Simplex Esp Application Guide

Transcript

4002 Fire Alarm ESP Application Guide 0 1996 Simplex Time Recorder All specifications Co. and other information shown were current as of publication, and are subject to change without notice. FA4-1 l-1 56 (574-012) Ed 1 96 TABLE OF CONTENTS TOPIC The Power of Expanded Simplex Programming (ESP) ......................................................................................... 1 Purpose of This Guide ............................................................................................................................................ 1 General Rules of ESP ............................................................................................................................................ 1 4002 ESP Function Definitions ...................................................................................................... Programming 2 Selective Signals By Floor ...................................................................................................................................... 4 Selective Signals By Zone ...................................................................................................................................... 5 Selective Signal Operation for Floor Above, Floor Below ..................................................................................... 6 .............................................................................................. 7 Selective Relay Control for Fan/Damper Operation Selective Bypass Control Switch Operation ......................................................................................................... 12 Multiple Tamper Zones ......................................................................................................................................... 14 Pre-Signal Operation ............................................................................................................................................. 15 Stage 1/Stage 2 Operation .................................................................................................................................. 17 Cross Zoning Functions ..................................................................... 19 i .................................................................. Time Delay and Abort Delay Functions ............................................................................................................... 21 Master Code .......................................................................................................................................................... 23 Non-Latching/Non-Alarm Point Operation ............................................................................................................ 25 Pie20 Signal Operation ......................................................................................................................................... 27 ........................................................................................................................................ 29 ................................................................................................................................ 31 Operation ................................................................................................................................. 33 Unlock Piezo Operation AC Power Failure Operation 2120 Non-Default RCU Switch Non-Default SCURCU Operation ..................................................................................................................... 35 ............................................................................................................. 37 Point Matrix (Zone Grouping) Elevator Recall Operation a. Example A ............................................................................................................................................ b. Example B ............................................................................................................................................ 39 41 System Reset a. Special Operation ................................................................................................................................ b: Stagger Start Operation ....................................................................................................................... 43 45 Point Sensing ........................................................................................................................................................ 48 Positive Non-Interfering, and Successive (PNIS) Coding .................................................................................... 50 .............................................................................................................................................................. 52 Rules and Hints ................................................................................................................................................... 54 Op-Codes Release Equations.. ................................................................................................ 55 Appendix B - Multiple Tamper Switch Zones ..................................................................................................... 57 Appendix C - Release Delay Door ..................................................................................................................... 59 Appendix D - Non-Alarm Monitors ..................................................................................................................... 60 Appendix E - Elevator Recall Program .............................................................................................................. 