assigned to a certain security level. If more than one security level is defined, passcode entry may be used to determine which set of parameters is eligible for modifications. A one-digit zero entry removes the access code requirement.

Resetting Passcode To reset the passcodes that are programmed in the SyberTrol, Switch 1 on the back of the computer board must be in the up position. Putting the switch in the up position and powering the SyberTrol down and then back up will reset all passcodes to 0 and will also reset all I/O points that are associated with security to “Not Assigned”.

Caution: Do not leave the switch in the up position. If left in the up position the passcodes and security switches will be reset every time the unit goes through a power cycle. When the passcode has been changed put Switch 1 in the down position.

Digital Input Point


3. Digital I/O Pt 0 Enter new value 0 Enter the digital I/O channel that is assigned to this security level.

This entry allows the operator to assign the digital input point being used to restrict access to this secu-rity level. Digital inputs may be used instead of or in addition to passcodes.

Previous Level


4. Previous Level Required No Select new value 1. No 2. Yes Select whether or not the previous security level’s I/O point is required for this level.

Security levels may be programmed so that they require the previous level. If previous levels are required, the priority goes from the lower security level ID number to the higher so that any parameter assigned a security level (ID number) must meet the security requirements of that level as well as all lower levels if so programmed. Selections are as follows:

1 - No 2 - Yes

Set Security

Security Menu

1. Security level #1 Menu Prg Mode 2. Security Level #2 Menu W&M 3. Security Level #3 Menu Sys Admin 4. Security level #4 Menu 5. Security Level #5 Menu 6. Set Parameter Security

1

This parameter allows assigning a defined security level to all Program Mode parameters in the system. It does not include Run Mode parameters or any menus.


134 MN09041 Issue/Rev. 0.8 (4/03)

When the ENTER key is pressed a pop up menu will appear.

Select Security Level 1. Prg. Mode 2. W & M 3. Syst. Admin. 4. 5.

This menu will display the names the operator assigned to all the security levels that are configured in the system. Moving the cursor to one of these selections and pressing ENTER will activate another popup menu.

Warning Security levels for all parameters will

be replaced!

Are you Sure? 1. No 2. Yes

If “No” is selected the unit will return to the Security Menu with no changes being made. If “Yes” is selected the security level of all parameters will be changed to the new security level and the unit will return to the Security Menu.

Run Mode Security

Security Menu

7. Run Mode Security No Security Select new value 1. No Security 2. Control Only 3. Full Security Select 1) no security required to access main menu/run mode, 2) security on control operations only (viewing run time data is allowed), or 3) security on control and viewing of data (valid passcode required to leave logo screen).

This parameter is used to indicate the level of secu-rity required to access Run Mode. Choose from one of three options: No Security (anyone may access Run Mode); Control Only (anyone may view run time data, but no modifications to any parameters are permitted); Full Security (only qualified personnel with valid passcodes may access Main Menu or Run Mode).

Assigning Security Levels To assign a security level to an individual parameter in the program mode the operator must be at the screen where the parameter can be changed. At this screen if the ALT key is pressed a popup screen will appear that allows the operator to select the security level for that parameter. Once a level has been set for the parameter it cannot be changed unless all the conditions for that security level have been satisfied, such as being at the assigned I/O point and entering the access code. The first example that will be described will be assigning the security level and the second example will be changing a parameter that has a security level or levels assigned.

Example 1 - Assigning the Security Level 1. The SyberTrol must be at the screen where the

parameter can be changed.


2. K Factor 4200.00 Enter new value 4200.00 Enter the number of pulses required per one unit of registration.


MN09041 Issue/Rev. 0.8 (4/03) 135

2. Press the ALT key. A pop-up display, similar to that shown below, will appear.

Select security level required to modify:

K Factor

1. Prg Mode 2. W & M Mode 3. Admin

3. Select the level of security for this parameter

and press ENTER. When the program mode is exited the new security level will be activated.

Example 2 - Changing the Security Level When entering the SyberTrol program menu, the security level required to change a parameter must be used for entry. If the proper security level is not used, a popup screen will appear indicating that the correct security level was not used.

Access Denied

This parameter cannot be modified at the current security access level.

Press any key.

In order to change the parameter the program mode has to be exited and then reentered using the cor-rect security level. This ensures that sensitive pa-rameters cannot be changed without the proper se-curity level.

Section XII – Diagnostics

136 MN09041 Issue/Rev. 0.8 (4/03)

Diagnostics



9

From the main Program Mode Menu diagnostics is selected by moving the cursor to selection "9. Diagnostics Menu" and pressing ENTER. This will display the Diagnostics Module Menu in which three options exist, one for each of the SyberTrol boards.

Diagnostics Module Selection

1. FIOM (Input/Output Module) 2. FCPB (Main Processor Module) 3. FCDB (Display Board Module)

FIOM Diagnostics (Input/Output Board) Selecting “1. FIOM (Input/Output Module)” and pressing ENTER will display the diagnostics for the Input/Output module.

FIOM Diagnostics Test Menu

1. Analog I/O Test 2. Digital I/O Test 3. Pulse Input Test 4. Factory Analog Test - INPUT 5. Factory Analog Test - OUTPUT 6. Factory Digital Test - INPUT 7. Factory Digital Test - OUTPUT 8. Canbus Test 9. Watchdog Reset Test 10. Powerup Diagnostics

2:25:41 PM Jun 27, 2000

Analog I/O Test Selecting 1. Analog I/O Test and pressing ENTER will display the status of the twelve analog I/O points in the SyberTrol.

Analog I/O Status

I/0# I/O ID Eng. Value Analog Value

I #1 Temp 312 0.00 F 0.0000 mA I #2 Press 312 0.00 PSI 0.0000 mA O #3 Valve 312 0.0000 mA I #4 Temp 313 0.00 F 0.0000 mA I #5 Press 313 0.00 PSI 0.0000 mA O #6 Valve 313 0.0000 mA I #7 PrvInTemp 0.00 F 0.0000 mA I #8 PrvOutTmp 0.00 F 0.0000 mA #9 Spare I/O I #10 PrvInPres 0.00 PSI 0.0000 mA I #11 PrvOutPrs 0.00 PSI 0.0000 mA I #12 DensPress 0.00 PSI 0.0000 mA

L/F-Lb/Ft3, K/M=Kg/M3, K/C=Kg/Cm2

F1 to set an I/O point.

