Local Control Panel
Transcript of Local Control Panel
Local Control Panel (LCP) Instructions
2021W Model A Version 7
ABB Instrumentation
Caution. An instruction that draws attention tothe risk of the product, process or surroundings.
ABB INSTRUMENTATION
The Company
ABB Instrumentation is an established world force in thedesign and manufacture of instrumentation for industrialprocess control, flow measurement, gas and liquid analysisand environmental applications.
We are committed to teamwork, high quality manufacturing,advanced technology and unrivaled service and support.
The quality, accuracy and performance of the Company'sproducts result from over 100 years experience, combinedwith a continuous program of innovative design anddevelopment to incorporate the latest technology.
The NAMAS Calibration Laboratory No. 0255(B) is just oneof the ten flow calibration plants operated by the Company,and is indicative of ABB Instrumentation's dedication toquality and accuracy.
As a part of ABB, a world leader in process automationtechnology, we offer customers application expertise, serviceand support worldwide.
Health and Safety
To ensure that our products are safe and without risk tohealth, the following points must be noted:
1. The relevant sections of these instructions must be readcarefully before proceeding.
2. Warning Labels on containers and packages must beobserved.
3. Installation, operation, maintenance and servicing mustonly be carried out by suitably trained personnel and inaccordance with the information given or injury or deathcould result.
4. Normal safety procedures must be taken to avoid thepossibility of an accident occurring when operating inconditions of high pressure and/or temperature.
5. Chemicals must be stored away from heat, protectedfrom temperature extremes and powders kept dry.Normal safe handling procedures must be used.
6. When disposing of chemicals, ensure that no twochemicals are mixed.
Safety advice concerning the use of the equipment de-scribed in this manual may be obtained from the Companyaddress on the back cover, together with servicing andspares information.
Use of Instructions
Although Warning hazards are related to personal injury,and Caution hazards are associated with equipment orproperty damage, it must be understood that operation ofdamaged equipment could, under certain operationalconditions, result in degraded process system performanceleading to personal injury or death. Therefore, comply fullywith all Warning and Caution notices.
Information in this manual is intended only to assist ourcustomers in the efficient operation of our equipment. Use ofthis manual for any other purpose is specifically prohibitedand its contents are not to be reproduced in full or partwithout prior approval of Technical Communications, ABBInstrumentation.
Licensing, Trademarks and Copyrights
MODCELL, MOD 30 and PC-30 are trademarks of AseaBrown Boveri, Inc.
IBM PC/AT is a trademark of International Business Ma-chines Corporation
PC-30 Software, ©Copyright 1988 Iconics, Inc.
ABB Instrumentation IncP.O. Box 20550Rochester, NY 14602-0550Ph: (716) 292-6050 Fax: (716) 273-6207
Printed in U.S.A. © 1999, ABB Instrumentation Inc
!
Warning. An instruction that draws attention tothe risk of injury or death.
Note. Clarification of an instruction or additionalinformation.
*
Information. Further reference for more detailedinformation or technical details.
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BS EN ISO 9001St Neots - CertificateNo. Q5907Stonehouse - CertificateNo. FM 21106
Stonehouse -Certificate No. 0255
Rochester USA -Certificate No.AQ-8618
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CONTENTS
CONTENTS
PageSECTION 1 - INTRODUCTION
1.1 GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-11.2 DOCUMENT OVERVIEW . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-11.3 EXPLANATION OF SERIAL AND CATALOG NUMBER . . . . . . . . . . . . . . . . . . 1-21.4 PRODUCT DESCRIPTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-31.4.1 2021W Local Control Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-31.4.2 1718F Back-up Memory Module, LCP . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-51.4.3 1719F Rack Mounting Kit for LCP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-51.4.4 1743N PROMs for Local Control Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-51.5 TECHNICAL SUMMARY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-61.6 RELATED DOCUMENTATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-7
SECTION 2 - INSTALLATION2.1 GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-12.2 MOUNTING LCP IN A RACK . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-22.3 MOUNTING LCP IN NEMA4 ENCLOSURE . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-32.4 SWITCH AND JUMPER SETTINGS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-32.5 REPLACING BATTERY IN MEMORY CIRCUIT . . . . . . . . . . . . . . . . . . . . . . . . 2-72.6 CONNECTING 24V DC POWER TO THE LCP . . . . . . . . . . . . . . . . . . . . . . . . 2-92.7 CONNECTING ICN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-92.8 CONNECTING AN ALARM TO THE LCP . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-112.9 CONNECTING SERIAL PORT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-12
SECTION 3 - LCP FRONT PANEL AND BASIC DISPLAYS3.1 GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13.2 FRONT PANEL KEYBOARD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13.3 FRONT PANEL DISPLAY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13.4 SOFTKEYS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-43.5 BASIC DISPLAYS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-103.5.1 Master Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-113.5.2 LCP Setup Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-123.5.3 DBASE STAT Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-133.5.4 Configuration Page Directory Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-143.5.5 Verify Configuration Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-153.5.6 Runtime Page Directory Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-173.5.7 Diagnostic Error Message Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-183.6 SYSTEM ERROR MESSAGES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-203.7 DATABASE VERSIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-203.7.1 Database Upgrade Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-213.7.2 Database Upgrade Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-21
SECTION 4 - CONFIGURATION4.1 GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-14.2 PAGE SETUP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-14.3 GRAPHIC DISPLAY CONFIGURATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-34.3.1 Special Character Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-34.3.2 Thin Line Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-64.4 DISPLAY FIELDS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-64.4.1 Horizontal and Vertical Bar Fields . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-64.4.2 Notification Message Fields . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-10
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4.4.3 Variable Fields . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-114.5 STANDARD INSTRUMENT FACEPLATE DISPLAY . . . . . . . . . . . . . . . . . . . . . 4-164.6 COPY FUNCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-174.7 VERIFYING CONFIGURATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-184.8 TRANSFERRING LCP DATA BASE BETWEEN MEMORIES . . . . . . . . . . . . . . 4-194.8.1 Transferring LCP Data Base from Main Memory to Back-Up Memory . . . . . . . 4-194.8.2 Transferring LCP Data Base from Back-Up Memory to Main Memory . . . . . . . 4-194.8.3 Write Protecting Back-Up Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-204.8.4 Removing Write Protection from Back-Up Memory . . . . . . . . . . . . . . . . . . . . 4-204.9 PASSWORD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-214.9.1 Entering Initial Password . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-214.9.2 Using the Password . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-224.9.3 Changing the Password . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-224.10 DATA BASE CONFIGURATION TUTORIAL . . . . . . . . . . . . . . . . . . . . . . . . . 4-234.10.1 Startup of LCP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-234.10.2 LCP Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-244.10.3 Data Base Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-254.10.4 Tutorial for Configuring LCP to Operate with 1701R Controller . . . . . . . . . . . 4-264.10.5 Tutorial for Configuring LCP to Operate with 1710R SLU . . . . . . . . . . . . . . . 4-33
SECTION 5 - OPERATION5.1 GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-15.2 CONTROLLING A VARIABLE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-45.2.1 Taking Control of a Variable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-45.2.2 Releasing Control of a Variable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-45.3 OPERATION OF PROCESS USING RUNTIME DISPLAYS . . . . . . . . . . . . . . . . 5-45.3.1 Operation of a Continuous Loop using 1701R Controller XL from LCP . . . . . . 5-55.3.2 Operation of a Sequential Loop using 1710R SLU from LCP . . . . . . . . . . . . . 5-65.4 PROCESS ALARMS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-75.5 PAGE ACCESS LEVEL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-85.6 OUT OF RANGE INDICATION FOR BARS . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-95.7 RUNTIME DISPLAY CONVENTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-10
APPENDIX A - LITHIUM THIONYL CHLORIDE BATTERIESA.1 DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-1A.2 SAFETY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-1
APPENDIX B - LCP DIAGNOSTIC AND SYSTEM ERRORS
APPENDIX C - MOD 30 MNEMONICS LISTING
APPENDIX D - LCP PLANNING AND DISPLAY LAYOUT FORMSD.1 LCP PLANNING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-1D.2 DISPLAY LAYOUT FORMS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-1
APPENDIX E - SUMMARY OF FIRMWARE CHANGES
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ILLUSTRATIONS
Page2-1 Mounting LCP in a Rack . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-22-2 Mounting Dimensions for 2021W LCP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-42-3 Mounting LCP in a NEMA4 Enclosure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-42-4 Location of Components in LCP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-52-5 LCP Processor Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-52-6 LCP Memory Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-82-7 Back-Up Memory Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-82-8 Terminal Functions for LCP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-92-9 Bulk Power Supply Connections to LCP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-102-10 ICN Connections Between LCP and 1720F Standard Termination Panels . . . . . . 2-112-11 Installing ICN Resistors (Kit 175S0024) to LCP . . . . . . . . . . . . . . . . . . . . . . . . 2-112-12 Alarm Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-123-1 Front Panel of LCP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-23-2 Display Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-23-3 Center Area of Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-33-4 Software Links Between Function Keys and Softkeys on Display . . . . . . . . . . . . 3-43-5 Basic Display Hierarchy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-103-6 Master Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-113-7 LCP Setup Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-123-8 DBASE STAT Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-133-9 Configuration Page Directory Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-143-10 Verify Configuration Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-153-11 EOC Errors Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-163-12 Runtime Page Directory Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-173-13 Diagnostic Errors Message Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-183-14 Composite Diagnostic Summary Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-193-15 View LCP Errors Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-193-16 MODCELL Diagnostic Errors Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-203-17 Database Conversions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-214-1 Configuration Page Directory with NO PAGES CONFIGURED Message . . . . . . . 4-14-2 Configuration Page with NO NAME Page Listed in Directory Listing . . . . . . . . . . 4-24-3 Page Format Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-34-4 Example of Shifted and Nonshifted Characters . . . . . . . . . . . . . . . . . . . . . . . . . 4-44-5 Enlarged Detail of Display Showing Use of Special Characters . . . . . . . . . . . . . . 4-44-6 Thin Line Softkeys . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-64-7 Configuration Display for a Continuous Variable Vertical Bar Field . . . . . . . . . . . . 4-74-8 Configuration Display for a Time Variable Vertical Bar Field . . . . . . . . . . . . . . . . 4-74-9 Types of Bars and Targets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-84-10 Solid Bars, Scaled Bars, and Targets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-94-11 Configuration Display for a Notification Message Field . . . . . . . . . . . . . . . . . . . 4-104-12 Examples of State Name Lists . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-144-13 Default Faceplates for MOD 30 Main and Aux PID . . . . . . . . . . . . . . . . . . . . . . 4-164-14 Default Faceplate for MODCELL PID . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-174-15 ENTER NEW PASSWORD Message on LCP Setup Display . . . . . . . . . . . . . . . 4-214-16 LCP Setup Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-244-17 DBASE STAT Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-254-18 LCP Display Layout for Controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-274-19 Complete Configuration Display for Vertical Bar Field . . . . . . . . . . . . . . . . . . . . 4-284-20 Configuration Display for Process Variable Field . . . . . . . . . . . . . . . . . . . . . . . 4-294-21 Configuration Display for Process Variable Field . . . . . . . . . . . . . . . . . . . . . . . 4-304-22 Configuration Display for Mode Variable Field . . . . . . . . . . . . . . . . . . . . . . . . . 4-31
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ILLUSTRATIONS (Cont’d)
Page4-23 Completed Configuration Display for Reactor Temperature . . . . . . . . . . . . . . . . 4-324-24 Configuration Page Directory Display with New Page 2 . . . . . . . . . . . . . . . . . . 4-334-25 LCP Display Layout for SLU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-344-26 Complete Configuration Display for Vertical Bar Field . . . . . . . . . . . . . . . . . . . . 4-354-27 Complete Configuration Display for Count Variable Field . . . . . . . . . . . . . . . . . . 4-364-28 Complete Configuration Display for Continuous Variable Field . . . . . . . . . . . . . . 4-374-29 Complete Configuration Display for State Variable Field . . . . . . . . . . . . . . . . . . 4-384-30 Completed Configuration Display for Batch Display . . . . . . . . . . . . . . . . . . . . . 4-405-1 Display Example Containing Text and Variables, Recipe Display . . . . . . . . . . . . . 5-15-2 Display Example Containing Text and Variables, Reactor Status Display . . . . . . . 5-15-3 Display Example Containing Graphics, Custom Operating Display . . . . . . . . . . . . 5-25-4 Display Example Containing Graphics, Default MOD 30 Faceplates . . . . . . . . . . . 5-25-5 Display Example Containing Graphics, Custom Variable Profile Display . . . . . . . . 5-35-6 Example of a Distance Character Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-35-7 Runtime Page Directory Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-55-8 Controller Reactor Temperature Runtime Display . . . . . . . . . . . . . . . . . . . . . . . 5-55-9 Batch Runtime Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-65-10 Runtime Display with Process Alarm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-75-11 Changing Access Level on the Configuration Page Directory Display . . . . . . . . . 5-85-12 Out of Range Indication for Bar Fields on Runtime Displays . . . . . . . . . . . . . . . 5-9
TABLES
Table Page2-1 ICN Address Switch Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-32-2 Jumper Locations and Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-63-1 Keyboard Keys . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-13-2 Softkey Functions, Setup, Status, and Diagnostic Displays . . . . . . . . . . . . . . . . . 3-53-3 Softkey Functions, Runtime Displays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-94-1 Keyboard Keys and Special Characters Displayed . . . . . . . . . . . . . . . . . . . . . . . 4-54-2 Character Spaces Required and Data Type abbreviations for Variable Fields . . . . 4-11B-1 LCP Diagnostic Errors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-1B-2 System Error Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-3C-1 Mnemonic Listing for MOD 30 Instruments . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-2C-2 Mnemonic Listing for SLU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-7D-1 LCP Loading Factors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-1
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INTRODUCTION
SECTION 1INTRODUCTION
1.1 GENERALThe 2021W Local Control Panel (LCP) is an easy-to-use, hardened industrial workstationthat displays process and alarm information concerning continuous, sequential, and multi-state device operations to personnel located on the plant floor. This ruggedized CRT ter-minal requires no prior programming experience to quickly configure custom control andgraphic displays representing any process application. Simple static graphics using stan-dard and large character sizes for detailed and distant view display formats are supported.Password-protected operating displays restrict access to recipes and special functions.
The LCP connects to the Instrument Communications Network (ICN) and works with up to15 other devices which may be geographically distributed along the ICN’s 2000 ft (600m)length. The LCP design fully complies with NEMA 12, 4, and 4X requirements. The CRTand internal electronics meet industry standards for vibration and EMI/RFI noise rejection.An unacknowledged alarm output at a terminal block on the back of the LCP can be usedwith annunciator horns. Firmware for the LCP is located on PROMs on the memoryboards. A back-up memory module maintains a copy of the data base on the memoryboard. Data base information may also be uploaded to and downloaded from a personalcomputer using the LCP.EXE supplied with your configuration software.
The LCP requires a clean stable source of 24V dc nominal power. Power must be pro-vided by a Class 2 source per National Electrical Code (NEC) Article 725 or CanadianElectrical Code (CEC) Rule 16-200.
1.2 DOCUMENT OVERVIEWThis book includes instructions and reference information for installation and wiring, database configuration, start up and operation of the 2021W Local Control Panel (LCP). Thelevel of detail in these instructions is intended to provide the uninitiated user with a basicunderstanding of the procedures involved in performing these activities. The following is asection-by-section summary of the contents of this book.
Section 1 – Introduction, briefly describes the purpose and capabilities of the LCP andassociated equipment. In addition, it describes the relation of the LCP to other elementsof the system, provides a functional and catalog number description for the LCP andassociated equipment, and provides a listing of technical characteristics for the LCP.
Section 2 – Installation, provides basic installation instructions for the LCP and associatedequipment along with considerations for unpacking and handling information. In addition,basic power and signal wiring instructions for the LCP and associated equipment areincluded.
Section 3 - LCP Keyboard and Basic Displays, provides basic information on the frontpanel display, display layout, keyboard keys, softkeys, and basic displays.
Section 4 – Configuration, describes the LCP and data base configuration requirementsused to create standard and custom display pages for runtime operation. A tutorial showshow to configure the data base for PID control and sequential operation.
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Section 5 – Operation, provides examples of how different displays are used to view andcontrol the process.
Appendix A – Lithium Thionyl Chloride Batteries, contains a description and safety precau-tions for the lithium thionyl chloride batteries used to back up the memories in the LCP.
Appendix B – LCP Diagnostic Errors, lists all of the LCP diagnostic errors with possiblecauses and action to be taken when an error occurs.
Appendix C – MOD 30 Instrument and SLU Mnemonics, lists the MOD 30 instrument andSLU mnemonics used to configure LCP variable fields. See the MODCELL data basereference books, as listed in Section 1.6 , for MODCELL mnemonics.
Appendix D – Display Layout Forms, contains forms to aid in planning and configuring LCPdisplays. These forms can be copied.
1.3 EXPLANATION OF SERIAL AND CATALOG NUMBERThe products described in this book have numbers that help identify specific features.The general format of these numbers are described below. Specific product descriptionsfollow in Section 1.4 .
The serial number stamped on the product data plate consists of the catalog number anda sequential identification number. The serial or catalog number, which is describedbelow, contains a series of single and multiple-character codes. These codes providespecific information concerning various electrical and/or structural options. Certaincombinations are not allowed. Options and combinations are subject to change.
Base Number
Unused
Electrical Code
Mounting
Firmware Version
Sample Serial No. 2021W Z 10 1 07 A – 555
Model/Design Level
Catalog Number
Sequential Identification Number
A catalog number will change when a a function is added or a major circuit or hardwarechange is made. For example, when a major firmware change is made in the instrument,the applicable character in the catalog number will increment. If the old catalog numberwas 2021WZ10106A, then the Firmware Version in the new catalog number would changefrom 06 to 07 and the catalog number would be 2021WZ10107A.
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1.4 PRODUCT DESCRIPTIONSThe following products are maintained at the serial or catalog number level. Thedescriptions included in this section give a brief overview of their functions and features.
1.4.1 2021W Local Control PanelThe LCP uses a 68008 microprocessor on the processor board to direct its activities.Program data resides in four 64K PROMs on the memory board. Half of the 64K RAM isbacked up with a battery for nonvolatile data base storage while the other half is used asstate RAM.
An ICN communication serial port connects to the terminal block on the back of the LCPand provides the interface to other instruments. A second serial port is used for specialcontrol system drivers. An open collector alarm output is microprocessor driven throughJ2 and the terminal block. A functional block diagram of the 2021W LCP is shown inFigure 1-1.
A 7 inch (178 mm) diagonal, high-resolution screen features character graphics and twocharacter sizes (normal and distance viewing). The monitor center area consists of 16lines and 42 character spaces per line. A P31 phosphor is used for display retention.Video inputs are composite video with horizontal and vertical sync for display generation.A -second display refresh rate, notification/data request message capability, and twopriority alarm reporting structure enables the LCP to enhance operator comprehension ofprocess conditions.
The integral keyboard is completely sealed, making it impervious to dust, oil, liquid spills,and other harsh treatment. Audible feedback, tactile feedback, one-button direct pageaccess keys, soft-function keys, and an intelligent cursor are all important LCP attributesthat help operators quickly manipulate the process efficiently.
All applicable mounting hardware is supplied with the LCP. As indicated by the catalognumber, the LCP can be panel mounted or installed in a 19-inch rack. Terminationrequirements for the LCP are provided through the terminal block on the back of the unit.
Catalog Number Description for 2021WBASE NUMBER 2021W Local Control Panel
UNUSED Z Unused Character
ELECTRICAL CODE 10 General Purpose, ABB Kent-Taylor standard14 General Purpose, CSA Certified
MOUNTING 1 Panel Mounting2 19-inch Rack Mounting
VERSION 07 Version 7 (See Appendix E for firmware differences)
MODEL A 1st design level
Sample Number 2021WZ10107A (Product is serialized)
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Figure 1-1. Functional Block Diagram
ICN
+24V
+5V
– 5V
+12V
Beeper
SerialPort
ICN to/from Instruments
Bus
S-3011-242(1)
RAM
1718F BACKUPMEMORY BOARD
VoltageRegulator
+5V
VoltageRegulator
Data BaseRAM
Battery
1743FPROMs
+5V
UART
UART
MEMORY BOARD
LOCAL CONTROL PANEL
PROCESSOR BOARD
VideoDisplay
Processor
VideoRAM
Keyboard
CRT
AlarmOutput
Microprocessor(CPU)
Power Up,Power Down
VoltageRegulatorPower
RAM
Data BaseRAM
Battery
1743FPROM
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1.4.2 1718F Back-up Memory Module, LCPThe Back-up Memory Module 1718F provides protection against loss of memory due tomain memory failure. It has 64K of RAM of which 32K is backed up with a battery. Theback-up memory module also provides a method of transferring the data base to otherLocal Control Panels with the same or similar configuration. One LCP Back-up MemoryModule is supplied with the LCP (2021W). Additional LCP Back-up Memory Modules1718F can be ordered as required.
Catalog Number Description for 1718FBASE NUMBER 1718F Back-up Memory Module, LCP
UNUSED Z Unused Character
ELECTRICAL CODE 10 General Purpose, ABB Kent-Taylor standard
UNUSED 0 Unused Character
UNUSED 00 Unused Characters
MODEL B 2nd design level
Sample Number 1718FZ10000B
1.4.3 1719F Rack Mounting Kit for LCPA 19-rack mounting kit can be obtained by specifying this option in the 2021W catalognumber. This rack mounting kit can be obtained separately by ordering 1719F.
Catalog Number Description for 1719FBASE NUMBER 1719F Rack Mounting Kit for LCP
UNUSED Z Unused Character
ELECTRICAL CODE 10 General Purpose, ABB Kent-Taylor standard
UNUSED 0 Unused Character
UNUSED 00 Unused Characters
MODEL A 1st design level
Sample Number 1719FZ10000A
1.4.4 1743N PROMs for Local Control PanelPROMS for the LCP are supplied with the LCP. However, PROMs ordered separately canbe used to upgrade earlier versions of the LCP.
Catalog Number Description for 1743NBASE NUMBER 1743N PROMs for Local Control Panel
UNUSED Z Unused Character
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ELECTRICAL CODE 10 General Purpose, ABB Kent-Taylor standard
UNUSED 0 Unused Character
VERSION 07 Version 7 (See Appendix E for firmware differences)
MODEL A 1st design level
Sample Number 1743NZ10007A
1.5 TECHNICAL SUMMARY
POWER REQUIREMENTS
Input Voltage: 24V dc
ConsumptionWithout Back-up Memory: 34W (1.25A typical)With Back-up Memory: 42W (2A maximum)
Maximum Current at Turn on: 5A (50us max.)
