Advanced Process Manager Configuration Forms · 2011. 11. 10. · Advanced Process Manager Configuration Forms 5/97 About This Publication This publication supports TotalPlant Solution

Advanced Process ManagerConfiguration Forms

AP88-500

ImplementationAdvanced Process Manager - 2

AdvancedProcess Manager

Configuration FormsAP88-500

Release 5305/97

Copyright, Trademarks, and Notices

© Copyright 1995 - 1997 by Honeywell Inc.

Revision 05 – May 16, 1997

While this information is presented in good faith and believed to be accurate,Honeywell disclaims the implied warranties of merchantability and fitness for aparticular purpose and makes no express warranties except as may be stated in itswritten agreement with and for its customer.

In no event is Honeywell liable to anyone for any indirect, special or consequentialdamages. The information and specifications in this document are subject tochange without notice.

TotalPlant and TDC 3000 are U.S. registered trademarks of Honeywell Inc.

Other brand or product names are trademarks of their respective owners.

Advanced Process Manager Configuration Forms 5/97

About This PublicationThis publication supports TotalPlant Solution (TPS) system network Release 530. TPS isthe evolution of TDC 3000X.

This manual consists of configuration forms. These forms are designed to facilitate thecollection and organization of data for subsequent entry into the TPS system through theUniversal Station.

Change bars are used to indicate changes that have been made to this manual effectivewith release 530. Pages revised only to correct minor typographical errors contain nochange bars.

The date (month/year) at the top of each form is changed only on those forms affected bythe current document revision.

Advanced Process Manager Configuration Forms 5/97

APM Configuration Forms i 5/97

Table of Contents

ADVANCED PROCESS MANAGER CONFIGURATION FORMS

APM CONFIGURATION FORM INSTRUCTIONS

FILLING OUT PAPER FORMSENTERING DATA FROM THE FORMS INTO THE SYSTEM

UCN Node Configuration ...................................................................................... AP88-501AAPM Node Specific Configuration ......................................................................... AP88-501B

This publication also contains the following point forms in numerical sequence. They are listedhere in alphabetical order here for convenience.

Form Name Form ID

Analog Input Data Point ........................................................................................ AP88-502Analog Output Data Point ..................................................................................... AP88-503Array Data Point ................................................................................................... AP88-531Auto Manual Regulatory Control Algorithm ............................................................. AP88-504Calculator Regulatory PV Algorithm ...................................................................... AP88-505Data Acquisition Regulatory PV Algorithm .............................................................. AP88-506Device Control Data Point ..................................................................................... AP88-532Digital Composite Data Point ................................................................................. AP88-507Digital Input Status Point ....................................................................................... AP88-508ADigital Input Latched Point .................................................................................... AP88-508BDigital Input Accum Point ...................................................................................... AP88-508CDigital Output Data Point ....................................................................................... AP88-509Flag ..................................................................................................................... AP88-528Flow Compensation Regulatory PV Algorithm ........................................................ AP88-510General Linearization Regulatory PV Algorithm ...................................................... AP88-511High Low Average Regulatory PV Algorithm .......................................................... AP88-512Incremental Summer Regulatory Control Algorithm ................................................. AP88-513Library ................................................................................................................. AP88-540Logic Data Point ................................................................................................... AP88-514Middle of Three Regulatory PV Algorithm .............................................................. AP88-515Numeric ............................................................................................................... AP88-530Override Selector Regulatory Control .................................................................... AP88-516PID External Reset Feedback Reg. Control Algorithm ............................................. AP88-518PID Feedforward Regulatory Control Algorithm ...................................................... AP88-519PID Position Proportional Reg. Control Algorithm ................................................... AP88-533PID Regulatory Control Algorithm .......................................................................... AP88-517Position Proportional Regulatory Control Algorithm ................................................ AP88-520Process Module ................................................................................................... AP88-527Pulse Input (see Analog Input Data Point) .............................................................. Rampsoak Regulatory Control Algorithm ................................................................ AP88-521Ratio Control Regulatory Control Algorithm ............................................................ AP88-522Smart Transmitter Point (see Analog Input Data Point) ............................................. Summer Regulatory PV Algorithm ......................................................................... AP88-523Switch Regulatory Control Algorithm ..................................................................... AP88-524Timer ................................................................................................................... AP88-529Totalizer Regulatory PV Algorithm ......................................................................... AP88-525Variable Deadtime With Leadlag Reg. PV Algorithm ................................................ AP88-526

APM Configuration Forms ii 5/97

APM Configuration Form Instructions

FILLING OUT PAPER FORMS

Where To Find Advanced Process Manager Parameter and Data Point Help InformationRefer to the APM Parameter Reference Dictionary and to the APM Control Functions and Algorithms publications in the Implementation/Advanced Process Manager - 2 binder.

Universal Station's configuration display where values that have been written on the form and parameter options that have been circled on the form will be keyed in and selected, respectively.

If parameters within a box do notapply when some other parameter option is selected, that box isindicated by

Lower-level alarm trip points must have a value specified beforehigher-level alarm trips points apply. The lines show the scheme.

AP88-502Page 1 of 5

Engineer: Tagname: Date:Unit:

APM Analog Input Point

Point Assignment Display

NAME range = Not applicable Tag Name default = Blank PNTFORM FuLL Point is fully displayed and alarmed Point Form

| __.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__|

Componnt Pt. is partially displayed but not alarmed

N/A if NMODE = None.

NMODATTR None Parameter NMODE sets "normal" mode Normal Mode Attribute Operator Operator sets "normal" operating mode

Program Program sets "normal" operating mode

Alarming Display - N/A if PNTFORM = Componnt

PVHITP |__.__.__.__.__.__.__.__| range = PVLOTP - PVHHTP, & NaN PV High Alarm Trip Point default = NaN PVHIPRPV High Alarm Priority PVLOTP |__.__.__.__.__.__.__.__| range = PVLLTP - PVHITP, & NaN PV Low Alarm Trip Point default = NaN PVLOPRPV Low Alarm Priority PVHHTP |__.__.__.__.__.__.__.__| range = PVHITP to PVEUHI, & NaN PV Hi Hi Alarm Trip Point default = NaN PVHHPRPV High High Alarm Priority PVLLTP |__.__.__.__.__.__.__.__| range = PVEULO - PVLOTP, & NaN PV Low Low Alarm Trip Point default = NaN