62 Appendix A - Suppression The Power of E.S.P Expanded Simplex Programming The 4002 Fire Alarm Control is an 8 to 32 zone general alarm system with many operating functions which are dip switch programmable and resident in the basic system’s memory. Should unique job specific conditions require enhanced operation such as selective signalling, selective relay control, time delays, non-latching zones, PNIS coding or other possible functions, the Expanded Simplex Programming (ESP) option must be ordered and programmed by local Simplex Branch Office Personnel. A knowledge of computer programming is not required to understand E.S.P. Through the use of a program-mode dipswitch, the 4002 allows for the loading and editing of E.S.P. 8-bit operating codes which reflect the operating sequence that is required. For a complete understanding of E.S.P., please read the 4002 Programming Instruction Manual along with this application guide. (Ref. Publication #FA4-4j -153) Purpose of this Guide This 4002 ESP Application Guide was developed to show step by step examples of common fire alarm applications and their ESP programming solutions. It is by no means the definitive answer to your specific application requirements, but is a means to show you the functional power and flexibility of E.S.P. Please use it as a guide when you are drafting a software solution for your particular ESP application. Each example contains portions of the 4002 System Programming Work Order Sheet (M-1378-1). This sheet is to be completed by a Simplex Sales Representative responsible for the overall project. Section 2 shows an ESP function checked off, Section 3 shows signal circuit information, Section 4 shows zoning information, and Section 7 will include a written example of an application requiring ESP. In addition, each example has portions of the 4002 Fire Alarm System ESP Programming Sheet. This sheet is to be completed by the Simplex Technical Representative responsible for system set-up and check-out, The actual ESP equations and op-codes are shown on the sheet. Data Base information may or may not appear in examples depending upon the application at hand. ** IMPORTANT ** General Rules of ESP Rule # 1. Any control point used in ESP will not be acted upon in any way by the general alarm functions of the 4002 panel. The control point will follow exactly what is specified by the ESP Equation(s). Note: This can be overridden by using an ESP “unlock” function equation. Refer to the Programming Instruction Manual for additional information on the use of the “unlock” function. 2. All monitor points are assumed to be general alarm points unless otherwise specified in the data base mode as “Non-Alarm Points.” Refer to the Programming Instruction Manual for additional information of ESP Data Base and “Non-Alarm Points”. 3. Inputs from the serial annunciator System Reset e Alarm Silence l l l RCU and 2120 communicator module are assumed to be: Trouble Silence Manual Evacuation (Drill) Note: These default assumptions can be overridden on a per switch basis by entering information in the ESP Data Base. Refer to the Programming Instruction Manual. 4. Should a function statement not be used in an ESP equation, the default operation assumes the output(s) are ON UNTIL SILENCED. 5. Keep in mind that the 4002 has a % second scan time and equations may have to be written in proper sequence for proper operation. (e.g. An equation which is entered before another will operate first). 6. Points designated as ESP Memory points latch when used in an ESP Equation. 7. The input known as “or detect” is a momentary pulse. 8. The input known as “New Alarm Detect” is also a momentary pulse. 1 4002 E.S.P. PROGRAMMING FUNCTION DEFINITIONS General Alarm Operation Any monitor point input energizes all output circuits. This is the basic operation which is resident in all 4002 control panels when manufactured. Selective Signal Circuit Operation One or more selected monitor point inputs will act upon one or more signal output circuits. Selective signal operations may be used for various applications. Three specific selective signal operations are as follows: a. Selective signals by floor - indicating appliances will only sound on the floor of alarm initiation. b. Selective signals by zone - indicating appliances will only sound in the “zone” or area of alarm initiation. c. Floor above, floor below - indicating appliances will sound on the floor da/arm, the floor above the floor in alarm and the floor below the floor in alarm. Selective Relay Control Operation One or more selected monitor point inputs will act upon one or more general purpose output relay control circuits. Selective Fan/Damper Control Relay Operation One or more selected monitor point inputs will act upon one or more relay circuits which control fan/damper circuits. Selective Door Holder Relay Control One or more selected monitor point inputs will act upon one or more relay circuits which control door holder circuits. Selective Bypass Control Switch Operation One or more selected inputs (monitor or control) will selectively bypass control circuits. Selective Switch Operation One or more selected switch inputs will selectively control output circuits. Multiple Tamper Zones One or more selected monitor point inputs (connected to sprinkler gate valves, N/O or N/C) which activate specific tamper signals. Stage 1 /Stage 2 Operation or Pre-Signal Operation Activation of a monitor point will cause a specific output (stage 1) to occur. Activation of a second monitor point, or after a predetermined time period elapses, will operate a separate and distinctive output (stage 2). Cross Zoning A method of operation by which two or more monitor points must be activated before an output action can occur. Timing Functions One or more selected monitor point inputs may cause a selected output to activate for a predetermined, time period or after a time period elapses. Master Code One or more selected monitor point inputs will cause a selected coded pulse pattern to be outputed to selected control outputs. (Usually the indicating appliance circuits or city circuit). 