Voltage Range: 23V dc to 28V dc
Tolerance to Power Interruption: 90 days minimum
Allowable Ripple: 600 mV dc
PERFORMANCE CHARACTERISTICS
Data Base CapacityNumber of Configurable Pages: 20 approximatelyVariables per Page: 100 maximumMaximum Number of Alarmed Variables: 300Data Base Memory Size (battery backed-up): 32K bytesRetention: 1 year minimum data retention with new battery and no power supplied
CRT Resolution (character space available to user)Standard Display: 16 x 42Distant View Display: 4 x 10
KeyboardSealed membrane with audible and tactile feedback
COMMUNICATIONS
ICN CommunicationsMedia: Twisted pairSpeed: 31,250 baudDistance: 2000 ft (600 mm) maximumCable Capacitance: 25 pF per ftSignal Data: -1.5V to +2.0V from baseline of 10V
Serial PortsProtocol: RS-422, RS-232, or RS-423Access through enclosure rear (9-pin connector)
Safety Approval: CSA certified (2021W only)
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ENVIRONMENTAL
DesignComplies with NEMA 12 and NEMA 4 and 4X requirements
Ambient Temperature Specifications(The ambient operating temperature depends on the amount of equipment mountedin each cabinet and the environment in which it is being used.)Operating: 41 to 122°F (5 to 50°C)Storage: –40 to 167°F (–40 to 75°C)
Relative Humidity (noncondensing)Operating: 5 to 90% at 90°F (32°C)Storage: 0 to 100%
Radio Frequency Interface (RFI)Immunity at 1 meter: 1W at 27 to 451 MHzEmission: Negligible
PHYSICAL CHARACTERISTICS
Dimensions, Panel-Mounted LCPHeight: 8.6 inches (218 mm)Width: 17.5 inches (444.5 mm)Depth: 15 inches (381 mm)
Dimensions, EIA RackHeight: 8.6 inches (218 mm)Width: 19 inches (493 mm)Depth: 15 inches (381 mm)Weight: 20 lb (9 kg)
Weight20 lb (9 kg)
Panel Cutout: 16.3123 x 7.4063 inches (414.33 x 188.12 mm)
1.6 RELATED DOCUMENTATIONReference information on the installation and configuration of MOD 30 Instruments can befound in the following documents.
• IB-23C200, Instructions for 1700J MOD 30 Recorder
• IB-23C401, Instructions for 1701R MOD 30 Controller XL
• IB-23C501, Instructions for 1710R MOD 30 SLU
Reference information on the installation, data base structure and configuration parametersfor MODCELL and MOD 30ML can be found in the following documents.
• IB-23C600 Installation Instructions for MODCELL Multiloop Processor
• IB-1800R-INS Installation Instructions for MOD 30ML
• IB-23G600 Data Base Reference for Logic Functions Book 1
• IB-23G602 Data Base Reference for Functions Book 2
• IB-23G601 Data Base Reference for Advanced Control Functions
• IB-1800R-APP Data Base Reference for MOD 30ML Functions
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Reference information on uploading and downloading the LCP data base can be found inthe following documents.
• IB-23H140 User’s Guide for PC-30 Configuration Software for ICN Driver
• IB-23H141 User’s Guide for Application Builder Software
Reference information on ICN/Link communications can be found in the followingdocuments.
• IB-23A160 Instructions for MOD 30 and MODCELL ICN Planning
• IB-23C001 ICN Communication Link Instruction Book for 1720N
• IB-23C003 ICN Mini Link Board Instruction Book for 1731N, 1732N
• IB-23C004 ICN Mini Link/EXT (External) Instruction Book for 1733N, 1732N
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SECTION 2INSTALLATION
2.1 GENERALThe 2021W Local Control Panel (LCP) contains circuitry and a CRT that can be damagedby rough handling. Do not unpack the unit until you are ready to install it.
CAUTIONThe PROMs along with components in the LCP and on the backupmemory module contain sensitive CMOS circuitry that may be dam-aged when exposed to static electricity. To avoid damaging thesecomponents, store in the antistatic wrap and exercise caution whenhandling.
The LCP is shipped complete, ready for installation using the following procedures.
• Mounting LCP in a rack (Section 2.2 )
• Mounting LCP in a NEMA 4 enclosure (Section 2.3 )
• Switch and Jumper Settings (Section 2.4 )
• Replacing battery in memory circuit (Section 2.5 )
The power and signal wiring procedures described in this section include the following.
• Connecting 24V dc power to the LCP (Section 2.6 )
• Connecting ICN (Section 2.7 )
• Connecting an alarm to the LCP (Section 2.8 )
• Connecting Serial Port (Section 2.9 )
The LCP does not require initial adjustments or start up procedures and should operateimmediately when the system is energized. The following preliminary checks should bemade to insure proper operation.
1. Check switches and jumpers against the configuration specifications detailed inSection 2.4 .
2. Insure secure mounting and proper connection.
3. After power up, observe that the display is functional and check for diagnostic errors(see Section 3.5.7 ). A complete listing of diagnostic errors appears in Appendix B .
4. Check that communications is established on the ICN by configuring an operatorwriteable variable and changing it.
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2.2 MOUNTING LCP IN A RACKPerform the following steps to install the LCP in a 19 inch EIA rack.
1. Install frame from rack mounting kit to back of front panel of LCP. Refer to Figure 2-1.Retain with 16 flat washers and lock nuts from kit.
2. Remove trimstrips from frame. Pry off with screwdriver.
3. Install LCP into rack and secure with 4 screws and nuts from rack mounting kit.
4. Install trimstrips onto frame.
Figure 2-1. Mounting LCP in a Rack
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2.3 MOUNTING LCP IN NEMA4 ENCLOSUREInstall the LCP in a NEMA4 enclosure of the appropriate size as described below.
1. Make panel cutout of the size shown in Figure 2-2. This panel cutout can be on thedoor of the enclosure or on a panel inside the enclosure.
2. Install LCP in panel cutout, Figure 2-3 and retain with 16 flat washers, shakeproofwashers, and 8-32 nuts.
2.4 SWITCH AND JUMPER SETTINGSThe ICN address switch is used to identify the LCP when communicating over the ICN.As many as sixteen instrument addresses can be used on one ICN (switch useshexadecimal labels 0 through F). Each instrument and the LCP on the ICN requires aunique identifying address.
1. Turn off power to LCP.
2. Remove rear cover. Refer to Figure 2-4.
3. Remove interconnecting ribbon cable (Figure 2-4).
4. Remove processor board. Disconnect cables connected to J2, J3 and J4 on proces-sor board (Figure 2-5) as board is being removed.
5. Set ICN address switch, Figure 2-5, at a unique address. Refer to Table 2-1.
NOTE: When using the LCP, set the address to 0. This leaves address position 1 fora link (if used) and 2 through F available for instruments. The LCP must lookat foreground messages and has the capability, as lowest addressed device,to report the ICN overload diagnostic.
Table 2-1. ICN Address Switch Settings
ICN Address SwitchPosition
ICN IdentifyingAddress
0123456789ABCDEF
0123456789101112131415
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Figure 2-2. Mounting Dimensions for 2021W LCP
Figure 2-3. Mounting LCP in a NEMA4 Enclosure
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Figure 2-4. Location of Components in LCP
Figure 2-5. LCP Processor Board
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NOTE: If processor board or LCP is to replace a defective unit, set address switch atsame position as switch on defective unit.
CAUTIONMake sure cable connector marked P2 is connected to J2 onprocessor board, cable connector marked P3 is connected to J3 onprocessor board and cable connector marked J4 is connected to J4on processor board. If these cables are interchanged, the LCP canbe damaged.
6. Check location of jumpers W1 through W4 on processor board. They should be lo-cated at the positions listed in Table 2-2.
NOTE: It should not be necessary to change the jumpers on the memory boards.However, you may check that their positions match those listed in Table 2-2.
Table 2-2. Jumper Locations and Functions
* Do not install jumper in other position
Board Jumper Jumper Position* Function
Processor Board
W1 2 (Vertical) Baud = 2400
W2 2 (Vertical) RS-422
W3 1 (Horizontal) Watchdog Enabled
W4 Out Beeper Enabled
Memory Board
W1 1 (Vertical) Primary Board
W2 2 (Horizontal) U15, 27512
W3 2 (Horizontal) U22, 27512
W4 2 (Horizontal) U27, 27512
1718F Model BBackup MemoryModule
W1 2 (Horizontal) Backup Board
W2 2 (Horizontal) U15, 27512
W3 2 (Horizontal) U22, 27512
W4 2 (Horizontal) U27, 27512
7. Check switch positions on sections of serial port switch S3. Section 1 should be setat CLOSED and sections 2 through 6 should be set at open for RS-422 communica-tions.
NOTE: See Section 2.9 , for an explanation of the serial port switches and jumpers.
8. Install processor board into LCP. Reconnect cables to connectors J2, J3 and J4,Figure 2-4, on board. Cable to connector J2 is from terminal block, cable to connectorJ3 is from CRT and cable to connector J4 is from serial port connector.
9. Install interconnecting ribbon cable.
10. Replace rear cover.
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2.5 REPLACING BATTERY IN MEMORY CIRCUIT
1. Turn off power to LCP.
2. Remove rear cover. Refer to Figure 2-4.
3. Remove interconnecting ribbon cable.
4. Remove LCP memory board (Figure 2-6) or back-up memory module. (Figure 2-7)
5. Connect leads of new battery to battery jack, Figure 2-7.
WARNINGDo not short circuit. Short circuitingthis battery could cause temperaturesas high as 320°F (160°C). This wouldcause severe burns if allowed to touchunprotected skin. See Appendix A .
Position flat side of battery connector as shown.
NOTE: Make sure one battery is always connected to memory circuit. If one batteryis not connected, all data in RAM memory will be lost.
6. Remove old battery from battery clips.
7. Position new battery as shown in Figure 2-7 and press firmly into battery clips.
8. Disconnect leads of old battery from battery jack.
9. Install LCP memory board or back-up memory module into LCP.
10. Install interconnecting ribbon cable.
11. Replace rear cover.
12. Turn on power to LCP.
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Figure 2-6. LCP Memory Board
Figure 2-7. Back-Up Memory Module
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2.6 CONNECTING 24V DC POWER TO THE LCPThe power connections on the rear of the LCP, Figure 2-8, must be connected to a 24Vdc nominal power supply. Power connections, using a 1744F Bulk Power Supply, areshown in Figure 2-9.
When connecting equipment to a bulk power supply, connect each piece of equipment toa separate set of (+) and (–) terminals using a separate pair of wires, Figure 2-9. Use 14AWG (1.6 mm) or heavier stranded wire. The (+) and (–) terminals on the bulk powersupply have wire clamp plates so that terminal lugs are not required.
A switch should be installed to isolate the LCP from 24V dc power. This will allow bulkpower to be easily turned off at the LCP when servicing is required. Power to the LCPmust always be turned off prior to disconnecting cables, removing boards, or performingsimilar services. Refer to IB-23C112 for further information concerning electrical connec-tions to the 1744F Bulk Power Supply.
Figure 2-8. Terminal Functions for LCP
+ –
ICN (InstrumentCommunications
Network)
Ground
COM
–+ –+
Alarm Output
COM
Alarm
+24
COM
+24
COM
COM
+ICN
– ICN
Alarm
24V dcPower
No. 1
No. 2
Notes:1. Terminals COM are connected together.2. Ground terminal is connected to terminal block
mounting screw with a jumper link.S-3011-166
2.7 CONNECTING ICNICN connections between the rear of the LCP, Figure 2-8, and termination panels areshown in Figure 2-10. From two to sixteen instruments (including the LCP) can beconnected together to form the ICN. Use 18 AWG (1 mm) twisted pair wire for ICNconnections. The ICN connections are made in parallel, i.e., + terminal to + terminal to+ terminal, etc. and – terminal to – terminal to – terminal, etc. All instruments on the ICNmust have their power supply circuit commons tied together.
An ICN resistor kit, 175S0024, can be used, as shown in Figure 2-11, to ensure that theICN is properly terminated when other ICN termination options are not used. The kit in-cludes three ICN resistors and two diodes. The diodes allow redundant power supplies tobe connected to the ICN circuit. When installing this kit, you should consider using aswitch that disconnects the ICN when LCP power is switched off. This would prevent theLCP ICN circuit from putting a drain on the active ICN.
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Figure 2-9. Bulk Power Supply Connections to LCP
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Figure 2-10. ICN Connections Between LCP and 1720F Standard Termination Panels
Figure 2-11. Installing ICN Resistors (Kit 175S0024) to LCP
Customer Switch
1800.5W5%
5602W
10%
8202W
10%
+24V
COM
+24V
COM
24V dc Power
COM
+ICN
– ICN
Alarm
24V dc PowerIN4148Diodes
LCP Terminals
S-3011-352ICN to Next Device
2.8 CONNECTING AN ALARM TO THE LCPThe alarm connections to the LCP are shown in Figure 2-12. The alarm output is oper-ated by the microprocessor circuitry. The output is controlled by an open collector transis-tor output circuit. An external power supply is required to source the current for the exter-nal alarm device (relay, indicator, 1733F Interposing Relay Panel, etc.). The currentthrough the circuit must be limited externally and must not exceed 30V max and 250 mA
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max. Alarm output is active on unacknowledged alarms only. All process and diagnosticalarms with alarm outputs operate through the same alarm terminal.
Figure 2-12. Alarm Connections
– +
+24
COM
+24
COM
COM
+ICN
– ICN
Alarm
S-3011-160
AlarmLoad
ExternalPowerSupply
– +
2.9 CONNECTING SERIAL PORTSerial port, J4, can be setup for no serial interface (LCP Setup for Serial Port is NONE) orwith the special control system interface (LCP Setup for Serial Port is 1180) as describedin Section 3.5.2 . Communication can be set up for RS-232, RS-422, or RS-423 at 2400or 9600 baud as shown in Table 2-3 and Table 2-4.
Table 2-3. Processor Board Serial Port Jumper Functions
Jumper Position Function
W1-1 Baud = 9600
W1-2 Baud = 2400
W2-1 RS-232C, RS-423
W2-2 RS-422
Table 2-4. Processor Board Serial Port Switch Functions
O = Open, C = Closed, * = C if using Clear To Send
FunctionPosition
1 2 3 4 5 6
RS-232C O C C O C *
RS-423 O C C C O *
RS-422 C O O O O *
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LCP FRONT PANEL AND BASIC DISPLAYS
SECTION 3LCP FRONT PANEL AND BASIC DISPLAYS
3.1 GENERALThis section provides descriptive and reference information for the LCP front panelkeyboard and basic displays.
3.2 FRONT PANEL KEYBOARDThe keyboard keys on the front panel of the LCP are divided into groups as shown inFigure 3-1. The keyboard groups (Page Selection Keys, Function Keys, Cursor ControlKeys, Numeric Keys, and Alphabet Keys) are described in Table 3-1.
Table 3-1. Keyboard Keys
Group Function
Page Selection KeysP1 Through P6
Allows direct selection of Configuration and Runtime DisplayPages 1 through 6. In addition, pages can be selected with acombination of the GOTO PAGE softkey and the numeric keys.
Function Keys F1 Through F6
These keys are always associated with the softkey displays onthe CRT display. See Tables 3-2 and 3-3 for a description ofthese functions.
Cursor Control Keys These keys are used to move the cursor around the display.The cursor wraps around on the display. (If the cursor is on line7 and at character space 42, pressing the cursor right controlkey will move the cursor down and back to line 8 characterspace 1).
Numeric Keys These keys are used to enter numbers 0 through 9 and adecimal point on the display. The ENTER key is used to enterany alphanumeric key entry onto the display.
Alphabet Keys(Not shifted)
These keys are used to enter alphabet letters A through Z, adash, a space, a backspace, a comma, and a colon on thedisplay.
Alphabet Keys(Shifted)
These keys are used to enter characters on the display. Someof the characters are standard characters such as parenthesis,asterisk, equals sign, percent sign, etc. The remainingcharacters are special characters used to build graphic displays.
Shift Home Locates cursor on runtime page. Stops all other flashing. Cursoris only motion on display
3.3 FRONT PANEL DISPLAYThe display on the front panel, Figure 3-1, is a seven inch (178 mm) diagonal green onblack CRT that is shielded by a protective window. The display layout is shown in Figure3-2. The top line is a message line that is used by the LCP to display messages such ascursor position, diagnostic errors, data base is full, etc.
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Figure 3-1. Front Panel of LCP
Figure 3-2. Display Layout
(X,Y)
S-3011-165(2)
Softkeys
Center Area
Message Line
Cursor Position Display
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
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LCP FRONT PANEL AND BASIC DISPLAYS
The center area of the display is a free formatted area which can be configured with anycombination of characters, letters, numbers, or graphics as required. The center area ofthe display, Figure 3-3, contains 16 lines with 42 character spaces per line for normal sizecharacters, or 4 lines with 10 character spaces per line for distance (large size) charac-ters. A movable cursor provides a flashing visual indicator on the display which shows theposition of the next character entry. It looks like an underline for a letter or number. Thecursor is moved around the display by use of the cursor control keys, Figure 3-1, on thefront panel. The cursor has a home position, Figure 3-3, which is space 1 on line 1 in theupper left corner of the display and is displayed as (1, 1) on the cursor position display,Figure 3-2 (normal size only).
Figure 3-3. Center Area of Display
Display Layout for Distance Size CharactersS-3011-198(2)
42 Character Spaces
16 Lines
Home Positionfor Cursor
Home Positionfor Cursor 10 Character Spaces
4 Lines
Display Layout for Normal Size Characters
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When on the page format screen in the configurator, the position or location of the cursoron the display is shown as two numbers, separated by a comma and enclosed in paren-thesis. The first number represents the line number and the second number (after thecomma) represents the character space on the line.
Example (normal size only):
Cursor Position Display (6,18) = line 6, character space 18
The cursor position display helps relate the character space on the display to the spaceson the LCP Display Layout Form. The cursor can be positioned at the home position byuse of the up and left pointing cursor control keys or it can be placed directly at the homeposition by pressing the HOME cursor control key.
NOTE: If the DG ERRS or a process alarm message appears on the top message line ofthe display, pressing the HOME cursor control key will move the cursor to themessage on the top line of the display.
The bottom area of the display has six softkey displays. Each softkey display is a programlabel associated with a specific function key and indicates the function provided when thefunction key is pressed. The softkeys are connected through software links to the func-tion keys as shown in Figure 3-4.
3.4 SOFTKEYSThe six softkeys correspond to the labels on the bottom section of the display as shown inFigure 3-4. Each softkey display indicates the function provided when the function key ispressed.
Figure 3-4. Software Links Between Function Keys and Softkeys on Display
LCPSETUP
DBASESTAT RUN
VIEW ERRSCONFG
VERIFCONFG
M O D S Y S T E M S
L O C A L C O N T R O L
P A N E L
S-3011-215(1)F1 F2 F3 F4 F5 F6
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LCP FRONT PANEL AND BASIC DISPLAYS
The softkeys serve many functions such as:
• Move to another display, page or variable
• Add, delete or edit a page
• Verify configuration
• View or acknowledge diagnostic alarms or configuration errors
• Change access levels
The words for each softkey space (such as RUN, GOTO PAGE, ADD PAGE, etc.) canchange from one display to the next but any given softkey space on the display is alwaysconnected to the same function key. For example, pressing the F2 function key actuatesthe second softkey from the left on the display.
The softkey functions for the Master, LCP Setup, DBASE STAT, Configuration, VerifyConfiguration, and Diagnostic Error displays are listed in Table 3-2. The softkey functionsfor the Runtime display are listed in Table 3-3.
Table 3-2. Softkey Functions, Setup, Status, and Diagnostic Displays
Softkey Function
1180 Defines the serial port as an AccuRay 1180 MICRO control system.
ABORT EOC Terminates the verification of configuration that is in progress.
ABORT XFER Cancels a command to transfer the data base to or from memory.
ACK ERRS Acknowledges all the diagnostic errors listed on the display screen.
ADD COPY Adds a copied field to the data base.
ADD FIELD Adds a field to a page.
ADD PAGE Adds a page to the data base.
AFTERPG:
Adds a new page after the page number selected and renumbers allsubsequent pages.
BEFORPG: 1
Adds a new page at the first page of the data base and renumbers allsubsequent pages.
CANCL ADD Cancels the command to add a page to the Page Display.
CANCLCOPY
Cancels the command to copy field or page.
CANCLFACEP
Cancels the command to add a default face plate.
CANCLFIELD
Cancels the command to add a field to Page Format Display.
CANCL REQ Cancels a requested command.
CANCL XFER Cancels a command to transfer the data base to or from memory.
CNTS Configures the data type for a bar variable as continuous.
COMP DIAG Exits the Master Display and calls up the Composite Diagnostic Display.
CONFG Exits the Master Display and calls up the Configuration Directory Display.
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LCP FRONT PANEL AND BASIC DISPLAYS
Table 3-2. Softkey Functions, Setup, Status, and Diagnostic Displays (Cont’d)
Softkey Function
COPY FIELD Copies a selected variable field to a specified location on the samepage.
COPY PAGE Copies a selected page.
COPY PG: Copies the page number entered.
DBASE STAT Exits the Master Display and calls up the DBASE STAT Display.
DEL FIELD Deletes a previously configured field.
DEL NAME Deletes the state name configured for a particular value.
DEL PA1 Deletes Process Alarm 1.
DEL PA2 Deletes Process Alarm 2.
DEL PAGE Deletes the page the cursor is on in the Page Directory.
DEL PWORD Deletes the configured password after verification.
DIR BACK Scrolls through the directory of page names in a backward direction.
DIR FORW Scrolls through the directory of page names in a forward direction.
DIST Allows configuration of a page with large size characters which can beseen from a distance. A maximum of 4 lines with 10 character spacesper line is allowed.
EDIT FIELD Allows editing of a previously configured field.
EDIT PAGE Allows editing the page the cursor is on in the Page Directory.
EOC ERRS Exits the Verify Configuration Display and calls up the EOC ErrorsDisplay (Version 1 and 2 LCP only).
ERRS BACK Moves backward one page in the EOC errors listing.
ERRS FORW Moves forward one page in the EOC errors listing.
ERRS FWD Moves forward one page in the diagnostic errors listing.
EXIT CONFG Exits the Configuration Display and calls up the Master Display.
EXIT ERRS Exits the EOC Errors Display and calls up the Master Display.
EXIT SETUP Exits the LCP Setup Display and calls up the Master Display.
EXIT STAT Exits the DBASE STAT (Data Base Status) Display and calls up theMaster Display.
EXIT VERIF Exits the Verify Configuration Display and calls up the Master Display.
FACE PLATE Allows configuration of a page with default controller face plates.
GLBL ACK Acknowledges all unacknowledged errors in this MODCELL instrument.
HORIZ BAR Adds a horizontal bar graph to a Page Format Display.
INSTR NO: Defines a specific instrument for end of configuration check, or forcontroller face plate definition, or for viewing diagnostic errors.
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LCP FRONT PANEL AND BASIC DISPLAYS
Table 3-2. Softkey Functions, Setup, Status, and Diagnostic Displays (Cont’d)
Softkey Function
LCP ERRS Exits the Composite Diagnostic or the Master Display and calls up theLCP Errors Display.
LCP SETUP Exits the Master Display and calls up the LCP Setup Display.
LINES OFF Exits the thin line editing function.
MOD30 AUX Defines the default faceplate for a MOD 30 controller auxiliary algorithm.
MOD30CNTR Enters MOD 30 CNTR (MOD 30 Controller) to instrument type field.
MOD30MAIN Defines the default face plate for a MOD 30 controller main algorithm.
MOD30RCDR Enters MOD 30 RCDR (MOD 30 Recorder) to an instrument type field.
MOD30SLU Enters MODD30 SLU (MOD 30 Sequence and Logic Unit) to aninstrument type field.
MODCELL Enters MODCELL to an instrument type field.
MORE Displays additional thin lines (12 total).
NEW ERRS Merges new incoming diagnostic errors with the diagnostic errors on thedisplay.
NO a. Configures a field to NO instead of YES.b. Is used to verify that a page is not to be deleted.c. Is used to configure a variable as not operator writable.d. Is used when selected default face plates are to be configured.
NONE Configures Variable with Same Names Field to NONE.Used when no default controller face plate (1, 2, 3, or 4) is required.Used to configure serial port when 1180 is not used.