ENTERING DATA FROM THE FORMS INTO THE SYSTEM

Select NETWORK INTERFACE MODULE from Engr's Main Menu to get NIM BUILD TYPE SELECT MENU

UCN APM NODE SPECIFIC PROCESS NIM LIBRARYNODE CONFIGURATION POINT CONFIGURATION CONFIGURATION BUILDING Form AP88-501A Form AP88-501B Forms AP88-502-532 Form AP88-540

Select a point type from this POINT BUILD SELECT MENU

Reg CtL DI/DO Logic Reg PVProc Mod Flag TimerNumeric

Select an algorithm type depending upon what is circled on the form for parameter CTLALGID

Pid PidFf PidErfb RatioCtL IncrSum Switch PosProp AutoMan RampSoak ORSeL

Select an algorithm type depending upon what is circled on the form for parameter PVALGID

DataAcq FlowComp MidOf3 HiLoAvg Summer VdtLdLag TotaLizr GenLin CalcuLtr

Pulse

Pid PosPr

NoAction Journal Low High Emergncy JnlPrintPrinter

If the point is of the formComponent, parameters within boxes that have thick, bold borders do not apply.

Lines indicate what parameter/s or parameter-option/s apply when anoption is selected for a previousparameter.

field wiring or memory fetch supplies PV.

N/A if PNTFORM = Componnt.

PVSRCOPT OnlyAuto PV source selection is not available and PV Source Option

All Selection from PVSOURCE is available & Operator/CL-program may supply PV.

PVSOURCE Auto Field wiring or memory fetch supplies PV PV Source Man PV is supplied by Operator or program

SubA value is substituted by a CL program



AI/AO Array DevCtl

APM UCN NODE Configuration

Engineer: Date:

AP88-501APage 1 of 2

4/97

UCN Node Configuration Display

NOTE

NTWKNUM |__.__| range = 1 to 20 Network Number of the NIM Being Configured default = Not applicable

NODENUM |__.__| range = 1 to 64 UCN Address of the Node Being Configured default = Not applicable

LOADSCOP NimOnlyLoad Scope NimAndPm

NODEASSN ThisNim Node Assignment RemotNim

PV State Text for all DigComp type points

MOVPVTXT |__.__.__.__.__.__.__.__ | range = Not applicablePV-Moving Text For All DigComp Points default = "MOVING"

BADPVTXT |__.__.__.__.__.__.__.__ | range = Not applicableBad-PV Text For All DigComp Points default = "BAD"

NMSGTXT|__.__|

range = 0 to 15Number of Message Text Items(see next page for MSGTXT ports)

default = 0

TIMESYNC range = Not applicableSOE Time Synchronization default = DisableEnable

Disable

NIM assigned to report alarms and perform checkpointing for network specified in NTWKNUM

Additional NIM on a network that already has "ThisNIM" defined

NODETYP NotConfg No UCN item configured at this addressType Of Node On The UCN

APMPM Process Manager Network

SM

Nim

Advanced Process Manager NetworkHPM

Network Interface Module

LM Logic Manager NetworkSafety Manager Network

This form is intended primarily for use in configuring each PM on your system by selecting PM for NODETYP below. This same form can be used to configure each NIM on your system by selecting NIM for NODETYP (some different targets will appear as shown ). If your system has other UCN devices (PMs, APMs, HPMs, LMs, SMs), the NIMs can also be configured using the forms contained in the documentation for those devices.

Configured data goes to NIM, and HPM, PM, APM, LM, or SM

Configured data goes to NIM only

AP88-501APage 2 of 24/97

APM UCN Node Configuration

Status Message Text Configuration Display

N/A if NMSGTXT = 0

MSGTXT(1)|__.__.__.__.__.__.__.__|

range = Eight Character StringStatus Message Text #1 default = Blank

MSGTXT(2) |__.__.__.__.__.__.__.__| range = Eight Character StringStatus Message Text #2 default = Blank

MSGTXT(3) range = Eight Character StringStatus Message Text #3 default = Blank













|__.__.__.__.__.__.__.__|

Engineer: Date:

APM NODE SPECIFIC Configuration AP88-501BPage 1 of 9

4/97

Node Specific Configuration Display NTWKNUM |__.__| range = 1 to 20 Network Number Currently Being Configured default = Not applicableNODENUM |__.__| range = 1 to 64Node Number default = Not applicable

Off - No DigComp, Logic, RegCtl, RegPV, or Sequence Applications

CTLOPT On On - All point types can be configuredAPMM Control Processor Option Off

NCTLSLOT |__.__.__ | range = 0 to 160# Of Regulatory Control Slots default = 100

NPVSLOT |__.__| range = 0 to 80# Of Regulatory PV Slots default = 20

NLOGSLOT |__.__| range = 0 to 80# Of Logic Slots default = 25

0 to 512NDCSLOT |__.__.__ | range =# Of Digital Composite Slots default = 150

NFASTLOG |__.__.__ | range =# Of Fast Logic Slots default = 0

0 to 40 but < NLOGSLOT

NFASTPV |__.__.__ | range =# Of Fast Reg. PV Slots default = 0

0 to 40 but < NPVSLOT

NFASTCTL |__.__.__ | range =# Of Fast Reg. Control Slots default = 0

0 to 40 but < NCTLSLOT

NFASTDC |__.__.__ | range =# Of Fast Digital Composite Slots default = 0

0 to 255 but < NDCSLOT

NPMSLOT |__.__.__ | range = 0 to 160# Of Process Module Slots default = 0

NNUMERIC range = 0 to 16,384 (multiples of 16# Of NumericsNSTRING# Of StringsNTIME# Of Times

default = 1024 or 16,384) | |__.__.__.__

SEQPROC Processing Units/Proc. Mod. Data Point/Scan

1_PU2_PU

Up to 40 PMDP's per 1/4 Sec. CycleUp to 20 PMDP's per 1/4 Sec. Cycle

range = 0 to 4096 (multiples of 32)

range =default = 0

0 to 16,384

default = 0

| |__.__.__.__

| |__.__.__.__

RegCtl & Logic &SCANRATE Selection RegPV DigCompAPMM's Scan Rate In Times Per Second Reg1Log1 1 per sec. 1 per sec.

Reg1Log2 1 per sec. 2 per sec.Reg1Log4 1 per sec. 4 per sec.Reg2Log2 2 per sec. 2 per sec.Reg2Log4 2 per sec 4 per sec.Reg4Log4 4 per sec. 4 per sec.

