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WIKA Division PI - Temperature Transmitter
Pressure and Temperature Measurement WIKA Alexander Wiegand GmbH & Co. KG Alexander-Wiegand-Straße 63911 Klingenberg·Germany www.wika.com [email protected]
Configuration T53.10 (FOUNDATION fieldbus) with FC375 (Emerson)
User Guide
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Content
1 General ..................................................................................................................................3
2 Requirements (Hardware and Software) ...............................................................................3
3 FC375 ....................................................................................................................................43.1 Basic Configuration ...........................................................................................................4
3.1.1 Start the Field Communicator ...................................................................................43.1.2 FC375 Main Menu.....................................................................................................43.1.3 Fieldbus Live List ......................................................................................................4
3.2 WIKA-T53-10 / Used Blocks..............................................................................................53.2.1 Short Description of the different Blocks: ..................................................................5
3.3 AI_TRANSDUCER ............................................................................................................63.3.1 AI_TRANSDUCER / Process....................................................................................63.3.2 AI_TRANSDUCER / Advanced Config .....................................................................6
3.3.2.1 Measure Type .............................................................................................................73.3.2.2 Sensor 1 ......................................................................................................................7
3.3.2.2.1 Sensor 1 Type .............................................................................................73.3.2.2.2 Connection Type..........................................................................................83.3.2.2.3 Sensor Wire Check......................................................................................8
3.3.2.3 Reference Junction......................................................................................................93.4 ANALOG-INPUT .............................................................................................................10
3.4.1 Schedule .................................................................................................................103.4.1.1 I/O Blocks ..................................................................................................................10
3.4.2 Resource Block.......................................................................................................113.4.2.1 Resource / Process ...................................................................................................12
3.4.2.1.1 Block Mode Target.....................................................................................12
4 Noticeable troubles ..............................................................................................................144.1 Connection Error .............................................................................................................144.2 Warning – Polarity reversed ............................................................................................14
5 Easy Upgrade - Import the DD into the FC375 ....................................................................155.1 Import the DD into the FC375 .........................................................................................155.2 Hint; what exactly is an EDD/EDDL? ..............................................................................15
6 Menu Tree............................................................................................................................166.1 Resource Block ...............................................................................................................166.2 AI_TRANSDUCER Block ................................................................................................176.3 ANALOG_INPUT Blocks .................................................................................................20
Info 21
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1 General The Fc375 tool offers a huge amount of possibilities to device diagnostics as well as device configurations. This paper describes the necessary steps, to configure the Transmitter T53.10 with FC375 Version 1.8. It will show you some additional information which could be helpful in some special applications. More information regarding to the configuration properties of the T53 in general can be found in the Configuration Manual for FOUNDATION fieldbus.
2 Requirements (Hardware and Software) Following Hardware is required to build a FOUNDATION fieldbus network: � FC375 inkl. DD of the T53.10
� Power Conditioner (Establish the FF network)
� Power supply for the Power Conditioner
� T53.10
� Cable
Picture 1: Stand-Alone System for Configuration
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Using a Stand-Alone System for Configuration: The FC375 detects that there is no FF communication on the bus. That’s true because the FC375 itself organize the FF communication.
� Confirm with OK
375 Main Menu shows: Licensed Systems: - HART Application - FOUNDATION fieldbus Application Further: - Settings (Backlight, Contrast etc) - Listen for PC (Easy Upgrade) - ScratchPad
� FOUNDATION fieldbus Application
Fieldbus Live List Example: Number of found devices = 2 Device 1: IPT-1x-4 Device 2: WIKA-T53-10 375 Field Communicator is the Master not a Device on the bus.
� WIKA-T53-10
3 FC375 3.1 Basic Configuration 3.1.1 Start the Field Communicator 3.1.2 FC375 Main Menu 3.1.3 Fieldbus Live List
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� AI_TRANSDUCER
3.2 WIKA-T53-10 / Used Blocks
The Blocks RESOURCE, ANALOG_INPUT1, ANALOG_INPUT2 and PID are in Mode OOS (Out of Service). To set the Mode in AUTO please refers to chapter. Only in the Mode AUTO, the Blocks are active.