2 i Non-Alarm . Monitor Point Operation A method of removing one or more selected monitor points from the 4002 general alarm program. The monitor point alarm LED will flash when activated, but no control outputs will occur unless specified in an E.S.P. equation. Non-Latching Monitor Point Operation A method of allowing one or more selected monitor points to “track” a peripheral device contact closing or opening. Piezo Signal Operation The ability to control the Piezo selectively using any function statement in E.S.P. AC Power Fail (Control) The ability to control any output when primary power (120 vat) is interrupted to the 4002. 2120 Non-Default Operation The 2120 communicator module has a standard operation consisting of: 1. Zone alarm and trouble reporting to the 2120 CPU. 2. The ability for the 2120 to initiate 4002 system reset, alarm silence, trouble silence and manual evacuation, Should an operation other than the default program be required, an ESP equation must be written and the data base may have to be changed. RCU Switch Non-Default Operation The 4602 Serial Annunciator RCU switches have a standard default operation consisting of: 1. System Reset 2. Alarm Silence 3. Trouble Silence 4. Manual evacuation Should an operation other than the default program be required, an ESP equation must be written and the data base must be changed. SCU Point Matrix (Zone Grouping) A method by which zones may be grouped in ESP memory points and assigned to a specified 4602 Serial Annunciator LED. Elevator Recall w/Alternate Floor A method of which alters the recall of the elevator to ground level during an alarm situation. If the alarm is initiated from ground level the elevator may be recalled to an alternate floor. System Reset (Special Operation) A method of changing the state of an output circuit when the system is reset. Point Sensing A method of changing an initiating device circuit (zones) to detect inputs other than normally open contact devices. (i.e. current limited and normally closed devices). PNIS Zone Coding A specified pulsed signal is sounded by the indicating appliances to audibly indicate where the alarm was initiated. ESP Data Base and ESP Equations are used to define the type of codes and their use. 3 SELECTIVE SIGNALS BY FLOOR The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION 2 ESP - Expanded SimplerProgramming 4002.01 12 - Basic ESP Memory Chap Charge Requred for any _, two (2) funclfons checked below 4002-01 13 - ESP Added Functionality Variable Charge required ,n addltlon lo 4002-0112 above. for . Each Addttlonal ESP Program Function Below . Each PNIS Zone Code Required Selected Instructions 1 Check Blocks for each Function Reqwed 2 Puce ESP per above Guldelmes 3 Complete ProgrammIng Details for each Functton Selected Reverse Sfde ESP Fu ctions i &ELECTIVE SIGNAL OPERATION 2 0 SELECTIVE RELAY CONTROL 3. 0 SELECTIVE FAN DAMPER RELAY CONTROL 4 13 SELECTIVE DOOR HOLDER RELAY CONTROL on E.S.P. -EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES, REFER TO E.S.P APPLICATION GUIDE #FA4-II-156 (ATTACH DETAILED PROGRAMMING SHEETS WHEN COMPLETED) rERG-j . . 14~14 mk\at\is da&e Smoke (EQ. I, I%\\ St&) &de&r onthe F& $loor C,I\\ Qs)emne *ha s&a\s (Es. HOWS on h&t C\oor. $A\t&im &&~ u 4 J J on s-d ~b0~ &\I enewite +be s&mls 0n spco& C\OOC ETC. d . Slhna\s ,,.I\\ wwch T&e on%;/ c’\\enced The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESp Data Base Programming Sheet (M-l 377) completed by a Simplex technical representative for the above required operation. 4002 ,Simplex FIRE ALARM PROJECT NAME CUST CONTACT PAGE-OF- SHEET ORDER NO STR REP PROGRAM PURPOSE dLkZt MEM LOC SYSTEM ESP PROGRAMMING IUP SI&& bo 1 STATEMENT I I 0 To detect -- I ORD m-&or IN FU‘N OUT I ,v,J $b I 8 BIT OP CODES 876- ,-01 , .^ 43 3 1 I IllllOl I I L^ 1 I I, I COMMENTS II&-b.hC~~ I 1 I NOTE: Refer to “General Rules of ESP,” (page 1) Rules 1 and 2. 4 SELECTIVE SIGNALS BY ZONE The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION INITIATING 2 1 ESP - Expanded Simplex Programming 4002.0112 - Baste ESP Memory Chip Charge two (2) functions checked below 4002.0113 DEVICE CIRCUIT INFORMATION (32 ZONE MAXIMUM) Reqwed for any - ESP Added Functionality Variable Charge requred I” add,tto” 10 4002-0112 above. for l Each Addltlonal ESP Program Funcl~on Selected Below l Each PNIS Zone Code Requued I DESCRIPTION ZONE 1 1 Corridor I 2 I Instructions I Check Blocks for each Fvncf~on Requwd 2 Price ESP per above Guldeltnes 3. Complete Programming Oeta~ls for each Function Reverse Side ESP Functions 1 ;d SELECTIVE SIGNAL OPERATION 2. 0 SELECTIVE RELAY CONTROL Selected on 6 E.S.P. -EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES, REFER TO E.S.P APPLICATION GUIDE #FA4-1 l-156 (ATTACH DETAILED PROGRAMMING SHEETS WHEN COMPLETED) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-1377) completed by a Simplex technical representative for the above required operation. 4002 FIRE ALARM ESP PROGRAMMING PROJECT NAME SYSTEM SHEET PAGE- OF- ORDER NO CUST CONTACT NOTE: Refer to “General Rules of ESP,” (page 1) Rules 1,2 and 4. SELECTIVE SIGNAL OPERATION FOR FLOOR ABOVE, FLOOR BELOW The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed sales representative. 4002-0113 by a Simplex nded Simplex Programming &WC ESP Memory Chip Charge Required lor any two (2) functions checked below - ESP Added Funct~onakty Vawble Charge lequred I” addltlon to 4002-0112 above. for, Fach Addltlonal ESP Program Function Selected l . Each PNIS Zone Code Requwd Instructions. 1 Check Blocks for each Functlon Requwed 2 Price ESP per above Gudellnas 3 Complete ProgrammIng 0et.e for each Functton Selected on E.S.P. - EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES, REFER TO E.S.P APPLICATION GUIDE #FA4-11-156 (ATTACH DETAILED PROGRAMMING SHEETS WHEN COMPLETED The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-1377) completed by a Simplex technical representative for the above required aeration. -’ 4002 FIRE ALARM ESP PROGRAMMING ;.Simplex PROJECT NAME C”ST CONTACT PROGRAM PURPOSE SYSTEM SHEET PAGE- OF- ORDER NO STR REP. s1-r Abue T\CO r- 33ebd OP cc 5 43 2 COMMENTS 1 F\ooc zw Signa I5 Tlod SiyqlS Flair 1 SymIS T\oor on on 2 or) 3 deuce, Initii*i3 Tlco~ sgFIQ\s ~slooc 3 on a. Sl3W\S on w 1101 I TFloor SlgnalS I c T\aor 3 on 4 1 I I I NOTE: Refer to “General Rules of ESP,” (page 1) Rules 1, 2 and 4. 