This screen is used to view the current status of the inputs and will allow the operator to change the value of an output as long as it is not programmed for valve operation. If programmed as a value the value programmed on the screen will be overridden by what is already programmed in the FIOM module. Pressing function key F1 will display the screen to set the new analog value.

Analog I/O Point Set

Enter I/O Point to set 0 Enter Analog Value 0.00

If an input is entered on this screen, the SyberTrol will display a message that the I/O point is either an input or is not assigned.


I/O point entered is assigned as an input or is not assigned presently. Press clear to continue.


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Pressing the CLEAR key will return the display to the screen where the output values can be changed. Entering the number of an output (in this example, 6) and pressing ENTER will move the cursor to "Enter Analog Value" where the operator can enter a new value or a test value for the output as long as it is not a value output.


Enter I/O Point to set 6 Enter Analog Value 16.00

Pressing ENTER will send the change to the FIOM board which in turn will send the information back to the diagnostic screen indicating that the output has been changed to the new value. Pressing CLEAR will return the display to the "FIOM Diagnostic Test Menu."

Digital I/O Test Selecting 2. Digital I/O Test and pressing ENTER will display the status of the thirty-two digital I/O points in the SyberTrol.

Digital I/O Status

I/0# I/O ID Stat I/O# I/O ID Stat

I: 1 PrvDet Sw Off I:17 Prd Det 1 Off O: 2 Prv 4WFwd Off I:18 Prd Det 2 Off O: 3 Prv 4WRev Off I:19 Prd Det 3 Off I: 4 PrvFwd St Off I:20 Prd Det 4 Off I: 5 PrvRev St Off :21 Spare I/O I: 6 Seal Stat Off :22 Spare I/O : 7 Spare I/O :23 Spare I/O : 8 Spare I/O :24 Spare I/O : 9 Spare I/O :25 Spare I/O :10 Spare I/O :26 Spare I/O :11 Spare I/O :27 Spare I/O :12 Spare I/O :28 Spare I/O :13 Spare I/O :29 Spare I/O :14 Spare I/O :30 Spare I/O :15 Spare I/O :31 Spare I/O :16 Spare I/O :32 Spare I/O F1 to toggle an IO pt, F2 to toggle all.

This screen shows the I/O point number, the ID that is programmed in the unit for the I/O point, and the status of the I/O point (i.e., if it is on [closed] or off [open]. Pressing the function key F1 will display a screen where the operator can enter an I/O point to toggle (change its current status), except for the I/O assigned to the valve outputs.

I/O Pt. Toggle Selection

Enter I/O Point to Toggle 6

If an input is entered to toggle the SyberTrol will display a screen with the message that the I/O point is either an input or is not assigned.

Pressing CLEAR will return the display to the screen where the digital outputs can be toggled. Entering the number of an output and pressing ENTER will send the message to the FIOM board to change the state of that output. When changed, the FIOM will send the message back to the diagnostic screen changing the status of that I/O point.


I/O point entered is assigned as an input or is not assigned presently.

Press clear to continue.

Pressing the function key F2 will send the message to the FIOM board to change the state of all of the digital outputs. The FIOM will change the state and update the diagnostic screen indicating that they have been changed.

Pulse Input Test Selecting "3. Pulse Input Test" and pressing ENTER will display a screen that shows the meter inputs that are configured, the forward pulses being received, the reverse pulses received, and the errors that have been received if dual pulse is being used. Pressing function key F1 will clear all the pulse counters.

Pulse Input Test

ID/Pulses Forward Reverse Error

FQT 312 0 0 0 FQT 313 0 0 0 FQT 1003 0 0 0 FQT 1004 0 0 0 Densitmtr 0 0 0

N/A 0 0 0

Press F1 to clear pulse counters.


138 MN09041 Issue/Rev. 0.8 (4/03)

Pressing CLEAR will return the display to the “FIOM Diagnostic Test Menu.”

Diagnostic Test Menu

FIOM Diagnostics Test Menu

1. Analog I/O Test 2. Digital I/O Test 3. Pulse Input Test 4. Factory Analog Test - Input 5. Factory Analog Test - Output 6. Factory Digital Test - Input 7. Factory Digital Test - Output 8. Canbus Test 9. Watchdog Reset Test 10. Powerup Diagnostics

2:25:41 PM Jun 27, 2000

Selections 4, 5, 6, and 7 are for factory testing only and should not be used in the field.

CANbus Test Selecting “8. Canbus Test” and pressing ENTER will display the status of CANbus communications. It will display the number of times that the computer board transmitted to the FIOM board and the number of times that the FIOM received messages from the computer board. When CANbus communications is operating these two counters should be constantly updating. Also displayed is the time out count, which is the number of counts received while the CANbus is down. The repeated messages are those that were received from the same ID. The error count, number of times incorrect messages were received, and the data overrun count (which is number of times data was overwritten in the CANbus chip) are also displayed.

Canbus Diagnostics

Transmit Telegram ID 33 Receive Telegram ID 34 Timeout Count 53627 Repeated Rx Telegram 1 Error Count 6 Data Overrun Count 0

Press F1 to clear counters.

Pressing the function key F1 will clear the counters and restart the diagnostic counters at 0. Pressing CLEAR will return the SyberTrol to the FIOM Diag-nostic Test Menu.

Watchdog Reset Test Selecting “9. Watchdog Reset Test” and pressing ENTER on the keypad will display a screen warning that all current batch data on the FIOM board will be lost if the watchdog test is continued.

Watchdog Test

Warning

By performing this test all current batch data will be lost.

Press ENTER to continue with test or CLEAR to exit.

Powerup Diagnostics Selecting “10. Powerup Diagnostics” and pressing ENTER on the keypad will display a screen warning that the system will reset and that no data or parameters will be lost if the powerup test is continued.