SCANPERSI Data APMM CTL Scan Period

| |NARRSLOTNumber of Array Slots

__.__ range = 0 to 256default = 0

NDEVSLOT# Of Device Cntrol Slots

|__.__.__ | range = 0 to 160default = 0

NFASTDEV range =# Of Fast Device Control Slots default = 0

0 to 160 but < NDEVSLOT|__.__.__ |

1.0 0.5 0.25

APMIf a PM, HPM, LM, or SM is being configured, got to the appropriate forms for those devices.

An APM is being configured

PM, HPM,

LM or SM

NODETYPNode Type

Engineer: Date:

APM NODE SPECIFIC ConfigurationAP88-501BPage 2 of 94/97

FAILOPT Hold The hardware output is maintained at Analog/Digital Output Option

Unpower The hardware output is unpowered

FREQ6050 FiftyHZ

AC Line Period SixtyHZ Line Frequency is 60 HzLine Frequency is 50 Hz

its current setting

IOREDOPT(#) Nonredun

I/O Module Redundancy Option Redun RedundantNot redundant

IOMFILEB(#) range = 0 - 8 (0 = not connected) Corresponding IOM-B File Number default = Blank for Nodefalt,

2-6 for Redun_IO

IOMCARDB(#) range = 0-15 (0 = not connected)Corresponding IOM-B Card Number default = Blank for Nodefalt,

See Pg 6-7 for Redun_IO

pages) appropriate for the selected packaging option. Refer to the parameters below for descriptions/defaults.

IO Module Configuration Display - N/A if NTWKNUM = 0

The parameters listed below make up one entry or line in the IO Module Configuration Tables. The IO Module Numbers (Modnum) are predefined on the Data Entry Displays. Fill in a table (on the following

PKGOPT NonredunAPMM Hardware Packaging Option

Node Specific Configuration Display (Contd.)

No redundant APMMs; No redundant IOMsRedun Redundant APMMs in same file; No redun. IOMsRedun_2F Redundant APMMs in separate files; No redun. IOMs

Nodefault No defaults for I/O Module/Card PositionsRedun_IO Redundant APMMs (sep. files) & redun. I/O Modules

DISP_SIMOffSimulation Indicator Option

Indicates if Simulation mode indicators appear on Group and Detail Displays

ON

When Pkgopt = Redun_IO or Nodefalt, each redundant IO Module also has the following options

MODNUM range = 1 to 40I/O Module Number default = Not applicable

IOMFILEA(#) range = 0 - 8 IOM -A File Number default = 1(0 = not connected)

IOMCARDA(#) range = 0-15 (0 = not connected)IOM-A Card Number default = Varies with PKGOPT and

MODNUM.

IOMTYPE(#) None Address Not configuredModule Type LLAI Low Level Analog InputHLAI High Level Analog Input

DI Digital Input AO Analog Output DO Digital Output

LLMUX

STIM Smart Xmitter Intf. Modl.Digital Input for SOE

PI Pulse Input

SI IO Module Components

DISOE AO_16 16 Pt. Analog Output DO_32 32 Pt. Digital Output

Low Level Multiplexer(also includes RHMUX)

APM ConfigurationAP88-501BPage 3 of 9

4/97

30 None HLAI AO DO LLMUX 60HZ 50HZ






























6 None HLAI AO DO Hold STIM LLMUX 60HZ 50HZ




10 None HLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

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PI

PI

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PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI AO DO Hold STIM LLMUX 60HZ 50HZ

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

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DISOE

DISOE

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DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

MOD IOM-A IOM-ANUM FILE CARD IOMTYPE FAILOPT IOMTYPE FREQ6050

1 None HLAI AO DO Unpwr Hold STIM LLMUX 60HZ 50HZ





LLAI

LLAI

LLAI

LLAI

LLAI

DI

DI

DI

DI

DI

DISOE

DISOE

DISOE

DISOE

DISOE

AO16

AO16

AO16

AO16

AO16

DO32

DO32

DO32

DO32

DO32

Unpwr

Unpwr

Unpwr

Unpwr

PI

PI

PI

PI

PI

SI

SI

SI

SI

SIAO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

UnpwrDO32

DO32

DO32

DO32

DO32

Unpwr

Unpwr

Unpwr

Unpwr

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Unpwr Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

DO32

DO32

DO32

DO32

DO32

Unpwr

Unpwr

Unpwr

Unpwr

UnpwrDO32

DO32

DO32

DO32

DO32

Unpwr

Unpwr

Unpwr

Unpwr

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

DO32

DO32

Unpwr

Unpwr

UnpwrDO32

DO32

DO32

DO32

DO32

Unpwr

Unpwr

Unpwr

Unpwr

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

DO32

DO32

Unpwr

Unpwr

UnpwrDO32

DO32

DO32

DO32

DO32

Unpwr

Unpwr

Unpwr

Unpwr

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

DO32

DO32

Unpwr

Unpwr

UnpwrDO32

DO32

DO32

DO32

Unpwr

Unpwr

Unpwr

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Engineer: Date:

IO Module Configuration Table


For each IO Module, select the IO Module type (IOMTYPE) that applies. If the type selected is AO or DO, select a failure option (FAILOPT). If the type selected is STIM or LLMUX, select an ac Line Frequency (FREQ6050). **CAUTION - Use this part of the form only if PKGOPT on page 2 = Nonredun. **

NOTE: IOMTYPE LLMUX also includes RHMUX.

APM ConfigurationAP88-501BPage 4 of 94/97

Engineer: Date:




































10 None HLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

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LLAI

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LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI

PI AO DO Hold STIM LLMUX 60HZ 50HZ

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

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SI

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SI

SI

SI

SI

SI

SI

SI

SI

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

DISOE

MOD IOM-A IOM-A NUM FILE CARD IOMTYPE FAILOPT IOMTYPE FREQ6050

1 None HLAI AO DO Unpwr Hold STIM LLMUX 60HZ 50HZ





LLAI

LLAI

LLAI

LLAI

LLAI

DI

DI

DI

DI

DI

DISOE

DISOE

DISOE

DISOE

DISOE

AO16

AO16

AO16

AO16

AO16

DO32

DO32

DO32

DO32

DO32

Unpwr

Unpwr

Unpwr

Unpwr

PI

PI

PI

PI

PI

SI

SI

SI

SI

SIAO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

AO16

UnpwrDO32

DO32

DO32

DO32

DO32

Unpwr

Unpwr

Unpwr

Unpwr

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Unpwr Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