NORM Allows configuration of a page with normal size characters. A maximumof 16 lines with 42 character spaces per line is allowed.
NOTIF MSG Adds a notification message to the Page Format Display.
1 (Priority 1) Configures an alarm to be a Priority 1 Alarm.
OPER Sets the access level of a page to operator. This allows total access tooperator writable fields on the runtime display.
OTHER LIST Indicates other displays have lists associated with the Variable withSame Names Field.
PAGE DIR Exits the Page Format Display and calls up the Page Directory Page.
PAGEFORMT
Calls up the Page Format Display.
PREV PAGE Calls up the page that was displayed before the Diagnostic ErrorsDisplay.
PROT Sets the access level of a page to protected. This allows access tooperator writable fields on runtime displays only if the access level israised to PROT.
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LCP FRONT PANEL AND BASIC DISPLAYS
Table 3-2. Softkey Functions, Setup, Status, and Diagnostic Displays (Cont’d)
Softkey Function
RUN Exits the Master Display and calls up the Runtime Directory Display.
SEL BACK Scrolls through the data types or the state names in a backwarddirection.
SEL FORW Scrolls through the data types or the state names in a forward direction.
SOLIDW/SCL
Allows configuration of a solid with scale bar type of bar variable.
START EOC Starts the verification of the configuration (Version 1 and 2 LCP only).
TARGT Allows configuration of a target mark type of bar variable.
THICK SOLID Used to define a thick solid bar type variable.
THIN LINES Accesses 12 different thin lines through the softkeys and allowshorizontal and vertical shapes to be drawn on the Page Format Display.
THIN SOLID Used to define a thin solid bar type variable.
TOTALCONFG
Defines all instruments for end of configuration check.
TIME Configures the data type for a bar variable as time.
2 (Priority 2) Configures an alarm to be a Priority 2 Alarm.
VAR Adds a variable to the Page Format Display.
VERIFCONFG
Exits the Master Display and calls up the Verify Configuration Display.
VERT BAR Adds a vertical bar graph to the Page Format Display.
VIEW ERRS Exits whatever display is on display screen and calls up the View ErrorsDisplay.
XFERBACKUP
Commands the transfer of the data base from the main memory of theLCP to the backup memory.
XFER DATA Commands the transfer of the data base from the backup memory to themain memory of the LCP.
YES a. Configures a field to YES instead of NO.b. Is used to verify that a page is to be deleted.c. Is used to configure a variable as being operator writable.d. Is used when all four default face plates are to be configured.
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Table 3-3. Softkey Functions, Runtime Displays
Softkey Function
ACK ERRS Acknowledges all of the diagnostic errors on the display screen.
ALARM ACK Acknowledges all process alarms on the display screen.
CANCL REQ Cancels a requested command.
DIR BACK Scrolls through the directory of page names in a backward direction.
DIR FORW Scrolls through the directory of page names in a forward direction.
EXIT RUN Exits the Runtime Display and calls up the Master Display.
GOTO PAGE Will cause a number of other softkeys to appear which will allow accessto other displays.
GOTO VAR Provides direct access to an alarming variable associated with the alarmdescription the cursor is on.
LOWER ACC Lowers access from PROT (protected) to OPER (operator).
NEW ERRS Merges new incoming diagnostic errors with the diagnostic errorsalready on the display screen.
NEXT ALARM Scrolls the top line of the alarm window so the next (more recent) alarmis shown.
PAGE DIR Calls up the Runtime Page Directory Display.
PAGE: _ Will cause a direct page change to a runtime page.
PREVALARM
Scrolls the top line of the alarm window so a previous (older) alarm isshown.
PREV PAGE Calls up the page that was displayed before the diagnostic errorsdisplay.
RAISE ACC Raises access from OPER (operator) to PROT (protected)
(RampDown)
When this switch is pressed, the highlighted value will change in adownscale direction at a rate of approximately 1% of span per halfsecond. A very short switch depression (a tap) will decrease thehighlighted value 0.1% of span.
(RampDown Fast)
When this switch is pressed, the highlighted value will change in adownscale direction at a rate of approximately 10% of span per one halfsecond. A very short switch depression (a tap) will decrease thehighlighted value 1% of span.
(Ramp Up) When this switch is pressed, the highlighted value will change in anupscale direction at a rate of approximately 1% of span per one halfsecond. A very short switch depression (a tap) will increase thehighlighted value 0.1% of span.
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Table 3-3. Softkey Functions, Runtime Displays (Cont’d)
Softkey Function
(RampUp Fast)
When this switch is pressed, the highlighted value will change in aupscale direction at a rate of approximately 10% of span per one halfsecond. A very short switch depression (a tap) will increase thehighlighted value 1% of span.
SEL BACK Scrolls through the state names in a backward direction. State namesshow in field. First two state names show on softkeys.
SEL FORW Scrolls through the state names in a forward direction. State namesshow in field. First two state names show on softkeys.
VIEW ERRS Calls up the Diagnostic Errors Display from the Master or RuntimeDisplays.
3.5 BASIC DISPLAYSThe LCP is configured and operated from a series of basic displays. A block diagram ofthe basic display hierarchy is shown in Figure 3-5. The basic displays provide access toall other displays on the LCP.
Figure 3-5. Basic Display Hierarchy
S-3011-241(2)
Basic Displays
MasterDisplay
Power Up
DBASE STATDisplay
LCP SetupDisplay
ConfigurationPage Directory
Display
VerifyConfiguration
Display
RuntimePage Directory
Display
DiagnosticErrors Message
Display*
ConfigurationDisplays
EOC ErrorDisplays
RuntimePage
Displays
View ErrorsDisplays
* Can be entered fromany other display
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3.5.1 Master DisplayWhen power is applied to the LCP, the master display, Figure 3-6, appears on the displayscreen. The version 5 LCP checks to see if the Backup Memory board and proper PROMare installed as part of the power-up sequence.
1.) If no Backup Memory board is present the message “Backup Memory Card Required” is displayed on the Master Display.
2.) If no PROM is on an existing Backup Memory board, the message “BM15 PROM Required” is displayed (BM15 is a label on the PROM).
3.) If the incorrect PROM is on an existing Backup Memory board, the message “BM15 Upgrade Required” is displayed.
The master display is used to access any of the following basic displays (as long as thereis no password restriction as described in Section 3.5.2 ):
• LCP Setup Display (Section 3.5.2 )
• DBASE STAT (Data Base Status) Display (Section 3.5.3 )
• Configuration Page Directory Display (Section 3.5.4 )
• Verify Configuration Display (Section 3.5.5 )
• Runtime Page Directory Display (Section 3.5.6 )
• Diagnostic Errors Message Display (Section 3.5.7 )
Exiting any of the above displays returns you to the master display.
Figure 3-6. Master Display
S-3011-216(3)
LCPSETUP
DBASESTAT RUNCONFG
VERIFCONFG
M O D S Y S T E M S
L O C A L C O N T R O L
P A N E L
COPYRIGHT (C) 1997 ABB INSTRUMENTATION INC. ALL RIGHTS RESERVED VERSION 7.00
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LCP FRONT PANEL AND BASIC DISPLAYS
3.5.2 LCP Setup DisplayThe LCP setup display, Figure 3-7, is used to initially setup the LCP before starting to con-figure displays. This display is used to configure (YES or NO) the internal beeper andopen collector alarm output for priority 1 and 2 alarms, configure or suppress diagnosticerrors, and configure key depression beep. In addition, the display is used to view theICN address of the LCP, define the serial port connection type (NONE or 1180) and toconfigure or change a password.
Serial Port ConnectionThe serial port is defined as 1180 when the special control system drivers are employed.Otherwise, the serial port must be defined as NONE.
NOTE: Use NONE for the serial port connection configuration when the serial port is notbeing used. Entering 1180 will cause the processor to get unnecessary interruptsfrom the serial port resulting in slower operation of the LCP.
PasswordThe password controls access to the LCP displays. Use of the password is described inSection 4.9 . Entering the password raises the access level in the LCP and allows accessto the LCP data base and all of the LCP displays. If a password is not configured accessis allowed to all of the LCP data base and all of the displays. If a password is configured,personnel with the knowledge of the password have access to all of the LCP data baseand all of the displays while personnel without knowledge of the password are restricted toonly the view errors display and the runtime display pages. In addition, when a passwordis configured, it is necessary to raise the access level on runtime displays in order to haveoperator write privileges on protected (PROT) pages.
Figure 3-7. LCP Setup Display
EXITSETUP NO YES
L C P S E T - U P
BEEPER ALARM OUTPUT PRIORITY 1 ALARMS NO NO PRIORITY 2 ALARMS NO NO DIAGNOSTIC ERRORS NO NO KEY DEPRESSIONS YES
SUPPRESS LCP DIAGS NO SUPPRESS EXTERNAL DIAGS YES LCP ICN ADDRESS 15 SERIAL PORT CONNECTION NONE
CHANGE PASSWORD :
S-3011-170(2)
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LCP FRONT PANEL AND BASIC DISPLAYS
3.5.3 DBASE STAT DisplayThe DBASE STAT display, Figure 3-8, indicates data base memory usage and configura-tion status. It is used to configure memory labels, transfer data base between the mainand the back-up memories and write protect the back-up memory.
Memory UsageThe data base memory usage and the configuration status fields are not configurable.These fields indicate information supplied from the LCP data base. When the memory us-age indicates 215 bytes, no user configured data is present. A maximum of 32,768 bytesof memory may be used. The configuration status is defined by any one of the followingconditions:
CFGD/VERIFIED - Memory has been configured and the end of configuration checkhas been completed without fatal errors.
PARTIALLY CFGD - Memory has not been completely configured or configurationchanges have been made and no end of configuration check was performed.
Memory LabelsThe main memory and back-up memory labels can be configured with any appropriatename of up to 16 characters.
Memory TransfersTransferring data base between memories and write protecting the back-up memory isdone with softkeys as described in Section 4.8 , Transferring LCP Data Base BetweenMemories. The display indicates if no back-up memory is present.
Database VersionA data base created with LCP firmware versions 1 through 3 is considered database ver-sion one. A data base created with LCP firmware version 4 or 5 is considered databaseversion two. The database versions only work with the firmware versions they were cre-ated on. The differences are due to MODCELL variable types and the reorganization ofthe database. See Section 3.7 for a description of the upgrade and initialization process.
Figure 3-8. DBASE STAT Display
EXIT STAT
D B A S E S T A T U S
MAIN MEMORY : PARTIALLY CFGD DATABASE VERSION : 2.0 MEMORY USAGE : 4121 BYTES DATABASE LABEL : – TRANSFER TO BACK-UP : NO
BACK-UP MEMORY : PARTIALLY CFGD DATABASE VERSION : 2.0 MEMORY USAGE : 215 BYTES DATABASE LABEL : WRITE PROTECTED : NO TRANSFER TO MAIN : NO
S-3011-189(1)
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3.5.4 Configuration Page Directory DisplayThe configuration page directory display, Figure 3-9, lists all configuration display pagesthat have been configured in the LCP. Each line of the listing has a page number, pagename, page access level, and page type (normal or distance size characters). TheLCP access level is displayed in the lower right corner of the display. The page name list-ed on the page directory display can be up to 22 characters long.
The configuration fields on the configuration page directory display are:
• Page Number. This specifies the page number of the display page in the page direc-tory.
• Page Name. This specifies the page name assigned to the page when the page wasadded to the page directory.
• Page Access Level. This specifies the level of access an operator has to a runtimedisplay page. When the page access level is OPER, the operator can view the pageand change any operator writable fields on the page. When the page access level isPROT and the LCP access level is OPER, the operator can view the page but cannotchange any fields on the page. To change fields, the LCP access level must beraised to PROT. The page access level is changed by moving the cursor on this dis-play to the OPER or PROT field and pressing the appropriate softkey.
• Page Type. This specifies if display page has normal size characters (16 lines with 42character spaces per line) or distance size characters (4 lines with 10 characterspaces per line)
Figure 3-9. Configuration Page Directory Display
EDIT PAGE
DEL PAGE
EXITCONFG
ADD PAGE
P A G E D I R E C T O R Y 1. REACTOR TEMPERATURE OPER NORM 2. BATCH DISPLAY OPER NORM 3. REACTOR LEVEL OPER NORM 4. RECIPE DISPLAY OPER NORM 5. STORAGE 1 OPER NORM 6. STORAGE 2 OPER NORM 7. STORAGE 3 OPER NORM 8. STORAGE 4 OPER NORM
ACC: OPER
S-3011-233(2)
Page Number Page Access Level
Page Type
LCP AccessLevel
Page Number
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LCP FRONT PANEL AND BASIC DISPLAYS
3.5.5 Verify Configuration DisplayThe verify configuration display, Figure 3-10, is used to check the main memory configura-tion and change its data base status to verified. The configuration must be verified beforethe LCP will go into runtime. Pressing the TOTAL CONFG softkey or pressing the INSTRNO:_ softkey and entering a specific instrument on this display starts the verification pro-cess. The message CHECKING CONFIGURATION appears on the display in flashing re-verse video. If there are no configuration errors detected by the LCP, the message CON-FIGURATION VERIFIED (total check) or 1 INST CONFIG VERIFIED (one instrumentcheck) will appear on the display in reverse video.
Figure 3-10. Verify Configuration Display
EXITVERIF
TOTALCONFG
INSTRNO:_
M O D S Y S T E M S
L O C A L C O N T R O L
P A N E L
S-3011-187(2)
START VERIFICATION OF...
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
If configuration errors are detected, the LCP will automatically call up the EOC (end ofconfiguration) errors display, Figure 3-11, which lists each configuration error in the LCP.Most of the errors in the list indicate the page number of the display page, the location ofthe error on the display page and the type of configuration error. The location is indicatedby the row and column of the field on the display. The errors are listed in the order foundwhen the configuration is checked. Errors in reverse video must be corrected before ver-ification can be completed to enter runtime.
The error messages are:
• 1st Proc Alarm Descriptor Not Configured• 1st Proc Alarm Not Configured in SLU• 1st Proc Alarm Number Not Configured• 1st Proc Alarm Priority Not Configured• 2nd Proc Alarm Descriptor Not Configured• 2nd Proc Alarm Not Configured in SLU• 2nd Proc Alarm Number Not Configured• 2nd Proc Alarm Priority Not Configured• Bar Graph Length Not Configured• Bar Graph Type Not Configured• Bus Message Lost: Run EOC Again• EOC Aborted• EOC Inquiry Failed: Instr. Unconfigured
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LCP FRONT PANEL AND BASIC DISPLAYS
Figure 3-11. EOC Errors Display
EXIT ERRS
E O C E R R O R S
1. PAGE 1 ROW 2 COLUMN 5 : INSTRUMENT NUMBER NOT ON THE ICN 2. PAGE 2 ROW 9 COLUMN 16: INSTRUMENT NUMBER NOT ON THE ICN 3. PAGE 3 ROW 1 COLUMN 10: RANGE NOT CONFIGURED
S-3011-188(1)
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a• Incorrect Data Type for the Variable• Instrument Number Not Configured• Instrument Number Not on the ICN• Instrument on ICN is a Controller• Instrument on ICN is a Recorder• Instrument on ICN is a SLU• Instrument on ICN Not Supported by LCP• Instrument Type Not Configured• Maximum Configuration Errors Reported• Message for Notification Not Configured• Notify Message Descriptor Not Configured• Notify Message Not Configured in SLU• Notify Message Occur No. Not Configured• Range Not Configured• Time Bar Endpoints Not Configured• Totalized Decimal Point Not Configured• Untyped Data Has Incorrect Length• Variable Data Type Not Configured• Variable is Not in Foreground• Variable Not Configured• Partial EOC Completed• Instrument on the ICN is a MODCELL• Notif Msg Unack Status not in FG• Notif Msg Active Status not in FG• 1ST Proc Alarm Unack Status not in FG• 2ND Proc Alarm Unack Status not in FG• 1ST Proc Alarm Active Status not in FG• 2ND Proc Alarm Active Status not in FG
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3.5.6 Runtime Page Directory DisplayThe runtime page directory display, Figure 3-12, lists all runtime display pages that havebeen configured in the LCP. With the exception of the softkeys, this page directory dis-play looks like the configuration page directory display.
Each line of the listing has a page number, page name, page access level, and page type(normal or distance size characters). The LCP access level is displayed in the lower rightcorner of the display.
The fields on the runtime page directory display are:
• Page Number. This specifies the page number of the display page in the page direc-tory. A total of 12 display page names can be shown at one time. An individual dis-play page can be selected for display by one of the page selection keys (displaypages 1 through 6 only) on the LCP front panel or by pressing the GOTO PAGEsoftkey and entering the page number of the display page (all display pages) and thenpressing ENTER.
• Page Name. This specifies the page name assigned to the page.
• Page Access Level. This specifies if an operator has access to an individual runtimedisplay page. When the page access level is OPER, the operator can view the pageand change any operator writable field on the page. When the page access level isPROT, the operator can view the page but cannot change any field on the page. Tochange operator writable field on the page, the LCP access level must be raised toPROT also. This requires knowledge of the password if it is configured.
• Page Type. This specifies if display page has normal size characters (16 lines with 42character spaces per line) or distance size characters (4 lines with 10 characterspaces per line).
Figure 3-12. Runtime Page Directory Display
GOTO PAGE
EXIT RUN
RAISE ACC
S-3011-234(1)
P A G E D I R E C T O R Y 1. REACTOR TEMPERATURE OPER NORM 2. BATCH DISPLAY OPER NORM 3. REACTOR LEVEL OPER NORM 4. RECIPE DISPLAY OPER NORM 5. STORAGE 1 OPER NORM 6. STORAGE 2 OPER NORM 7. STORAGE 3 OPER NORM 8. STORAGE 4 OPER NORM
ACC: OPER
Page Number
Page Number Page Access Level
Page Type
LCP AccessLevel
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3.5.7 Diagnostic Error Message DisplayDiagnostic errors in the LCP and external diagnostics are used to indicate hardware orsoftware failures related to the LCP or instruments on the same ICN and may or may notbe suppressed. If a diagnostic error is detected, the message DG ERRS will appear onthe message line at the top of the display as shown in Figure 3-13 for the Master Display.This message will appear regardless of what is being displayed. If both LCP and externaldiagnostics are suppressed, the message DG SUPP appears on the display.
A diagnostic error adds a VIEW ERRS softkey and the DG ERRS message in the upperright corner of the display. This message is shown in flashing reverse video. Pressing theVIEW ERRS softkey calls up the Composite Diagnostic Summary display, Figure 3-14, ifexternal diagnostics are enabled or goes directly to the LCP Diagnostic Errors display, Fig-ure 3-15, if only LCP diagnostics are enabled. Each device on the ICN is polled for errorsand a summary is displayed on the LCP. Diagnostic errors for MODCELL instruments arecollected and listed, Figure 3-16, while those for a MOD 30 Instrument are shown as acomposite status. MODCELL errors for each block type are given in the data base refer-ence book, Section 1.6 . MOD 30 errors are acknowledged and viewed at the instrument.
LCP diagnostic errors, as shown in Figure 3-15, indicate error status (unacknowledged,acknowledged but still active or cleared), a number representing the corresponding diag-nostic alarm in an instrument and the error name. The error status is shown as follows:
U = Unacknowledged Alarm (Shown in flashing reverse video)
A = Acknowledged but Still Active Alarm (For example: a bad battery has not been re-placed)
C = Cleared Alarm (Alarm condition no longer exists)
A complete listing of the LCP diagnostic errors appears in Appendix B . They are listedby a description of the error, possible causes of the error and the action to be taken tocorrect the error.
To acknowledge any unacknowledged diagnostic errors, press the ACK ERRS softkey.Any U shown in reverse video will change to an A or C. At this point, press PREV PAGEsoftkey to return to the master display.
Figure 3-13. Diagnostic Errors Message Display
VIEW ERRS
LCPSETUP
DBASESTAT RUNCONFG
VERIFCONFG
M O D S Y S T E M S
L O C A L C O N T R O L
P A N E L
COPYRIGHT (C) 1997 ABB INSTRUMENTATION INC. ALL RIGHTS RESERVED VERSION 7.00
S-3011-195(1)
DG ERRS
a a a a a a a a a a a a
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a a a a a a a a a a a a
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Shown inFlashing
Reverse Video
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LCP FRONT PANEL AND BASIC DISPLAYS
Figure 3-14. Composite Diagnostic Summary Display
PREV PAGE
LCP ERRS
INSTRNO:_
C O M P O S I T E
D I A G S U M M A R Y
0. LCP UNACK 8.1. 9.2. REG CNTR UNACK 10. RECORDER CLEAR3. REG CNTR ACTIV 11. RECORDER UNACK4. LOG CNTR UNACK 12. XL CNTR ACTIV5. LOG CNTR UNACK 13. SLU UNACK6. 14.7. 15.
S-3011-350a a a a a a a a a
a a a a a a a a a
a a a a a a a a aa a a a a a a a a
a a a a a a a a a
a a a a a a a a aa a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a aa a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
Figure 3-15. View LCP Errors Display
ACK ERRS
COMP DIAG
L C P D I A G E R R O R S
U (10) REPLACE BACKUP MEMORY BATTERY
S-3011-196(3)
Represents CorrespondingDiagnostic Alarmin an Instrument
a a a a a
a a a a a
a a a a a
a a a a a
ErrorName
Shown inFlashing Reverse
Video.Changes to
A
AfterAcknowledging
Errorsor to
CAfter Erroris Cleared
a a a a a
a a a a a
a a a a a
a a a a a
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LCP FRONT PANEL AND BASIC DISPLAYS
Figure 3-16. MODCELL Diagnostic Errors Display
ERRS FWD
GLBL ACK
ACK ERRS
COMP DIAG
D I A G E R R O R S
INST NUMBER: 2 INST TYPE: REG CNTR
IF 1 UNACK INSTRUMENT POWERED UPIF 1 UNACK INSTRUMENT POWERED DOWNDIM 3 UNACK I/O MISMATCHDIM 4 UNACK I/O MISMATCHDIM 5 UNACK I/O MISMATCH
S-3011-351a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
Active/Unack
Occurence No.
Block Type
Error Message(see data basereferencebook)
3.6 SYSTEM ERROR MESSAGESSystem error messages indicate errors that occur when configuring the LCP displays.They indicate such problems such as an incorrect password, back-up memory is write pro-tected, an invalid entry was made, there is no such variable, etc.
A system error message appears after the enter key is pressed. The LCP beeps and themessage appears on the top message line of the display in reverse video. It remainsdisplayed for approximately 3 seconds. The system error messages are listed inAppendix B .
3.7 DATABASE VERSIONSWhen the LCP has firmware version 4 or later PROMS installed and a version 1 databaseresident in main memory the message DATABASE UPGRADE REQUIRED will be dis-played after power-up or after a download from a computer. See Section 3.7.1 for up-grade considerations. If your database is ready to be upgraded, you may proceed to theDBASE STAT display and perform the upgrade, Section 3.7.2 . If a version 1 back-up da-tabase is to be transferred to main memory, the same upgrade procedure and consider-ations apply.
The DATABASE VERSION line is also used to erase any existing main or back-up data-base resident on the LCP. This is accomplished by pressing the DBASE INIT softkey.You are then asked to either initialize the memory or cancel the request.