Powerup Diagnostic Test

WARNING

By performing this test, the system will reset and no data or parameters will be lost. Press ENTER to continue with test or

CLEAR to exit.


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FCPB Diagnostics (Main Processor Board) Selecting “2. FCPB (Main Processor Module)” on the Diagnostic Module Selection Menu and pressing ENTER will display the diagnostics that are available on the Main Processor module.

FCPB Diagnostics Test Menu

1. Communications Test 2. Default Test Database Init. 3. Factory Database Initialization 4. Field Test Database Init. 5. Reset Batch Numbers 6. Watchdog Reset Test 7. Powerup Diagnostics 8. Boolean/Algebraic Processing 9. Toggle Default/User Literals 10. Non-Resettable Totals 11. Digital I/O Test 12. Factory Digital I/O Test – Input 13. Factory Digital I/O Test – Output 14. Pulse Densitometer Control

4:37:04 PM Jun 27, 2000

Communications Test Selecting “1. Communications Test” from the menu allows the operator to run a diagnostic on any of the communication ports on the SyberTrol. Pressing ENTER with the cursor in front of selection one will activate a popup screen where the operator can select the communications port to be tested.

FCPB Communications Test

1. Comm Port 1 (Channel A) 2. Comm Port 2 (Channel B) 3. Comm Port 3 (Channel C) 4. Comm Port 4 (Channel D) 5. Aux. Port (Channel E)

Select the communication port to use for this test. Connect the

Transmit to the Receive of the comm port selected. Press ENTER when

ready!!

As indicated on the display, for this test to be com-pleted, the transmit and receive terminals on the comm port must be connected. When they are con-nected press ENTER to start the test. The test will display the characters that are being transmitted on the transmit line and also the characters as they are received back into the instrument.

FCPB Communications Test Comm Port 1 (Channel A)

Transmit Character A

Received Character A

Press CLEAR to stop test.

Pressing CLEAR will end the test and return the unit to the FCPB Diagnostic Test Menu. The test is identical for the three ports. The only difference in the display will be the Comm Port number and the channel designation.

Default Test Database Initialization Selecting “2. Default Test Database Init.” and pressing ENTER will display a screen that warns the operator that if ENTER is pressed, all the parameters in the unit will be set to the default values.

Default Test Database Init

By running this diagnostic, all program code parameters will be changed. Press ENTER to continue

test or CLEAR to exit.

Pressing the CLEAR key on the keypad will return the unit to the FCPB Diagnostic Test Menu without making any changes to the parameters. Pressing ENTER will also return the unit to the FCPB Diagnostic Test Menu but the parameters will be initialized to the values in the table. This database was put in the unit for factory test purposes only. Note: This selection is not available after Release 10.


140 MN09041 Issue/Rev. 0.8 (4/03)

Factory Database Initialization Selecting “3. Factory Database Initialization” and pressing ENTER will display a screen that warns the operator that if ENTER is pressed, all the parameters in the unit will be reset to the default values as they were shipped from the factory. Caution: Running this diagnostic will change all parameters that have been programmed previously.

Factory Database Initialization

By running this diagnostic, all program code parameters will be changed and all current and past batch data will be lost. Press

ENTER to continue or CLEAR to exit.

Pressing the CLEAR key on the keypad will return the unit to the FCPB Diagnostic Test Menu without making any changes to the parameters. Pressing ENTER will also return the unit to the FCPB Diagnostic Test Menu but the parameters will be initialized to the factory default values. This initialization process was put in the unit to reset all parameters after factory testing.

Field Test Database Initialization Selecting “4. Field Test Database Init.” and pressing ENTER will display a screen that warns the operator that if ENTER is pressed, all the parameters in the SyberTrol will be set to the default values that were configured for field testing. Caution: Running this diagnostic will change all parameters that have been previously programmed in the unit.

Field Test Database Init

By running this diagnostic, all program code parameters will be changed. Press ENTER to continue

or CLEAR to exit.

Pressing CLEAR on the keypad will return the unit to the FCPB Diagnostic Test Menu without making any changes to the parameters. Pressing ENTER will also return the unit to the FCPB Diagnostic Test Menu, but the parameters will be initialized to the test site values.

Reset Batch Numbers Selecting “5. Reset Batch Numbers” and pressing ENTER will reset the current batch number to zero.

Caution: Do not press ENTER if you do not want to reset the batch numbers. If ENTER is pressed a display will be activated.

Batch Numbers were reset.

Press CLEAR to continue.

Caution: The batch numbers when reset will be set to zero if the unit is not currently flowing. If the unit is operating the batch number will be set to one.

Watchdog Reset Test Selecting “6. Watchdog Reset Test” and pressing ENTER on the keypad will display a screen warning the operator that all the current batch data stored on the FCPB board will be lost if the watchdog test is continued.

Watchdog Test

WARNING

By performing this test all current batch data will be lost. Press ENTER to continue with test

or CLEAR to exit.


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Powerup Diagnostics Selecting “7. Powerup Diagnostics” and pressing ENTER on the keypad will display a screen warning the operator that the system will reset and go through the powerup diagnostics. No data or parameters will be lost if the powerup test is continued.

Powerup Diagnostics Test

WARNING

By performing this test, the system will reset and no data or parameters will be lost. Press ENTER to continue with test or

CLEAR to exit.

Pressing CLEAR will return the unit to the FCPB Diagnostics Test Menu. Pressing ENTER will cycle the SyberTrol through its powerup diagnostics and will return the unit to the initial screen of the unit.

Boolean/Algebraic Processing Selecting "8. Boolean/Algebraic Processing” and pressing ENTER will display the following list of the Boolean/Algebraic-related diagnostic displays that can be viewed by the operator.

Boolean/Algebraic Processing

1. User-defined Boolean Registers 2. User-defined Algebraic Registers 3. Boolean Equation Results 4. Algebraic Equation Results 5. General Purpose Timers Yield Time 0 Boolean Processing Time 0 Algebraic Processing Time 0

User-defined Boolean Registers Selecting “1. User-defined Boolean Registers” and pressing ENTER will display the first 64 register values (True or False) of the variables being used in the Boolean Equations.