DO32

DO32

DO32

DO32

DO32

Unpwr

Unpwr

Unpwr

Unpwr

UnpwrDO32

DO32

DO32

DO32

DO32

Unpwr

Unpwr

Unpwr

Unpwr

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

DO32

DO32

Unpwr

Unpwr

UnpwrDO32

DO32

DO32

DO32

DO32

Unpwr

Unpwr

Unpwr

Unpwr

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

DO32

DO32

Unpwr

Unpwr

UnpwrDO32

DO32

DO32

DO32

DO32

Unpwr

Unpwr

Unpwr

Unpwr

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

Hold STIM

DO32

DO32

Unpwr

Unpwr

UnpwrDO32

DO32

DO32

DO32

Unpwr

Unpwr

Unpwr

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For each IO Module, select the IO Module type (IOMTYPE) that applies. If the type selected is AO or DO, select a failure option (FAILOPT). If the type selected is STIM or LLMUX, select an ac Line Frequency (FREQ6050). **CAUTION - Use this part of the form only if PKGOPT on page 2 = Redun. **

NOTE: IOMTYPE LLMUX also includes RHMUX.

Engineer: Date:

APM Configuration AP88-501BPage 5 of 9

4/97



For each IO Module, select the IO Module type (IOMTYPE) that applies. If the type selected is AO or DO, select a failure option (FAILOPT). If the type is STIM or LLMUX, select an ac Line Frequency (FREQ6050).

**CAUTION - Use this part of the form only if PKGOPT on page 2 = Redun_2F **

MOD IOM-A IOM-A NUM FILE CARD IOMTYPE FAILOPT IOMTYPE FREQ6050

| 1 | | 07 |

| 1 | | 08 |

| 1 | | 09 |

| 1 | | 10 |

| 1 | | 11 |

| 1 | | 12 |

| 1 | | 13 |

| 1 | | 14 |

| 1 | | 15 |

| 2 | | 06 ||

| 2 | | 07 |

| 2 | | 08 |

| 2 | | 09 |

| 2 | | 10 |

| 2 | | 11 |

| 2 | | 12 |

| 2 | | 13 |

| 2 | | 14 |

| 2 | | 15 |

| 3 | | 01 |

| 3 | | 02 |

| 3 | | 03 |

| 3 | | 04 |

| 3 | | 05 |

| 3 | | 06 |

| 3 | | 07 |

| 3 | | 08 |

| 3 | | 09 |

| 3 | | 10 |

| 3 | | 11 |

| 3 | | 12 |

| 3 | | 13 |

| 3 | | 14 |

| 3 | | 15 |

| 4 | | 01 |

| 4 | | 02 |

| 4 | | 03 |

| 4 | | 04 |

| 4 | | 05 |

30 None HLAI Hold STIM LLMUX 60HZ 50HZ






































10 None HLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

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LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI

LLAI Hold STIM LLMUX 60HZ 50HZ

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

DI

1 | 1 | | 06 | None HLAI AO DO Unpwr Hold STIM LLMUX 60HZ 50HZ LLAI DI DISOE AO16 DO32PI SI

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

Unpwr

AO DOPI SI DISOE

AO DO

AO DO

AO DO

DISOE

DISOE

DISOE

AO16

AO16

AO16

PI

PI

PI

SI

SI

SI

AO16

DO32

DO32

DO32

DO32

AO DODISOE AO16 DO32PI SI

AO DOPI SI DISOE

AO DO

AO DO

AO DO

DISOE

DISOE

DISOE

AO16

AO16

AO16

PI

PI

PI

SI

SI

SI

AO16

DO32

DO32

DO32

DO32


AO DOPI SI DISOE

AO DO

AO DO

AO DO

DISOE

DISOE

DISOE

AO16

AO16

AO16

PI

PI

PI

SI

SI

SI

AO16

DO32

DO32

DO32

DO32


AO DOPI SI DISOE

AO DO

AO DO

AO DO

DISOE

DISOE

DISOE

AO16

AO16

AO16

PI

PI

PI

SI

SI

SI

AO16

DO32

DO32

DO32

DO32


AO DOPI SI DISOE

AO DO

AO DO

AO DO

DISOE

DISOE

DISOE

AO16

AO16

AO16

PI

PI

PI

SI

SI

SIAO16

DO32

DO32

DO32

DO32


AO DOPI SI DISOE

AO DO

AO DO

AO DO

DISOE

DISOE

DISOE

AO16

AO16

AO16

PI

PI

PI

SI

SI

SI

AO16

DO32

DO32

DO32

DO32


AO DOPI SI DISOE

AO DO

AO DO

AO DO

DISOE

DISOE

DISOE

AO16

AO16

AO16

PI

PI

PI

SI

SI

SIAO16

DO32

DO32

DO32

DO32


AO DOPI SI DISOE

AO DO

AO DO

AO DO

DISOE

DISOE

DISOE

AO16

AO16

AO16

PI

PI

PI

SI

SI

SIAO16

DO32

DO32

DO32

DO32

NOTE: IOMTYPE LLMUX also includes RHMUx.