3.2.1 Short Description of the different Blocks: RESOURCE: Define a hardware specific characteristics of the function block applications AI_TRANSDUCER Contains all of the manufacturer-specific parameters that define how the T53 Transmitter functions. Selections such as setting of input type, engineering units, defining the dual functionality when using the dual input, and so forth, are performed PR_CUST_LIN Generates a customer specific linear interpolation linearization PR_CUST_PRIV The Block is private and reserved. ANALOG_INPUT1 takes the manufacturer’s input data, selected by channel number, ANALOG_INPUT2 and makes it available to other function blocks at its output PID is key to many control schemes Schedule Detail Advanced
WIKA-T53-10 All the Blocks can be seen: RESOURCE AI_TRANSDUCER PR_CUST_LIN PR_CUST_PRIV ANALOG_INPUT1 ANALOG_INPUT2
And by further scrolling: PID Schedule Detail Advanced
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� Process
� Use the “Back” Button on the upper left side
� Advanced Config
� Measure Type
3.3 AI_TRANSDUCER 3.3.1 AI_TRANSDUCER / Process Here you see if the connected sensor works fine in combination with the Transmitter. This value is the Primary Value which can be modified with other Blocks. This is NOT the OUTPUT Value (Which is in fact the ANALOG_INPUT1 or ANALOG_INPUT2 value) 3.3.2 AI_TRANSDUCER / Advanced Config
AI_TRANSDUCER: Pocess Status Quick Config Common Config Advanced Config Other All
AI_Transducer / Process Primary Value Value: Primary Value: Status
AI_TRANSDUCER / Advanced Config: Configuration of the connected Sensor can be done her Example:
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� Use the “Back” Button on the upper left side
� Sensor 1
� Use the “Back” Button on the upper left side
� Connection Type
� Use the “Back” Button on the upper left side
� Sensor 1
3.3.2.1 Measure Type 3.3.2.2 Sensor 1 3.3.2.2.1 Sensor 1 Type
AI_TRANSDUCER / Advanced Config / Measure Type: If there is only 1 sensor connected it is strongly recommended to choose Single Sensor 1.(Sensor 2 not available) If it is selected than:
AI_TRANSDUCER / Advanced Config / Sensor 1 / Sensor 1 Type: The connected Sensor 1 can be choosen from the scroll list
AI_TRANSDUCER / Advanced Config / Sensor 1: The configuration of the connected sensor (Sensor 1) is done here. Sensor 1 Type Connection Type RJ Compensation (Cold Junction Compensation) only needed if there is a Thermocouple connected.
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� Use the “Back” Button on the upper left side
� Connection Type
� Confirm with Send The new configuration will send to the device
3.3.2.2.2 Connection Type 3.3.2.2.3 Sensor Wire Check
AI_TRANSDUCER / Advanced Config / Sensor 1 / Connection Type 1: Selectable 2-/3-/4-wire if Sensor1 Type is a RTD-Sensor.
AI_TRANSDUCER / Advanced Config / Sensor 1 / Sensor Wire Check Can be selected here.
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� Confirm with Send The new configuration will send to the device
� Confirm with Ok
3.3.2.3 Reference Junction AI_TRANSDUCER / Advanced
Config / Refernce Junction Configuration is only possible if a Thermocouple or mV-Sensor has been selcted
… Otherwise a Warning message appear: Nothing can be selceted
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3.4 ANALOG-INPUT As told before, the ANALOG INPUT BLOCKS take the manufacturer’s input data, selected by channel number and makes it available to other function blocks at its output. To do so the ANALOG_INPUT Blocks Mode must be set to AUTO The Basic configuration of the T53 is the Mode: OOS (Out of Service) Procedure to set the ANALOG_INPUT Blocks to AUTO: 3.4.1 Schedule 3.4.1.1 I/O Blocks
WIKA-T53-10 To get the Mode to AUTO the following steps are necessary:
WIKA-T53-10 / I/0-Block Schedule I/O Block Schedule opens � Initialize ANALOG INPUT1 � Initialize ANALOG INPUT2
WIKA-T53-10 Available Blocks
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� Use the “Back” Button on the upper left side and go the WIKA T53 MAIN View
� RESOURCE
3.4.2 Resource Block
WIKA-T53-10 / I/0-Block Schedule Both I/O Block Schedule are initialized now � Confirm with OK
The information appears: I/O Block Schedule were successfully changed � Confirm with OK
WIKA-T53-10 / RESOURCE / Process If the RESOURCE Block is in Mode OOS no Output will be available on ANALOG_INPUT1 and ANALOG_INPUT2 I � Process
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3.4.2.1 Resource / Process 3.4.2.1.1 Block Mode Target
WIKA-T53-10 / RESOURCE / Process The Block Mode Target, Actuell, Permitted appears at the RESOURCE Block I � Block Mode: Target
WIKA-T53-10 / RESOURCE / Process / Block Mode: Target � Initialize “AUTO” � Stop the initialization “OOS”
I WIKA-T53-10 / RESOURCE / Process / Block Mode: Target � Confirm with OK
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� Use the “Back” Button on the upper left side and go to the WIKA_T53 Main View
WIKA-T53-10 / RESOURCE / Process � Confirm with Send
A Warning message appear: Process Control COULD be affected � Confirm with Yes
WIKA-T53-10 / RESOURCE / Process / Block Mode: Target The value of the Block Mode: Target has been changed (Before 0X80, now 0x08)
WIKA-T53-10 RESOURCE ANALO_INPUT1 ANALOG_INPUT2 Has been changed to AUTO
Now it is possible to get a value out of the ANALOG_INPUT Block
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4 Noticeable troubles 4.1 Connection Error
4.2 Warning – Polarity reversed
ERROR – Connection Error This will only happen, if the connectors on the FC375 for HART were used for a FOUNDATION fieldbus application. Solution: Change the connectors of the FC375 from HART to FOUNDATION fieldbus
WARNING – Connection Error This will happen, if the polarity of the FOUNDATION fieldbus connection is wrong. Solution: Change the polarity of the FC375 connection on the FOUNDATION fieldbus segment.