There are two screens to the User-defined Boolean Registers. The first screen shows the first 64 regis-ters and the second screen shows the last 36. These register values will either be a 0 (False) or a 1 (True), depending on the variable set up by the op-erator.

User-Defined Boolean Registers

1. 1 17. 0 33. 0 49. 0

2. 0 18. 1 34. 0 50. 0

3. 1 19. 1 35. 0 51. 0

4. 0 20. 0 36. 0 52. 0

5. 0 21. 0 37. 0 53. 0

6. 0 22. 0 38. 0 54. 0

7. 1 23. 0 39. 0 55. 0

8. 1 24. 0 40. 0 56. 0

9. 0 25. 0 41. 0 57. 0

10. 0 26. 1 42. 0 58. 0

11. 0 27. 0 43. 0 59. 0

12. 0 28. 0 44. 0 60. 0

13. 0 29. 0 45. 0 61. 0

14. 0 30. 0 46. 0 62. 0

15. 0 31. 0 47. 0 63. 0

16. 0 32. 1 48. 0 64. 0


User-defined Algebraic Registers Selecting “2. User-defined Algebraic Registers” and pressing ENTER will display the first 32 register values being used in the Algebraic Equations.

There are four screens for the User-defined Algebraic Registers. The first three screens each display 32 registers, and the fourth screen displays 4 registers. These registers display the current values of the variables in user-defined double precision registers. These registers are read only and are to be used to check the values of the variables that have been set up and/or downloaded from the SyberMate.


142 MN09041 Issue/Rev. 0.8 (4/03)

User-Defined Algebraic Registers 1. 50.924 17. 952.356 2. 98.325 18. 0.000 3. 0.000 19. 5349 4. 0.000 20. 0.000 5. 66.532 21. 0.000 6. 2.000 22. 0.000 7. 0.000 23. 0.000 8. 0.000 24. 0.000 9. 2.125 25. 0.000 10. 59000 26. 0.000 11. 21956.231 27. 0.000 12. 0.000 28. 0.000 13. -515.538 29. 0.000 14. 0.000 30. 0.000 15. 1.892 31. 0.000 16. -53.490 32. 0.000


Boolean Equation Results Selecting “3. Boolean Equation Results” and pressing ENTER will display the results (True or False) of the first 56 Boolean Equations.

Boolean Equation Results 1. T 15. 0 29. F 43. F 2. T 16. F 30. D 44. D 3. F 17. F 31. T 45. D 4. F 18. F 32. D 46. T 5. T 19. T 33. F 47. T 6. D 20. T 34. T 48. T 7. D 21. T 35. T 49. T 8. T 22. T 36. F 50. F 9. F 23. T 37. F 51. F 10. T 24. T 38. F 52. F 11. T 25. F 39. F 53. D 12. T 26. T 40. D 54. F 13. D 27. D 41. T 55. T 14. D 28. D 42. T 56. D

T=True, F=False, D=Disabled Press arrow keys to see more

Press F1 to disable/enable equation

There are four screens for the Boolean equation re-sults, with a total of 200 results that will indicate whether the Boolean equation is True (T), False (F) or disabled. From these diagnostic screens, the Boolean Equations can be disabled if they are not required for operation. Pressing the function key “F1” will display the following popup screen.

Toggle Equation On/Off

Enter Equation #

Entering the equation number that is to be disabled and pressing ENTER will change the status on the screen from either T (True) or F (False) to D (Disabled). The equation from that point until enabled will not be active. To enable an equation the same process is followed, except that the screen will indicate that the equation is D (Disabled), and entering the equation number will enable that equation.

Algebraic Equation Results Selecting “4. Algebraic Equation Results” and pressing ENTER will display the first 28 equation results.

User-Defined Algebraic Registers 1. 1.000 15. 2. 1.000 16. 3. 1.000 17. 4. 0.000 18. 5. 1.000 19. 6. 1.000 20. 7. 0.000 21. 8. 0.000 22. 9. 23. 10. 24. 11. 25. 12. 26. 13. 27. 14. 28.

D=Disabled Press arrow keys to see more

Press F1 to disable/enable equation


MN09041 Issue/Rev. 0.8 (4/03) 143

There are six screens for the algebraic equation re-sults, for a total of 150 results that will display the value of the algebraic equation. These screens will either indicate the value of the equation, or will have a “D” displayed to indicate that the equation has been disabled. An equation can be disabled by pressing the function key “F1”, which will display the following screen.

Toggle Equation On/Off

Enter Equation #

Entering the algebraic equation number that is to be disabled and pressing ENTER will change the status on the screen from the current value to a “D” (disabled). The equation will not be active from that point until it is re-enabled by reversing the process.

General Purpose Timers Selecting ‘5. General Purpose Timers’ and pressing ENTER will display the 16 general purpose timers that can be activated and used through the Boolean and/or algebraic equations.

General Purpose Timers

1. 32546 2. 4982 3. 6378 4. 60123 5. 125 6. 201 7. 89 8. 251 9. 23 10. 21 11. 32 12. 18 13. 2 14. 3 15. 8 16. 0

The timers are incremented at the following inter-vals:

Timer Numbers Resolution Range

1-4 0.1 second 109 minutes

5-8 1.0 second 18.2 hours

9-12 1.0 minute 45.5 days

13-16 1 hour 7.5 years

The operator can clear the times by writing a zero to the database location of the desired timer. See the SyberMate I/O Manual (MN09047) for details.

Default/User Literals Selecting “9. Toggle Default/User Literals” from the FCPB Diagnostic Test Menu will restore either the default literals or the user-defined literals to the SyberTrol displays. User-defined literals are created in the SyberMate (see Manual MN09047 for details) and then downloaded to the SyberTrol. If the default literals are being displayed, pressing ENTER with the cursor in front of this selection will change the screens to the user-defined literals and will display the following message:

User-defined literals have been restored. Press CLEAR

to continue.