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

1| 1

|| 0

6 |

2| 1

|| 0

7 |

3| 1

|| 0

8 |

4| 1

|| 0

9 |5

| 1 |

| 10

|

6| 1

|| 1

1 |

7| 1

|| 1

2 |8

| 1 |

| 13 |

9| 1

|| 1

4 |10

| 1 |

| 15 |

11| 3

|| 0

1 |

12| 3

|| 0

2 |

13| 3

|| 0

3 |

14| 3

|| 0

4 |

15| 3

|| 0

5 |

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

AO AO

AO

AO

AO

AO AO

AO

AO

AO

AO

AO

AO

AO

AO

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

IOM

TYP

EF

AIL

OP

T

IOM

TYP

EF

RE

Q60

50

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

DI DI

DI

DI

DI

DI DI

DI

DI

DI

DI

DI

DI

DI

DI

PI

PI

PI

PI

PI PI

PI PI

PI

PI

PI

PI

PI PI

PI

IOM

-B

MO

D IO

M-A

N

UM

FILE

CA

RD

IO

M-B

F

ILE

CA

RD

IOM

-AR

edun

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

16| 3

|| 0

6 |

17| 3

|| 0

7 |

18| 3

|| 0

8 |

19| 3

|| 0

9 |20

| 3 |

| 10

|

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

AO AO AO

AO

AO

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

60H

Z50

HZ

60

HZ

50H

Z

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

DI

DI DI

DI

DI

PI

PI PI

PI

PI

Non

e

Non

e

Non

e

Non

e

Non

e

Non

e

Non

e

Non

e

Non

e

Non

e

Non

e

Non

e

Non

e

Non

e

| 2 |

| 06

|

| 2 |

| 07

|

| 2 |

| 08

|| 2

|| 0

9|

| 2 |

| 10

|

| 2 |

| 11

|

| 2 |

| 12 |

| 2 |

| 13 |

| 2 |

| 14 |

| 2 |

| 15 |

| 4 |

| 01

|

| 4 |

| 02

|

| 4 |

| 03

|

| 4 |

| 04

|

| 4 |

| 05

|

Non

e

Non

e

Non

e

Non

eN

one

| 4 |

| 06

|

| 4 |

| 07

|

| 4 |

| 08

|

| 4 |

| 09|

| 4

|| 1

0 |

_ _ _ _ _ _ _ __ _ _ _ _ __ _ _ _ __RED

UN

Con

tinue

d on

nex

t she

et

√

SI

SI

SI

SI

SI

SI

SI SI

SI

SI

SI

SI

SI

SI

SI SI

SI SI

SI

SI

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DO DO DO DO DO DO DO DO DO DODO DO DO DO DODO DO DO DODOA

O16

DO

32

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

DO

32

DO

32D

O32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

Non

e

Eng

inee

r:

Dat

e:

AP

88-5

01B

Pag

e 6

of 9

4/97

AP

M C

onfig

urat

ion

IO M

odul

e C

onfig

urat

ion

Dis

play

- N

/A if

NT

WK

NU

M =

0

For

eac

h IO

Mod

ule,

sel

ect t

he IO

Mod

ule

type

(IO

MT

YP

E)

that

app

lies.

If t

here

is a

red

unda

nt IO

M, c

heck

the

Red

un b

lank

. If

the

type

sel

ecte

d is

AO

or

DO

,se

lect

a fa

ilure

opt

ion

(FA

ILO

PT

). I

f the

type

is S

TIM

or

LLM

UX

, sel

ect a

n ac

Lin

e F

requ

ency

(F

RE

Q60

50).

**C

AU

TIO

N -

Use

this

par

t of t

he fo

rm o

nly

if P

KG

OP

T on

pag

e 2

= R

edun

_IO

**

IO M

odul

e C

onfig

urat

ion

Tabl

e

NO

TE

: IO

MT

YP

E L

LMU

X a

lso

incl

udes

RH

MU

X.

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

ILL

AI

LLA

I

LLA

I

LLA

I

Non

e

Non

e

Non

e

Non

e

Non

e

Non

e

Non

e

Non

e

Non

e

Non

e

Non

eN

one

Non

e

Non

e

21| 3

|| 1

1 |

22| 3

|| 1

2 |

23| 3

|| 1

3 |

24| 3

|| 1

4 |

25| 3

|| 1

5 |

26| 5

|| 0

1 |

27| 5

|| 0

2 |28

| 5 |

| 03 |

29| 5

|| 0

4 |30

| 5 |

| 05 |

31| 5

|| 0

6 |

32| 5

|| 0

7 |

33| 5

|| 0

8 |

34| 5

|| 0

9 |

35| 5

|| 1

0 |

Non

e

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

IOM

TYP

E

DI

DI

DI

DI

DI

DI

DI DI

DI

DI

DI

DI

DI

DI

DI

PI

PI

PI PI PI

PIPI

PI

PI

PI

PI

PI PI

PI

PI

| 4 |

| 11

|| 4

|| 1

2 |

| 4 |

| 13

|| 4

|| 1

4|

| 4 |

| 15

|

| 6 |

| 01

|

| 6|

| 02 |

| 6 |

| 03 |

| 6 |

| 04

|

| 6 |

| 05 |

| 6 |

| 06

|

| 6 |

| 07

|

| 6 |

| 08

|

| 6 |

| 09

|

| 6 |

| 10

| IOM

-B

MO

D IO

M-A

N

UM

FILE

CA

RD

IO

M-B

F

ILE

CA

RD

IOM

-AR

edun

_ _ _ _ _ _ _ __ _ _ _ _ __

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

Non

e

Non

e

Non

e

Non

e

Non

e

36| 5

|| 1

1 |

37| 5

|| 1

2 |

38| 5

|| 1

3 |

39| 5

|| 1

4 |

40| 5

|| 1

5 |

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

DI

DI

DI

DI DI

PI

PI

PI

PI PI

| 6 |

| 11

|

| 6 |

| 12

|

| 6 |

| 13

|

| 6 |

| 14|

| 6 |

| 15

|

_ _ _ __

RED

UN

√

SI

SI SI

SI SI

SI

SI

SI

SI SI

SI SI

SI

SI SI

SI

SI

SI

SI SI

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

DIS

OE

AO AO

AO

AO

AO

AO AO

AO

AO

AO

AO

AO

AO

AO

AO

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

FA

ILO

PT

IO

MTY

PE

FR

EQ

6050

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

AO AO AO

AO

AO

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

60H

Z50

HZ

60

HZ

50H

Z

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ


O16

DO

32

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

AO

16

DO

32

DO

32D

O32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

DO

32

AP

88-5

01B

Pag

e 7

of 9

4/97

AP

M C

onfig

urat

ion

Eng

inee

r:

Dat

e:

IO M

odul

e C

onfig

urat

ion

Dis

play

- N

/A if

NT

WK

NU

M =

0

For

eac

h IO

Mod

ule,

sel

ect t

he IO

Mod

ule

type

(IO

MT

YP

E)

that

app

lies.

If t

here

is a

red

unda

nt IO

M, c

heck

the

Red

un b

lank

. If

the

type

sel

ecte

d is

AO

or

DO

,

sele

ct a

failu

re o

ptio

n (F

AIL

OP

T).

If t

he ty

pe is

ST

IM o

r LL

MU

X, s

elec

t an

ac L

ine

Fre

quen

cy (

FR

EQ

6050

).

**C

AU

TIO

N -

Use

this

par

t of t

he fo

rm o

nly

if P

KG

OP

T on

pag

e 2

= R

edun

_IO

(C

ontin

ued)

**

IO M

odul

e C

onfig

urat

ion

Tabl

e

NO

TE

: IO

MT

YP

E L

LMU

X a

lso

incl

udes

RH

MU

X.