CANCL REQ INIT
TO ERASE CONFIGURATION PRESS INIT KEY
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LCP FRONT PANEL AND BASIC DISPLAYS
3.7.1 Database Upgrade ConsiderationsA Version 1 database will not operate in a LCP with firmware version 4 or later. If youhave this situation, you will no be allowed to enter any display except the Database Statusand View Errors display. The Database Status display is used to upgrade the database.
Generally, there should be no problem with the upgrade. However; if your database isnear full (about 32K bytes), then the upgrade will not work. As a guide, a version 2 data-base takes 3 bytes more per unique range, 2 byte more per process alarm and 2 bytesmore per variable. Also, there are 2 less ranges available.
To get around a full database, use your earlier version firmware to remove pages and/orfields from a working copy. If you only have one LCP, this will mean replacing the four ex-isting PROMS with the three earlier firmware version PROMS, making your changes, andthen putting the new PROMs back in. Next, use the fixed database copy for the upgrade.If your original database needs to be split to fit the version 2 database form, you can usethe UPLOAD and DOWNLOAD features in the personal computer based LCP Utility totransfer working databases. This utility is available with our configuration software or sep-arately through our bulletin board.
A version 2 database which is powered up in an earlier firmware version LCP will fail thepower-up tests and the database will be re-initialized.
3.7.2 Database Upgrade ProcedureTo upgrade a version 1 database to version 2, follow this procedure.
1. Press the DBASE STAT softkey.
VIEW ERRS
DBASESTAT
This gets you from the main display to the database status display. Continue withthe procedure as shown in Figure 3-17.
Figure 3-17. Database Conversions
CANCL REQ
UPGRADE
TO CONVERT DATABASE PRESS UPGRADE KEY EXIT STAT
D B A S E S T A T U S
MAIN MEMORY : CFGD/VERIFIED DATABASE VERSION : 1.0 MEMORY USAGE : 14835 BYTES DATABASE LABEL : MOD30XL1 TRANSFER TO BACK-UP : NO
BACK-UP MEMORY : PARTIALLY CFGD DATABASE VERSION : 1.0 MEMORY USAGE : 14496 BYTES DATABASE LABEL : MOD30XL2 WRITE PROTECTED : NO TRANSFER TO MAIN : NO
S-3011-360
2. Move cursor to either place, depending onwhich database is to be upgraded.
3. Press the 2.0 softkey. This checks the database to see if it is possibleto upgrade. A message will be displayed if it isnot possible to upgrade.
4. Press the UPGRADE softkey.This causes the database to be upgraded. Youmay also elect to exit at this point. Note thatthe upgrade will not be allowed on the back-upmemory if it is write protected.
2.0DBASE INIT
EXIT STAT
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LCP FRONT PANEL AND BASIC DISPLAYS
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CONFIGURATION
SECTION 4CONFIGURATION
4.1 GENERALThis section provides a description of, and a tutorial introduction to, data base con-figuration for the LCP. Data base configuration is the process of building displays anddefining display fields for the LCP. The displays can be configured with any combinationof characters, letters, numbers, or graphics as required. This is done by entering data intothe LCP data base on a fill-in-the-blank and free format basis. Lines of text, variablefields, vertical or horizontal bar fields, notification message fields, and graphic lines aredefined to establish the displays and necessary controls to operate instruments connectedthrough the ICN to the LCP. See Appendix D for display planning forms.
4.2 PAGE SETUPThe functions used to configure the LCP are implemented through configuration softkeys.Softkeys are reassigned as you move through the configuration process. Generally, theprocess involves creating a page, editing the page by adding graphics and fields, andsaving the configuration. Do the following to begin the configuration process and set up apage.
1. From the master display (Figure 3-6), press the CONFG softkey.
LCPSETUP
DBASESTATRUNCONFG
VERIFCONFG
As there is no data base configured in the LCP memory, the message NO PAGESCONFIGURED will appear on the display screen in reverse video, Figure 4-1.
Figure 4-1. Configuration Page Directory with NO PAGES CONFIGURED Message
P A G E D I R E C T O R Y NO PAGES CONFIGURED
ACC: PROT
EXITCONFG
ADD PAGE
S-3011-173(2)
Shown inReverseVideo
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a
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IB-23C811
CONFIGURATION
2. Press ADD PAGE softkey.
EDIT PAGE
DEL PAGE
EXITCONFG
ADD PAGE
A new page, Figure 4-2, called **NO NAME** will appear on the display. Cursorwill be at NORM on right end of line.
Figure 4-2. Configuration Page with NO NAME Page Listed in Directory Listing
EDIT PAGE
DEL PAGE
EXITCONFG
ADD PAGE
P A G E D I R E C T O R Y 1. **NO NAME** OPER NORM
ACC: PROT
S-3011-174(2)
3. Define the page type.
FACEPLATEDISTNORM
Pressing the NORM softkey will allow you to configure a page with normal sizecharacters (16 lines with 42 character spaces per line). Pressing the DISTsoftkey will allow you to configure a page with distance size characters (4 lineswith 10 character spaces per line). Pressing the FACE PLATE softkey will allowyou to configure a page with standard faceplates as described in Section 4.5 .After defining the page type, cursor will move to **NO NAME** on line.
4. Type the name of the display page (name of page can be up to 22 characters long) inplace of **NO NAME** and press ENTER.
5. Press the EDIT PAGE softkey.
EDIT PAGE
DEL PAGE
EXITCONFG
ADD PAGE
The page format display, Figure 4-3, will appear which will be blank except for thecursor flashing at the home position on the display screen, and the cursor positiondisplay (1,1). At this point, graphics and fields can be added to the display. SeeSection 4.3 for a description on configuring graphics and Section 4.4 for adescription on configuring fields.
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Figure 4-3. Page Format Display
DELFIELD
PAGE DIR
COPYFIELD
EDITFIELD
THINLINES
ADDFIELD
( 1, 1)
S-3011-235(3)
FastFlashingCursor
CursorPosition
4.3 GRAPHIC DISPLAY CONFIGURATIONGraphics displays are configured by combining text, bar fields, and variable fields withspecial characters, which can be entered by using the shifted alphabet keys, or thin lines,which are entered using softkeys. Only one character of any type may occupy a characterspace on the display. Each character space can be occupied by any one of the followingcharacters.
• A Number
• An Alphabet Letter
• Punctuation such as a comma or a colon
• A special graphics character
• A thin line character
• Nothing (character space can be left empty)
• Other standard characters such as #, (, ), +, -, =, etc.
• Part of a vertical or horizontal bar field
• Part of a variable field
4.3.1 Special Character ConfigurationThe SHIFT key on the keyboard has a toggle action. Pressing the shift key once shifts allalphabet keys to the shifted position and the yellow LED in the upper left corner of theshift key turns on. This action of the shift key produces the shifted characters. Pressingan alphabet key will produce the shifted character for that key, which is shown at the up-per left corner of the key, Figure 4-4. To shift back from the shifted position, the shift keymust be pressed again.
The special shifted characters used to build graphic displays are listed in Table 4-1. Anexample of a section of a display showing the use of the special characters is shown inFigure 4-5. The special characters can be placed at any location on the display.
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CONFIGURATION
Figure 4-4. Example of Shifted and Nonshifted Characters
P
S-3011-207
Alphabet Keyon Keyboard
Shifted CharacterP Appears as
Non Shifted CharacterP Appears as
Non ShiftedCharacter
ShiftedCharacter
Figure 4-5. Enlarged Detail of Display Showing Use of Special Characters
These characterspaces of the
edge line weremade withShifted S
These characterspaces of the edge
line were madewith Shifted Q
This characterspace of the edge
line was madewith Shifted W
S-3011-208
These characterspaces of the
vertical dividingline were madewith Shifted T
This characterspace of the edge
line was madewith Shifted X
Each verticalrectangle
represents onecharacter space
on display
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CONFIGURATION
Table 4-1. Keyboard Keys and Special Characters Displayed
Shifted Z
Shifted Y
Shifted R
Shifted Q
Shifted N
Shifted O
Shifted P
Shifted M
Special CharacterDisplayed
S-3011-212
AlphabetKeys
ShiftedSPACE
Shifted --
Shifted X
Shifted W
Shifted T
Shifted U
Shifted V
Shifted S
Special CharacterDisplayed
AlphabetKeys
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CONFIGURATION
4.3.2 Thin Line ConfigurationYou can add thin lines to a display by using the THIN LINE softkey. The thin linecharacters used to build graphic displays are shown in Figure 4-6. The thin linecharacters can be placed at any location on the display.
Figure 4-6. Thin Line Softkeys
LINES OFFMORE
LINES OFFMORE
LINES OFFMORE
S-3011-353
4.4 DISPLAY FIELDSThere are three types of display fields that can be configured for the LCP display. Theyare:
• Horizontal and Vertical Bar Fields
• Notification Message Fields
• Variable Fields
4.4.1 Horizontal and Vertical Bar FieldsThe horizontal and vertical bar fields provide a dynamic indication on a bar graph of time,floating point and continuous process values. A bar field is a group of adjacent characterspaces configured by a bar field display.
Adding A Bar
NOTIF MSG
CANCLFIELD VAR
VERT BAR
HORIZ BAR
A vertical or horizontal bar is configured by pressing the VERT BAR or HORIZ BARsoftkey on the add field display. This calls up a configuration display for a vertical or hori-zontal bar field. The configuration display for a continuous variable vertical bar field isshown in Figure 4-7 and for a time variable vertical bar field in Figure 4-8. The wordNONE is not a default entry. It indicates that the display field has not been configured.
Time variable bar graphs require configuration of the time bar end points. The beginningtime (for the left or bottom end of the bar) is entered first, followed by a comma and thenthe ending time (for the right or top end of the bar). All time variables are entered ashours, minutes and seconds separated by colons. The full range of hours is allowed. Seethe description for DISPLAY FORMAT in Section 4.4.3 .
Floating point variable bar graphs also require configuration of the bar end points enteringthe smaller value in the range of –99999 to 999999 first and the larger value second. Theoptimum endpoints will match the expected values.
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Figure 4-7. Configuration Display for a Continuous Variable Vertical Bar Field
PAGEFORMT
INSTR NO.: 2 INSTR TYPE: MOD30 CNTR
BAR TYPE: THIN SOLID
CHAR LENGTH OF VERT BAR: 10
VARIABLE: CPROC
S-3011-175(2)
Figure 4-8. Configuration Display for a Time Variable Vertical Bar Field
PAGEFORMT
INSTR NO.: 8 INSTR TYPE: MODCELL
BAR TYPE: THIN SOLID
CHAR LENGTH OF VERT BAR: 10
VARIABLE: TM1,TIME
ENDPOINTS: 0:00:00.000,100:00:00.000 (BOTTOM,TOP - HH:MM:SS.SSS,HH:MM:SS.SSS)
S-3011-244(2)
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Types and Lengths of BarsThe bar fields can have thick or thin solid or scaled bar indicators or target mark indicatorsas shown in Figure 4-9. The length of a bar field is configured by specifying the numberof character spaces for the length of the bar. Horizontal bar fields can be up to 42 char-acter spaces in length and vertical bar fields can be up to 16 character spaces in height.
Figure 4-9. Types of Bars and Targets
S-3011-359
ScaledVertical Bar
VerticalTarget Bar
ThinVertical Bar
ThickVertical Bar Scaled
Horizontal Bar
HorizontalTarget Bar
ThinHorizontal Bar
ThickHorizontal Bar
Any zero base continuous variable can be displayed on a bar field. Zero centered continu-ous variables in the controller such as adjusted set-point (CADVSP), deviation (CDEV) andremote set-point bias (CBIAS) cannot be displayed correctly by a bar field.
Accuracy of BarsThe accuracy of the indication is determined by the total length of the bar and the charac-teristics of the display. Each character space is made up of small elements called pixels.A pixel is the smallest element on the screen that can be addressed and changed. Eachcharacter space is 6 pixels wide by 10 pixels high. The number of pixels per characterspace times the number of character spaces determines the minimum percent change invalue (% of span) that can be displayed on a bar field. The smallest change possible inbar length that can be displayed is a one pixel change. This is one sixth of the width orone tenth of the height of a character space.
The minimum percent change that can be displayed is calculated as follows:
Minimum Percent Changefor Horizontal Bars
=Total Number of BarCharacter Spaces × 6
100
Minimum Percent Changefor Vertical Bars
=Total Number of BarCharacter Spaces × 10
100
The longer the length of the bar the more accurate is the bar indication. For example, if ahorizontal bar is 8 character spaces long, the smallest change in value that can be dis-played is approximately 2% of span (2.083% actual). By increasing the bar length to 33character spaces, the smallest change in value that can be displayed is approximately0.5% of span (0.505% actual). If a vertical bar is 4 character spaces high, the smallest
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CONFIGURATION
change in value that can be displayed is 2.5% of span. By increasing the bar height to 10character spaces, the smallest change in value that can be displayed is 1% of span.
Appearance of Bars on Runtime DisplaysOn the runtime displays, the thin solid bar, thick solid bar, scaled bar and target marks oc-cupy either full or half character spaces as shown in Figure 4-10.
Figure 4-10. Solid Bars, Scaled Bars, and Targets
S-3011-282 (1)
Scale Mark
THIN VERTICAL BAR:3 pixels wide (1/2 ofwidth of characterspace); occupies rightside of characterspaces in bar field
ValueIndication
OneCharacter
Space
SCALED VERTICAL BAR:1 pixel axis bar and 5pixel marker at eachcharacter space; variablevalue shown as 3 pixel bararound axis
TARGET MARK:1, 3, 5 pixel triangle;occupies left half ofcharacter space in barfield
THICK VERTICALBAR:Occupies full width ofbar field; bars butttightly together forsimple graphics
TARGET MARK:1, 3, 5 pixel triangle;occupies top half ofcharacter spaces in barfield
SCALED HORIZONTALBAR:1 pixel axis bar and 5pixel marker at eachcharacter space; variablevalue shown as 3 pixel bararound axis
THICK HORIZONTALBAR:Occupies full width ofbar field; bars butttightly together forsimple graphics
THIN HORIZONTALBAR:5 pixels high (1/2 ofheight of characterspace); occupiesbottom half of char-acter spaces in barfield
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4.4.2 Notification Message FieldsA notification message field is used to configure a notification message for the LCPruntime display. The configuration display for a notification message field is shown inFigure 4-11.
Adding A Notification Message Field
NOTIF MSG
CANCLFIELD VAR
VERT BAR
HORIZ BAR
A notification message field is added by adding a field and selecting the NOTIF MSGsoftkey. Enter the instrument number and the instrument type (either MODCELL orMOD30 SLU). The occurrence number of the notification/request message block in theinstrument is entered in the notification message occurrence number field. The wordNONE is not a default entry. It indicates that the display field has not been configured.The notification/request message block in the instrument will trigger the appearance of thenotification message on the LCP display.
The notification message (up to 32 characters) is configured in the message field and isstored in the LCP. It appears on the LCP runtime display when triggered by a Notifica-tion/Message Block in the instrument. The message can be configured to appear at anylocation in the center area of the display. An additional message (up to 8 characters) canbe configured in the alarm descriptor field. This message will appear in the top messageline of the display and is used to alert the operator that the notification message wastriggered by the instrument.
If data is to be requested by the notification/request message block in the instrument,configure the data requested field on the display at YES.
Figure 4-11. Configuration Display for a Notification Message Field
PAGEFORMT
INSTR NO.: 2 INSTR TYPE: MODCELL
NOTIF MSG OCCURRENCE NUMBER: NONE
DATA REQUESTED: NO
MESSAGE: NONE
ALARM DESCRIPTOR: NONE
S-3011-236(1)
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4.4.3 Variable FieldsThe variable fields display count, date, time, continuous process values, state names, dis-crete values, etc. on the LCP runtime display. The number of character spaces requiredby a variable field depends on the data type of the variable for the field. The characterspaces required for the authorized data types are listed in Table 4-2.
Table 4-2. Character Spaces Required and Data Type abbreviations for Variable Fields
* Equal to number of characters in longest state name
Data Type forVariable Field
CharacterSpaces Required
Abbreviation forHEX Entry
Valid InstrumentTypes
4 Byte Continuous 10 TOT CNTR, SLU
ASCII String 1 minimum42 maximum
ASC MODCELL, SLU
Continuous 6 CTN RCDR, CNTR, SLU
Controller Mode 4 MOD RCDR, CNTR
Count 5 CNT MODCELL, SLU
Date 8 DAT MODCELL, SLU
Discrete 1 or * DSC All
Floating Point 6 FLT MODCELL
Hex3 minimum
41 maximumHEX MODCELL, SLU
Long State 3 or * LST MODCELL, SLU
Millisecond Time 10 Short, 14 Long MST MODCELL
Set-Point Status 4 SPT RCDR, CNTR
Short State 2 or * SST MODCELL, SLU
Time 9 TIM SLU
Byte Before one of the above BBF All
The configuration display for a variable field will have configuration fields appropriate to thedata type of the variable. Some of the configuration entries for these fields are enteredfrom the LCP keyboard and others are entered by pressing a softkey. The word NONE isnot a default entry. It indicates that the display field has not been configured. The possi-ble fields are:
• INSTR NO.: (0 - 15)This is the instruments ICN address number.
• INSTR TYPE: (MOD30 RCDR, MOD30 CNTR, MOD30 SLU, MODCELL)
MOD30 SLU
PAGEFORMT
MOD CELL
MOD30 CNTR
MOD30 RCDR
The type of instrument may be MOD 30 Recorder, MOD 30 Controller XL, MOD 30SLU or MODCELL Controller.
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• VARIABLE: (any valid mnemonic)This is the data source code or mnemonic for the variable. Appendix C contains acomplete list of authorized MOD 30 and SLU variables. IB-23G600, IB-23G601,IB-23G602 and IB-1800R-APP contain the complete list of MODCELL AND MOD30ML variables. MODCELL variables are entered using the block type and occurrencenumber, mnemonic. For example, EX1,R equals Expression Block number one, result.
When a mnemonic is not supported by the LCP lookup tables, the variable may still bespecified on this line by entering a hex address and a data type as follows:
$xxxx,yyy OR $vvvvvvvv,yyy
where xxxx = a MOD 30 hex block and byte or LSP (logical source pointer)vvvvvvvv = a MODCELL LSP Hex Addressyyy = one of the data type abbreviations listed in table 4-2.
If the hex address and a data type entries match a value in the lookup table, theappropriate mnemonic will be displayed.
• DATA TYPE: (any valid data type listed in Table 4-2)
PAGEFORMT
SEL FORW
SEL BACK
Use the select forward and backward softkeys to choose the data type for the variableand then press ENTER. The data types are listed in Table 4-2.
• OPERATOR WRITEABLE: (YES, NO)
PAGEFORMT NO YES
This field determines if the operator can write to the variable field.
• PROC ALARM, ALM#: (NONE, 1 to 8)This is the alarm number in the process alarm block in a controller or recorder.
NOTES: A maximum of 250 process alarms can be configured in the LCP. If anattempt is made to configure an additional process alarm, the system errormessage ALARM TABLE FULL will be displayed.
The one alarm output at the rear terminals of the LCP can be configuredto operate with any combination of priority 1 alarms, priority 2 alarms ordiagnostic errors. An alarm output to the rear terminals is provided bychanging one, two or all three of the alarm output fields on the LCP setupdisplay from NO to YES.
The alarm output at the rear terminals of the LCP is active onunacknowledged alarms only.
• PROC ALARM, OCC#: (NONE, occurrence or block number)This is the occurrence or block number of a process alarm block in a MOD 30 SLU (1to 127) or a MODCELL Controller (1 to 4096) or a Process Alarm Display (PAD) block(1 to 4096) on a MOD 30ML Controller.
• PROC ALARM, DESCRIP: (NONE, any 8 character description)This is a description of up to 8 characters that will appear on the top message line ofthe LCP display when a process alarm occurs.
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CONFIGURATION
• PROC ALARM, PRIORITY: (NONE, 1 or 2)
PAGEFORMT
DELALARM 2 1
This is the priority of the process alarm on the LCP display. It is independent of theprocess alarm priority in the instrument and can be different from the priority of thealarm in the instrument. For example, a process alarm in a controller could be apriority 2 alarm in the instrument and a priority 1 alarm on the LCP display.
• STATE NAMES REQUIRED: (YES, NO)
PAGEFORMT NO YES
This allows a state name to be configured for each state of a short state, long state ordiscrete variable.
• VARIABLE WITH SAME NAMES: (YES, NO)
PAGEFORMT NO YES
This specifies if there is another variable on any LCP display that has the same statenames assigned to the same values as the variable being configured. This avoidsduplicating the same group of state names and saves memory space.
If there is another variable with the same state names, enter the appropriateinstrument number, a comma and the appropriate variable in place of NONE (tospecify the variable PID1,SPMS in instrument 8, enter: 8,PID1,SPMS). If theinstrument number is not entered, the system error message INSTRUMENTNUMBER? will be displayed. If the correct source code or mnemonic for the variableis not entered, the system error message BLOCK TYPE?, ATTRIBUTE? orOCCURRENCE will be displayed.
When there is more than one list of names associated with the specified variable, theOTHER LIST softkey will appear. This key is used to advance through the variousother lists associated with the specified variable. After the last list, the system errormessage NO OTHER LISTS will be displayed.
• VALUE: (0 to 1 for discrete, 0 to 15 for short state, 0 to 254 for long state)This is a number that represents one of the various device states for a multistatedevice. The combination of the numbers listed under VALUE along with the nameslisted under NAME comprise a state name list. A maximum of 255 state name listscan be configured in the LCP. If an attempt is made to configure an additional statename list, the system error message STATE INDEX TABLE FULL will be displayed.
• NAME: (32 characters maximum)A word or mnemonic assigned to represent one of the device states. For example,OPEN, CLSD, MID and FAILED are state names and are used to represent the statesof a valve.
Rules for State NamesThe first character in a state name must be a letter not a number. If the first characteris numeric, the system error message INVALID 1ST CHAR will be displayed. If nostate name in entered, **NUMERIC** appears in the display field and the state valueinstead of a name will appear on the runtime display.
Rules for SoftkeysIf there are four or less state names and each state name is five characters or less,
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CONFIGURATION
the state names will automatically appear on softkeys. For example, if the statenames for the valve were configured as OPEN, CLSD, MID and FAIL, the state nameswould appear as softkeys (associated with function keys F1 through F4). If the statenames for the valve were configured as OPEN, CLOSED, MID and FAILED, theywould not appear as softkeys because CLOSED and FAILED contain more than fivecharacters. When the state names do not appear as softkeys, the SEL FORW andSEL BACK softkeys appear and are used to scroll forward or backward through thestate names.
Rules for Lists of NamesA total of 250 state names can be configured. There can be a maximum of 200 statenames with up to 8 characters each and a maximum of 50 state names with up to 32characters each. The combination of the numbers listed under VALUE along with thenames listed under NAME comprise a state name list. Some examples of state namelists are shown in Figure 4-12. A maximum of 255 state name lists can be configuredin the LCP. If an attempt is made to configure an additional state name list, thesystem error message STATE INDEX TABLE FULL will be displayed.
Figure 4-12. Examples of State Name Lists
S-3011-238
VALUE NAME 0 AUTO 1 MAN 2 CASC 3 **NUMERIC**
VALUE NAME 0 MAN 1 CASC 2 AUTO 3 **NUMERIC**
VALUE NAME 0 MAN 1 AUTO 2 CASC 3 DDC
Each is a different state name list because values have different names
VALUE NAME 0 AUTO 1 MAN 2 CASC 3 DDC
VALUE NAME 0 AUTO 1 MAN 2 CASC 3 DDC
Both are same state name list because values have same names in each listing
• ENG. UNITS RANGE: This specifies the range in engineering units for a continuous variable. A total of 255different engineering units ranges can be configured. If an attempt is made toconfigure an additional engineering units range, the system error message RANGETABLE FULL will be displayed.