Pressing ENTER with the cursor in front of selection 9 will change the user-defined literal displays back to the default displays, and will result in the following message:

Default literals have

been restored. Press CLEAR to continue.


144 MN09041 Issue/Rev. 0.8 (4/03)

Non-Resettable Totals

Non-Resettable Totals

1. FQT 1001 123456789

2. FQT 1002 123456789

3. FQT 1003 123456789

4. FQT 1004 123456789

5. FQT 1005 123456789

6. FQT 1006 123456789

Select meter and the press ENTER to clear non-resettable total for meter.

This diagnostic is used for resetting the non-resettable totals for the meters. The meters that are configured in the system will be displayed, along with their associated non-resettable total. Selecting a meter and pressing ENTER will display the following confirmation screen.

Confirmation Are You Sure?

1. No

2. Yes

Selecting NO on the confirmation screen will return the unit to the Non-Resettable Totals screen. Selecting YES on the confirmation screen will reset the non-resettable total for the selected meter and return the unit to the Non-Resettable Totals screen.

Digital I/O Test Selecting "11. Digital I/O Test" and pressing ENTER will display the status of Digital I/O 33 and Digital I/O 34 in the SyberTrol.

Digital I/O Status

I/0# I/O ID Stat

:1 Dig I/033 :2 Dig I/O34

This screen shows the I/O point number, the ID that is programmed in the unit for the I/O point, and the status of the I/O point (i.e., if it is on [closed] or off [open]. Pressing the function key F1 will display a screen where the operator can enter an I/O point to toggle (change its current status), except for the I/O assigned to the valve outputs.


Enter I/O Point to Toggle 6

If an input is entered to toggle, the SyberTrol will display a screen with the message that the I/O point is either an input or is not assigned.

Pressing CLEAR will return the display to the screen where the digital outputs can be toggled. Entering the number of an output and pressing ENTER will send the message to the FCPB board to change the state of that output. When changed, the FCPB will send the message back to the diagnostic screen changing the status of that I/O point.


I/O point entered is assigned as an input or is not assigned presently.

Press clear to continue.

Pressing the function key F2 will send the message to the FCPB board to change the state of all of the digital outputs. The FCPB will change the state and update the diagnostic screen indicating that they have been changed.

Factory Digital I/O Test – Input Factory Digital I/O Test – Output These selections are for factory testing only and should not be used in the field.

Densitometer Control and Status

Densitometer Control and Status Observed Density Meter ID PIO Active Back-up

Press ENTER to toggle the density source for the selected meter.


MN09041 Issue/Rev. 0.8 (4/03) 145

Select "Densitometer Control and Status" from the Diagnostic Menu to display a screen similar to that shown at the bottom right of the preceding page. Press ENTER to toggle through all available densi-tometer diagnostic data.

FCDB Diagnostics (Display Board) Selecting “3. FCDB (Display Board Module)” and pressing ENTER will display the diagnostics that are available to be run on the FCDB module which is the display board.

FCDB Diagnostics Test Menu

1. Keypad Test 2. Character Display Test 3. Pixel Display Test

8:01:42 AM Mar 9, 2000

Keypad Test Selecting “1. Keypad Test” from the menu allows the operator to run a diagnostic test on the keypad of the SyberTrol. Pressing ENTER will display the keypad test screen.

Keypad Test

Press any key and see it displayed. Press the CLEAR key twice in

consecutive sequence to exit test.

With this screen displayed, any key that is pressed will appear on the screen. A written description of the key will also appear. In the example below, the operator pressed "4" on the keypad.

Keypad Test

4 Four

Press any key and see it displayed. Press the CLEAR key twice in

consecutive sequence to exit test.

To end the test, CLEAR must be pressed twice. The first time CLEAR will appear on the test screen. The second time the unit will return to the FCDB Diag-nostic Test Menu.

Character Display Test Selecting “2. Character Display Test” and pressing ENTER will run the Character Diagnostic on the SyberTrol. All the characters that are available on the unit will be cycled through the test.

AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA

Press CLEAR to end the test and return the screen to the FCDB Diagnostic Test Menu.

Pixel Display Test Selecting “3. Pixel Display Test” and pressing ENTER will initiate the pixel test on the display. All the pixels will be lit, allowing the operator to determine if any of the pixels on the display are not functioning. Pressing CLEAR will terminate the test and return the unit to the FCDB Diagnostic Test Menu.

Press CLEAR to end the test and return the screen to the FCDB Diagnostic Test Menu.

Section XIII – Valve Setup

146 MN09041 Issue/Rev. 0.8 (4/03)

Valve Setup


1. I/O Configuration Menu 2. System Setup Menu 3. Skid Setup Menu 4. Meter Setup Menu 5. Product Setup Menu 6. Prover Setup Menu 7. Communications Menu 8. Security Menu 9. Diagnostic Menu 10. Valve Setup Menu

11. Exit Without Changes

10

Selecting "10. Valve Setup Menu" from the main Program Mode menu and pressing ENTER will display a screen for configuration of the valves that are set up in the SyberTrol.

Note: Valve Setup is available only in Rev. 11 and above firmware.

Select Valve Number The "Select Valve Number" screen allows the operator to select any of the valves that are set up for use in the system.

Select Valve # 1. Valve #1 Valve #1 2. Valve #2 Valve #2 3. Valve #3 Valve #3 4. Valve #4 Valve #4 5. Valve #5 Valve #5 6. Valve #6 Valve #6 7. Valve #7 Valve #7 8. Valve #8 Valve #8

1

Within the Valve Setup Menu structure the user may toggle between valves by pressing the MODE key and entering the desired valve number.

Valve Setup Menu

Valve Setup Menu Meter #1 - FQT 1000

1. Valve ID Valve #1 2. Open Command I/O point 0 3. Open Status I/O point 0 4. Close Command I/O point 0 5. Close Status I/O point 0 6. Open Timeout 0 7. Close Timeout 0 8. Overlapping Status No

1

This is the main valve setup menu. From this menu the items or submenus can be selected by moving the cursor beside them and pressing ENTER.