1 2 3 4 5 6 7 8 9 10 11

12 13

14 15

MO

D IO

M-A

N

UM

FILE

CA

RD

IOM

-A

_

16 17 18 19 20

_ _ _ _ _ _ __ _ _ _ _ __ _ _ _ __RED

UN

Con

tinue

d on

nex

t she

et

| |

| |

| |

| |

| |

| |

| |

| |

| |

| |

| |

| |

| |

| |

| |

| |

| |

| |

| |

| |

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|

|LL

AI

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

LLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

HLA

I

AO

AO

AO

AO

AO AO

AO

AO

AO

AO

AO

AO

AO

AO AO

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Unp

ower

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

Hol

d

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

ST

IM

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

LLM

UX

IOM

TYP

EF

AIL

OP

T

IOM

TYP

EF

RE

Q60

50

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

60H

Z50

HZ

DI

DI

DI

DI

DI DI

DI

DI

DI

DI DI

DI

DI

DI

DI

PI

PI

PI

PI PI

PIPI

PI

PI

PI

PI PI

PI

PI

PI

IOM

-B

IOM

-B F

ILE

CA

RD

LLA

I

LLA

I

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| 2 |

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| 11

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| 2 |

| 12 |

| 2 |

| 13 |

| 2 |

| 14 |

| 2 |

| 15 |

| 4 |

| 01

|

| 4 |

| 02

|

| 4 |

| 03

|

| 4 |

| 04

|

| 4 |

| 05

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Non

e

Non

e

Non

e

Non

e

Non

e

| 4 |

| 06

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7 |

| 4 |

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|

| 4 |

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SI

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DO

32

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16

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16

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un

AP

88-5

01B

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AP

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here

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lank

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e

AP

88-5

01B

Pag

e 9

of 9

4/97

Eng

inee

r:

Dat

e:

IO M

odul

e C

onfig

urat

ion

Dis

play

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F

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ach

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at a

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f the

type

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TIM

or

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n ac

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requ

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age

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NO

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NODETYP An APM Point Is Being ConfiguredNode Type

APM

HLAISTIM pg 3-B -> PI Pulse Input Module-> pg 5-C

pg 2-A->




NAME range = Not applicable Tag Name __.__.__.__.__.__.__.__ | default = Blank

PNTFORM FuLL Point is fully displayed and alarmed

Point Form Componnt Pt. is partially displayed but not alarmed

PTDESC range = Not applicable Point Descriptor default = Blank

|__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__ |

EUDESC

|__.__.__.__.__.__.__.__ |range = Not applicable

Engineering Units Descriptor default = Blank

KEYWORD|__.__.__.__.__.__.__.__ |

range = Not applicable Keyword Descriptor default = Blank

Two Alphanumeric CharactersNot applicable

UNIT |__.__|

range = Process Unit Point Is Assigned To default =

NTWKNUM |__.__|

range = 1 to 20 NIM's UCN That This Point Is In default = Not applicable

NODENUM |__.__|

range = 1 to 64 APMM's Address On The UCN default = Not applicable MODNUM

|__.__|range = 1 to 40

I/O Module Number default = Not applicable

SLOTNUM 1-16 ( For HLAI or STIM modue) Slot Number 1- 8 (For LLAI or PI module) __.__| |

PNTMODTY High Level Analog Input Point's IO Module Type

Low Level Multiplexer; also applies toRHMUX except that RHMUX does notsupport SENSRTYP of RTD.

LLMUX

Smart Transmitter Intf. Module.

1- 32 (For LLMUX and RHMUX modules)

-> pg 2-D

|__.__.__.__.__.__.__.__.

AP88-502Page 1 of 64/97

LLAI Low Level Analog Input pg 4-E->


PRIMMOD range = Not Applicable Primary Module ID default = Null |__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__|

If a PM, HPM, LM, or SM is being configured, go to the appropriate forms for those devices.

PM, HPM, LM or SM

ASSOCDSP

| __.__.__.__.__.__.__.__ |range = Not applicable

Associated Display default = Blank(R510 and later)

APM Analog Input PointAP88-502Page 2 of 64/97


PV Characterization

PVCHAR Linear Linear

Btherm Thermocouple Type:

EthermB, E, J, K, R, RP, S, or T

Jtherm

KthermRtherm RPtherm Stherm Ttherm

Resistance Temperature Device Type:Din, Jis, Nickel, or Copper

DinRtd JisRtd NicklRtd CopprRtd

PVTEMP DegreesC DegreesFThermal EUS For PV DegreesR DegreesK

C = Celcius; F = FarenheitR = Rankin; K = Kelvin

TCRNGOPT Normal Use PVEXEULO's normal range tableThermocouple Range Option Extended Use PVEXEULO's extended range table

SENSRTYPSensor Type

0_100_MV 0 to 100 millivolts

Thermcpl Thermocouple RTD Resistance Temp. Device

PIUOTDCFOpen T/C Detect Enable Option

Off On

Open Thermocouple Detection(LLMUX-Thermcpl only)

PV CharacterizationPVCHAR Linear Linear

SqrRoot Squareroot

Btherm Thermocouple Type:Etherm

B, E, J, K, R, RP, S, or T Jtherm

KthermRtherm RPtherm Stherm Ttherm

Resistance Temperature Device Type:Din, Jis, Nickel, or Copper

DinRtd JisRtd NicklRtd CopprRtd

PVTEMP DegreesC DegreesF C = Celcius; F = FarenheitThermal EUS For PV DegreesR DegreesK R = Rankin; K = Kelvin

Slidwire Slidewire Resistance Device

SENSRTYP 1_5_V +1 to +5 volts Sensor Type P4_2_V .4 to 2 volts

0_5_V 0 to 5 volts

PV Configuration DisplayHLAI OnlyA

SLWSRCID range = 1-16 Slidwire Voltage Slot ID(number) |__.__| default = 1

PV Configuration Display (continued)LLMUX OnlyD

NOTE: PV configuration display for LLMUX also applies to RHMUX IOP, except that RTD is not supported by RHMUX IOP