6 SELECTIVE RELAY CONTROL FOR FAN/DAMPER sales representative. 4002-0112 4002.0122 ded Simplex Programming - Bas,c ESP Memory Chip Charge Required for any fwo (2) functions checked below - ES,= Added Functvznallty “arlable Charge required ,n add,,,o” to 4002-0112 above. for’ l Each Addltnnal ESP Program Function Selected Below . Each PNIS Zone Code Requred Instructions 1 Check Blcxks for each Function Requwd 2 Pr,ce ESP per above GuIdelines 3 Complete Programming Details for each Function Selected. ESP Functions 1 c: SELECTIVE SIGNAL OPERATION 2. fl SELECTIVE RELAY CONTROL 3 E7j SELECTIVE FAN DAMPER RELAY CONTROL 4 q SELECTIVE DOOR HOLDER RELAY CONTROL 5 c] SELECTIVE BYPASS SWITCH FUNCTIONS 6 fl SELECTIVE SWITCH OPERATION 7 0 MULTIPLE TAMPER ZONES B q PRE-SIGNAL OPERATION . SELECTIVE FAN/DAMPER RELAY CONTROL OPERATION (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-1377) completed by a Simplex technical representative for the above required operation. B Simplex PROJECT CUST MEf LO( SYSTEM SHEET PAGEL. ORDER NAME NO PURPOSE v 8 BIT OP IN FUN OUT ” CODES COMMENTS 2 1 0 I I I 3c -a 01 - - - OF& STR REP CONTACT PROGRAM - 4002 FIRE ALARM ESP PROGRAMMING 876543 3- I c 00 9 s- \ -b 1 e== I I I I I s9 00 \o 00 II CJC la - I \3 - I c -I3 \ -15 oc lb - OC 01 0 r-r I1 - Continued on the following page. I I . SELECTIVE FAN/DAMPER RELAY CONTROL OPERATION (CONT.) This is a continuation of the 4002 Fire Alarm System ESP Programming Sheet (M-1376) completed by a Simplex Technical Representative for the required operation. 19 oRb Mm lo a0 - ORD Man al 05\D Won ia II a3 a4 a5 db a7 20 - a9 33 31 3a 33 3-t Ln met-i70rri 3 35 - 316 38 39 G 41 I u3 - --J J7 ---d --J 7 s-A! --4 Continued on the following page. 9 SELECTIVE FAN/DAMPER RELAY CONTROL OPERATION (CONT.) This is a continuation of the 4002 Fire Alarm System ESP Programming Sheet (M-1376) completed by a Simplex Technical Representative for the required operation. 50 5h 6.3 ooc 010 55 5b S& point OFF I 1 l ooc +I 57 58 ooc o\ bl -I -0 I b3 -b't -b5 bd - I ,’---II II IOC 3I oc T# ) IO0 I I 1 I b-l - Continued on the following page. 10 I SELECTIVE FAN/DAMPER RELAY CONTROL OPERATION (CONT.) This is a continuation of the 4002 Fire Alarm System ESP Programming Sheet (M-1376) completed by a Simplex Technical Representative for the required operation. b8 b9 70 I I II 01 \001/ looool’, I \~I00\000~~ I 4nd fnemcxy 3 J lOlOll II 11 lOlot II 1 &iQnnf,hQ L+ 3n unti I reset s,ppltJ -For cboc a (fan colTLro\ 4 j& pmt J OT-F \ 00 er -l3a Corn pIemerit 83 NOTES: 1. See Input Rule #3 on page 54. 2. See Output Rule #4 on page 54. 3. Mapping codes for each fan control module must be set (via SWl-3 and -4) to indicate which fan will be controlled in response to each ESP equation. 11 SELECTIVE BYPASS CONTROL SWITCH OPERATION The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION ;I 2 1 ESP - Expanded Simplex Programming 4002.0112 - &SIC ESP Memory Chip Charge two (2) lunct~ons checked below 4002-0113 - ESP Added Functionality I” addltlon to 4002-0112 Varnble Charge required above. for Each Addmonal Below Function l Fteqwed ESP Program . Each PNtS Zone Cod. INITIATING DEVICE CIRCUIT INFORMATION for any Selected Required lnsiructions 1 Check Blocks for each Function Recured 2 Pm. ESP per above Guldeknes 3 Complete ProgrammIng Details for each Functon Selected Reverse Side ESP Functions 1 13 SELECTIVE SIGNAL OPERATION 2 U SELECTIVE RELAY CONTROL 3 c SELECTIVE FAN DAMPER RELAY CONTROL 4 i i SELECTIVE DOOR HOLDER on RELAY CONTROL E.S.P. - EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES. REFER TO E.S.P APPLICATION GUIDE #FA4-11-156 (ATTACH DETAILED PROGRAMMING SHEETS WHEN COMPLETED) 12 . SELECTIVE BYPASS CONTROL SWITCH OPERATION (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-1377) completed by a Simplex technical representative for the above required operation. 4002 ESP .Simplex FIRE ALARM SYSTEM PROGRAMMING PAGE-OF- SHEET ORDER NO PROJECT NAME _ STR REP CUST CONTACT _ PROGRAMPURPOSE COMMENTS STATEMENT 0 0 I Any 0 Alarm I I I I I I I 31 On NOTES: \ I I./l 1. Aux. 1 bypass switch generally bypasses Aux. 1 relay. Should this operation not be desired, the Aux. 1 bypass switch must be selected as a “General Purpose Switch” in the database program. 2. See Input Rule #3 on page 54. 4002 FIRE ALARM SYSTEM ESP DATA BASE PROGRAMMING SHEET (REV. 1.09 AND LATER) PROJECT I I NAME MEMORY LOCATION 27 PURPOSE STR REP AUX %k!ct 1 &pass 8 BIT DIP SWITCH FUNCTION SWITCH SELECT SEENOTEB OF- ORDER NO CUST CONTACT PROGRAM PAGE..-- 8 7 0 1oIoIoIolololr 6 NOT USED -- 5 - &nerd fUrpose input su,I +Ch SETTING 4 3 I CD 13 2 1 82 COMMENTS 1 1 81 AU%1 to Ger,.PurPose hpdr I MULTIPLE TAMPER ZONES The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. 4002-0112 4002-0113 ded Simplex Programming - &WC ESP Memory Chip Charge Required lo, any Iwo (2) functions checked below - ESP Added Functionality Variable Charge tequlred I” addlton to 4002-0112 above, for l Each AddWxul ESP Program Funcbon Selected . Each PNIS Zone Code Aequred Instructions 1 Check Blocks for each Function Requtred 2 Price ESP per above Gudelfnes 3 Complete Programming Details for each Function Selected on Reverse Side ESP Functions 1 q SELECTIVE SIGNAL OPERATION 2 D SELECTIVE RELAY CONTROL 3 0 SELECTIVE FAN/DAMPER RELAY CONTROL TIVE DOOR HOLDER RELAY CONTROL E.S.P. -EXPANDED FOR EXAMPLES. (ATTACH REFER DETAILED SIMPLEX PROGRAMMING TO E S P APPLICATION PROGRAMMING SHEETS DETAILS GUIDE WHEN #FA4-1’1.156 COMPLETED) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-1377) completed by a Simplex technical representative for the above required 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET .Simplex - PROJECT NAME C”ST CONTACT PAGE _ OF- ORDER NO PROGRAMPURPOSE MEMORY LOCATION 8 BIT DIP SWITCH 0 1 GENERAL ALARM NON-ALARM OPERATION SETTING COMMENTS FUNCTION 0 7 6 5 4 3 2 1 Ml3 M7 M6 M5 M4 M3 M2 Ml I I I I Ml2 Ml1 Ml0 Ml6 Ml5 Ml4 Ml3 Se\eC+s zOn?5 1 thmq R5 !Jon-Rlorm zones M9 1. Since the piezo is a control output, it should be placed back into the standard program for alarm and trouble by entering an ‘Unlock” equation for the piezo. Refer to page 29 for an example of an “Unlock” equation. 