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5 Easy Upgrade - Import the DD into the FC375 To add Device Descriptions (DDs) or system software upgrades you will need to have a System Card with the Easy Upgrade option. The Easy Upgrade Option is available for 375 Field Communicators licensed for only HART. But it is required for 375 Field Communicators licensed for both HART and FOUNDATION fieldbus. That means every FC375 with HART and FOUNDATION fieldbus has the opportunity for EASY UPGRADE. 5.1 Import the DD into the FC375 Start the Easy Upgrade Programming Utillity
For more information or special questions please follow the Easy Upgrade Programming Utillity Help which will guide you through the download process. 5.2 Hint; what exactly is an EDD/EDDL? An EDD (Electronic Device Description) is an electronic device data sheet, but developed by using a more powerful and universal language, the Electronic Device Description Language (EDDL). An EDD typically describes the application-related parameters and functions of a field device such as configuration parameters, ranges of values, units of measurement, default values, etc. An EDD is a versatile source of information for engineering, commissioning, runtime, asset management, and documentation. It also contains support mechanisms to integrate existing profile descriptions in the device description, allow references to existing objects, to access standard dictionaries and to allow assignment of the device description to a device. An EDD is independent of operating systems and supports the user by its uniform user and operation interface (only one tool, reliable operation, and reduced training and documentation costs) and also the device manufacturer (no specific knowledge required, existing EDDs and libraries can be used).
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6 Menu Tree 6.1 Resource Block |---Identification | |---Manufacturer Id | |---Device Type | |---Device Revision | |---DD Revision | |---Tag Description | |---Characteristics: Block Tag | |---Process | |---Strategy | |---Alert Key | |---Block Mode: Target | |---Block Mode: Actual | |---Block Mode: Permitted | |---Block Mode: Normal | |---Resource State | |---Grant Deny: Grant | |---Grant Deny: Deny | |---Shed Remote Cascade | |---Shed Remote Out | |---Alarms | |---Fault State | |---Set Fault State | |---Clear Fault State | |---Max Notify | |---Limit Notify | |---Confirm Time | |---Alarm Summary: Current | |---Alarm Summary: Unacknowledged | |---Alarm Summary: Unreported | |---Alarm Summary: Disabled | |---Acknowledge Option | |---Write Priority | |---Hardware | |---Hard Types | |---Minumum Cycle Time | |---Memory Size | |---Nonvolatile Cycle Time | |---Free Space | |---Free Time | |---Options | |---Features | |---Feature Selection | |---Cycle Type | |---Cycle Selection | |---Write Lock | |---Status | |---Block Error | |---Other | |---Static Revision | |---Test Read Write: Test Boolean | |---Test Read Write: Test Integer8
| |---Test Read Write: Test Integer16 | |---Test Read Write: Test Integer32 | |---Test Read Write: Test Unsigned8 | |---Test Read Write: Test Unsigned16 | |---Test Read Write: Test Unsigned32 | |---Test Read Write: Test Float | |---Test Read Write: Test Visible String | |---Test Read Write: Test Octet String | |---Test Read Write: Test Date | |---Test Read Write: Test Time | |---Test Read Write: Test Time Difference | |---Test Read Write: Test Bit String | |---Test Read Write: Test Data Link Layer Time | |---DD Resource | |---Restart | |---Update Event: Unacknowledged | |---Update Event: Update State | |---Update Event: Time Stamp | |---Update Event: Static Rev | |---Update Event: Relative Index | |---Block Alarm: Unacknowledged | |---Block Alarm: Alarm State | |---Block Alarm: Time Stamp | |---Block Alarm: Subcode | |---Block Alarm: Value | |---Write Alarm: Unacknowledged | |---Write Alarm: Alarm State | |---Write Alarm: Time Stamp | |---Write Alarm: Subcode | |---Write Alarm: Discrete Value | |---All |---Characteristics: Block Tag |---Static Revision |---Tag Description |---Strategy |---Alert Key |---Block Mode: Target |---Block Mode: Actual |---Block Mode: Permitted |---Block Mode: Normal |---Block Error |---Resource State |---Test Read Write: Test Boolean |---Test Read Write: Test Integer8 |---Test Read Write: Test Integer16 |---Test Read Write: Test Integer32 |---Test Read Write: Test Unsigned8 |---Test Read Write: Test Unsigned16 |---Test Read Write: Test Unsigned32 |---Test Read Write: Test Float |---Test Read Write: Test Visible String |---Test Read Write: Test Octet String |---Test Read Write: Test Date |---Test Read Write: Test Time |---Test Read Write: Test Time Difference |---Test Read Write: Test Bit String
|---Test Read Write: Test Data Link Layer Time |---DD Resource |---Manufacturer Id |---Device Type |---Device Revision |---DD Revision |---Grant Deny: Grant |---Grant Deny: Deny |---Hard Types |---Restart |---Features |---Feature Selection |---Cycle Type |---Cycle Selection |---Minumum Cycle Time |---Memory Size |---Nonvolatile Cycle Time |---Free Space |---Free Time |---Shed Remote Cascade |---Shed Remote Out |---Fault State |---Set Fault State |---Clear Fault State |---Max Notify |---Limit Notify |---Confirm Time |---Write Lock |---Update Event: Unacknowledged |---Update Event: Update State |---Update Event: Time Stamp |---Update Event: Static Rev |---Update Event: Relative Index |---Block Alarm: Unacknowledged |---Block Alarm: Alarm State |---Block Alarm: Time Stamp |---Block Alarm: Subcode |---Block Alarm: Value |---Alarm Summary: Current |---Alarm Summary: Unacknowledged |---Alarm Summary: Unreported |---Alarm Summary: Disabled |---Acknowledge Option |---Write Priority |---Write Alarm: Unacknowledged |---Write Alarm: Alarm State |---Write Alarm: Time Stamp |---Write Alarm: Subcode |---Write Alarm: Discrete Value |---ITK Version
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6.2 AI_TRANSDUCER Block |---Process | |---Strategy | |---Alert Key | |---Block Mode: Target | |---Block Mode: Actual | |---Block Mode: Permitted | |---Block Mode: Normal | |---Tag Description | |---Analog Input Transducer Block Characteristics: Block Tag | |---Status | |---Block Error | |---Other | |---Static Revision | |---Update Event: Unacknowledged | |---Update Event: Update State | |---Update Event: Time Stamp | |---Update Event: Static Rev | |---Update Event: Relative Index | |---Block Alarm: Unacknowledged | |---Block Alarm: Alarm State | |---Block Alarm: Time Stamp | |---Block Alarm: Subcode | |---Block Alarm: Value | |---Transducer Directory[1] | |---Transducer Type | |---Transducer Error | |---Collection Directory[1] | |---Primary Val: Status | |---Primary Val: Value | |---Prim Val Unit | |---Process Temperature Channel 1: Status | |---Process Temperature Channel 1: Value | |---Process Temperature Channel 2: Status | |---Process Temperature Channel 2: Value | |---Measure type | |---Input Range and Mode | |---Characterization Type 1 | |---Bias of channel 1 | |---Bias of channel 2 | |---Upper Value Max 1 | |---Lower Value Min 1 | |---Input Malfunction | |---Channel 1 fault | |---Channel 2 fault | |---Sensor wire check 1 | |---Sensor wire check 2 | |---sensor value max 1 | |---sensor value min 1 | |---sensor value max 2 | |---sensor value min 2 | |---Reference Junction Temperature | |---Reference Junction | |---Ext. Reference Junction Temperature | |---Connection Type 1 | |---Line Compensation 1 | |---Line Compensation 2 | |---Coordinate No. | |---Input/Output value[1] | |---Input/Output value[2] | |---Min Number of Coordinates | |---Max Number of Coordinates | |---Operation Mode | |---Status (Characterization) | |---Number of Coordinates | |---Connection Type 2 | |---Lower Value Min 2 | |---Upper Value Max 2 | |---Characterization Type 2 | |---Reference Line Compensation | |---Reference junction error | |---RJ sensor wire check | |---Electronic Temperature: Status | |---Electronic Temperature: Value | |---Lower Calibration Point 1 | |---Upper Calibration Point 1