Valve ID

Valve Setup Menu 1. Valve ID Valve #1 Enter new value Valve #1

F1 - ABCDEFGHIJKLMNOPQRSTUVWXYZ


F3 - 0123456789

F4 - !@#$%^&*()_-+={}[]|\:;”<>,./?’ I

Enter the Valve's I.D. name.

This display allows the operator to enter an alphanumeric message of up to nine characters to serve as the ID for this valve.


MN09041 Issue/Rev. 0.8 (4/03) 147

Open Command I/O Point

Valve Setup Menu 2. Open Command I/O point 0 Enter new value 12 Enter the I/O Point Used to Open this Valve.

This display allows the operator to specify the I/O point assigned to command the valve to open. The range of this entry is from 0 to 34, with an entry of 0 disabling this feature.

Fatal Warning Entry is out of specified range. Critical Warning This I/O point must be configured as a General Output I/O point first

Open Status I/O Point

Valve Setup Menu 3. Open Status I/O point 0 Enter new value 12 Enter the I/O Point Used for this Valve's Open Status.

This display allows the operator to specify the I/O point assigned to report the current open status of the valve. The range of this entry is from 0 to 34, with an entry of 0 disabling this feature.

Fatal Warning Entry is out of specified range. Critical Warning This I/O point must be configured as a General Input I/O point first

Close Command I/O Point

Valve Setup Menu 4. Close Command I/O point 0 Enter new value 12 Enter the I/O Point Used to Close this Valve.

This display allows the operator to specify the I/O point assigned to command the valve to close. The range of this entry is from 0 to 34, with an entry of 0 disabling this feature.

Fatal Warning Entry is out of specified range. Critical Warning This I/O point must be configured as a General Output I/O point first

Close Command I/O Point

Valve Setup Menu 5. Close Status I/O point 0 Enter new value 12 Enter the I/O Point Used for this Valve's Closed Status.

This display allows the operator to specify the I/O point assigned to report the current closed status of the valve. The range of this entry is from 0 to 34, with an entry of 0 disabling this feature.

Fatal Warning Entry is out of specified range. Critical Warning This I/O point must be configured as a General Input I/O point first


148 MN09041 Issue/Rev. 0.8 (4/03)

Open Timeout

Valve Setup Menu 6. Open Timeout 0 Enter new value 12 Enter the Time the Valve has to Open before an Error is Generated.

This display allows the operator to specify the maximum time between commanding the valve to open and the open status signal being set to ON. If this time is exceeded, a valve fault alarm will be generated. The range of this entry is from 0 to 99, with an entry of 0 disabling this feature.

Fatal Warning Entry is out of specified range. Close Timeout

Valve Setup Menu 7. Close Timeout 0 Enter new value 12 Enter the Time the Valve has to Close before an Error is Generated.

This display allows the operator to specify the maximum time between commanding the valve to close and the close status signal being set to ON. If this time is exceeded, a valve fault alarm will be generated. The range of this entry is from 0 to 99, with an entry of 0 disabling this feature.

Fatal Warning Entry is out of specified range.

Overlapping Status

Valve Setup Menu 8. Overlapping Status No Select new value No Yes Enter the Valve Type (Overlapping or Not Overlapping).

This display allows the operator to whether the status of the valve is overlapping or not overlapping. Position the cursor beside the appropriate response ("yes" or "no"), then press ENTER. The SyberTrol will return to the Valve Setup Menu.

Section XIV – Index

MN09041 Issue/Rev. 0.8 (4/03) 149

4 4-Way Valve (Forward) Output Point, 108 4-Way Valve (Reverse) Output Point, 108 4-Way Valve Status (Forward) Input Point, 108 4-Way Valve Status (Reverse) Input Point, 109

A Alarm Configuration Menu, 43 Alarm Count, 90 Alarm Relay I/O #, 41 Alarm Shut-down, 93 Algebraic Equation Results, 142 Alphanumeric Data, 8 Analog I/O #, 58 Analog I/O Menu, 17 Analog I/O Point, 56 Analog I/O Test, 136 Analog Input Point, 65 Analog Input/Output #, 18 Analog Input/Output #XX Configuration, 17 Analog Input/Output Points #1 - #12, 17 Analog Valve Output Point, 73 Analog Valve Status Input Point, 73 API Table, 98 API Table, Product and Reference Density, 98 Assigning Security Levels, 134 Auto Print, 48 Automatic Report Menu, 48

B Batch I/O Points, 84 Batch Rotation, 83 Batch Starting, 82 Batch Type, 84 Baud Rate, 129 Bidirectional Prover, 108 Boolean Equation Results, 142 Boolean/Algebraic Processing, 141

C Calibration #2 Counts, 21 Calibration Constant K1, 32 Calibration Constant K2, 32 Calibration Constant Kt1, 32 Calibration Constant Kt2, 33 Calibration Constant Kt3, 33 Calibration Constant TC, 32 Calibration Pressure, 30, 33

Calibration Temperature Tcal, 30 Canbus Test, 138 Changing Parameters, 5 Character Display Test, 145 Close Comm and I/O Point, 147 Close Command I/O Point, 147 Close Signal Output Point, 76 Close Timeout, 148 Communications Address, 130 Communications Handshake, 130 Communications Menu, 128 Communications Port ID, 130 Communications Test, 139 Constant D0, 29 Constant K, 29 Constant K0, 25 Constant K1, 25 Constant K18, 26 Constant K19, 26 Constant K2, 26 Constant K20a, 26 Constant K20b, 27 Constant K21a, 27 Constant K21b, 27 Constant T0, 29