B

STI_EU

NicklRtd Nickel type Res. Temp. Device

INH20MMHGPSIKPAMPA

MBAR

G_SQCMKG_SQCMMMH20INHG

BAR

SENSRTYP = SPT_DP/GP/APCM_HRGAL_HRLIT_HRCC_HRCM_MINGAL_MINLIT_MINCC_MINCM_DAYGAL_DAYKGAL_DAY

BRL_DAYCM_SECPRCNTBLANKLBSKGTONSGRAMSOZGALBRL

SENSRTYP = SFM SENSRTYP = STT and

DEG_CDEG_FDEG_KDEG_R

OHMS

PVCHAR =

Linear

RTD_OHMS

All Other

MV V

STI Engineering UnitsApplies If -

APM Analog Input PointAP88-502

Page 3 of 64/97


PV Configuration Display

STITAG |__.__.__.__.__.__.__.__ |Transmitter Tag ID

Device name stored in the Smart Xmtr.default =Blank

SENSRTYP SPT_DP Differential Pressure Xmtr. Smart Transmitter SPT_GP Gauge Pressure Xmtr. Sensor Type SPT_AP Absolute Pressure Xmtr

SFM Magnetic Flow Xmtr. STT Temperature Xmtr.

PVCHAR Linear Linear PV Characterization Option SqrRoot Square Root

BthermEthermJthermKthermRthermSthermTthermNthermDinRtdJisRtd

B type thermocouple E type thermocouple

J type thermocoupleD type thermocoupleR type thermocoupleS type thermocoupleT type thermocoupleN type thermocoupleDin type Res. Temp. DeviceJis type Res. Temp. Device

PT200Rtd Point 200 Resistance Temp. Dev. PT500Rtd Point 500 Resistance Temp. Dev. CU10Rtd Copper 10 Resistance Temp. Dev.

CU25Rtd Copper 25 Resistance Temp. Dev. RTD_OHMS Ohms Resistance Temp. Dev. RHRAD RH Radiomatic W5W26TC C type thermocouple W3W25TC D type thermocouple NINIMOTC Nickle/nickle/Mol. thermocouple

DECONF PV DE Configuration Mode PV_SV

PV_DB PV_SV_DB

Broadcast PV 3.6 time/sec.Broadcast PV 3.2 times/sec., SV .46 X/sec.Broadcast PV 2.7 times/sec. plus data baseB/cast PV 2.4 X/sec., SV .34 X/sec + d/base

URL|__.__.__.__.__.__.__.__ |Upper Range LImit

URV |__.__.__.__.__.__.__.__ |Upper Range Value LRV |__.__.__.__.__.__.__.__ |Lower Range Value DAMPING |__.__.__.__.__.__.__.__ |Xmtr Filter Lag Time

range = See Parameter Ref. Guide default = NaN

range =

range = See Parameter Ref. Guide default = NaN

SPT=0-32, STT=0-102.3,SFM=0-100 (discrete increments); default = 0.0

This Page - STIM Only

OffOn

OnOff

PIUOTDCFOpen TC Detection Enable Option CJTACTInt. Cold Jct. Compensation

Thermocouple fault detection Range=Off or On.

On =Internal cold Jct. compensation activeExternal cold Jct. compensation activeOff =

Applies if SENSRTP=STT

LITRESMLITRESFL_OZ

CUB_M

FEETMETERSMMINCHESKG_CUMG_CUMLBS_CUFTLBS_CUIN

See Parameter Ref. Guidedefault = NaN

APM Analog Input PointAP88-502Page 4 of 64/97


PV Configuration Display (continued) - Applies To All Point Types Except As Noted

Applies if SENSRTYP = Slidewire or 0-100 mV PVRAWHIPV Raw High Limit |__.__.__.__.__ |

PVRAWLO |__.__.__.__.__ |PV Raw Low Limit

Applies if PVCHAR = LINEAR or SQRROOT

INPTDIR DirectAnalog Input Direction Reverse

PVCALC increases as PVRAW increasesPVCALC decreases as PVRAW increases

PVEUHI range = PVEULO to PVEXEUHI PV High Range In EUs |__.__.__.__.__.__.__.__ | default = 100.0 PVEULO range = PVEXEULO to PVEUHI PV Low Range In EUs |__.__.__.__.__.__.__.__ | default = 0.0 PVFORMAT D0 D2PV Decimal Point Format D1 D3

D0 = 9999. D2 = 99.99D1 = 999.9 D3 = 9.999

N/A if SENSRTYP = Thermcpl or RTD.

PVEXEUHI range = >=PVEUHI PV Extended Hi Range In EUs |__.__.__.__.__.__.__.__ | default = 102.9 PVEXEULO range =

PV Configuration Display(continued)

- Applies To All Point Types Except As Noted

AP88-502Page 5 of 6

4/97APM Analog Input Point



| |TF range = 0.0 to 60.0 (minutes)PV Filter Lag Time In Minutes __.__.__.__ default = 0.0 (PV will not be delayed)

PVSRCOPT OnlyAuto PV source selection is not available andPV Source Option field wiring or memory fetch supplies PV.

All Selection from PVSOURCE is available& Operator/CL-program may supply PV.

PVSOURCE Auto Field wiring or memory fetch supplies PV.PV Source Man PV is supplied by Operator or program.

Sub A value is substituted by a CL program.

N/A if PNTFORM = Componnt. PVTV range = PVEXEULO-PVEXEUHI, &NaN PV Target Value In EUs |__.__.__.__.__.__.__.__ | default = NaN OVERVAL range = 0 to 100 Overview Display Value |__.__.__ | default = 25

Alarming Display - N/A if PNTFORM = Componnt As you enter alarm trip points and alarm priorities in the next section please refer to the following alarm

priority definitions and the note.

Note: If you do not enter a trip point value for a given pair of trip-points and alarm-priorities, do not circle an alarm priority option for that pair ( i.e., no trip point, no alarm priority).