| |---Calibration Span Min 1 | |---Last Calibration Method 1 | |---Last Calibration Location 1 | |---Calibration Date 1[1] | |---Calibration Date 1[2] | |---Calibration Date 1[3] | |---Calibration Date 1[4] | |---Calibration Date 1[5] | |---Calibration Date 1[6] | |---Calibration Date 1[7] | |---Calibrated by 1 | |---Lower Calibration Point 2 | |---Upper Calibration Point 2 | |---Calibration Span Min 2 | |---Last Calibration Method 2 | |---Last Calibration Location 2 | |---Calibration Date 2[1] | |---Calibration Date 2[2] | |---Calibration Date 2[3] | |---Calibration Date 2[4] | |---Calibration Date 2[5] | |---Calibration Date 2[6] | |---Calibration Date 2[7] | |---Calibrated by 2 | |---Hardware error | |---CABLE_RES1 | |---CABLE_RES2 | |---Characterization size 1 | |---Characterization size 2 | |---Disp 1 | |---Disp 2 | |---Custom TC name | |---Custom TC polynomial count | |---Custom TC min in | |---Custom TC min out | |---Custom TC max out | |---Custom TC polynomial 1[1] | |---Custom TC polynomial 1[2] | |---Custom TC polynomial 1[3] | |---Custom TC polynomial 1[4] | |---Custom TC polynomial 1[5] | |---Custom TC polynomial 1[6] | |---Custom TC polynomial 2[1] | |---Custom TC polynomial 2[2] | |---Custom TC polynomial 2[3] | |---Custom TC polynomial 2[4] | |---Custom TC polynomial 2[5] | |---Custom TC polynomial 2[6] | |---Custom TC polynomial 3[1] | |---Custom TC polynomial 3[2] | |---Custom TC polynomial 3[3] | |---Custom TC polynomial 3[4] | |---Custom TC polynomial 3[5] | |---Custom TC polynomial 3[6] | |---Custom TC polynomial 4[1] | |---Custom TC polynomial 4[2] | |---Custom TC polynomial 4[3] | |---Custom TC polynomial 4[4] | |---Custom TC polynomial 4[5] | |---Custom TC polynomial 4[6] | |---Custom TC polynomial 5[1] | |---Custom TC polynomial 5[2] | |---Custom TC polynomial 5[3] | |---Custom TC polynomial 5[4] | |---Custom TC polynomial 5[5] | |---Custom TC polynomial 5[6] | |---Custom TC RJ polynomial[1] | |---Custom TC RJ polynomial[2] | |---Custom TC RJ polynomial[3] | |---Custom TC RJ polynomial[4] | |---Custom RTD name | |---Custom RTD polynomial count | |---Custom RTD min in | |---Custom RTD min out | |---Custom RTD max out | |---Custom RTD polynomial 1[1] | |---Custom RTD polynomial 1[2] | |---Custom RTD polynomial 1[3]
| |---Custom RTD polynomial 1[4] | |---Custom RTD polynomial 1[5] | |---Custom RTD polynomial 1[6] | |---Custom RTD polynomial 2[1] | |---Custom RTD polynomial 2[2] | |---Custom RTD polynomial 2[3] | |---Custom RTD polynomial 2[4] | |---Custom RTD polynomial 2[5] | |---Custom RTD polynomial 2[6] | |---Custom RTD polynomial 3[1] | |---Custom RTD polynomial 3[2] | |---Custom RTD polynomial 3[3] | |---Custom RTD polynomial 3[4] | |---Custom RTD polynomial 3[5] | |---Custom RTD polynomial 3[6] | |---Custom RTD polynomial 4[1] | |---Custom RTD polynomial 4[2] | |---Custom RTD polynomial 4[3] | |---Custom RTD polynomial 4[4] | |---Custom RTD polynomial 4[5] | |---Custom RTD polynomial 4[6] | |---Custom RTD polynomial 5[1] | |---Custom RTD polynomial 5[2] | |---Custom RTD polynomial 5[3] | |---Custom RTD polynomial 5[4] | |---Custom RTD polynomial 5[5] | |---Custom RTD polynomial 5[6] | |---Reserved1 | |---Reserved2 | |---Reserved3 | |---Reserved4 | |---Reserved5 | |---Reserved6 | |---Reserved7 | |---Reserved8 | |---Reserved9 | |---Reserved10 | |---Reserved11 | |---Reserved12 | |---Reserved13 | |---Reserved14 | |---Reserved15 | |---Reserved16 | |---Reserved17 | |---Reserved18 | |---Reserved19 | |---Reserved20 | |---Reserved21 | |---Reserved22 | |---Reserved23 | |---Reserved24 | |---Reserved25 | |---Reserved26 | |---Reserved27 | |---Reserved28 | |---Reserved29 | |---Reserved30 | |---Reserved31 | |---Reserved32 | |---Reserved33 | |---Reserved34 | |---Reserved35 | |---Reserved36 | |---Reserved37 | |---Reserved38 | |---Reserved39 | |---Reserved40 | |---Reserved41 | |---Reserved42 | |---Reserved43 | |---Reserved44 | |---Reserved45 | |---Reserved46 | |---Reserved47 | |---Reserved48 | |---Reserved49 | |---Reserved50 | |---Reserved51