The 0% value is entered first, followed by a comma and the 100% value. For reversereading scales, the 0% value can be set at a value greater than the 100% value.Each value entered is rounded to four significant digits. The displayed decimal pointlocation is determined by the decimal point configured in the engineering units rangefield. For example:
Displayed Value Engineering Units Range Configured213. 0,100021.3 0.0,100.02.13 0.00,10.00
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CONFIGURATION
• DECIMAL POINT LOCATION: This specifies the location of the decimal point in a totalized value. Values of 1 to 9can be entered with 1 at the far right (xxxxxxxxx.) and 2 the next location over(xxxxxxxx.x).
• ENTRY LIMITSThis specifies the low value and high value limits for a floating point variable. Operatorentries are limited to this range. A total of 255 different ranges can be configured. Ifan attempt is made to configure an additional range, the system error messageRANGE TABLE FULL will be displayed.
The low value is entered first, followed by a comma and the high value. Each valueentered is rounded to five significant digits. The displayed decimal point location isdetermined by the number of fractional digits configured in the field. For example, anentry of 10.0,100.0 would have the decimal point displayed as 17.8. If the variable isoperator writeable, this entry also determines the ramp rate increments of 0.1%, 1.0%and 10% of span (an entry of –14 to 114 uses a span of 100).
If FULL RANGE is specified, the number of fractional digits displayed is always theminimum number possible. Also, no ramping is allowed with this selection and the op-erator may enter any value.
• ENDPOINTSFloating point and time variable bar graphs require configuration of the time bar endpoints. The beginning time (for the left or bottom end of the bar) is entered first, fol-lowed by a comma and then the ending time (for the right or top end of the bar).
All time variables are entered as hours, minutes and seconds separated by colons.The full range of hours is allowed. For example, to establish bar endpoints of 0 to 100hours for a millisecond time variable, enter: 0:00:00.000,100:00:00.000.
Floating point endpoints are entered with the smaller value in the range of –99999 to999999 first and the larger value second. The optimum endpoints will match the ex-pected values.
• DISPLAY FORMATThe display format is used to set how date and time variables are displayed. For datevariables, the format can be MONTH (entered MM/DD/YY) or DAY (entered DD-MM-YY). For time variables, the format can be SHORT (entered HH:MM:SS) or LONG(entered HH:MM:SS.SSS). For the SLU there are a maximum of 255 hours. ForMODCELL, there are a maximum of 1193 hours, 2 minutes and 47.295 seconds). It isnot necessary to enter all parts of the time field. For example, the entry 1 equals asecond (00:00:01.000).
• FIELD SIZE REQUIREDThe maximum number of ASCII bytes is limited to the field size of 42.
For the SLU, the field size of a variable must be equal to the number of data bytes inthe instrument for it to pass EOC. If the field size is 4 and the display data is enteredas ‘CNT’,the value sent to the SLU is ‘CNT ’ for a total of 4 bytes. This refreshes onthe LCP screen as CNT.
For MODCELL, the field size of a variable must be less than or equal to the number ofdata bytes in the instrument for it to pass EOC. If the data is entered as ‘C’, the rawdate sent to the MODCELL will be two bytes of 01C (the 01 is significant bytes to fol-low and C is the data). This refreshes on the LCP screen as C.
4-15
IB-23C811
CONFIGURATION
• NUMBER OF HEX BYTES REQUIREDThe maximum number of hex bytes is limited to 20. This is determined by the fieldsize limitation (2 to 40) plus the $ character.
For the SLU, the number of hex bytes of a variable must be equal to the number ofdata bytes in the instrument for it to pass EOC. If the number is 4 and the display da-ta is entered as ‘$2’, the value sent to the SLU will be ‘00000002’ for a total of 4bytes. This will refresh on the LCP screen as $00000002.
For MODCELL, the number of hex bytes of a variable must be less than or equal tothe number of data bytes in the instrument for it to pass EOC. If the data is enteredas ‘$2’, the raw date sent to the MODCELL will be two bytes of 0102 (the 01 is signifi-cant bytes to follow and 02 is the data). This refreshes on the LCP screen as $02.
4.5 STANDARD INSTRUMENT FACEPLATE DISPLAYThe standard instrument faceplate option allows up to four preconfigured faceplates to beput on a page. The faceplate configuration option is only accessed when adding a page.
1. To access the default controller faceplates, select the FACE PLATE softkey.
FACEPLATE
COPY PAGE DIST NORM
2. Select the desired controller algorithm faceplates beginning with the first of fourpossible faceplates per display.
MOD30 AUX
CANCLFACEP
MOD CELL
MOD30 MAIN NONE
CONTROLLER FACEPLATE 1 ALGO ... ACC: PROT
Figure 4-13 shows an example of the MOD 30 MAIN and AUX faceplates and theirdefault mnemonics. Figure 4-14 shows an example of the MODCELL faceplate and itsdefault mnemonics. For MODCELL, the state names must be entered.
Figure 4-13. Default Faceplates for MOD 30 Main and Aux PID
DELFIELD
PAGE DIR
COPYFIELD
EDITFIELD
THINLINES
ADDFIELD
( 1, 1)
#1 MAIN #2 AUX #3 MAIN #4 AUXSP:V SP:V SP:V SP:VPR:V PR:V PR:V PR:V
V V V V
V V V V
BBB BBB BBB BBBOP:V OP:V OP:V OP:V
S-3011-330(1)
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a aa a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a aa a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a a a a
a a a a a a a a a a
a a a a a a a a a a
a a a a a a a a a a
a a a a a a a a a a
a a a a a a a a a aa a a a a a a a a a
a a a a a a a a a a
a a a a a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a aa a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a aa a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a aa a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a a a a
a a a a a a a a a a
a a a a a a a a a a
a a a a a a a a a a
a a a a a a a a a a
a a a a a a a a a aa a a a a a a a a a
a a a a a a a a a a
a a a a a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a aa a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
CSETPT(Middle
Target Bar)
CPROC(Left Scaled
Bar)
CSPSTA
CACTMD
COUTPT(Right
Scaled Bar)
XSETPT(Middle
Target Bar)
XPROC(Left Scaled
Bar)
XSPSTA
XACTMD
XOUTPT(Right
Scaled Bar)
4-16
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CONFIGURATION
Figure 4-14. Default Faceplate for MODCELL PID
DELFIELD
PAGE DIR
COPYFIELD
EDITFIELD
THINLINES
ADDFIELD
( 1, 1)
#1 PID SP:V PR:V
V
V
BBB OP:V
S-3011-331(1)
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a aa a a a a a a a a
a a a a a a a a a
a a a a a a a a aa a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a a
a a a a a aa a a a
a a a a
a a a a
a a a a
a a a a
a a a a
a a a a
PID1,SP(Middle
Target Bar)
PID1,SPMS
PID1,OPMS
PID1,PVI(Left Scaled
Bar)
PID1,OP(Right Scaled
Bar)
Note:MODCELL Statenames must beentered after thefaceplate iscreated. Use thevariables withsame namefeature if morethan onefaceplate isrequired.
3. Enter the desired ICN address (Instrument Number 0 to 15).
CANCLFACEP
INSTRNO:
CONTROLLER FACEPLATE 1 ... ACC: PROT
4. For MODCELL, enter the desired PID occurrence number 1 to 4096.
OCCUR:
CANCLFACEP
CONTROLLER FACEPLATE 1 ... ACC: PROT
The standard faceplates can be modified as required after they are created. Any text,graphic or variable can be edited.
4.6 COPY FUNCTIONThe copy page and copy field features simplify configuration of the LCP by allowing otherpages to serve as templates for new pages or other fields for new fields on a page.
Copy PageThe copy page option is available when a page is configured in the LCP and a new pageis being added.
1. After adding a page before or after another page, the COPY PAGE softkey appears.
FACEPLATE
COPY PAGE DIST NORM
2. Select this softkey to copy any other page. Enter the page to be copied and thenmodify the page as required.
CANCLCOPY
COPYPG:
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IB-23C811
CONFIGURATION
Copy FieldThe copy field option is used when a page is being edited and copies a variable on thepage to a different location on the same page.
1. To copy a field, put the cursor on the variable to be copied and press the COPYFIELD softkey.
EDITFIELD
DELFIELD
PAGE DIR
COPYFIELD
THINLINES
ADDFIELD
2. Next, move the cursor to another location on the same page that will not overwriteexisting graphics or fields and press the ADD COPY softkey. Modify the field asrequired.
CANCLCOPY
ADD COPY
4.7 VERIFYING CONFIGURATIONThis part of configurating a LCP is done with the verify configuration display.Configuration of one or all instruments referenced by the LCP must be done beforestarting the verify configuration procedure.
1. At the master display, press VERIF CONFG softkey.
The verify configuration display, Figure 3-10, will appear on the display screen.
2. Press the TOTAL CONFG softkey to verify the complete configuration, or enter aspecific instrument number and press the INSTR NO: softkey to verify the configura-tion of a specific instrument number.
START VERIFICATION OF...
EXITVERIF
EOC ERRS
TOTALCONFG
INSTRNO:
The message CHECKING CONFIGURATION will appear on the display screen inflashing reverse video. If there are no configuration errors detected by the LCP,the message CONFIGURATION VERIFIED will appear on the display screen inreverse video. If configuration errors are detected, the EOC (end of configuration)errors display, Figure 3-11, will appear. All configuration errors detected will belisted. Use the ERRS FORW and ERRS BACK softkeys to move forward andbackward through the error listing. Errors in reverse video must be correctedbefore verification can be completed to enter runtime.
NOTE: The LCP will not go into runtime until the configuration has been verified. TheLCP configuration for either one instrument or all instruments can be verified.
3. Press EXIT VERIF, ABORT EOC , or EXIT ERRS softkey to return to the masterdisplay.
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IB-23C811
CONFIGURATION
4.8 TRANSFERRING LCP DATA BASE BETWEEN MEMORIESThe LCP data base can be transferred from main memory to the back-up memory on theBack-Up Memory Module or from the back-up memory on the Back-Up Memory Module tothe main memory in the LCP. The back-up memory can also be write protected so itcannot be overwritten by the data base in the main memory of the LCP. In addition tosaving the data base at the LCP, the data base can also be saved at a personal computerusing the LCP Utility supplied with the PC-30 Configuration Software, 1706S. TheUPLOAD and DOWNLOAD procedures are documented in IB-23H140.
4.8.1 Transferring LCP Data Base from Main Memory to Back-Up MemoryUse the following procedure to transfer the data base from the main memory in the LCP tothe back-up memory on the Back-Up Memory Module.
1. Start at the master page.
2. Press DBASE STAT softkey.
This will display DBASE STAT Page, Figure 3-8.
3. Move cursor down to TRANSFER TO BACK-UP and change entry from NO to YES bypressing YES softkey. The following message and softkeys appear.
CANCLXFER
XFER DATA
TO CAUSE TRANSFER DEPRESS XFER DATA KEY
4. Press XFER DATA softkey.
The LCP will now copy the data base in the main memory of the LCP to the back-up memory on the 1718F Back-Up Memory Module.
5. Press EXIT STAT to return to master page.
The back-up memory now contains a copy of the data base located in the main memory.
4.8.2 Transferring LCP Data Base from Back-Up Memory to Main MemoryUse the following procedure to transfer the data base from the back-up memory on theBack-Up Memory Module to the main memory in the LCP.
1. Start at the master display.
2. Press DBASE STAT softkey.
This will display DBASE STAT Page, Figure 3-8.
3. Move cursor down to TRANSFER TO MAIN and change entry from NO to YES bypressing YES softkey. The following message and softkeys appear.
CANCLXFER
XFER DATA
TO CAUSE TRANSFER DEPRESS XFER DATA KEY
4. Press XFER DATA softkey.
4-19
IB-23C811
CONFIGURATION
The LCP will now copy the data base in the back-up memory into the mainmemory in the LCP.
5. Press EXIT STAT and return to the master display.
The main memory now contains a copy of the data base located in the back-up memory.
4.8.3 Write Protecting Back-Up MemoryUse the following procedure to write protect the data base in the back-up memory on theBack-Up Memory Module.
1. Start at the master page.
2. Press DBASE STAT softkey.
This will display DBASE STAT Page, Figure 3-8.
3. Change entry for BACK-UP MEMORY WRITE PROTECTED from NO to YES bypressing YES softkey.
The LCP will now write protect the data base in the back-up memory from beingoverwritten by the data base in the main memory of the LCP.
4. Press EXIT STAT to return to master page.
The data base in the back-up memory is now write protected and cannot be overwritten bythe command from the TRANSFER TO BACK-UP line on the DBASE status display.
4.8.4 Removing Write Protection from Back-Up MemoryUse the following procedure to remove the write protection of the data base in the back-upmemory on the Back-Up Memory Module.
1. Start at the master page.
2. Press DBASE STAT softkey.
This will display DBASE STAT Page, Figure 3-8.
3. Change entry for BACK-UP MEMORY WRITE PROTECTED from YES to NO bypressing NO softkey.
The LCP will now remove the write protection of the data base in the back-upmemory. The data base in the back-up memory can now be overwritten by datain the main memory of the LCP.
4. Press EXIT STAT to return to master page.
The data base in the back-up memory is not write protected and can be overwritten by thecommand from the TRANSFER TO BACK-UP line on the DBASE status display.
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CONFIGURATION
4.9 PASSWORDThe use of the password controls access to the LCP displays. If a password is not config-ured, all personnel will have access to all of the LCP data base and displays. Use of thepassword reduces the chances of unauthorized personnel changing the LCP configuration.Personnel with the knowledge of the password will have access to all of the displays onthe LCP. Personnel without the knowledge of the password will be restricted to the ViewErrors and Runtime Displays only.
4.9.1 Entering Initial PasswordUse the following procedure for entering an initial password when there is no passwordconfigured. See Section 4.9.2 if you are changing an existing password .
1. On the master display, press LCP SETUP softkey.
2. Move cursor to CHANGE PASSWORD: field on the LCP setup display.
3. Press YES softkey.
The message ENTER NEW PASSWORD, Figure 4-15, is then displayed.
Figure 4-15. ENTER NEW PASSWORD Message on LCP Setup Display
CANCL REQ
DELPWORD
L C P S E T - U P
BEEPER ALARM OUTPUT PRIORITY 1 ALARMS NO NO PRIORITY 2 ALARMS NO NO DIAGNOSTIC ERRORS NO NO KEY DEPRESSIONS YES
SUPPRESS LCP DIAGS NO SUPPRESS EXTERNAL DIAGS YES LCP ICN ADDRESS 15 SERIAL PORT CONNECTION NONE
CHANGE PASSWORD : ENTER NEW PASSWORD:
S-3011-193(2)
4. Enter a password and then press ENTER.
The password can have a maximum of 8 characters. The password will not bedisplayed. An X will be displayed for each letter of the password. After thepassword has been entered, the message VERIFY PASSWORD will appear on thedisplay screen. Enter the password and then press ENTER.
5. Press EXIT SETUP softkey. This will call up the master display.
After the password has been configured, the password must be entered to gain access tothe DBASE STAT, LCP Setup, Configuration, and Verify Configurations displays.
4-21
IB-23C811
CONFIGURATION
4.9.2 Using the PasswordThe password is required when going from the master display to the LCP Setup, DBASESTAT, Configuration, or Verify Configuration Display.
1. On the master display, press LCP SETUP, DBASE STAT , CONFG, or VERIFCONFG softkey.
LCPSETUP
DBASESTAT RUNCONFG
VERIFCONFG
If the access level has not been raised, you will see the ENTER PASSWORDrequest on the screen. You can enter runtime without a password; however, youraccess must be raised using the RAISE ACC softkey to exit. The access levelcannot be lowered out of runtime. Resetting the LCP does lower the access level.
CANCL REQ
ENTER PASSWORD:
2. Enter the password and then press ENTER.
The message ACCESS LEVEL RAISED will appear on the the master display.You now have access to displays.
3. Press the appropriate softkey to call up the respective display. The Configuration andRuntime Displays will show the message ACC: PROT, indicating that the access isnow protected.
4.9.3 Changing the PasswordUse the following procedure for changing an existing password.
1. Raise the access level to PROT using the old password, according to Step 2 above.
2. On the master display, press LCP SETUP softkey.
3. Move cursor to CHANGE PASSWORD: field on the LCP Setup display.
4. Press YES softkey.
The message ENTER OLD PASSWORD will appear on the display screen.
5. Enter the old password and press ENTER.
The message ENTER NEW PASSWORD will appear on the display screen.
6. Enter the new password and press ENTER or press DEL PWORD softkey.
The new password can have a maximum of 8 characters. The password will notbe displayed. An X will be displayed for each letter of the password. After thepassword has been entered, the message VERIFY PASSWORD will appear on thedisplay screen. Enter the new password and then press ENTER.
7. Press EXIT SETUP softkey.
This will call up the master display.
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CONFIGURATION
4.10 DATA BASE CONFIGURATION TUTORIALThis tutorial demonstrates how to build two different displays. The first display configuresthe LCP to operate with a 1701R Controller XL which is controlling the temperature of abatch reactor. The other display configures the LCP to operate with a 1710R SLU whichis controlling the sequence of the batch reactor. This tutorial does not include theinstrument configurations.
All process and instrument information shown in this tutorial is hypothetical and does nothave any relationship to an actual process. This tutorial is based on a LCP which has nodata base. The tutorial contains a series of step-by-step instructions. They are listed inthe logical order of performance and cover the following subjects.
• Startup of LCP (Section 4.10.1 )
• LCP Setup (Section 4.10.2 )
• Data Base Status (Section 4.10.3 )
• Configuring LCP to Operate with a 1701R Controller XL (Section 4.10.4 )
• Configuring LCP to Operate with a 1710R Sequence and Logic Unit (Section 4.10.5 )
• Verifying Configuration (Section 4.7 )
• Transferring LCP Data Base to Back-Up Memory (Section 4.8 )
• Password and Access Level Configuration (Section 4.9 )
• Operation of Process using Runtime Displays (Section 5 )
The data base of the LCP is configured from the front of the LCP. No other device isrequired. The data base in the instruments cannot be configured by the LCP.
4.10.1 Startup of LCP
1. Before turning on power to LCP, check installation of the LCP and check the powerand signal wiring connections.
2. Turn on power to LCP. The master display, Figure 3-6, will appear on the displayscreen.
NOTE: If diagnostic error messages are encountered during this tutorial, consultAppendix B at the back of this book.
The master display, Figure 3-6, is used to access all other LCP displays.
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CONFIGURATION
4.10.2 LCP SetupPart of configuring a LCP is done with the LCP setup display. This display is used tosetup the LCP beeper, alarm outputs, suppress diagnostic errors, define the serial portconnection, and change the password. In this section of the tutorial, only the LCPdiagnostic errors function will be configured. The remaining functions will use the defaults.The password is configured as explained in Section 4.9 .
1. Press LCP SETUP softkey.
LCPSETUP
DBASESTAT RUNCONFG
VERIFCONFG
The LCP setup display, Figure 4-16, will appear on the display screen.
Figure 4-16. LCP Setup Display
EXIT STAT
L C P S E T - U P
BEEPER ALARM OUTPUT PRIORITY 1 ALARMS YES YES PRIORITY 2 ALARMS NO NO DIAGNOSTIC ERRORS YES NO KEY DEPRESSIONS YES
SUPPRESS LCP DIAGS NO SUPPRESS EXTERNAL DIAGS YES LCP ICN ADDRESS 0 SERIAL PORT CONNECTION NONE
CHANGE PASSWORD :
2. Cursor starts here. Press YES softkey. The NO on the display will change to YES.
3. Move cursor and press YES softkey. The NO on the display will change to YES.This will provide an alarm output signal to theALARM terminal on the rear of the LCP whenany priority 1 process alarm occurs.
EXITSETUP NO YES
EXITSETUP NO YES
4. Move cursor and press YES softkey. The NO on the display will change to YES.
EXITSETUP NO YES
5. Press EXIT STAT softkey. The master display will appear on the displayscreen.
S-3011-357
NOTE: A password will not be configured at this time. It will be configured afterthe LCP configuration is verified and the runtime displays have beenchecked with the process.
4-24
IB-23C811
CONFIGURATION
4.10.3 Data Base StatusThe DBASE STAT display is used to check the status of the LCP data base. This includesmemory usage, memory configuration status, memory label, transfer memory betweenmain and back-up memory, upgrading the database version, and write protecting theback-up memory. Only a memory label will be configured at this time. Later, the LCPconfiguration in the main memory will be copied and transferred to the back-up memory.
1. On the master display, press the DBASE STAT softkey.
LCPSETUP
DBASESTAT RUNCONFG
VERIFCONFG
The data base status display, Figure 4-17, will appear on the display screen.
Figure 4-17. DBASE STAT Display
S-3011-358
2. Cursor starts here. Type the label “BATCHCONTROL” and press ENTER.
3. Press EXIT STAT softkey. The master display will appear on the displayscreen.
EXIT STAT
D B A S E S T A T U S
MAIN MEMORY : PARTIALLY CFGD DATABASE VERSION : 2.0 MEMORY USAGE : 215 BYTES DATABASE LABEL : BATCH CONTROL TRANSFER TO BACK-UP : NO
BACK-UP MEMORY : PARTIALLY CFGD DATABASE VERSION : 2.0 MEMORY USAGE : 215 BYTES DATABASE LABEL : WRITE PROTECTED : NO TRANSFER TO MAIN : NO
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IB-23C811
CONFIGURATION
4.10.4 Tutorial for Configuring LCP to Operate with 1701R ControllerThe following instructions are for configuring the LCP to operate with the 1701R ControllerXL. The controller display that is to be configured for the LCP was planned on a displaylayout form as shown in Figure 4-18.
1. On the master display, press CONFG softkey.
LCPSETUP
DBASESTAT RUNCONFG
VERIFCONFG
The configuration page directory, Figure 4-1, will appear on the display screen. Asthere is no data base configured in the LCP memory, the message NO PAGESCONFIGURED will appear on the display screen in reverse video.
2. Press ADD PAGE softkey.
EXITCONFG
ADD PAGE
A new page, Figure 4-2, called **NO NAME** will appear on the display. Cursorwill be at NORM on right end of line. Page type must be defined at this point.
3. Press NORM softkey.
FACEPLATEDISTNORM
This will allow you to configure a page with normal size characters (16 lines with42 character spaces per line). Cursor will move to **NO NAME** on line.
4. Type REACTOR TEMPERATURE as name of display page, then press ENTER.
Name of page can be up to 22 characters long in place of **NO NAME**.
5. Press EDIT PAGE softkey.
EDIT PAGE
DEL PAGE
EXITCONFG
ADD PAGE
The page format display, Figure 4-3, will appear which will be blank except for thecursor flashing at the home position on the display screen (cursor position 1,1).The display layout page, Figure 4-18, will be used to configure the LCP display forthe reactor temperature controller.
4-26
IB-23C811
CONFIGURATION
Figure 4-18. LCP Display Layout for Controller
6. Enter all text characters in the appropriate spaces on the display as shown on the LCPdisplay layout.
Use the cursor position display in the upper left hand corner (row, column) tolocate the character space for the first letter in each text word. To enter thedegrees (°) symbol and the percent (%) sign it is necessary to use the SHIFTkey. For example, to enter °F, press SHIFT (indicator light on) and then thecomma key (this produces °), then SHIFT (to release shift function) and F. It isnot necessary to use the ENTER key when entering text.