NoAction Alarm is not reported to the system and not annunciated Alarm is historized, not reported to US, not annunciated

Low High Emergncy

Journal

PrinterJnlPrint Alarm historized, reported to the printer, not annunciated

Alarm is historized, reported to US, and annunciatedAlarm is historized, reported to US, and annunciatedAlarm is historized, reported to US, and annunciatedNot historized, reported to the printer, not annunciated

N/A if SENSRTYP = Thermcpl or RTD.

range Real Number >0.0 default 1.0

C2Scaling Constant 2

TIMEBASE Seconds Minutes Hours

range Real Number >0.0 default 1.0

| |__.__.__.__.__.__.__.__

| |__.__.__.__.__.__.__.__

PVCLAMP NoClamp No clamping of the PV value PV Clamping Option Clamp Clamp PV value at range extension limit

=

=LOCUTOFF | |__.__.__.__.__.__.__.__ range PVEULO - PVEUHI and NaNLow Signal CO For Flow Inputs default NaN

PI Only

C1Scaling Constant 1

PV & Setpoint Eng. Units per Second, Minute, or HourInput Time Base

C

AP88-502Page 6 of 64/97



Alarming Display - N/A if PNTFORM = Componnt

PVHITP |__.__.__.__.__.__.__.__ | range = PVLOTP - PVHHTP, & NaN PV High Alarm Trip Point default = NaN

PVHIPRPV High Alarm Priority

PVLOTP |__.__.__.__.__.__.__.__ | range = PVLLTP - PVHITP, & NaN PV Low Alarm Trip Point default = NaN

PVLOPRPV Low Alarm Priority

PVHHTP |__.__.__.__.__.__.__.__ | range = PVHITP to PVEXEUHI, & NaN PV Hi Hi Alarm Trip Point default = NaN

PVHHPRPV High High Alarm Priority

PVLLTP |__.__.__.__.__.__.__.__ | range = PVEXEULO - PVLOTP, & NaN PV Low Low Alarm Trip Point default = NaN

PVLLPRPV Low Low Alarm Priority

PVROCPTP |__.__.__.__.__.__.__.__ | range = >=0.0, and NaN PV Pos Rate Of Change Trip Point default = NaN

PVROCPPRPV Pos Rate Of Chg Alarm Priority

PVROCNTP |__.__.__.__.__.__.__.__ | range = >=0.0, and NaN PV Neg Rate Of Change Trip Point default = NaN

PV Alarm Deadband In %PVALDB

Half One Two Three Four Five EU

default PV Alarm Deadband In EU

PVALDBEU range > = 0.0 = 1.0

| |__.__.__.__.__.__.__.__

PVROCNPRPV Neg Rate Of Chg Alarm Priority

BADPVPRBad-PV Alarm Priority

ALENBST Displayed Logged Reported To EIP Point Alarm Enable Status Enable Yes Yes Yes

Disable No Yes Yes Inhibit No No No

Low NoAction Journal High Emergncy JnlPrintPrinter







$AUXUNITAuxiliary Unit

|__.__ |range = Any configured LCN Unit ID default = (R520 and later) Null (- -)

AP88-503Page 1 of 2

4/97

APM Analog Output Point



NAME range = Not applicable Tag Name .__.__.__.__.__.__.__.__| default = Blank

PNTFORM FuLL Point is fully displayed and alarmedPoint Form Componnt Pt. is partially displayed but not alarmed

PTDESC range = Not applicable Point Descriptor default = Blank

|__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__ |

EUDESC |__.__.__.__.__.__.__.__ | range = Not applicableEngineering Units Descriptor default = Blank

KEYWORD |__.__.__.__.__.__.__.__ | range = Not applicableKeyword Descriptor default = Blank

UNIT |__.__| range = Two Alphanumeric CharactersProcess Unit Point Is Assigned To default = Not applicable

NTWKNUM |__.__| range = 1 to 20 NIM's UCN That This Point Is In default = Not applicable

NODENUM |__.__| range = 1 to 64 APMM's Address On The UCN default = Not applicable

MODNUM |__.__| range = 1 to 40 I/O Module Number default = Not applicable

SLOTNUM |__.__.__ | range = 1-8 or 1-16 Slot Number default = Not applicable

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Operating Configuration Display

OPTDIR(AnalOut) Direct For final OP: 0% =>4ma; 100% =>20maAO Direct/Reverse Action Reverse For final OP: 0% =>20ma; 100% =>4ma


PRIMMOD range = Not Applicable Primary Module ID default = Null |__.__.__.__.__.__.__.__.__.__.__.__.__.__.__.__|

NODETYPNode Type

An APM Point Is Being ConfiguredAPM

If a PM, HPM, LM, or SM is being configured, go to the appropriate forms for those devices.

PM, HPM, LM or SM

PNTMODTY AOPoint Module Type AO_16

Standard AO IOPHigh Density AO IOP

ASSOCDSP

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Associated Display default = Blank(R510 and later)

APM Analog Output Point


Operating Configuration Display(continued)

OPCHAR On I/O coordinates define OP char. curve Output Characterization Option Off I/O coordinates do not apply

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OPIN0 -6.9 range = Fixed at -6.9 percent Input Coordinate # 0 default = Not applicable OPIN1 range = > prev. coord, < next coord Input Coordinate # 1 default = Not applicable OPIN2 range = > prev. coord, < next coord Input Coordinate # 2 default = Not applicable OPIN3 range = > prev. coord, < next coord Input Coordinate # 3 default = Not applicable OPIN4 range = > prev. coord, < next coord Input Coordinate # 4 default = Not applicable OPIN5 106.9 range = Fixed at 106.9 percent Input Coordinate # 5 default = Not applicable OPOUT0 -6.9 range = Fixed at -6.9 percent Output Coordinate # 0 default = Not applicable OPOUT1 range = > prev. coord, < next coord Output Coordinate # 1

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default = Not applicable OPOUT2 range = > prev. coord, < next coord Output Coordinate # 2 default = Not applicable OPOUT3 range = > prev. coord, < next coord Output Coordinate # 3 default = Not applicable OPOUT4 range = > prev. coord, < next coord Output Coordinate # 4 default = Not applicable OPOUT5 106.9 range = Fixed at 106.9 percent Output Coordinate # 5 default = Not applicable

Mode Configuration Display - N/A if PNTFORM = Componnt.

RCASOPT None No cascade mode of any type is allowed Remote Cascade Option Ddc In Cas, AM point controls this point's OP NMODE None No configured "normal" operating mode AnalOut Point's Normal Mode Man Manual is the configured "normal" mode

Cas If RCASOPT equals Ddc, Cascade may be configured as the "normal" mode.

N/A if NMODE = None.

NMODATTR None Parameter NMODE sets "normal" mode Normal Mode Attribute Operator Operator sets "normal" operating mode

Program Program sets "normal" operating mode

MODEPERM Permit Operator can change this point's mode Mode Permissive NotPerm Optr. cannot change this point's mode

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Documents

Advanced Process Manager Configuration Forms · 2011. 11. 10. · Advanced Process Manager Configuration Forms 5/97 About This Publication This publication supports TotalPlant Solution