D Data Format, 129 Date Set, 38 Default Density, 60 Default Pressure, 61, 65 Default Temperature, 56, 61 Default Test Database Initialization, 139 Default/User Literals, 143 Delay Off, 17 Delay On, 17 Delta Pressure, 78 Delta-P Strainer Delay, 66 Delta-P Strainer Input Point, 66 Density Correction Factor, 25, 28, 31, 35 Density Input, 58 Density Transducer Constant A, 35, 36 Density Transducer Constant B, 35, 37 Density Transducer Constant C, 35 Density Units, 40 Derivative Gain (PID), 81 Detect #2 Volume #1, 104 Detect #2 Volume #2, 104 Detector Switch Input, 91 Diagnostic Test Menu, 138 Diagnostics, 136 Digital I/O #, 13 Digital I/O Menu, 12


150 MN09041 Issue/Rev. 0.8 (4/03)

Digital I/O Test, 137, 144 Digital Input Point, 133 Digital Input/Output #XX Configuration, 12 Diverter Valve Output Point, 67 Diverter Valve Status Input, 68 Downstream Solenoid Output Point, 74, 75 Dual Pulse Error Count, 54 Dual Pulse Error Reset, 54 Dual Pulse Error Reset Time, 55 Dual Pulse Flow Cutoff, 55 Dual Pulse Security Level, 55

E Entry to Program Mode, 4 Exit Without Changes, 5 Exiting A Submenu to a New Submenu, 4 Exiting the Program Mode, 5

F Factory Database Initialization, 140 FCDB Diagnostics (Display Board), 144, 145 FCPB Diagnostics (Main Processor Board), 139 Field Test Database Initialization, 140 Final Trip Volume, 71 FIOM Diagnostics (Input/Output Board), 136 FIOM Standalone Mode, 41 First Trip Volume, 70 Flow Control Method, 78 Flow Control Timer, 80 Flow Echo Output Point, 51, 77 Flow Echo Type, 51, 77 Flow Rate Description, 41 Flow Rate Reduction, 79 Flow Rate Time Unit, 40 Flow Rate Timer, 79, 80 Flow Rate Type, 69 Flow Rates #1 - #6, 96 Flow Rates 1-6, 106 Flow Tolerance, 72 Function, 13, 18, 24

G General Purpose Timers, 143 Grab Size, 88, 90 Group Setup Menu, 126

H High Density Alarm, 60 High Flow Alarm, 69

High Flow Rate, 71 High Pressure Alarm, 62, 65 High Temperature Alarm, 57, 62 How to Use this Manual, 1

I I/O Configuration Menu, 12 I/O Configuration Section, 12 Identifier, 28, 34, 36 Input/Output ID, 14, 19 Integral Gain (PID), 81 Interval by Time, 89 Interval by Volume, 89

K Keypad Test, 145

L Low Density Alarm, 61 Low Flow Alarm, 69 Low Flow Volume, 70 Low Pressure Alarm, 63, 66 Low Temperature Alarm, 57, 62

M Main Menu, 4 Mass Units, 40 Master #X Sediment & Water Menu, 67 Master Meter, 106 Master Meter Input, 91, 92 Master Meter K Factor, 106 Master Meter Pulse Count, 124 Maximum Batch Volume, 83 Maximum Current/Volt, 20 Maximum Engineering Value, 21 Meter #, 53 Meter # X Motorized Valve, 76 Meter #X Analog Valve Control, 73 Meter #X Automatic Print Menu, 90 Meter #X Batch Array Menu, 82 Meter #X Density Menu, 57 Meter #X Digital Valve Control, 74 Meter #X Dual Pulse Menu, 54 Meter #X Flow Control Menu, 68 Meter #X Flow Profile Menu, 70 Meter #X Pressure Menu, 61, 65 Meter #X Prover Menu, 90 Meter #X Sampler Setup Menu, 87 Meter #X Temperature Menu, 56


MN09041 Issue/Rev. 0.8 (4/03) 151

Meter #X Two-Stage Valve Control, 75 Meter Factor Menu, 95 Meter Factors, 95 Meter Factors 1-6, 106 Meter ID, 53 Meter K-Factor, 54 Meter Setup Menu, 53

Remote Start Input, 84 Meter X Back Pressure Control Menu, 78 Meter/Prover Assignment, 14, 18 Meters, 48 Minimum Batch Volume, 83 Minimum Current/Volt, 20 Minimum Engineering Value, 20 Minimum Flow Rate, 71, 79, 81, 82 Motorized Valve Close Status Input Point, 77 Motorized Valve Open Status Input Point, 77

N Number of Groups, 126 Number of Runs, 126, 127 Numeric Data, 6

O Open Comm and I/O Point, 147 Open Signal Output Point, 76 Open Status I/O Point, 147 Open Timeout, 148 Options, 7 Other Frequency Densitometers, 34 Overlapping Status, 148

P Parameter Selection, 5 Passcode, 133 Percent Full Alarm, 90 Pixel Display Test, 145 Polarity, 15 Port Structure, 128 Powerup Diagnostics, 138, 141 Pressure Calibration (Pcal), 28 Pressure Coefficient Pcoef, 30 Pressure Coefficient Setting, 98 Pressure Constant Kp1, 33 Pressure Constant Kp2, 34 Pressure Constant Kp3, 34 Pressure Input Point, 60 Pressure Menu, 96 Pressure Units, 39 Product #XX Meter Factor Menu, 95

Product Description, 1 Product Detect Inputs 1 through 4, 85 Product Name, 94 Product Number, 94 Product Setup, 94 Product Setup Menu, 94 Product Vapor Pressure #1, #2, #3, #4, 97 Product Vapor Pressure Temperature #1, #2, #3 and

#4, 97 Program Mode, 2 Program Mode Menu, 4 Program Submenu Selection, 4 Proportional Gain (PID), 81 Protocol Type, 128 Prove Cycle Wait Time, 105 Prove Delta Temperature, 105 Prove Repeatability #1, 125 Prove Repeatability #2, 125 Prove Repeatability Tolerance #1, 125 Prove Repeatability Tolerance #2, 125 Prove Stability, 105 Prover Address, 101 Prover Bidirectional Control I/O Menu, 107 Prover Control I/O Menus, 107 Prover Description Menu, 102 Prover Inlet Pressure Input Point, 110, 118, 120, 122 Prover Inlet Temperature Input Point, 110, 117, 119,