7. Configure a process vertical bar field by moving cursor to line 12 character space 3(12,3), bar starting point and pressing the ADD FIELD softkey.
EDITFIELD
DELFIELD
PAGE DIR
COPYFIELD
THINLINES
ADDFIELD
A vertical bar for the process variable will be added to the display.
4-27
IB-23C811
CONFIGURATION
a. Press VERT BAR softkey.
NOTIF MSG
CANCLFIELD VAR
VERT BAR
HORIZ BAR
The INSTR NO.: NONE configuration field for a vertical bar field appears on thedisplay screen. Complete the display for configuring a vertical bar field as shownin Figure 4-19 (move the cursor to the remaining fields as shown).
Figure 4-19. Complete Configuration Display for Vertical Bar Field
PAGEFORMT
INSTR NO.: 2 INSTR TYPE: MOD30 CNTR
BAR TYPE: THIN SOLID
CHAR LENGTH OF VERT BAR: 10
VARIABLE: CPROC
S-3011-175(2)
b. Type 2 and press ENTER. This replaces NONE with 2 and the remainingconfigurable fields appear on the display.
c. Move cursor and press MOD30 CNTR softkey.
d. Move cursor and press THIN SOLID softkey.
e. Move cursor, type 10 and press ENTER.
f. Move cursor, type CPROC and press ENTER.
g. Press PAGE FORMT Softkey.
MOD30 SLU
PAGEFORMT
MOD CELL
MOD30 CNTR
MOD30 RCDR
SOLIDW/SCL
CANCLFIELDTARGT
THICKSOLID
THINSOLID
NOTE: All mnemonics entered in the variable fields are from the instruments database.
The page format display will appear on the display screen. The vertical bar fieldfor the process variable will be located between line 3 character space 3 (3,3) andline 12 character space 3 (12,3) on the display screen.
8. Configure set-point (12,10) and output (12,17) vertical bar fields. Use the same basicprocedure used for the process vertical bar field (a target bar type could be used forset-point and a thick solid bar type could be used for output). The mnemonic for theset-point field is CSETPT and the mnemonic for the output field is COUTPT.
4-28
IB-23C811
CONFIGURATION
9. Configure a process variable field by moving cursor to line 5 character space 34 (5,34)and pressing the ADD FIELD softkey.
EDITFIELD
DELFIELD
PAGE DIR
COPYFIELD
THINLINES
ADDFIELD
A continuous variable field for the process variable will be added to the display.
a. Press VAR softkey.
NOTIF MSG
CANCLFIELD VAR
VERT BAR
HORIZ BAR
The INSTR NO.: NONE configuration field for a variable field appears on thedisplay screen. Complete the display for configuring a variable field as shown inFigure 4-20 (move the cursor to the remaining fields as shown).
Figure 4-20. Configuration Display for Process Variable Field
b. Type 2 and press ENTER. This replaces NONE with 2 and adds thetype and variable fields to the display. MOD30
SLUPAGEFORMT
MOD CELL
MOD30 CNTR
MOD30 RCDR
PAGEFORMT
INSTR NO.: 2 INSTR TYPE: MOD30 CNTR
VARIABLE: CPROC
ALM# DESCRIP PRIORITYPROC ALARM: 1 TEMP HI 1PROC ALARM: NONE NONE NONE
ENG. UNITS RANGE: 100.,300. (0% VALUE,100% VALUE - USE NUMBER OF FRACT. DIGITS DESIRED FOR DISPLAY)
S-3011-176(1)
c. Move cursor and press MOD30 CNTR softkey.
d. Move cursor, type CPROC and press ENTER. The remaining configurable fields appear onthe display.
i. Press PAGE FORMT Softkey.
e. Move cursor, type 1 and press ENTER. Controller Alarm Block and Process Alarm 1must be configured for LCP Alarm 1 to function.
f. Move cursor, type TEMP HI and press ENTER.TEMP HI are the characters to appear on thetop message line of the runtime display whena process alarm occurs in the controller.
PAGEFORMT
DELALARM 2 1
g. Move cursor and press 1 softkey.
h. Move cursor, type 100,300 and press ENTER.
NOTES: The priority of a process alarm in the LCP is independent of the process alarmpriority in the instrument. The process alarm in the instrument can be priority2 while the same alarm in the LCP can be priority 1.
The alarm output to the alarm terminal on the rear of the LCP is configured onthe LCP setup display. All alarm outputs (process and diagnostic) use thissame terminal.
Process alarms can be configured on most variables but not on bar graphs.
4-29
IB-23C811
CONFIGURATION
The page format display will appear on the display screen. The variable field for theprocess variable will be located between line 5 character space 34 (5,34) and line 5character space 39 (5,39) on the display screen.
10. Configure a set-point variable field by moving cursor to line 7 character space 34 (7,34) and pressing the ADD FIELD softkey.
EDITFIELD
DELFIELD
PAGE DIR
COPYFIELD
THINLINES
ADDFIELD
A continuous variable field for the set-point will be added to the display.
a. Press VAR softkey.
NOTIF MSG
CANCLFIELD VAR
VERT BAR
HORIZ BAR
The INSTR NO.: NONE configuration field for a continuous variable field appearson the display screen. Complete the display for configuring a set-point variablefield as shown in Figure 4-21 (move the cursor to the remaining fields as shown).
Figure 4-21. Configuration Display for Process Variable Field
MOD30 SLU
PAGEFORMT
MOD CELL
MOD30 CNTR
MOD30 RCDR
PAGEFORMT
INSTR NO.: 2 INSTR TYPE: MOD30 CNTR
VARIABLE: CSETPT
OPERATOR WRITEABLE: YES ALM# DESCRIP PRIORITYPROC ALARM: NONE NONE NONEPROC ALARM: NONE NONE NONE
ENG. UNITS RANGE: 100.,300. (0% VALUE,100% VALUE - USE NUMBER OF FRACT. DIGITS DESIRED FOR DISPLAY)
b. Type 2 and press ENTER. This replaces NONE with 2 and adds the typeand variable fields to the display.
c. Move cursor and press MOD30 CNTR softkey.
d. Move cursor, type CSETPT and press ENTER. The remaining configurable fields appear onthe display.
g. Press PAGE FORMT Softkey.
e. Move cursor and press YES softkey. This variable is now operator writeable at theLCP during runtime.
f. Move cursor, type 100,300 and press ENTER.
S-3011-177(1)
PAGEFORMT NO YES
The page format display will appear on the display screen. The variable field forthe set-point will be located between line 7 character space 34 (7,34) and line 7character space 39 (7,39) on the display screen.
11. Configure output variable field (9,34). Use the same procedure used for the set-pointvariable field (Step 10). The variable mnemonic is COUTPT. Use 0,100 for the en-gineering units range.
4-30
IB-23C811
CONFIGURATION
12. Configure a mode variable field by moving cursor to line 11 character space 34 (11,34) and pressing the ADD FIELD softkey.
EDITFIELD
DELFIELD
PAGE DIR
COPYFIELD
THINLINES
ADDFIELD
A mode variable field for the controller mode will be added to the display.
a. Press VAR softkey.
NOTIF MSG
CANCLFIELD VAR
VERT BAR
HORIZ BAR
The INSTR NO.: NONE configuration field for a continuous variable field appearson the display screen. Complete the display for configuring a set-point variablefield as shown in Figure 4-22 (move the cursor to the remaining fields as shown).
Figure 4-22. Configuration Display for Mode Variable Field
PAGEFORMT
INSTR NO.: 2 INSTR TYPE: MOD30 CNTR
VARIABLE: CACTMD
OPERATOR WRITEABLE: YES ALM# DESCRIP PRIORITYPROC ALARM: NONE NONE NONEPROC ALARM: NONE NONE NONE
S-3011-179(1)
MOD30 SLU
PAGEFORMT
MOD CELL
MOD30 CNTR
MOD30 RCDR
b. Type 2 and press ENTER. This replaces NONE with 2 and adds the typeand variable fields to the display.
c. Move cursor and press MOD30 CNTR softkey.
d. Move cursor, type CACTMD and press ENTER.The remaining configurable fields appear onthe display.
f. Press PAGE FORMT Softkey.
e. Move cursor and press YES softkey. This variable is now operator writeable at theLCP during runtime.
The page format display will appear on the display screen. Figure 4-23 shows thecompleted configuration display. The variable field for the controller mode will belocated between line 11 character space 34 (11, 34) and line 11 character space37 (11, 37) on the display screen.
4-31
IB-23C811
CONFIGURATION
Figure 4-23. Completed Configuration Display for Reactor Temperature
TIC-107 300°F 300°F 100% REACTOR TEMPERATURE
PROCESS :V °F
SET-POINT:V °F
OUTPUT :V %
MODE :V
B100°F B100°F B0%PROC SETPT OUTPT
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
a a a
PAGE DIR
COPYFIELD
EDITFIELD
ADDFIELD
THINLINES
DELFIELD
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a a
S-3011-355
13. Press PAGE DIR softkey.
EDITFIELD
DELFIELD
PAGE DIR
COPYFIELD
THINLINES
ADDFIELD
This completes the configuration of the controller display on the LCP. The configurationdirectory display will appear on the display screen. From the configuration directory dis-play, another display page can be added to the page directory and configured, or you canmove back to the master display, Figure 3-6, by pressing the EXIT CONFG softkey.
4-32
IB-23C811
CONFIGURATION
4.10.5 Tutorial for Configuring LCP to Operate with 1710R SLUThe following instructions are for configuring the LCP to operate with a 1710R Sequenceand Logic Unit (SLU) which is controlling the sequence of the batch reactor. The SLUdisplay that is to be configured for the LCP was planned on a display layout form asshown in Figure 4-25.
1. On the master display, press CONFG softkey.
LCPSETUP
DBASESTAT RUNCONFG
VERIFCONFG
The configuration page directory will appear on the display screen. As the pagedisplay for the controller XL has been configured and resides in the LCP memory,the page for the controller display is the only page listed in the page directory.
2. Press ADD PAGE softkey.
EDIT PAGE
DEL PAGE
EXITCONFG
ADD PAGE
A message ADD PAGE:... appears on the display. Cursor will be at AFTER PG:softkey.
3. Press 1 and then ENTER.
BEFORPG:1
CANCL ADD
AFTERPG:1
ADD PAGE:... ACC: PROT
A new page, Figure 4-24, called **NO NAME** will appear on the display after page1. Cursor will be at NORM on right end of line.
Figure 4-24. Configuration Page Directory Display with New Page 2
NORM DIST
FACE PLATE
COPY PAGE
P A G E D I R E C T O R Y 1. REACTOR TEMPERATURE OPER NORM 2. **NO NAME** OPER NORM
ACC: PROT
S-3011-182(3)
4-33
IB-23C811
CONFIGURATION
4. Press NORM softkey.
FACEPLATE
COPY PAGEDISTNORM
This will allow you to configure a page with normal size characters (16 lines with42 character spaces per line). Cursor will move to **NO NAME** on line.
5. Type BATCH DISPLAY as name of display page, then press ENTER.
Name of page can be up to 22 characters long in place of **NO NAME**.
6. Press EDIT PAGE softkey.
EDIT PAGE
DEL PAGE
EXITCONFG
ADD PAGE
The page format display, Figure 4-3, will appear which will be blank except for thecursor flashing at the home position on the display screen. The display layoutpage, Figure 4-25, will be used to configure the LCP display as a batch display forthe SLU.
Figure 4-25. LCP Display Layout for SLU
4-34
IB-23C811
CONFIGURATION
Use the cursor position display to locate the character space for the first letter ineach text word. To enter the degrees (°) symbol it is necessary to use the SHIFTkey. For example, to enter °F press SHIFT (indicator light on) and then the com-ma key (this produces °), then SHIFT (to release the shift function) and F. It isnot necessary to use the ENTER key when entering text.
7. Configure hold time variable field by moving cursor to line 3 character space 11 (3,11)and pressing ADD FIELD softkey.
EDITFIELD
DELFIELD
PAGE DIR
COPYFIELD
THINLINES
ADDFIELD
A time variable field for the hold time will be added to the display.
a. Press VAR softkey.
NOTIF MSG
CANCLFIELD VAR
VERT BAR
HORIZ BAR
The INSTR NO.: NONE configuration field for a variable field appears on thedisplay screen. Complete the display for configuring a vertical bar field as shownin Figure 4-26 (move the cursor to the remaining fields as shown).
Figure 4-26. Complete Configuration Display for Vertical Bar Field
PAGEFORMT
INSTR NO.: 5 INSTR TYPE: MOD30 SLU
VARIABLE: TM3,PRSLIM
OPERATOR WRITEABLE: YES OCC# DESCRIP PRIORITYPROC ALARM: NONE NONE NONEPROC ALARM: NONE NONE NONE
b. Type 5 and press ENTER. This replaces NONE with 5.
c. Move cursor and press MOD30 SLU softkey.
d. Move cursor, type TM3,PRSLIM and press ENTER.This is the hold time variable for the SLU. Theremaining configurable fields appear on thedisplay.
f. Press PAGE FORMT Softkey.
MOD30 SLU
PAGEFORMT
MOD CELL
MOD30 CNTR
MOD30 RCDR
S-3011-183(1)
e. Move cursor and press YES softkey. This variable is now operator writeable at theLCP during runtime.
PAGEFORMT NO YES
The page format display will appear on the display screen. The variable field for thehold time will be located between line 3 character space 11 (3,11) and line 3 characterspace 19 (3,19) on the display screen.
4-35
IB-23C811
CONFIGURATION
8. Configure gallons A variable field by moving cursor to line 4 character space 11 (4,11)and pressing ADD FIELD softkey.
EDITFIELD
DELFIELD
PAGE DIR
COPYFIELD
THINLINES
ADDFIELD
A count variable field for the gallons A value will be added to the display. The da-ta type entered for the field must be the correct data type for the source code.The possible data types for this field are listed in Table 4-2.
a. Press VAR softkey.
NOTIF MSG
CANCLFIELD VAR
VERT BAR
HORIZ BAR
The INSTR NO.: NONE configuration field for a variable field appears on thedisplay screen. Complete the display for configuring a vertical bar field as shownin Figure 4-27 (move the cursor to the remaining fields as shown).
Figure 4-27. Complete Configuration Display for Count Variable Field
PAGEFORMT
INSTR NO.: 5 INSTR TYPE: MOD30 SLU
VARIABLE: RC1,DATA1DATA TYPE: COUNTOPERATOR WRITEABLE: YES OCC# DESCRIP PRIORITYPROC ALARM: NONE NONE NONEPROC ALARM: NONE NONE NONE
S-3011-184(1)
b. Type 5 and press ENTER. This replaces NONE with 5. The INST TYPEand VARIABLE fields appear.
c. Move cursor and press MOD30 SLU softkey.
MOD30 SLU
PAGEFORMT
MOD CELL
MOD30 CNTR
MOD30 RCDR
d. Move cursor, type RC1,DATA1 and press ENTER.This is the gallons A variable for the SLU. Theremaining fields appear on the display.
e. Move cursor and press SEL FORW softkey todisplay COUNT then press ENTER.
g. Press PAGE FORMT Softkey.
f. Move cursor and press YES softkey. Variable is writeable at the LCP during runtime.
PAGEFORMT
SEL FORW
SEL BACK
The page format display will appear on the display screen. The variable field forthe gallons A value will be located between line 4 character space 11 (4,11) andline 4 character space 15 (4,15) on the display screen.
9. Configure gallons B (5, 11), gallons C (6,11), total gallons (7,11) and fill gallons (9,7)variable fields. Use the same procedure used for the gallons A variable field. TheLogical Source Pointers (LSPs) are as follows:
Gallons B LSP is RC1,DATA2Gallons C LSP is RC1,DATA3Total Gallons LSP is MA1,DATAFill Gallons LSP is MA2,DATA
4-36
IB-23C811
CONFIGURATION
10. Configure heat value continuous variable field by moving cursor to line 10 characterspace 7 (10,7) and pressing ADD FIELD softkey.
EDITFIELD
DELFIELD
PAGE DIR
COPYFIELD
THINLINES
ADDFIELD
a. Press VAR softkey.
NOTIF MSG
CANCLFIELD VAR
VERT BAR
HORIZ BAR
The INSTR NO.: NONE configuration field for a variable field appears on thedisplay screen. Complete the display for configuring a continuous variable field asshown in Figure 4-28 (move the cursor to the remaining fields as shown).
Figure 4-28. Complete Configuration Display for Continuous Variable Field
PAGEFORMT NO YES
e. Move cursor and press SEL FORW softkey todisplay CONTINUOUS then press ENTER.
PAGEFORMT
INSTR NO.: 5 INSTR TYPE: MOD30 SLU
VARIABLE: RC1,DATA4DATA TYPE: CONTINUOUSOPERATOR WRITEABLE: YES OCC# DESCRIP PRIORITYPROC ALARM: NONE NONE NONEPROC ALARM: NONE NONE NONE
ENG. UNITS RANGE: 0.0,200.0 (0% VALUE,100% VALUE - USE NUMBER OF FRACT. DIGITS DESIRED FOR DISPLAY)
b. Type 5 and press ENTER. This replaces NONE with 5. The INST TYPE andVARIABLE fields appear.
c. Move cursor and press MOD30 SLU softkey.
MOD30 SLU
PAGEFORMT
MOD CELL
MOD30 CNTR
MOD30 RCDR
d. Move cursor, type RC1,DATA4 and press ENTER.This is the Heat Value variable for the SLU. Theremaining fields appear on the display.
h. Press PAGE FORMT Softkey.
f. Move cursor and press YES softkey. Variable is writeable at the LCP during runtime.
PAGEFORMT
SEL FORW
SEL BACK
S-3011-185(1)
g. Move cursor, type 0.0,200.0 and press ENTER.
The page format display will appear on the display screen. The variable field forthe heat value will be located between line 10 character space 7 (10,7) and line 10character space 12 (10,12) on the display screen.
11. Configure hold variable field (11,7). Use the same procedure used for the hold timevariable field (Step 7). The LSP for the hold variable field is TM3,TIME. The holdvariable is operator writeable.
12. Configure cool value variable field (12,7). Use the same procedure used for the heatvalue variable field (Step 10). The LSP for the cool value variable field is DP1,STATand the field is not operator writeable.
4-37
IB-23C811
CONFIGURATION
13. Configure drain gallons variable field (13,7). Use the same procedure used for thegallons A variable field (Step 8). The LSP for the drain gallons variable field isMA3,DATA .
14. Configure step variable field by moving cursor to line 9 character space 30 (9,30) andpressing ADD FIELD softkey.
EDITFIELD
DELFIELD
PAGE DIR
COPYFIELD
THINLINES
ADDFIELD
A state variable field for the step value will be added to the display.
a. Press VAR softkey.
NOTIF MSG
CANCLFIELD VAR
VERT BAR
HORIZ BAR
The INSTR NO.: NONE configuration field for a variable field appears on thedisplay screen. Complete the display for configuring a state field as shown inFigure 4-29.
Figure 4-29. Complete Configuration Display for State Variable Field
PAGEFORMT NO YES
f. Move cursor, press SPACE and ENTER for value0 (**NUMERIC** will be replaced with a blankspace for value 0).
g. Press SEL FORW to display value 1, type FILLand then press ENTER. Repeat this procedureuntil all the names for values 0 through 6 areentered as shown.
PAGEFORMT
INSTR NO.: 5 INSTR TYPE: MOD30 SLU
VARIABLE: DP1,OPSTST
OPERATOR WRITEABLE: NO OCC# DESCRIP PRIORITYPROC ALARM: NONE NONE NONEPROC ALARM: NONE NONE NONE
STATE NAMES REQUIRED: YESVARIABLE WITH SAME NAMES: NONE (INSTR NO., VARIABLE)
VALUE NAME 1 FILL
b. Type 5 and press ENTER. This replaces NONE with 5. The INST TYPE andVARIABLE fields appear.
c. Move cursor and press MOD30 SLU softkey.
MOD30 SLU
PAGEFORMT
MOD CELL
MOD30 CNTR
MOD30 RCDR
d. Move cursor, type DP1,OPSTST and pressENTER. This is the Step Value variable for the SLU. Theremaining fields appear on the display.
h. Press PAGE FORMT Softkey.
e. Move cursor and press YES softkey. A total of 250 different state names can beconfigured (200 can be 8 character names and 50can be 32 character names).
PAGEFORMT
DEL NAME
SEL FORW
SEL BACK
S-3011-186(1)
VALUE NAME
0 1 FILL 2 HEAT 3 HOLD 4 COOL 5 DRAIN 6 **NUMERIC**
The page format display will appear on the display screen. The variable field forthe step value will be located between line 9 character space 30 (9,30) and line 9character space 34 (9,34) on the display screen.
4-38
IB-23C811
CONFIGURATION
15. Configure CMD (11, 29) and status variable (12, 32) fields. Use the same procedureused for the step variable field (Step 14). The LSPs are:
CMD LSP is DP1,COMANDStatus LSP is DP1,STAT
The state names required are as follows:
CMD Variable Field
Value Name0 Blank space-No name1 ACTIVATE2 ABORT3 CONTINUE4 PAUSE5 S-STEP6 REPEAT7 Blank space-No name
Status Variable Field
Value Name0 Blank space-No name1 ACTIVE2 INACTIVE3 Blank space-No name4 PAUSED
16. Configure time in step variable field (14,32). Use the same procedure used for thehold time variable field (Step 7). The LSP for the time in step variable field isDP1,STPTIM. The time in step variable is not operator writeable.
The page format display will appear on the display screen after pressing the PAGEFORMT softkey. Figure 4-30 shows the completed configuration display.
4-39
IB-23C811
CONFIGURATION
Figure 4-30. Completed Configuration Display for Batch Display
PAGE DIR
COPYFIELD
EDITFIELD
ADDFIELD
THINLINES
DELFIELD
BATCH DISPLAY KIC-108
HOLD TIME:VGALS A :VGALS B :VGALS C :VTOT GALS :V
FILL :V GALS STEP:VHEAT :V °FHOLD :V CMD:VCOOL :V °F STATUS:VDRAIN:V GALS TIME IN STEP:V
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a a aa a a a a a a a a a a a
a a a a a a a a a a a a
a a a a a a a a a a a aa a a a a a a a a
a a a a a a a a a
a a a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a a a a a a
a a a a a a a a a a a a
a a a a a a a a a a a aa a a a a a a a a a a a a
a a a a a a a a a a a a a
a a a a a a a a a a a a a
a a a a a a a a a a a a a a
a a a a a a a a a a a a a a
a a a a a a a a a a a a a a
a a a a a a a a a a a a a a
a a a a a a a a a a a a a a
a a a a a a a a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a aa a a a a a a
a a a a a a a
a a a a a a aa a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
a a a a a a a
S-3011-354
17. Press PAGE DIR softkey.
This completes the configuration of the SLU display on the LCP. The configura-tion directory display will appear on the display screen. From the configuration di-rectory display, another display page can be added to the page directory and con-figured, or you can move back to the master display, Figure 3-6, by pressing theEXIT CONFG softkey.
4-40
IB-23C811
OPERATION
SECTION 5OPERATION
5.1 GENERALThis section describes operation of the LCP during runtime. Some examples of runtimedisplays with standard characters containing text and variables are shown in Figures 5-1and 5-2. Some additional examples of runtime displays containing special characters, thinline graphics, text variables and bar graphs are shown in Figures 5-3 and 5-4. Thesedisplays were all configured into 16 lines with 42 character spaces per line.