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| |---Reserved52 | |---Reserved53 | |---Reserved54 | |---Reserved55 | |---Reserved56 | |---Reserved57 | |---Reserved58 | |---Reserved59 | |---Reserved60 | |---Reserved61 | |---Reserved62 | |---Reserved63 | |---Reserved64 | |---Reserved65 | |---Reserved66 | |---Reserved67 | |---Reserved68 | |---Reserved69 | |---Reserved70 | |---Reserved71 | |---Reserved72 | |---Reserved73 | |---Reserved74 | |---Reserved75 | |---Reserved76 | |---Reserved77 | |---Reserved78 | |---Reserved79 | |---Reserved80 | |---Reserved81 | |---Reserved82 | |---Reserved83 | |---Reserved84 | |---Reserved85 | |---Reserved86 | |---Reserved87 | |---Reserved88 | |---Reserved89 | |---Reserved90 | |---Reserved91 | |---Reserved92 | |---Reserved93 | |---All |---Analog Input Transducer Block Characteristics: Block Tag |---Static Revision |---Tag Description |---Strategy |---Alert Key |---Block Mode: Target |---Block Mode: Actual |---Block Mode: Permitted |---Block Mode: Normal |---Block Error |---Update Event: Unacknowledged |---Update Event: Update State |---Update Event: Time Stamp |---Update Event: Static Rev |---Update Event: Relative Index |---Block Alarm: Unacknowledged |---Block Alarm: Alarm State |---Block Alarm: Time Stamp |---Block Alarm: Subcode |---Block Alarm: Value |---Transducer Directory[1] |---Transducer Type |---Transducer Error |---Collection Directory[1] |---Primary Val: Status |---Primary Val: Value |---Prim Val Unit |---Process Temperature Channel 1: Status |---Process Temperature Channel 1: Value |---Process Temperature Channel 2: Status |---Process Temperature Channel 2: Value |---Measure type |---Input Range and Mode |---Characterization Type 1 |---Bias of channel 1 |---Bias of channel 2
|---Upper Value Max 1 |---Lower Value Min 1 |---Input Malfunction |---Channel 1 fault |---Channel 2 fault |---Sensor wire check 1 |---Sensor wire check 2 |---sensor value max 1 |---sensor value min 1 |---sensor value max 2 |---sensor value min 2 |---Reference Junction Temperature |---Reference Junction |---Ext. Reference Junction Temperature |---Connection Type 1 |---Line Compensation 1 |---Line Compensation 2 |---Coordinate No. |---Input/Output value[1] |---Input/Output value[2] |---Min Number of Coordinates |---Max Number of Coordinates |---Operation Mode |---Status (Characterization) |---Number of Coordinates |---Connection Type 2 |---Lower Value Min 2 |---Upper Value Max 2 |---Characterization Type 2 |---Reference Line Compensation |---Reference junction error |---RJ sensor wire check |---Electronic Temperature: Status |---Electronic Temperature: Value |---Lower Calibration Point 1 |---Upper Calibration Point 1 |---Calibration Span Min 1 |---Last Calibration Method 1 |---Last Calibration Location 1 |---Calibration Date 1[1] |---Calibration Date 1[2] |---Calibration Date 1[3] |---Calibration Date 1[4] |---Calibration Date 1[5] |---Calibration Date 1[6] |---Calibration Date 1[7] |---Calibrated by 1 |---Lower Calibration Point 2 |---Upper Calibration Point 2 |---Calibration Span Min 2 |---Last Calibration Method 2 |---Last Calibration Location 2 |---Calibration Date 2[1] |---Calibration Date 2[2] |---Calibration Date 2[3] |---Calibration Date 2[4] |---Calibration Date 2[5] |---Calibration Date 2[6] |---Calibration Date 2[7] |---Calibrated by 2 |---Hardware error |---CABLE_RES1 |---CABLE_RES2 |---Characterization size 1 |---Characterization size 2 |---Disp 1 |---Disp 2 |---Custom TC name |---Custom TC polynomial count |---Custom TC min in |---Custom TC min out |---Custom TC max out |---Custom TC polynomial 1[1] |---Custom TC polynomial 1[2] |---Custom TC polynomial 1[3] |---Custom TC polynomial 1[4] |---Custom TC polynomial 1[5] |---Custom TC polynomial 1[6] |---Custom TC polynomial 2[1] |---Custom TC polynomial 2[2] |---Custom TC polynomial 2[3]