122 Prover Inside Diameter, 102 Prover Master Meter Control I/O Menu, 107 Prover Material - Other, 103 Prover Material of Construction, 103 Prover Measurement Units, 102 Prover Method Menu, 124 Prover Name, 101 Prover Outlet Pressure Input Point, 111, 118, 120,

123 Prover Outlet Temperature Input Point, 110, 117,

119, 122 Prover Pump Output Point, 115, 118, 121, 123 Prover Pump Status Input Point, 115 Prover Pump Status Point, 119, 121, 124 Prover Selection, 100 Prover Serial Number, 102 Prover Status Output Point, 118, 120, 123 Prover SVP Control I/O Menu, 107 Prover Type, 101 Prover UniControl I/O Menu, 107 Prover Volume #1, 103 Prover Volume #2, 104 Prover Volume Input Point, 109, 117 Prover Wall Thickness, 103 Pulse Duty Cycle, 16 Pulse I/O #, 58


152 MN09041 Issue/Rev. 0.8 (4/03)

Pulse Input, 21, 22 Pulse Input #X Configuration, 23 Pulse Input Test, 137 Pulse Multiplier, 92 Pulse Output I/O, 50 Pulse Output Maximum Frequency, 50, 87 Pulse Output Setup Menu, 86 Pulse Units, 15 Pulse Width, 16 Pump Output, 86

R Reference Density, 99 Reference Temperature, 41 Remote End of Batch Input, 85 Remote Stop Input, 85 Report Ending Time, 49 Report Interval Time, 50 Report Print Time, 50 Report Starting Time, 49 Report Type, 48 Requires Previous Level, 133 Reset Batch Numbers, 140 Reset Option, 49 Resetting Passcode, 133 Round Trips per Prove, 124

S Sampler Alarm Type, 89 Sampler Digital Output Point, 87 Sampler Interval Type, 89 Sarasota Frequency Densitometer, 28 Seal Status Input Point, 109, 116 Security Level Menus, 132 Security Name, 132 Sediment & Water Input/Output Point, 67 Sediment & Water Limit, 67 Select Valve Number, 146 Sequential Parameter Selection, 5 Set Security, 133 Setup Menu, 53 Share Meter Pressure, 59 Share Meter Temperature, 59 Skid #, 47 Skid ID, 47 Skid Menu, 47 Skid Setup Menu, 47 Small Volume Prover, 119 Solartron Densitometer Setup, 24 Solartron Frequency Densitometer, 25

Sphere Launch Output Point, 116 Straight Line Approximation Menu, 97 SVP Communications Port, 121 SyberTrol Status Output #, 42 System Setup Menu, 38

T Temperature Calibration (Tcal), 27 Temperature Coefficient Tcoef, 29 Temperature Input Point, 59 Temperature Probe Offset, 19 Time Set, 38 Transducer Type, 19

U UGC Frequency Densitometer, 30, 36 Unidirectional Prover, 116 Unidirectional Prover Detector Switch Time Out, 116 Upstream Solenoid Output Point, 74, 75 User-defined Algebraic Registers, 141 User-defined Boolean Registers, 141

V Valve ID, 146 Valve Setup, 146 Valve Setup Menu, 146 Valve Status Input Point, 74, 76 Valve Type, 73 Vapor Pressure Method Select, 96 Viewing the Help Messages, 10 Volume Units for Conversion, 39 Volume Units Name, 38 Volume/Pulse, 15

W Watchdog Reset Test, 138, 140

Section XV – Related Publications

The specifications contained herein are subject to change without notice and any user of said specifications should verify from the manufacturer that the specifications are currently in effect. Otherwise, the manufacturer assumes no responsibility for the use of specifications which may have been changed and are no longer in effect. Headquarters: 1803 Gears Road, Houston, TX 77067 USA, Phone: 281/260-2190, Fax: 281/260-2191 Gas Measurement Products: Erie, PA USA Phone 814/898-5000 Thetford, England Phone (44) 1842-82-2900 Kongsberg, Norway Phone (47) 32/286-700 Buenos Aires, Argentina Phone 54 (11) 4312-4736 Integrated Measurement Systems: Corpus Christi, TX USA Phone 361/289-3400 Kongsberg, Norway Phone (47) 32/286-700 San Juan, Puerto Rico Phone 787/274-3760 United Arab Emirates, Dubai Phone 971 +4/331-3646

Liquid Measurement Products: Erie, PA USA Phone 814/898-5000 Los Angeles, CA USA Phone 661/296-7711 Slough, England Phone (44) 1753-57-1515 Ellerbek, Germany Phone (49) 4101-3040 Barcelona, Spain Phone (34) 93/201-0989

Moscow, Russia Phone (7) 495/564-8705 Melbourne, Australia Phone (61) 3/9807-2818 Beijing, China Phone (86) 10/6500-2251 Singapore Phone (65) 6861-3011 Chennai, India Phone (91) 44/450-4400

Visit our Web site at www.fmctechnologies.com Printed in U.S.A. © 3/00 FMC Technologies Measurement Solutions, Inc. All rights reserved. MN09041 Issue/Rev. 0.8 (4/03)

The following literature can be obtained from FMC Technologies Measurement Solutions, Inc. Literature Fulfillment at [email protected] or online at www.fmctechnologies.com/measurementsolutions. When requesting literature from Literature Fulfillment, please reference the appropriate bulletin number and title.

SyberTrol Specifications.................................................................................................................................. Bulletin SS09036 Installation....................................................................................................................................... Bulletin MN09043 Operations ...................................................................................................................................... Bulletin MN09045 Programming .................................................................................................................................. Bulletin MN09041 Communications............................................................................................................................. Bulletin MN09044 Modbus Communications ............................................................................................................... Bulletin MN09048 SyberMate Specifications.................................................................................................................................. Bulletin SS09037 Installation/Operations.................................................................................................................... Bulletin MN09047 Handheld Controller Specifications.................................................................................................................................. Bulletin SS09039 Revisions to this manual consist of the following:

All features added in Firmware Revisions 25 through 26.04

Documents

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