Figure 5-1. Display Example Containing Text and Variables, Recipe Display
GOTO PAGEPROD4
PROD3PROD2PROD1
RECIPE DISPLAY
ACTIVE RECIPE : PROD3
PROD1 PROD2 PROD3 PROD4
GALS A 50.0 75.0 50.0 50.0 GALS B 100.0 150.0 200.0 200.0HEAT 160.0 160.0 170.0 150.0HOLD 0:30:00 0:30:00 1:00:00 1:00:00COOL 90.0 90.0 90.0 80.0
S-3011-199(1)
Figure 5-2. Display Example Containing Text and Variables, Reactor Status Display
GOTO PAGE
STATUS DISPLAY - REACTOR NO. 2
DESC MODE SP PROCESS OUTCOMP A 328GPMCOMP B 1187GPMR LEVEL 12649GALR TEMP LOC/AUTO 75.0 75.0°F 87.5%J TEMP REM/CASC 75.0 75.0°F 85.0%
VALVES A B DIS RIN SMPMODE AUTO AUTO AUTO AUTO AUTOCOMD OPEN OPEN CLSD CLSD CLSDSTATUS OPEN OPEN CLSD CLSD CLSD
CIR PUMP : ON/AUTO AGITATOR : OFF/AUTO
S-3011-202(1)
5-1
IB-23C811
OPERATION
Figure 5-3. Display Example Containing Graphics, Custom Operating Display
GOTO PAGE
TIC-107 300°F 300°F 100% REACTOR TEMPERATURE
PROCESS : 213.7°F
SET-POINT: 200°F
OUTPUT : _ 84%
MODE : AUTO
100°F 100°F 0%PROC SETPT OUTPT
S-3011-205(1)
Figure 5-4. Display Example Containing Graphics, Default MOD 30 Faceplates
#15 MAIN #15 AUXSP: 34.0 SP: 50.0PR: 40.8 PR: 40.8
LOC LOC
OPTK AUTO
OP: 0.0 OP: 6.7
GOTO PAGE
AUTO MAN
SEL FORW
SEL BACK
S-3011-356
5-2
IB-23C811
OPERATION
The variable profile display in Figure 5-5 shows a profile, using graphic characters, that isused to interpret the temperature and time bar fields. An example of a large characterdisplay configured into 4 lines with 10 characters per line is shown in Figure 5-6.
Figure 5-5. Display Example Containing Graphics, Custom Variable Profile Display
70 TEMP 0 6 ELAPSED TIME: 0:46:12
GOTO PAGEABORT
REPT MANAUTO
300 SEQUENCE STATUS : ACTIVE SEQUENCE MODE : AUTO RECIPE : PROD3
S-3011-204(1)
157.0DEGC
Figure 5-6. Example of a Distance Character Display
GOTO PAGE
S-3011-213(1)
5-3
IB-23C811
OPERATION
5.2 CONTROLLING A VARIABLEThe operator can take control of variable fields only. The operator cannot take control ofbar fields or notification message fields. Taking control of a variable in a MOD 30 Control-ler or Recorder means taking control of the instrument. Taking control of a variable in aSLU or MODCELL Controller means taking control of the loop which contains the variable.
5.2.1 Taking Control of a VariableTo take control of a variable, move the cursor to the variable field that is to be changed.Change the entry or the value in the field by typing in a new name or value and pressENTER, press the RAMP softkey to change the value or press a dedicated softkey suchas AUTO, MAN, OPEN, CLSD, etc. When the value is entered, the LCP sends a takecontrol signal and then the new word or value to the instrument.
5.2.2 Releasing Control of a VariableControl is maintained for approximately 60 seconds after the last entry is sent to the in-strument. Moving the cursor from the variable field immediately releases control.
5.3 OPERATION OF PROCESS USING RUNTIME DISPLAYSThis tutorial contains two sets of step-by-step instructions. One set demonstrates opera-tion of a 1701R Controller XL which is controlling the temperature of a batch reactor.
• Controllers set-point can be adjusted from the LCP.
• Control mode can be switched between auto and manual at the LCP.
• Controller output can be manually adjusted at the LCP.
The second set of instructions demonstrates operation of a 1710R Sequence and LogicUnit (SLU) which is controlling the sequence of the batch reactor.
• Recipe values for gallons A, B, and C can be set at the LCP.
• Heat and cool temperature can be set at the LCP.
• Operation step can be changed at the LCP (Fill, Heat, Hold, Cool, Drain).
• Command can control batch reactor operation from LCP (Actuate, Abort, Continue,Pause, Step, Repeat).
• Status of process is indicated at LCP (Active, Inactive, Paused).
NOTE: The configured data base must be verified before entering runtime.
5-4
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OPERATION
5.3.1 Operation of a Continuous Loop using 1701R Controller XL from LCPUse the following procedure to operate the controller from the LCP.
NOTE: If LCP diagnostic error messages are encountered during runtime, consultAppendix B at the back of these instructions.
1. On the master display, press RUN softkey.
LCPSETUP
DBASESTAT RUNCONFG
VERIFCONFG
The runtime page directory, Figure 5-7, will appear on the display screen.
Figure 5-7. Runtime Page Directory Display
GOTO PAGE
RAISE ACC
P A G E D I R E C T O R Y1. REACTOR TEMPERATURE OPER NORM2. BATCH DISPLAY OPER NORM
ACC:OPER
S-3011-190(2)
2. Press P1 page selection key. The reactor temperature display page, Figure 5-8, willappear on the display screen.
Figure 5-8. Controller Reactor Temperature Runtime Display
S-3011-205(1)
GOTO PAGE
TIC-107 300°F 300°F 100% REACTOR TEMPERATURE
PROCESS : 213.7°F
SET-POINT: 200°F
OUTPUT : _ 84%
MODE : AUTO
100°F 100°F 0%PROC SETPT OUTPT
3. Move cursor to set-point field. Use the or (ramp up) or the or (ramp down) softkeys to adjust set-point to therequired value or type in a value and press theENTER key.
4. Move cursor to mode field and press MANsoftkey.
GOTO PAGE
AUTO MAN
SEL FORW
SEL BACK
5. Move cursor to output field. Use the ramp up or the ramp down softkeys toadjust manual output to the required value ortype in a value and press the ENTER key.
GOTO PAGE
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OPERATION
5.3.2 Operation of a Sequential Loop using 1710R SLU from LCPUse the following procedure to operate the SLU from the LCP.
NOTE: If LCP diagnostic error messages are encountered during runtime, consultAppendix B at the back of these instructions.
1. On the master display, press RUN softkey. The runtime page directory, Figure 5-7,will appear on the display screen.
2. Press P2 page selection key. The batch display page, Figure 5-9, will appear on thedisplay screen. The following fields on the display were configured to be operatorwritable:
• HOLD TIME• GALS A• GALS B• GALS C• HEAT °F• COOL °F• CMD
Values can be entered into any of these fields at the LCP. The remainder of the fieldson the runtime display indicate process conditions or status.
3. Move cursor to hold time variable field. Enter 00:22:00 minutes as the value for thehold time and then press ENTER.
4. Move cursor to gallons A (GALS A) variable field. Enter 155 as the value for gallons Aand then press ENTER.
5. Move cursor to gallons B (GALS B) variable field. Enter 300 as the value for gallons Band then press ENTER.
Figure 5-9. Batch Runtime Display
GOTO PAGE
BATCH DISPLAY KIC-108
HOLD TIME: 0:00:00GALS A : 50GALS B : 50GALS C : 70TOT GALS : 35
FILL : 0GALS STEP:FILLHEAT : 173.2°FHOLD : 0:00:00 CMD:COOL : 76.8°F STATUS: ACTIVEDRAIN: 0GALS TIME IN STEP: 0:00:00
S-3011-201(1)
5-6
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OPERATION
6. Move cursor to gallons C (GALS C) variable field. Enter 25 as the value for gallons Cand then press ENTER.
7. Move cursor to heat variable field. Enter 220 as the value for heat °F and then pressENTER.
8. Move cursor to cool variable field. Enter 85 as the value for cool °F and then pressENTER.
9. Move cursor to command (CMD) variable field. Press the SEL FORW or SEL BACKsoftkey until ACTIVATE appears in the command field and press ENTER. This willstart the batch sequence.
5.4 PROCESS ALARMSWhen a priority 1 process alarm occurs in the controller, the configured process alarm de-scription (i.e. TEMP HI) will appear flashing in reverse video on the message line of thedisplay as shown in Figure 5-10.
Figure 5-10. Runtime Display with Process Alarm
GOTO PAGE
TEMP HI
TIC-107 300°F 300°F 100% REACTOR TEMPERATURE
PROCESS : 213.7°F
SET-POINT: 200°F
OUTPUT : _ 84%
MODE : AUTO
100°F 100°F 0%PROC SETPT OUTPT
S-3011-205(1)A
Process AlarmMessage
If the process alarm was configured in the LCP as a priority 2 alarm instead of a priority 1alarm, the message would be flashing but would not be in reverse video. If the variableassociated with the alarm is on the same display page, the variable will flash for a priority2 alarm or flash in reverse video for a priority 1 alarm.
NOTE: The variable will not be visible if it is located on another display page.
Use the following procedure to acknowledge the alarm.
1. Press HOME cursor control key.
Cursor will move to alarm message on the message line.
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OPERATION
2. Press GOTO VAR softkey.
Cursor will move to variable associated with alarm. If variable is located on anotherdisplay page, display will change to that display page.
2. Press ALARM ACK softkey.
The LCP will send an alarm acknowledge message to controller, process alarmmessage will disappear from the runtime display and the variable will stop flashing.
The process alarm message appears for unacknowledged alarms only. If the alarmremains active after being acknowledged, the variable will be displayed in reverse video.When the alarm is cleared, the variable will return to normal video.
Up to three process alarm messages can be displayed at one time. The most recentalarm message will be on the left. If there are more than three unacknowledged alarmmessages, arrows on the top line of the display will indicate direction and the PREVALARM and NEXT ALARM softkeys can be used to scroll to the additional messages.
5.5 PAGE ACCESS LEVELThe access level for a page can be set at either operator (OPER) or protected (PROT).Setting the page access level to protected restricts the authority to take control of anoperator writeable variable on the page to personnel able to raise the LCP access levelthrough use of the password. To configure a page with protection, go to the configurationpage directory, Figure 5-11, and move the cursor to the page access level field (OPER)and press the PROT softkey.
Figure 5-11. Changing Access Level on the Configuration Page Directory Display
CANCL REQ
M O D S Y S T E M S
L O C A L C O N T R O L
P A N E L
ENTER PASSWORD:
S-3011-194(1)
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OPERATION
5.6 OUT OF RANGE INDICATION FOR BARSOut of range indication for bar fields on runtime displays are indicated by out of rangeindicators at the end of the bar field. An example of out of range indication on a solidhorizontal bar is shown in Figure 5-12. The same indicators are used on vertical bars andtarget fields. When the value of the variable is less than 0% of range, there will be no barindicated and the out of range indicators will be displayed at 0% end of the field. The outof range indicators are always the width of the bar. When the value of the variable isgreater than 100% of range, there will be a full bar indicated and the out of rangeindicators will be displayed at the 100% end of the bar.
Figure 5-12. Out of Range Indication for Bar Fields on Runtime Displays
100%
100%
0%
0% 100%
100%Solid Bar
S-3011-240
Out of Range Indicators(Width of Solid Bar)
Bar Field with NoBar Indication
Target Bar
Out of Range Indicators(Width of Target)
Bar Field with NoTarget Indication
VARIABLE IS LESS THAN 0% OF RANGE
Solid Bar
0%
Bar Field
Out of Range Indicators(Width of Bar. Shown in
Reverse Video )
Target Bar0%
Target Field with NoTarget Indication
VARIABLE IS GREATER THAN 100% OF RANGE
Out of Range Indicators(Width of Target)
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OPERATION
5.7 RUNTIME DISPLAY CONVENTIONSThe following runtime display conventions appear in standard video.
**** = Indicates bad data for a fixed name of configured name attribute.
*HRNG* = Floating point value is greater than +999,999.5.
*LRNG* = Floating point value is less than –99,999.5.
*HI RANGE* = Totalized count value is greater than +99,999,999.
*LO RANGE* = Totalized count value is less than –99,999,999.
The following runtime display conventions appear in reverse video.
xxxxx = Indicates attribute was not present in the instrument data base when the LCP did it’s end of configuration check.
???? = Error in communications.
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APPENDIX A
APPENDIX ALITHIUM THIONYL CHLORIDE BATTERIES
A.1 DESCRIPTIONThis instrument uses a lithium thionyl chloride battery as an integral part of the memorycircuit. This battery is different from commercial batteries of similar size and appearancein that it provides a higher output voltage for a longer period of time.
The battery consists of a pure lithium anode and a nonaqueous inorganic thionyl chloridewhich acts both as the electrolyte and as the cathode. During discharge, a chemicalreaction takes place on the active surface of a porous carbon catalyst. Lithium chlorideprecipitates on the carbon catalyst, and the sulfur dioxide which is formed dissolves in theelectrolyte without generating any gas pressure.
In the lithium battery, a single AA size cell is used with a cable/plug assembly soldered tothe cell terminals. This cable exits from the bottom (negative) end of the batteryassembly, through a plastic covering.
A.2 SAFETYThe unique construction, the absence of pressure and the limited reactive area of the cellensure safety even under adverse operating and storage conditions. Some precautions,however, must be observed:
• To insure continued reliability of the instrument, the battery should be replacedapproximately every two years during a plant shutdown.
• The instrument should be stored in a vertical position.
• Do not incinerate new or spent batteries or subject them to temperatures above190°C (374°F); explosion could result.
• Do not puncture, crush, disassemble or tamper with batteries. This could causeleakage and/or heat buildup which could cause an explosion.
• Do not attempt to recharge battery. Discharged lithium batteries are not rechargeableand should be replaced.
• Do not short circuit a lithium battery. Shorting out a fresh battery could result intemperatures as high as 160°C (320°F) which could cause severe burns if touched.
NOTELithium batteries are not rechargeable. Do not attempt torecharge a lithium battery.
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APPENDIX A
A-2
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APPENDIX B–––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––
APPENDIX BLCP DIAGNOSTIC AND SYSTEM ERRORS
Table B-1. LCP Diagnostic Errors
* The number in parenthesis represents the corresponding diagnostic alarm in an instrument.
Diagnostic Error* Possible Cause Action to be Taken
(80) System Error,IllegalInterrupt
Some sort of noise spike glitchedthe hardware.
Acknowledge alarm and continueoperating. If alarm repeats, replaceand repair LCP.
Main Data BaseCorrupted
Power glitch while configuring LCP. Reconfigure main memory ordownload from backup memory.
(9) Replace MainMemory Battery
Weak battery or no battery presenton memory board.
Replace battery on memory board.
(10) Replace BackupMemory Battery
Weak battery or no battery presenton backup memory board.
Replace battery on backup memoryboard.
(77) Invalid DiagnosticError
A mistake in the LCP error reportingsoftware.
Acknowledge alarm and continueoperating. If alarm repeats, contactABB Kent-Taylor.
(33) Excess MessagesReceived
Instruments have sent too manymessages to LCP.
Acknowledge alarm and continueoperating.
(32) Invalid MessageSize
a. An instrument on the ICN wasdisconnected or plugged in.
b. Single message failure.
c. Two instruments on the ICNhave their ICN address switchesset at the same number.
a. Acknowledge alarm andcontinue operating.
b. Acknowledge alarm andcontinue operating.
c. Check ICN address switches onall instruments connected toICN.
(19) Invalid MessageReceived
a. Single message failure.
b. Another instrument or link issending a request message thatLCP doesn’t know how torespond to.
a. Acknowledge alarm andcontinue operating. If alarmrepeats, replace and repair LCP.
b. Check instrument configurationsfor destination of outputcommunication and supervisorymessage blocks.
(20) ICN fault, CheckSum Error
a. An instrument on the ICN wasdisconnected or plugged in.
b. Single message failure.
a. Acknowledge alarm andcontinue operating.
b. Acknowledge alarm andcontinue operating.
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APPENDIX B
Table B-1. LCP Diagnostic Errors (Cont’d)
* The number in parenthesis represents the corresponding diagnostic alarm in an instrument.
Diagnostic Error* Possible Cause Action to be Taken
(34) Excess MessagesTransmitted
LCP has accumulated too manymessages. The excess messageswill be ignored.
Acknowledge alarm and continueoperating.
(17) ICN fault, AccessTimeout
a. An instrument on the ICN wasdisconnected or plugged in.
b. Two instruments on the ICNhave their ICN address switchesset at the same number.
a. Acknowledge alarm andcontinue operating.
b. Check ICN address switches onall instruments connected toICN.
(31) ICN fault, FramingError
a. An instrument on the ICN wasdisconnected or plugged in.
b. Single message failure.
c. Two instruments on the ICNhave their ICN address switchesset at the same number.
a. Acknowledge alarm andcontinue operating.
b. Acknowledge alarm andcontinue operating.
c. Check ICN address switches onall instruments connected toICN.
(18) ICN fault, RestartFailure
a. ICN load resistors are missing.
b. Two instruments on the ICNhave their ICN address switchesset at the same number.
c. ICN wires are shorted together.
a. Install load resistors.
b. Check ICN switches on allinstruments connected to ICN.
c. Check and fix wiring fault.
(2) Check Sum Error,Main Memory
a. Main memory contains baddata.
b. Defective LCP.
a. Reconfigure main memory.
b. Replace and repair LCP.
(4) Check Sum Error,Backup Memory
a. Backup memory contains baddata.
b. Defective backup memorymodule.
a. Reconfigure backup memory.
b. Replace and repair backupmemory.
Error Index ##,Presently not used
System software error. Acknowledge alarm andcontinue operating. Contact ABB Kent-Taylor.
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APPENDIX B
Table B-2. System Error Messages
Message Message Meaning
ADDITIONAL RAMREQUIRED
This message applies to previous versions of the LCP that require back-upmemory when using the 1180 serial interface.
ALARM TABLE FULL Table listing the process alarms in the LCP is full. A total of 250 processalarms can be configured.
ATTRIBUTE? Missing or incorrect mnemonic in source code (EV1 was entered insteadof EV1,STAT).
BACKUP WRITEPROTECTED
The backup memory in the backup memory module is write protected andcannot be overwritten. To remove write protection, refer to 5.8.4Removing Write Protection from Backup Memory in backup memorymodule.
BLOCK TYPE? Missing or incorrect block type in source code (1,STAT was enteredinstead of EV1,STAT).
CONFIG NOT VERFIED The RUN softkey was pressed before the LCP configuration was verified.
CONVERSION NOTALLOWED
You attempted to convert a version 2 database back to a version 1database and that is not possible.
DATA TYPE? You typed in a data type that is not valid. You could use the SEL FORWand SEL BACK softkeys to go through the list of valid data types.
DATABASE FULL The data base of the LCP is full. All 32,768 bytes of available data basehave been configured.
EXCEEDS AVAILABLESPACE
The length of the display field exceeds the number of character spacesavailable on the display.
FIELD ALREADYPRESENT
The cursor is on an existing field when the ADD FIELD or ADD COPYsoftkey is pressed.
HEX ENTRY? A hexadecimal entry is required using the hex format of $00 through $FFand the configured field size.
INCORRECTPASSWORD
A password other than the one configured in the LCP memory wasentered with the keyboard.
INSTRUMENT NUMBER? An instrument number is required in the variable with same names displayfield.
INVALID ENTRY An attempt was made to enter data that was invalid for the variable.
INVALID 1ST CHAR First character in name display field was numeric. The first character in astate name must be a letter.
NAME TABLE FULL The table listing the state names in the LCP is full. A total of 250 differentstate names can be configured.
NO OTHER LISTS There is no other list of variables with same name.
NO SUCH VARIABLE The variable entered does not exist in the LCP data base.
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APPENDIX B
Table B-2. System Error Messages (Cont’d)
Message Message Meaning
OCCURRENCE? Missing or incorrect block occurrence number in source code (EV,STATwas entered instead of EV1,STAT).
RANGE TABLE FULL The table listing the engineering units ranges in the LCP is full. A total of255 different engineering units range can be configured.
STATE INDEX TABLEFULL
The maximum number of state name lists for variables have beenconfigured. A total of 255 different state name lists can be configured.
UPGRADE IMPOSSIBLE The older version of the database is too large to complete the conversion.
VARIABLE HAS NONAMES
There are no state names configured for variable with same name.
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APPENDIX C
APPENDIX CMNEMONICS LISTING
Table C-1 provides a complete listing of all the mnemonics used by the LCP for the 1701RController and 1700J Recorder. Table C-2 provides a complete listing of all the mnemonics usedby the LCP for the 1710R Sequence and Logic Unit (SLU). The page reference for each block islisted below.