2. Refer to the “General Rules of ESP,” (page 1) Rules 1 and 2. 3. Set up Point Sensing Operation, as required. 14 I . I PRE-SIGNAL OPERATION The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION 2 SECTION 4 ESP - Expanded Simplex Programming 4002-0112 - Saw ESP Memory Chip Charge Required for any two (2) functions checked below 4002-01 13 - ESP Added Functionality Variable Charge required I” addIllon lo 4002-01 12 above. lor l Each Addlhonal Below ESP Program Function INITIATING DEVICE CIRCUIT INFORMATION (32 ZONE MAXIMUM) ZONE 1 DESCRIPTION Ist+loor smoke Selected . Each PNIS Zone Code Requwed instructions 1 Check Blocks lor each Function Required 2 Price ESP per above Guldellnes 3 Complete ProgrammIng Details for each Funcf~on Selected on Reverse Stde ESP Functions 1 2 SELECTIVE SIGNAL OPERATION 2 u SELECTIVE RELAY CONTROL 3 U SELECTIVE FAN DAMPER RELAY CONTROL 4 0 SELECTIVE DOOR HOLDER RELAY CONTROL 5 0 SELECTIVE BYPASS SWITCH FUNCTIONS 6 0 SELECTIVE SWITCH OPERATION 7 CJ ULTIPLE TAMPER ZONES 6 &E-SIGNAL OPERATION 9 fl STAGE 1 STAGE 2 ALARM OPERATION 10 0 CROSS ZONING 11 n TIMING FUNCTIONS (DELAY ABORT) 12 0 MASTER CODE (SINGLE CODE) 13 12 NON-ALARM MONITOR POINTS 14 fl NON-LATCHING MONITOR POINTS (TRACKING) 15 t-j PIE20 SIGNAL OPERATION 16 a AC POWER FAIL (CONTROL) 17 u 2120 NON-DEFAULT OpERAlION 16 0 RCU SWITCH NON-DEFAULT OPERATION 19 0 scu RCU MEMORY POINT MATRIX (ZONE GROUPING) 20 ,, ELEVATOR RECALL (ALT FLOOR) OPERATION 21 0 SYSTEM RESET (SPECIAL OPERATION) 22 0 POINT SENSING 23 0 PNIS ZONE CODING 6 7 I I 8 9 10 11 E.S.P. -EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES. REFER TO E.S.P APPLICATION GUIDE #FA4-1 l-156 (ATTACH DETAILED PROGRAMMING SHEETS WHEN COMPLETED) \ 15 D&ckars PRE-SIGNAL OPERATION (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-1377) completed by a Simplex technical representative for the above required operation. Simplex 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET PAGE - OF_ ORDER NO PROJECT NAME STR REP CUST CONTACT PROGRAM PURPOSE m MEM LOC STATEMENT IN FUN OUT 8 817 OP CODES 87654321 1. Since the piezo is a control output, it should be placed back into the standard program for alarm and trouble by entering an ‘Unlock” equation for the piezo. Refer to page 29 for an example of an “Unlock” equation. 2. Refer to the “General Rules of ESP,” (page 1) Rule 1. 3. Refer to Input Rule #3 (page 54) for complement. 16 STAGE 1/STAGE 2 OPERATION The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION 2 1 J ESP - Expanded INITIATING Simplex Programming 4002-0112 - Basic ESP Memory Chup Charge Requfred for any two (2) luncl~ons checked below 4002-01 13 - ESP Added Functionality Variable Charge requlrkd I” addltnn to 4002-0112 above. for . Each Addltlonal ESP Program Function Selected Below DEVICE CIRCUIT INFORMATION (32 ZONE MAXIMUM) DESCRIPTION ZONE 1 . Each PNIS Zone Code Reaulred Instructions 1 Check Blocks for each Function Reawred 2 Price ESP per above Gudellnes 3 Complete Programmmg Details for each Funcl~on Selected on Reverse Sade ESP Functions 1 z SELECTIVE SIGNAL OPERATION 2 U SELECTIVE RELAY CONTROL 3 0 SELECTIVE FAN DAMPER RELAY CONTROL 4 0 SELECTIVE DOOR HOLDER RELAY CONTROL 5 0 SELECTIVE BYPASS SWITCH FUNCTIONS 6. 0 SELECTIVE SWITCH OPERATION 7 3 MULTIPLE TAMPER ZONES E.S.P. - EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES, REFER TO E.S.P APPLICATION GUIDE #FA4-1 l-l 56 (ATTACH DETAILED PROGRAMMING SHEETS WHEN COMPLETED) - ace 1 Mus Ohm . StiltA Q~\U ano. 7-n& or* 17 3 iu&.e zonQS \n+.he . . , \nh\ct\m STAGE l/STAGE 2 OPERATION (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-1377) completed by a Simplex technical representative for the above required operation. 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET ORDER NO PROJECT NAME STR REP CUST CONTACT PROGRAM PURPOSE MEM LOC NOTES: PAGE-OF- STATEMENT ” IN FUN OUT 8 SIT OP CODES COMMENTS 1. Refer to “General Rules of ESP,” (page 1) Rule 2. 2. Refer to “Time Delay and Abort Functions” (page 21) when time delay operations are required. 18 CROSS ZONING FUNCTIONS The example below depicts a 4002 System Programming sales representative. SE;TlON q Work Order Form (M-1378-1) completed by a Simplex ~~ 4 5 6 7 8 9 0 q 0 0 a 0 INITIATING SECTION 4 ESP - Expanded Simplex PrOSraWfIing 4002-0112 - Basic ESP Memory Chip Charge Requred for any two (2) functions checked below 4002-0113 - ESP Added Functnnallty Variable Charge reqwed ,n add,,,o” to 4002-0112 above. for l Each Addltlonal ESP Program Functron Selected Below . Each PNIS Zone Code Reqwed Instruction5 1. Check Blocks for each Function Requwd 2 Pwe ESP per above Guldellnes 3 Comp,e,e Programm,ng Details for each Funcbon Selected on Reverse Side ESP Functions 1 C SELECTIVE SIGNAL OPERATION 2 0 SELECTIVE RELAY CONTROL 3 0 SELECTIVE FAN/DAMPER RELAY CONTROL ZONE 1 DESCRIPTION SELECTIVE DOOR HOLDER RELAY CONTROL SELECTIVE BYPASS SWITCH FUNCTIONS SELECTIVE SWITCH OPERATION MULTIPLE TAMPER ZONES PRE-SIGNAL OPERATION -STAGE 1 STAGE 2 ALARM OPERATION E.S.P. - EXPANDED SIMPLEX PROGRAMMING FOR EXAMPLES. (ATTACH REFER DETAILED TO E.S.P APPLICATION PROGRAMMING 19 SHEETS DEVICE CIRCUIT INFORMATlON (32 ZONE MAXIMUM) DETAILS GUIDE WHEN #FA4-11-156 COMPLETED) CROSS ZONING FUNCTIONS (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-l 377) completed by a Simplex technical representative for the above required operation. 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET .Simplex PROJECT NAME ORDER NO STR REP CUST CONTACT PROGRAM PURPOSE &.-0SS ZOmAO !fi foffl~t XJT ” I Qr %-em 8 BIT OP CODES I I I I~I+l’lw’I’I NOTE: Refer to Output Rule #4 (page 54) for memory points. 