|---Custom TC polynomial 2[4] |---Custom TC polynomial 2[5] |---Custom TC polynomial 2[6] |---Custom TC polynomial 3[1] |---Custom TC polynomial 3[2] |---Custom TC polynomial 3[3] |---Custom TC polynomial 3[4] |---Custom TC polynomial 3[5] |---Custom TC polynomial 3[6] |---Custom TC polynomial 4[1] |---Custom TC polynomial 4[2] |---Custom TC polynomial 4[3] |---Custom TC polynomial 4[4] |---Custom TC polynomial 4[5] |---Custom TC polynomial 4[6] |---Custom TC polynomial 5[1] |---Custom TC polynomial 5[2] |---Custom TC polynomial 5[3] |---Custom TC polynomial 5[4] |---Custom TC polynomial 5[5] |---Custom TC polynomial 5[6] |---Custom TC RJ polynomial[1] |---Custom TC RJ polynomial[2] |---Custom TC RJ polynomial[3] |---Custom TC RJ polynomial[4] |---Custom RTD name |---Custom RTD polynomial count |---Custom RTD min in |---Custom RTD min out |---Custom RTD max out |---Custom RTD polynomial 1[1] |---Custom RTD polynomial 1[2] |---Custom RTD polynomial 1[3] |---Custom RTD polynomial 1[4] |---Custom RTD polynomial 1[5] |---Custom RTD polynomial 1[6] |---Custom RTD polynomial 2[1] |---Custom RTD polynomial 2[2] |---Custom RTD polynomial 2[3] |---Custom RTD polynomial 2[4] |---Custom RTD polynomial 2[5] |---Custom RTD polynomial 2[6] |---Custom RTD polynomial 3[1] |---Custom RTD polynomial 3[2] |---Custom RTD polynomial 3[3] |---Custom RTD polynomial 3[4] |---Custom RTD polynomial 3[5] |---Custom RTD polynomial 3[6] |---Custom RTD polynomial 4[1] |---Custom RTD polynomial 4[2] |---Custom RTD polynomial 4[3] |---Custom RTD polynomial 4[4] |---Custom RTD polynomial 4[5] |---Custom RTD polynomial 4[6] |---Custom RTD polynomial 5[1] |---Custom RTD polynomial 5[2] |---Custom RTD polynomial 5[3] |---Custom RTD polynomial 5[4] |---Custom RTD polynomial 5[5] |---Custom RTD polynomial 5[6] |---Reserved1 |---Reserved2 |---Reserved3 |---Reserved4 |---Reserved5 |---Reserved6 |---Reserved7 |---Reserved8 |---Reserved9 |---Reserved10 |---Reserved11 |---Reserved12 |---Reserved13 |---Reserved14 |---Reserved15 |---Reserved16 |---Reserved17 |---Reserved18 |---Reserved19 |---Reserved20 |---Reserved21
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|---Reserved22 |---Reserved23 |---Reserved24 |---Reserved25 |---Reserved26 |---Reserved27 |---Reserved28 |---Reserved29 |---Reserved30 |---Reserved31 |---Reserved32 |---Reserved33 |---Reserved34 |---Reserved35 |---Reserved36 |---Reserved37 |---Reserved38 |---Reserved39 |---Reserved40 |---Reserved41 |---Reserved42 |---Reserved43 |---Reserved44 |---Reserved45 |---Reserved46
|---Reserved47 |---Reserved48 |---Reserved49 |---Reserved50 |---Reserved51 |---Reserved52 |---Reserved53 |---Reserved54 |---Reserved55 |---Reserved56 |---Reserved57 |---Reserved58 |---Reserved59 |---Reserved60 |---Reserved61 |---Reserved62 |---Reserved63 |---Reserved64 |---Reserved65 |---Reserved66 |---Reserved67 |---Reserved68 |---Reserved69 |---Reserved70 |---Reserved71
|---Reserved72 |---Reserved73 |---Reserved74 |---Reserved75 |---Reserved76 |---Reserved77 |---Reserved78 |---Reserved79 |---Reserved80 |---Reserved81 |---Reserved82 |---Reserved83 |---Reserved84 |---Reserved85 |---Reserved86 |---Reserved87 |---Reserved88 |---Reserved89 |---Reserved90 |---Reserved91 |---Reserved92 |---Reserved93
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6.3 ANALOG_INPUT Blocks
|---Quick Config | |---Channel | |---Linearization Type | |---Transducer Scale: EU at 100% | |---Transducer Scale: EU at 0% | |---Transducer Scale: Units Index | |---Transducer Scale: Decimal | |---Output Scale: EU at 100% | |---Output Scale: EU at 0% | |---Output Scale: Units Index | |---Output Scale: Decimal | |---Common Config | |---Acknowledge Option | |---Alarm Hysteresis | |---Alert Key | |---High High Limit | |---High High Priority | |---High Limit | |---High Priority | |---I/O Options | |---Linearization Type | |---Low Low Limit | |---Low Low Priority | |---Low Limit | |---Low Priority | |---Block Mode: Target | |---Block Mode: Actual | |---Block Mode: Permitted | |---Block Mode: Normal | |---Output Scale: EU at 100% | |---Output Scale: EU at 0% | |---Output Scale: Units Index | |---Output Scale: Decimal | |---Process Value Filter Time | |---Advanced Config | |---Low Cutoff | |---Simulate: Simulate Status | |---Simulate: Simulate Value | |---Simulate: Transducer Status | |---Simulate: Transducer Value | |---Simulate: Simulate En/Disable | |---Static Revision | |---Status Options | |---Strategy | |---Transducer Scale: EU at 100% | |---Transducer Scale: EU at 0% | |---Transducer Scale: Units Index | |---Transducer Scale: Decimal | |---I/O References | |---Channel | |---Connectors | |---Output: Status | |---Output: Value | |---Online | |---Block Error | |---Field Value: Status | |---Field Value: Value | |---Block Mode: Target | |---Block Mode: Actual | |---Block Mode: Permitted | |---Block Mode: Normal | |---Output: Status