Instrument Block Type PageMain Algorithm Block, C (CNTL) and B (BCTL)Controller C-1Aux Algorithm Block, X Controller (XCTL) C-2Aux Algorithm Block, Totalizer (TOT) and Math (MATH) Function C-3Main Algorithm Block, Recorder (REC) C-3Input Communications Block C-3Analog Block, Analog Inputs C-4Digital Block, Digital Inputs C-4Digital Block, Logic C-5Linearization Block C-5Alarm Block C-5Digital Output Block C-6Output Communications Block C-6
Sequencer Block Type PageAnalog Input Block C-7Analog Output Block C-7Channel Selector Block C-7Counter Block C-7Diagnostic Alarm Block C-8Digital Input Block C-8Digital Output Block C-8Digital Output Momentary Block C-9Drum Programmer Block C-9Event Block C-10Input Communication Block C-10Interface Block C-10Linearization Block C-10Loop Block C-10Math Block C-11Notification/Request Block C-11Output Communications Block C-11Piecewise Block C-11Process Alarm Block C-11Recipe Block C-12Supervisory Message Block C-12Timer Block C-12Totalizer Block C-12
C-1
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APPENDIX C
Table C-1. Mnemonic Listing for Instruments
Signal Name Mnemonic Signal Type Range or State
Main Algorithm Block, C (CNTL) and B (BCTL) Controllers
Active Set-Point StatusActive Mode
Adapt Contact Source (CNTL Only)Adjusted Set-pointAuto Output (BCTL Only)Dead Time Compensation Source
CSPSTACACTMD
CACNSRCADJSPCAUTOPCDTCSR
StateControllerModeDiscreteContinuousContinuousContinuous
LOC, REM, SPTK or SUPVMAN, AUTO, CASC, FF,FB, DDC or OPTK
–204.8 to 204.8%–204.8 to 204.8%
DeviationDynamic Output (BCTL Only)External Feedback SourceFailsafe SourceFeedback Output (BCTL Only)
CDEVCDYNOPCXFBSRCFSSRCCFBOUT
ContinuousContinuousContinuousDiscreteContinuous
–127 to 127%–204.8 to 204.8%
–204.8 to 204.8%
Feedforward Variable SourceField Output 1 Monitor (BCTL Only)Field Output 2 SourceLocal Set-Point SourceMode Source
CFFVSRCFO1MVCFO2SRCLSPSRCMDSRC
ContinuousContinuousContinuousContinuousControllerMode
–14 to 114%
Operator Mode
OutputOutput Tracked Variable SourceProcess VariableProcess Variable Source
COPMD
COUTPTCOTKVSCPROCCPRSRC
ControllerModeContinuousContinuousContinuousContinuous
MAN, AUTO, CASC, FF orFB–14 to 114%
–14 to 114%
Process Variable 2 (BCTL Only)R/L Command SourceRemote Set-Point BiasRemote Set-Point Bias SourceRemote Set-Point Ratio
CPROC2CRLSRCCBIASCBIASRCRATIO
ContinuousStateContinuousContinuousContinuous
–127 to 127%
–127 to 127%0 to 100%
Remote Set-Point Ratio SourceRemote Set-Point SourceRemote Variable Source (CNTL Only)Return R/L StatusSelected Output (BCTL Only)
Set-PointSet-Point Tracked Variable SourceTrack Command SourceTrack Status
CRATSRCRSPSRCRMVSRCRTNRLCSLDOP
CSETPTCSTKVSCTKCMSCTRAK
ContinuousContinuousContinuousStateState
ContinuousContinuousDiscreteDiscrete
LOC or REM1, 2, 3 or 0 (0 indicateslimits had to be applied)–8 to 108%
OPEN or CLSD
C-2
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APPENDIX C
Table C-1. Mnemonic Listing for Instruments (Cont’d)
Signal Name Mnemonic Signal Type Range or State
Auxiliary Algorithm Block, X Controller(XCTL)
Active Set-Point StatusActive Mode
Adjusted Set-pointAuto OutputDead Time Compensation Source
XSPSTAXACTMD
XADJSPXAUTOPXDTCSR
StateControllerModeContinuousContinuousContinuous
LOC, REM, SPTK or SUPVMAN, AUTO, CASC, FF,FB, DDC or OPTK–204.8 to 204.8%–204.8 to 204.8%
DeviationDynamic OutputExternal Feedback SourceFailsafe SourceFeedback Output
XDEVXDYNOPXXFBSRXFSSRCXFBOUT
ContinuousContinuousContinuousDiscreteContinuous
–127 to 127%–204.8 to 204.8%
–204.8 to 204.8%
Feedforward Variable SourceLocal Set-Point SourceMode Source
Operator Mode
Output
XFFVSRXLSPSRXMDSRC
XOPMD
XOUTPT
ContinuousContinuousControllerModeControllerModeContinuous
MAN, AUTO, CASC, FF orFB–14 to 114%
Output Tracked Variable SourceProcess VariableProcess Variable SourceProcess Variable 2R/L Command Source
XOTKVSXPROCXPRSRCXPROC2XRLSRC
ContinuousContinuousContinuousContinuousState
–14 to 114%
–127 to 127%
Remote Set-Point BiasRemote Set-Point Bias SourceRemote Set-Point RatioRemote Set-Point Ratio SourceRemote Set-Point Source
XBIASXBIASRXRATIOXRATSRXRSPSR
ContinuousContinuousContinuousContinuousContinuous
–127 to 127%
0 to 100%
Return R/L StatusSelected Output
Set-PointSet-Point Tracked Variable SourceTrack Command SourceTrack Status
XRTNRLXSLDOP
XSETPTXSTKVSXTKCMSXTRAK
StateState
ContinuousContinuousDiscreteDiscrete
LOC or REM1, 2, 3 or 0 (0 indicateslimits had to be applied)–8 to 108%
OPEN or CLSD
C-3
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APPENDIX C
Table C-1. Mnemonic Listing for Instruments (Cont’d)
Note: Controller Types are: Discrete, Continuous, Hybrid, Controller Mode or State Variables.
Recorder Types are: Discrete or Continuous Variables.
Signal Name Mnemonic Signal Type Range or State
Math (MATH) and Totalizer (TOT)Auxiliary Algorithm
Math Input 1 Source (MATH only)Math Input 1 Constant (MATH only)Math Input 2 Source (MATH only)Math Input 2 Constant (MATH only)Math Input 3 Source (MATH only)Math Input 3 Constant (MATH only)Math Input 4 Source (MATH only)Math Input 4 Constant (MATH only)Math Output (MATH only)Totalizer Input 1 SourceTotalizer Input 2 SourceTotalized Count 1
Totalized Count 2
TMI1SRTMI1CNTMI2SRTMI2CNTMI3SRTMI3CNTMI4SRTMI4CNTMOUTTOTIN1TOTIN2TCNT1
TCNT2
ContinuousContinuousContinuousContinuousContinuousContinuousContinuousContinuousContinuousContinuousContinuous4 Byte -Continuous4 Byte -Continuous
-127 to 127%
-127 to 127%
-127 to 127%
-127 to 127%-108 to 108%
-99, 999, 999 to 99, 999, 999-99, 999, 999 to 99, 999, 999
Recorder (REC) Main AlgorithmTrend Input 1 SourceTrend Input 2 SourceTrend Input 3 SourceTrend Output 1Trend Output 2Trend Output 3
TI1SRCTI2SRCTI3SRCTREND1TREND2TREND3
ContinuousContinuousContinuousContinuousContinuousContinuous
-204.8 to 204.8%-204.8 to 204.8%-204.8 to 204.8%
Input Communications BlockI Com Input 1I Com Input 2I Com Input 3I Com Input 4I Com Input 5I Com Input 6I Com Input 7I Com Input 8I Com Input 9I Com Input 10
ICOM1ICOM2ICOM3ICOM4ICOM5ICOM6ICOM7ICOM8ICOM9ICOM10
See NoteSee NoteSee NoteSee NoteSee NoteSee NoteSee NoteSee NoteSee NoteSee Note
Analog InputsAnalog Input 1Analog Input 2Analog Input 3
ANLG1ANLG2ANLG3
ContinuousContinuousContinuous
-14 to 114%-14 to 114%-14 to 114%
C-4
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APPENDIX C
Table C-1. Mnemonic Listing for Instruments (Cont’d)
Signal Name Mnemonic Signal Type Range or State
Digital InputsDigital Input 1Digital Input 2Digital Input 3 (Recorder Only)
DINP1DINP2DINP3
DiscreteDiscreteDiscrete
OPEN or CLSDOPEN or CLSDOPEN or CLSD
Digital Block, LogicDigital Input 1Digital Input 2Discrete Constant 1Discrete Constant 2Discrete Constant 3Continuous Constant 1Continuous Constant 2Continuous Constant 3Discrete Logic 1 OutputDiscrete Logic 2 OutputDiscrete Logic 3 OutputDiscrete Logic 4 OutputDiscrete Logic 5 OutputDiscrete Logic 6 OutputContinuous Logic 1 OutputContinuous Logic 2 OutputContinuous Logic 3 OutputContinuous Logic 4 OutputPower Up Flag
DINP1DINP2DSCNS1DSCNS2DSCNS3CTCNS1CTCNS2CTCNS3DSLOG1DSLOG2DSLOG3DSLOG4DSLOG5DSLOG6CTLOG1CTLOG2CTLOG3CTLOG4PRUPFG
DiscreteDiscreteDiscreteDiscreteDiscreteContinuousContinuousContinuousDiscreteDiscreteDiscreteDiscreteDiscreteDiscreteContinuousContinuousContinuousContinuousDiscrete
OPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSD-127 to 127%-127 to 127%-127 to 127%OPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSD-205 to 205%-205 to 205%-205 to 205%-205 to 205%OPEN or CLSD
Linearization BlockChannel 1 OutputChannel 2 OutputChannel 3 OutputChannel 4 Output (Controller Only)Channel 1 SourceChannel 2 SourceChannel 3 SourceChannel 4 Source (Controller Only)Linearization Test Constant
LINZ1LINZ2LINZ3LINZ4LNSRC1LNSRC2LNSRC3LNSRC4LINCNS
ContinuousContinuousContinuousContinuousContinuousContinuousContinuousContinuousContinuous
-204.8 to 204.8%-204.8 to 204.8%-204.8 to 204.8%-204.8 to 204.8%
-8.00 to 108%
Alarm BlockComposite Diagnostic AlarmDiagnostic Alarm Groups New AlarmProcess Alarm 1Process Alarm 2Process Alarm 3Process Alarm 4Process Alarm 5Process Alarm 6Process Alarm 7Process Alarm 8Process Alarm Group 1Process Alarm Group 2
DALMDALMGNALMALM1ALM2ALM3ALM4ALM5ALM6ALM7ALM8ALMG1ALMG2
DiscreteDiscreteDiscreteDiscreteDiscreteDiscreteDiscreteDiscreteDiscreteDiscreteDiscreteDiscreteDiscrete
OPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSD
C-5
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APPENDIX C
Table C-1. Mnemonic Listing for Instruments (Cont’d)
Note: 1. Controller Types are: Discrete, Continuous, Controller Mode or State Variables.Recorder Types are: Continuous Variables.
2. Controller Types are: Discrete, Continuous, Hybrid, Controller Mode or State Variables.Recorder Types are: Discrete or Continuous Variables.
Signal Name Mnemonic Signal Type Range or State
Alarm Block (Cont’d)Process Alarm 1 SourceProcess Alarm 2 SourceProcess Alarm 3 SourceProcess Alarm 4 SourceProcess Alarm 5 SourceProcess Alarm 6 SourceProcess Alarm 7 SourceProcess Alarm 8 SourceRemote Alarm Ack SourceSelected Diagnostic Alarm 1Selected Diagnostic Alarm 2
PA1SRCPA2SRCPA3SRCPA4SRCPA5SRCPA6SRCPA7SRCPA8SRCREMACKSDAL1SDAL2
See Note 1See Note 1See Note 1See Note 1See Note 1See Note 1See Note 1See Note 1DiscreteDiscreteDiscrete
OPEN or CLSDOPEN or CLSD
Digital Output BlockDigital Output 1 SourceDigital Output 2 SourceDigital Output 3 SourceDigital Output 4 Source (Recorder Only)Digital Output 1 ConstantDigital Output 2 ConstantDigital Output 3 ConstantDigital Output 4 Constant (Recorder Only)
DO1SRCDO2SRCDO3SRCDO4SRCDO1CNSDO2CNSDO3CNSDO4CNS
DiscreteDiscreteDiscreteDiscreteDiscreteDiscreteDiscreteDiscrete
OPEN or CLSDOPEN or CLSDOPEN or CLSDOPEN or CLSD
Output Communications BlockI Com Output 1 SourceI Com Output 2 SourceI Com Output 3 SourceI Com Output 4 SourceI Com Output 5 SourceI Com Output 6 SourceI Com Output 7 SourceI Com Output 8 SourceI Com Output 9 SourceI Com Output 10 SourceI Com Output 11 SourceI Com Output 12 SourceI Com Output 13 SourceI Com Output 14 SourceI Com Output 15 SourceI Com Output 16 Source
CO1SRCO2SRCO3SRCO4SRCO5SRCO6SRCO7SRCO8SRCO9SRCO10SRCO11SRCO12SRCO13SRCO14SRCO15SRCO16SR
See Note 2See Note 2See Note 2See Note 2See Note 2See Note 2See Note 2See Note 2See Note 2See Note 2See Note 2See Note 2See Note 2See Note 2See Note 2See Note 2
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APPENDIX C
Table C-2. Mnemonic Listing for SLU
Field Name Mnemonic Data Type Range or State
Analog Input Block (Version 4, 5 SLU) AI1 to AI6
Analog Input Block (Version 6 SLU) AI1 to AI70
Input, Action ACTION Discrete DCT (1), REV (0)
Input Data DATA Continuous -14.00 to 114.00%
Input Out of Range OUTRNG Discrete 1 = Yes, 0 = NO
Input Mode MODE Discrete AUTO (1), MAN (0)
Analog Output Block AO1 or AO2
Output, Action ACTION Discrete DCT (1), REV (0)
Output Data DATA Continuous -14.00 to 114.00%
Output Mode MODE Discrete Auto (1) , MAN (0)
Channel Selector Block CS1 to CS64
Mode, Output OPMODE Discrete Auto (1), MAN (0)
Mode, Select SLMODE Discrete Auto (1), MAN (0)
Selected Source Offset CHNOFF Long State 0-20
Selected Data DATA As Required
Selected Channel CHAN Long State 0-20
Data Type DATTYP State Read Only
Counter Block CT1 to CT64
Block Enable ENAB Discrete ON (1), OFF (0)
Preset/Limit PRSLIM Count 1 to 65535.
Counter Type TYPE Discrete UP (1), DOWN (0)
Counter Update Mode MODE Discrete AUTO (1), MAN (0)
Limit Reached LIMITD Discrete 1 = Yes, 0 = No.
Count CNT Count 1 to 65535.
Count State CNTST Long State 1 to 255
Command CMD Discrete Write Only1 = Reset, 2 = Step
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APPENDIX C
Table C-2. Mnemonic Listing for SLU (Cont’d)
Field Name Mnemonic Data Type Range or State
Diagnostic Alarm Block AL1
Diagnostic Alarm Flash DAFLSH Discrete YES (1), NO (0)
Diagnostic Alarm Beep DABEEP Discrete YES (1), NO (0)
Diagnostic Alarm Flash/Beep DAFBRT Discrete FAST (1), SLOW (0)
Composite Diagnostic Alarm Calculation
CMPCAL Discrete SUPP (0), ENAB (1)
Composite Diagnostic Alarm Status
CSTAT Discrete Active (1), Clear (0)
Composite Diagnostic Alarm Unacknowledge Status
CUNACK Discrete Yes, unack (1), No, ack (0)
Diagnostic Alarm Group Alarm Status
GSTAT Discrete Active (1), Clear (0)
Diagnostic Alarm Group Unacknowledge Status
GUNACK Discrete Yes, unack (1), No, ack (0)
Selected Diagnostic Alarm 1 To 10Status
SDAL1 to SDAL10
Discrete Active (1), Clear (0)
Priority 1 Flash Beep Rate P1FBRT Discrete Fast (1), Slow (0)
Priority 1 Flash P1FLSH Discrete Yes (1), No (0)
Priority 1 Beep P1BEEP Discrete Yes (1), No (0)
Priority 2 Flash Beep Rate P2FBRT Discrete Yes (1), No (0)
Priority 2 Flash P2FLSH Discrete Yes (1), No (0)
Priority 2 Beep P2BEEP Discrete Yes (1), No (0)
Digital Input Block DI1 to DI78
Input Action ACTION Discrete DCT (1), REV (0)
Input Value DATA Discrete OPEN (0), CLSD (1)
Input Mode MODE Discrete AUTO (1), MAN (0)
Type TYPE State Read Only, 0 = Input
Digital Output Block DO1 to DO78
Output Action ACTION Discrete DCT (1), REV (0)
Output Hold Value HLDVAL State OPEN (0), CLSD (1) , PREV (3)
Data DATA Discrete OPEN (0), CLSD (1)
Output Mode MODE Discrete AUTO (1) , MAN (0)
Type TYPE State Read Only, 1 = Output
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APPENDIX C
Table C-2. Mnemonic Listing for SLU (Cont’d)
Field Name Mnemonic Data Type Range or State
Digital Output Momentary Block DM1 to DM78
Output Action ACTION Discrete DCT (1) , REV (0)
Output Hold Value HLDVAL State OPEN (0), CLSD (1), PREV (3)
Trigger Data DATA Discrete OPEN (0), CLSD (1)
Output Mode MODE Discrete AUTO (1), MAN (0)
Polarity POLAR Discrete NORM CLSD (1), NORM OPEN (0)
Type TYPE State Read Only, 2 = mom. out.
Drum Programmer Block DP1 to DP32
Mode MODE Discrete AUTO (1), MAN (0)
Step STEP Count 0 - 999
Step Complete STPCMP Discrete Yes (1), No (0)
Step State STPSTA Long State 0 - 255
Operator Step OPSTEP Count 0 - 999
Status STAT State State Value 1= activeState Value 2= inactiveState Value 4 = paused
Command COMAND State Activate - State Value 1Abort - State Value 2Continue - State Value 3Pause - State Value 4Single Step - State Value 5Repeat - State Value 6State Value 0 is undefined
Operator Step State OPSTST Long State 0 - 255
Outputs OUTP1 thru OUTP16
Discrete X = Active (on), Closed (1)O = Inactive (off), Open (0)
Next Step NXTSTP Count 0 - 999
Next Operator Step NXOSTP Count 0 - 999
Number of Steps NOSTPS Count 0 - 999
Status Step STASTP Count
Time In Step STPTIM Time 0:0:0 255:59:239
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APPENDIX C
Table C-2. Mnemonic Listing for SLU (Cont’d)
Field Name Mnemonic Data Type Range or State
Event Block EV1 to EV255
Internal Constants 1-3 CONST1- CONST3
As Required
Evaluation Stop Mode MODE Discrete AUTO (1), MAN (0)
Result Type TYPE Discrete NORM (0), MOM (1)
Status STAT Discrete 1 = True,.0 = False
Input Communication Block IC1 to IC32
Data Type DATTYP As Required Read Only
Data DATA As Required
Data Mode MODE Discrete AUTO (1), MAN (0)
Communication Failure CFAIL Discrete Yes (1), No ( 0)
Interface Block IF1
Allow Operator to Assign Computer to a Loop
OPASGN Discrete Yes (1), No (0)
Digital I/O Lock DIOLOK Discrete Locked (1), Unlocked (0)
End of Configuration Initialization EOCINT Discrete Yes (1), No (0)
From Service Manual FRSRMN Discrete Yes (1), No (0)
Power-Up Initialization PWRUP Discrete Yes (1), No (0)
Date DATE Date 0 - 99 1 - 12 1 - 31Year Month Day
Time TIME Time 0:0:0 to 23:59:59
Linearization Block LN1 to LN64
Mode MODE Discrete AUTO (1), MAN (0)
Type TYPE STATE PW# (0), IPW# (1), LIN (2),SQ (3), SQRT (4)
Output DATA Continuous 204.0 to 204.8%
Table Number TABLE state (LONG) PW# or IPW# (1 to 16)
Loop Block LP1 to LP64
Block Enable ENAB Discrete OFF (0), ON (1)
Foreground Enable SENDFG Discrete YES (1), No (0)
Loop, Group Number GRP Long State 1 to 253.
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APPENDIX C
Table C-2 Mnemonic Listing for SLU (Cont’d)
Field Name Mnemonic Data Type Range or State
Math Block MA1 to MA32
Mode MODE Discrete AUTO (1), MAN (0)
Data Type DATTYP State Read Only
Output DATA As required
Out of Range OUTRNG Discrete Yes (1), No (0)
Notification/Request Block NM1 toNM127
Data Type DATTYP As Required Read Only
Requested Data DATA As Required
Send Command Acknowledge Time Out
RTIM Time 0:0:0 to 259:59:239
Timed Out TIMOUT Discrete 1 = response time expired
Unacknowledge UNACK Discrete 1 = ack pending
Mode MODE Discrete AUTO (1), MAN (0)
Send Command SEND Discrete Write Only
Output Communications Block OC1 to OC32
Data Type DATTYP As Required Read Only
Data DATA As Required
Data Send Mode MODE Discrete AUTO (1), MAN (0)
Piecewise Block PW1 to PE16
X, Y Coordinates, 1 thru 30 X1, Y1, to X30, Y30
Continuous -114.0 to 114.0%
Process Alarm Block PA1 to PA127
Alarm Action ACTION Discrete HNE (1), LEQ (0).
Alarm Priority PRI State OFF (0), PR1 (1) , PR2 (2)
Alarm Status STAT Discrete Active (1), clear (0).
Data Type DATTYP State
Trip Value TRIP As Required
Hysteresis HYST Continuous
Unacknowledged UNACK Discrete Yes or no.
Alarm Mode MODE State AUTO (1), MAN (0), SUPP (2)
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APPENDIX C
Table C-2 Mnemonic Listing for SLU (Cont’d)
Field Name Mnemonic Data Type Range or State
Recipe Block RC1 to RC32
Data Constant 1 to 32 DATA1 to DATA32
As Required
Data Type 1 to 32 TYPE1 to TYPE32
State Read Only
Supervisory Message Block SM 1 toSM64
Data Type DATTYP State Read Only
Data DATA As Required
Transaction Type TYPE State READ (0), TUNE (1), OPWR (2), CFG (3), DCFG (4)
Unacknowledge UNACK Discrete Unack (1). Ack (0)
Communication Failure CFAIL Discrete Yes (1), No (0)
Send Command Mode MODE Discrete AUTO (1), MAN (0)
Send Command SEND Discrete Write Only
Timer Block TM1 to TM64
Block Enable ENAB Discrete OFF (0), ON (1)
Preset/Limit PRSLIM Time 0:0:0 to 255:59:239.
Timer Type TYPE Discrete UP (1), DOWN (0)
Timer Update Mode MODE Discrete AUTO (1), MAN (0)
Timer Expired EXP Discrete Yes (1), No (0)
Time TIME Time
Command CMD Discrete
Totalizer Block TL1 to TL64
Mode MODE Discrete AUTO (1), MAN (0)
Direction TYPE Discrete DOWN (0), UP (1)
Initial Totalized Count TOTCNT Count 0 to 65535
Rate RATE Count 200 to 60,000
Auto Wrap WRAP Discrete YES (1), NO (0)
Predetermined Count Value PRECNT Count Range is 0 to 65535
Input Threshold THRESH Continuous 0 to 100%, (0 to 16,000)
Enable ENAB Discrete OFF (0), ON (1)
Status STAT Discrete YES (1), NO (0)
Clear CLR Discrete
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LCP PLANNING AND DISPLAY LAYOUT FORMS–––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––
APPENDIX DLCP PLANNING AND DISPLAY LAYOUT FORMS
D.1 LCP PLANNINGThe memory in the LCP has a maximum of 32,768 bytes of data base. This allows from10 to 30 runtime pages to be configured depending on the average variable density. Theloading factors for the LCP are listed in Table D-1.
Table D-1. LCP Loading Factors
Note: A given range can be applied to as many variables as required without usingadditional memory. For example, if 25 variables used the same range, only 9 bytesof memory would be used to define the range for those variables.
COMPONENT BYTES
LCP Overhead 215
Each Variable 17
Each Page 696
Range for Continuous Variables (Note 1) 255 per LCP Max 9
Notification Messages and Process Alarms(250 alarmed variables per LCP maximum)
13
8-Character State Names (200 per LCP maximum) 10
32-Character State Names (50 per LCP maximum) 34
D.2 DISPLAY LAYOUT FORMSThe following forms provide a means to plan LCP displays. Space is provided on eachform to record the following information:
• Instrument NumberThis is the instrument number for the ICN. This number is used on the configurationdisplays.
• Tag NumberThis the tag number used to identify the instrument on the LCP displays.
• Instrument TypeThis is the instrument type used on the configuration displays.
– MOD30 CON = 1701R Controller
– MOD30 REC = 1700J Recorder
– MOD30 SLU = 1710R Sequence and Logic Unit
– MODCELL = MODCELL Multiloop Processor
• Display NameThis is the name that is appropriate for the display.
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LCP PLANNING AND DISPLAY LAYOUT FORMS–––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––
Two Forms are provided. They can be copied as many times as is necessary and thenfilled in to record the LCP display configurations.
• LCP Display Layout Form - Standard LettersThis form has 16 lines with 42 character spaces per line. This form is used to planthe configuration of most of the displays.
• LCP Display Layout Form - Distance LettersThis form has 4 lines with 10 character spaces per line. This form is used to plandisplays with larger letters and numbers which can be read from a greater distancethan the standard letters.
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LCP PLANNING AND DISPLAY LAYOUT FORMS–––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––
D-3
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LCP PLANNING AND DISPLAY LAYOUT FORMS–––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––
D-4
PRODUCTS AND SERVICING
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Servicing
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IB-23C811 Issue 5 3/97