20 PAGE- OF- TIME DELAY AND ABORT DELAY FUNCTIONS The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. nded Simplex 4002-0113 Programming two (2) lunct~ons checked below - ESP Added Functionality Variable Charge I” add,,,on lo 4002-0112 above. for l Each AddItIonal ESP Program Function required Selected . Each PNIS Zone Code Reqwed 1 Check Blocks lor each Function Required 2 Price ESP per above GuIdelInes 3 Complete Programmmg Delals lor each Function Selected on Reverse Sjde ESP Functions 1 17 SELECTIVE SIGNAL OPERATION 2 0 SELECTIVE RELAY CONTROL 3 13 SELECTIVE FAN DAMPER RELI\Y CONTROL 4 0 SELECTIVE DOOR HOLDER RELAY CONTROL 5 C SELECTIVE BYPASS SWITCH FUNCTIONS SELECTIVE SWITCH OPERATION MULTIPLE TAMPER ZONES PRE-SIGNAL OPERATION STAGE 1 STAGE 2 ALARM OPERATION CROSS ZONING TIMING FUNCTIONS (DELAY ABORT) MASTER CODE (SINGLE CODE) E.S.P. -EXPANDED FOR EXAMPLES. REFER SIMPLEX PROGRAMMING TO E S P APPLICATION (ATTACH DETAILED PROGRAMMING cod has DETAILS GUIDE #FA4-1 I-156 SHEETS WHEN COMPLETED) danseck. S 21 a mQQW5 to a!m& , TIME DELAY AND ABORT DELAY FUNCTIONS (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-1377) completed by a Simplex technical representative for the above required operation. s 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET .Simplex ORDER NO PROJECT NAME STR REP CUST CONTACT rt. PROGRAMPURPOSE 4002 FIRE ALARM SYSTEM $implex PROJECT ESP DATA BASE PROGRAMMING NO STR REP. PURPOSE:Sp\ec+. =ne A 0s h tin-kkrm &it GENERAL ALARM NON-ALARM OPERATION GENERAL ALARM NONALARM SHEET -ORDER NAME: CUST. CONTACT: PROGRAM PAGE-OF- M24 -0 M32 0 M23 M22 M21 M20 Ml9 Ml6 Ml7 M30 M29 M26 M27 M26 M25 0000000 M31 00 00000 NOTE: Refer to Function Rule #l (page 54) for timers. 22 - PAGE-OF- MASTER CODE The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION 2 ESP - Expanded Simplex Programming 4@,2-0112 - Bas,c ESP Memory Chip Charge Requwd for =“y fwo (2) lunct~ons checked below 4002.0113 - ESP Added Functionality Variable Charge reqwed I” add,,,on to 4002-0112 above. for . Each Addlllonal ESP Program Function Selected Below . Each PNIS Zone Cods, Requred Instructions 1 Check Blocks for each Funchon Required 2 Price ESP per above Guldelmes 3 Complete ProgrammIng Details for each Function Selected Reverse S!de ESP Functions 1 [3 SELECTIVE SIGNAL OPERATION 2 L’ SELECTIVE RELAY CONTROL 3 ‘< SELECTIVE FAN DAMPER RELAY CONTROL 4 2 SELECTIVE DOOR HOLDER IRELAY CONTROL 5 L; SELECTIVE BYPASS SWITCH FUNCTIONS 6 2 SELECTIVE SWITCH OPERATION 7 C MULTIPLE TAMPER ZONES 8 c PRE-SIGNAL OPERATION 9 2 STAGE 1 STAGE 2 ALARM OPERATION 10 c: CROSS ZONING 11 3 TIMING FUNCTIONS (DELAY ABORT) 12 ~MASTER CODE (SINGLE CODE) on E.S.P. - EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES, REFER TO E.S.P APPLICATION GUIDE #FA4-1 l-156 (ATTACH DETAILED PROGRAMMING SHEETS WHEN COMPLETED) 23 MASTER CODE (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-1377) completed by a Simplex technical representative for the above required operation. 4002 FIRE ALARM SYSTEM ESP DATA BASE PROGRAMMING SHEET ,Simplex PROJECT NAME. HORDER NO. CUST. CONTACT PROGRAM MEMORY LOCATION PAGE-OF- STR REP: PURPOSE: 3~h&, C MatOr 8 BIT DIP SWITCH SETTI FUNCTION COMMENTS LIST SPECIFIER OUTPUT O=NO FOLLOW 1 = FOLLOW T IJ” ^. r--.1 Y ci;YL;Lb ^ ^ - 5ek SEE NOTE 1 IV IU PNIS IV NOT USED I I I I 11 I 10 0 9 6 I 0 r\nastec 16 CODE a 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET Simplex OF- CO e&x* ORDER NO PROJECT NAME STR REP CUST CONTACT PROGRAM PURPOSE b‘+Op PAGE- /- ’ - c NOTES: 1. The first 4 bits of data in memory location 22, (1 thru 4) select “Time On” while the next 4 bits (5 thru 8) select “Time Off” for code pulses. 2. Selects signal control (S) and number of coded rounds (R). 24 NON-LATCHING/NON-ALARM POINT OPERATION The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION SECTION 2 ESP - Expanded Simplex Programming 4002-0112 - Base ESP Memory Chip Charge Required for any fwo (2) tuncfons checked below 4002.0, 13 - ESP Added Functionality Variable Charge required I” addlhsn to 4002-0112 above. for. Each Addltlonal ESP Program Function Selected BeloW . Each PNIS Zone Code Reqwed Instructions 1 Check Blocks for each Function Reqwred 2 Puce ESP per above Guldelmes 3 Complete ProgrammIng Detalfs for each Funcl~on Selected on Reverse Side ESP Functions 1 E SELECTIVE SIGNAL OPERATION 2 C SELECTIVE RELAY CONTROL 3 C SELECTIVE FAN DAMPER RELAY CONTROL 4 C SELECTIVE DOOR HOLDER RELAY CONTROL 5 C SELECTIVE BYPASS SWITCH FUNCTIONS 6 g SELECTIVE SWITCH OPERATION 7 C MULTIPLE TAMPER ZONES 8 17 PRE-SIGNAL OPERATION 9 u STAGE 1 STAGE 2 ALARM OPERATION 10 I:/ CROSS ZONING 11 ; TIMING FUNCTIONS (DELAY ABORT) ;; ZONE 4 INITIATING 1 DEVICE CIRCUIT INFORMATION (32 ZONE MAXIMUM) DESCRIPTION $;~;;A,“p;;,“;y;;;;;~ 14 ANON-LATCHING MONITOR PRINTS 15 ; PIEZO SIGNAL OPERATION VWER 1 FAIL ‘C-w (TRACKING) E.S.P. -EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES. REFER ~0 E.S.P APPLICATION GUIDE #FA4-i i-1 56 (ATTACH DETAILED PROGRAMMING SHEETS WHEN COMPLETED) 25 NON-LATCHING/NON-ALARM POINT OPERATION (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-1377) completed by a Simplex technical representative for the above required operation. 4002 FIRE ALARM SYSTEM ESP DATA BASE PROGRAMMING SHEET PROJECT ~ NAME: ORDER NO, STR REP:~ CUST. CONTACT: PROGRAM PURPOSE: FI INtTlfIN NUN I -..- -.. 16 I GENERAL ALARM NON-ALARM 4 I 0 = LATCH 1 = NON- LATCH 6 5 4 3 2 M7 M6 M5 M4 M3 MZ Ml oooncro Ml5 Ml6 Ml4 Ml3 Ml2 Ml1 \ Ml0 \ M9 11 1 Me 1 M7 1 M6 1 M5 1 M4 1 M3 1 M2 1 Ml M24 M23 M22 M21 M20 Ml9 Ml6 Ml7 M31 M30 M29 M26 M27 0 M26 0 M25 00c300Q M32 00000000 26 . mc\n,tm nf 7 M8 0 7 w- 8 BIT DIP SWITCH SETTING MEMORY LOCAT-” 6 r;+P- I 1 1 \w U COMMENTS PAGE-OF- . PIE20 SIGNAL OPERATION The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. ded Simplex Programming 4002.0112 4002-0113 - Baw ESP Memory Chip Charge Required for any two (2) funcbons checked below - ESP Added Functlonallty Varlable Charge reqwed I” addltlon to 4002-0112 above. for: l Each AddItional ESP Program Function l Each PNIS Zone Code Requwd. Selected Instructione: 1 Check Blccks for each Funcbon Requred 2 Price ESP per above Guideknes 3 Complete Programmmg Detaals for each Function Reverse Side Selected on ESP Funclions 1 2 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 0 0 0 0 0 0 q q 0 0 0 0 SELECTIVE SIGNAL OPERATION SELECTIVE RELAY CONTROL SELECTIVE FAN/DAMPER RELAY CONTROL SELECTIVE DOOR HOLDER RELAY CONTROL SELECTIVE BYPASS SWITCH FUNCTIONS SELECTIVE SWITCH OPERATION MULTIPLE TAMPER ZONES PRE-SIGNAL OPERATION STAGE l/STAGE 2 ALARM OPERATION CROSS ZONING TIMING FUNCTIONS (DELAY/ABORT) MASTER CODE (SINGLE CODE) INTS (TRACKING) E.S.P. -EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES, REFER TO E.S.P APPLICATION GUIDE #FA4-1 l-156 (ATTACH DEiAlLED PROGRAMMING SHEETS WHEN COMPLETED) . 