| |---Output: Value | |---Process Value: Status | |---Process Value: Value | |---Status | |---Block Error | |---Other | |---Tag Description | |---Grant Deny: Grant | |---Grant Deny: Deny | |---Update Event: Unacknowledged | |---Update Event: Update State | |---Update Event: Time Stamp | |---Update Event: Static Rev | |---Update Event: Relative Index | |---Block Alarm: Unacknowledged | |---Block Alarm: Alarm State | |---Block Alarm: Time Stamp | |---Block Alarm: Subcode | |---Block Alarm: Value | |---Alarm Summary: Current | |---Alarm Summary: Unacknowledged | |---Alarm Summary: Unreported | |---Alarm Summary: Disabled | |---High Alarm: Unacknowledged | |---High Alarm: Alarm State | |---High Alarm: Time Stamp | |---High Alarm: Subcode | |---High Alarm: Float Value | |---High High Alarm: Unacknowledged | |---High High Alarm: Alarm State | |---High High Alarm: Time Stamp | |---High High Alarm: Subcode | |---High High Alarm: Float Value | |---Low Alarm: Unacknowledged | |---Low Alarm: Alarm State | |---Low Alarm: Time Stamp | |---Low Alarm: Subcode | |---Low Alarm: Float Value | |---Low Low Alarm: Unacknowledged | |---Low Low Alarm: Alarm State | |---Low Low Alarm: Time Stamp | |---Low Low Alarm: Subcode | |---Low Low Alarm: Float Value | |---All |---Characteristics: Block Tag |---Static Revision |---Tag Description |---Strategy |---Alert Key |---Block Mode: Target |---Block Mode: Actual |---Block Mode: Permitted |---Block Mode: Normal |---Block Error |---Process Value: Status |---Process Value: Value |---Output: Status |---Output: Value |---Simulate: Simulate Status |---Simulate: Simulate Value |---Simulate: Transducer Status
|---Simulate: Transducer Value |---Simulate: Simulate En/Disable |---Transducer Scale: EU at 100% |---Transducer Scale: EU at 0% |---Transducer Scale: Units Index |---Transducer Scale: Decimal |---Output Scale: EU at 100% |---Output Scale: EU at 0% |---Output Scale: Units Index |---Output Scale: Decimal |---Grant Deny: Grant |---Grant Deny: Deny |---I/O Options |---Status Options |---Channel |---Linearization Type |---Low Cutoff |---Process Value Filter Time |---Field Value: Status |---Field Value: Value |---Update Event: Unacknowledged |---Update Event: Update State |---Update Event: Time Stamp |---Update Event: Static Rev |---Update Event: Relative Index |---Block Alarm: Unacknowledged |---Block Alarm: Alarm State |---Block Alarm: Time Stamp |---Block Alarm: Subcode |---Block Alarm: Value |---Alarm Summary: Current |---Alarm Summary: Unacknowledged |---Alarm Summary: Unreported |---Alarm Summary: Disabled |---Acknowledge Option |---Alarm Hysteresis |---High High Priority |---High High Limit |---High Priority |---High Limit |---Low Priority |---Low Limit |---Low Low Priority |---Low Low Limit |---High High Alarm: Unacknowledged |---High High Alarm: Alarm State |---High High Alarm: Time Stamp |---High High Alarm: Subcode |---High High Alarm: Float Value |---High Alarm: Unacknowledged |---High Alarm: Alarm State |---High Alarm: Time Stamp |---High Alarm: Subcode |---High Alarm: Float Value |---Low Alarm: Unacknowledged |---Low Alarm: Alarm State |---Low Alarm: Time Stamp |---Low Alarm: Subcode |---Low Alarm: Float Value |---Low Low Alarm: Unacknowledged |---Low Low Alarm: Alarm State |---Low Low Alarm: Time Stamp |---Low Low Alarm: Subcode |---Low Low Alarm: Float Value
T53_FF_with_FC375_150307.doc 21 / 21 4/2/2007
Info This info sheet is not exhaustive. If you have further questions, just contact us: Company
Pressure and Temperature Measurement WIKA Alexander Wiegand GmbH & Co.KG Alexander-Wiegand-Strasse 63911 Klingenberg / Germany Fon: +49 (0) 9372 / 132-0 Fax: +49 (0) 9372 / 132-406 E-Mail: [email protected] Web: www.wika.de
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