27 PIE20 SIGNAL OPERATION (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-l 376) completed by a Simplex technical representative for the above required operation. .Simplex 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET PROJECT NAME PAGE- OF- ORDER NO CUST CONTACT STR REP PROGRAM PURPOSE I . 8 BIT OP CODES COMMENTS NOTES: 1. Since the piezo is a control output, it should be placed back into the standard program for alarm and trouble by entering an “Unlock” equation for the piezo. Refer to page 29 for an example of an “Unlock” equation. 2. Refer to the “General Rules of ESP,” (page 1) Rules 1 and 2. 3. Select monitor 1 as a non-alarm point and non-latch point, in the data base. 4. Select master code 4-4-4 in the data base. 5. Select piezo to follow master code until silenced in an ESP equation. 28 . “UNLOCK” PIE20 OPERATION The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION 2 1 SECTION4 ESP - Expanded Simplex Programming 4002.0112 - Basu ESP Memory Chip Charge Requwd two (‘2) functions checked below. 4002-0113 for any 11 INITIATING DEVICE ClRtUtl INFORMATION (32 ZONE MAXIMUM) I I I I Instructions: I. Check Blocks for each Funckon Reqwed 2 Price ESP oer above Gudelmes 3. Complete ProgrammIng Oetalls for eath Function Selected Reverse Side ESP Functions 1 q SELECTIVE SIGNAL OPERATION 2. q SELECTIVE RELAY CONTROL 3 0 SELECTIVE FAN’DAMPER RELAY CONTROL 4 0 SELECTIVE DOOR HOLDER RELAY CONTROL 5 0 SELECTIVE BYPASS SWITCH FUNCTIONS 6 0 SELECTIVE SWITCH OPERATION 7 0 MULTIPLE TAMPER ZONES 6. 0 PRE-SIGNAL OPERATION 9 0 STAGE 1 STAGE 2 ALARM OPERATION 10 0 CROSS ZONING 11. 0 TIMING FUNCTIONS (DELAYIABORT) 12. 0 MASTER CODE (SINGLE CODE) 13. 0 NON-ALARM MONITOR POINTS 14. 0 ON-LATCHING MONITOR POINTS (TRACKING) 15 &lEZ0 SIGNAL OPERATION on 6 E.S.P. -EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES, REFER TO E.S.P APPLICATION GUIDE #FA4-11-156 (ATTACH DETAILED PROGRAMMING SHEETS WHEN COMPLETED) 29 I DESCRIPTION ZONE - ESP Added Funchonallty Variable Charge rerjwed ,n addlwn to 4002-0112 above. for* Each Addltlonal ESP Program Funchon Selected Below . Each PNIS Zone Code Required. 1 “UNLOCK” PIEZO OPERATION (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-l 376) completed by a Simplex technical representative for the above required operation. a .Simplex 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET PAGE-OF- ORDER NO PROJECT NAME STR REP CUST CONTACT PROGRAMPURPOSE. NOTE: In equations which activate the Piezo with ESP, the programmer should lock the Piezo under the control of ESP. 30 AC POWER FAILURE OPERATION The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION SECTION 4 2 ] ESP - Expanded Simplex Programming 4002-0112 - Base ESP Memory Ctup Chage Required for any two (2) lunc1ums checked below 4002.0, 13 - ESP Added Functionality Variable Charge required I” add,,,o” to 4002-0112 above. for Each Addatlonal ESP Program Function Below . Each PNIS Zone Code Reqwed l 1 Check Blocks for each Functton INITIATING DEVICE CIRCUIT INFORMATION (32 ZONE MAXIMUM) DESCRIPTION ZONE I Selected Rewred 2 Price ESP per above Gudelres 3 Complete ProgrammIng Reverse Side Dela~ls for each Function Selected on ESP Functions 1 I SELECTIVE 2 3 4. 6. 6. 7 6, 9 10 1, 12. 13. 14 15 16 17 16. 19 20 21 22 23 6 SIGNAL OPERATION SELECTIVE fiELAY CONTROL SELECTIVE FAN DAMPER RELAY CONTROL SELECTIVE DOOR HOLDER RELAY CONTROL SELECTIVE BYPASS SWITCH FUNCTIONS SELECTIVE SWITCH OPERATION MULTIPLE TAMPER ZONES PRE-SIGNAL OPERATION i: STAGE 1 STAGE 2 ALARM OPERATION 2 CROSS ZONING L; TIMING FUNCTIONS (DELAY ABORT) u MASTER CODE (SINGLE CODE) C NON-ALARM MONITOR POINTS 3 NON-LATCHING MONITOR POINTS (TRACKING) C PIEZO SIGNAL OPERATION dAC POWER FAIL (CONTROL) 0 2120 NON-DEFAULT OPERATION q RCU SWITCH NON-DEFAULT OPERATION ;) SCU RCU MEMORY POINT MATRIX (ZONE GROUPING) 3 ELEVATOR RECALL (ALT FLOOR) OPERATION 0 SYSTEM RESET (SPECIAL OPERATION) 0 POINT SENSING u PNIS ZONE CODING 2 L: ; 3 U z 7 15 16 E.S.P. - EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES, REFER TO E.S.P APPLICATION GUIDE #FA4-11-156 (ATTACH DETAILED PROGRAMMING SHEETS WHEN COMPLETED) 31 AC POWER FAILURE OPERATION (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-1377) completed by a Simplex technical representative for the above required 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET .Simplex PAGE-OF- ORDER NO PROJECT NAME STR REP CUST CONTACT PROGRAM PURPOSE en . I IUT 13BIT OP CODES I COMMENTS l-w-l 0 NOTE: Refer to Output Rule #4 (page 54) for memory points. 32 system 2120 NON-DEFAULT OPERATION The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION 4002.0113 SECTION 4 2 1 ESP - Expanded Simplex PrOgramming 4or)z.0112 - Base ESP Memory Chap Charge two (2) funchons checked below INITIATING DEVICE CIRCUIT lNFORPdtATlOM (32 ZONE MAXIMUM) Requwed for any - ESP Added Functionality Variable Charge required I” addlbon to 4002-0112 above. for, . Each Addlbonal ESP Program Funcbon Selected Below . Each PNIS Zone Code Required Instructions’ 1 Check Blocks for each Function Reauwed 2 Pnce ESP per above Gu!deknes 3 Complete Programm,ng Details for each Function Selected on Reverse Side ESP Functions ,, q SELECTIVE SIGNAL OPERATION 2 (J SELECTIVE RELAY CONTROL 3. q SELECTIVE FAN DAMPER RELAY CONTROL 4. u SELECTIVE DOOR HOLDER RELAY CONTROL 5 u SELECTIVE BYPASS SWITCH FUNCTIONS 6. q SELECTIVE SWITCH OPERATION 7 0 MULTIPLE TAMPER ZONES 6 0 PRE-SIGNAL OPERATION 9 q STAGE 1 STAGE 2 ALARM OPERATION 10. 0 CROSS ZONING 11 0 TIMING FUNCTIONS (DELAY ABORT) 12 0 MASTER CODE (SINGLE CODE) 13. 0 NON-ALARM MONITOR POINTS 14 0 NON-LATCHING MONITOR POINTS (TRACKING) 15. 0 PIEZO SIGNAL OPERATION 16 0 AC POWER FAIL (CONTROL) 17 cd2120 NON-DEFAULT OPERATION 16 0 RCU SWITCH NON-DEFAULT OPERATION 19 0 SCUIRCU MEMORY POINT MATRIX (ZONE GROUPING) 20 0 ELEVATOR RECALL (ALT FLOOR) OPERATION 21. 0 SYSTEM RESET (SPECIAL OPERATION) 22. 0 POINT SENSING 23. 0 PNIS ZONE CODING 16 E.S.P. - EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES, REFER TO E.S.P APPLICATION GUIDE #FA4-11-156 (ATTACH DETAILED PROGRAMMING SHEETS WHEN COMPLETED) 33 2120 NON-DEFAULT OPERATION (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-1377) completed by a Simplex technical representative for the above required operation. 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET PROJECT NAME PAGE- OF- ORDER NO CUST CONTACT STR REP PROGRAM PURPOSE I I I IN FUN OUT 8 BIT OP CODES 87654321 -a NOTES: 1. In the 2120 SMPL program, 2120 inputs #5 is programmed to stay energized until 2120 system is reset. 2. The 4002 Program above must be entered into each 4002 system. 3. The 2120 must be programmed for this operation. 34 RCU SWITCH NON-DEFAULT OPERATION The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION 4002-0112 11 2 ESP - Expanded Simpler Programming - Bmc ESP Memory Chip Charge Iwo (2) lunct~ons checked below Rewred INITIATING DEVICE CIRCUIT INFORMATION for any 4002.0, 13 - ESP Added Functionality Variable Charge required I” add,,,o” to 4002-0112 above. 101 l Each Addltlonal ESP Program Function Selected Below . Each PNIS Zone Code Retlured Instructions 1 Check Blocks for each Function Recwed 2 Puce ESP per above Guidelines 3 Complete Programm~n9 Detaals lor each Function Selected on Reverse Side ESP Functions 1 u SELECTIVE SIGNAL OPERATION 2 u SELECTIVE fiELAY CONTROL 3 0 SELECTIVE FAN DAMPER RELAY CONTROL 4 u SELECTIVE DOOR HOLDER RELAY CONTROL ‘5 3 SELECTIVE BYPASS SWITCH FUNCTIONS 6 0 SELECTIVE SWITCH OPERATION 7 [3 MULTIPLE TAMPER ZONES 6 17, PRE-SIGNAL OPERATION 9 13 STAGE 1 STAGE 2 ALARM’OPERATION 10 u CROSS ZONING 11 13 TIMING FUNCTIONS (DELAY ABORT) 12 E MASTER CODE (SINGLE CODE) 13 u NON-ALARM MONITOR POINTS 14 0 NON-LATCHING MONITOR POINTS (TRACKING) 15 13 PIEZO SIGNAL OPERATION 16 q AC POWER FAIL (CONTROL) 17 0 120 NON-DEFAULT OPERATION OPERATION 16 d RCU SWITCH NON-DEFAULT 19 0 SCU RCU MEMORY POINT MATRIX (ZONE GROUPING) 20 q ELEVATOR RECALL (ALT FLOOR) OPERATION 21 C SYSTEM RESET fSPEClAL OPERATION) 22 0 POINT SENSING 23 Q PNIS ZONE CODING . FI re 6 7 ) I 1 zones I I 16 E.S.P. -EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES, REFER TO E.S.P APPLICATION GUIDE #FA4-1 l-1 56 (ATTACH DETAILED PROGRAMMINT SHEETS WHEN COMPLETED) AnRCL)ed at the nurses desk. TM wo RWACJQW \mht 35 an I\ II RCU SWITCH NON-DEFAULT OPERATION (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-1377) completed by a Simplex technical representative for the above required operation. Simplex 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET PROJECT NAME ORDER NO CUST CONTACT STR REP Ts Rek PROGRAMPURPOSE ? STATEMENT IN FUN OUT 8 BIT OP CODES 87654321 I I I IllIll ,Simplex PROJECT III\I\I\II &I& \ Re\n,. J COMMENTS I E.0.P 4002 FIRE ALARM SYSTEM ESP DATA BASE PROGRAMMING SHEET NAME: ORDER NO. CUST. CONTACT: PROGRAM PAGE-OF-w STR REP: PURPOSE. 0 = DEFAULT 36 PAGE-OF- SCU/RCU MEMORY POINT MATRIX-ZONE GROUPING The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION 2 SECTION 4 ESP - Expanded Simplex Programming 4002.0112 - Bas,c ESP Memory Chtp Charge Required for any fwo (2, functions checked below 4002.0, 13 - ESP Added F”nct,onal~!y Variable Charge required ,n add,,,on 10 4002-01 12 above. lor l Each Addltwxal Below ESP Program Function INITIATING DEVICE CIRCUIT INFORMATION (32 ZONE MAXIMUM) Selected a Each PNIS Zone Code Required Instructions 1 Check Biocks for each Function Requred 2 Pnce ESP per above Guideltnes 3 Complete Programmrng Detals for each Funcl~on Selected on Reverse Side ESP Functions 1 n SELECTIVE SIGNAL OPERATION 2 0 SELECTIVE liELAY CONTROL 3 n SELECTIVE FAN DAMPER RELAY CONTROL 4 n SELECTIVE DOOR HOLDER RELAY CONTROL 5 u SELECTIVE BYPASS SWITCH FIJNCTIONS 6 0 SELECTIVE SWITCH OPERATION 7 17 MULTIPLE TAMPER ZONES 8 13 PRE-SIGHAL OPERATION 9 m STAGE 1 STAGE 2 ALARM OPEHATION 10 0 CROSS ZONING 11 0 TIMING FUNCTIONS (DELAY ABORT) 12 n MASTER CODE (SINGLE CODE) 13 q NON-ALARM MONITOR POINTS 14 L NON-LATCHING MONITOR POlNrS (TRACKING) 15 q PIE20 SIGNAL OPERATION 16 n AC POWER FAIL (CONTROL) 17 q 2120 NON-DEFAULT OPERATION 18 0 RCU SWITCH NON-DEFAULT OPERATION 19 GSCU RCU MEMORY POINT MATRIX (ZONE GROUPING) 20 n ELEVATOR RECALL (ALT FLOOR) OPERATION 21 q SYSTEM RESET (SPECIAL OPERATION) 22 u POINT SENSING 23 u PNIS ZONE CODING NOTE: The SCU’s DIP Switch mapping code must be set to a binary 4 so the memories may be “mapped” to SCU LEDs #l, 2 & 3. 37 SCU/RCU MEMORY POINT MATRIX - ZONE GROUPING (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-l 377) completed by a Simplex technical representative for the above required operation. .Simplex PROJECT CUST 4002 FIRE ALARM ESP PROGRAMMING PAGE-OF- ORDER NAME NO STR REP CONTACT PROGRAM SYSTEM SHEET cm- PURPOSE UT OP CODES COMMENTS ORD 38 ELEVATOR RECALL OPERABBON EXAMPLE A The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION INITIATING 2 ESP - Expanded Simpler 4002-01 12 - Bax ESP Memory Ch,p Charge two (2, f”ncbons checked below 4002-W 13 - ESP Added Functmnl~ty I” addltlo” to 4002-0112 Required Variable Charge above. for . Each Addlttonal Below ESP Program Function . Each PNlS zone Code Required for any reqwed Selecfed Instructions 1 Check Blocks lo, each Funcl~on Reqwed 2 Puce ESP per above Guldeknes 3 Complete Programm,“g De,& for each Functm Reverse Ssde ESP Functions SIGNAL OPERATION 2 i; SELECTIVE RELAY CONTROL 3 I 2 U SELECTIVE FAN DAMPER 4 U SELECTIVE DOOR 5 U 6 u SELECTIVE SELECTIVE BYPASS SWITCH 7 0 8 ‘J MULTIPLE TAMPER ZONES PRE-SIGNAL OPERATION 9 ii (0 U SELECTIVE STAGE 1 STAGE CROSS ZONING HOLDER RELAY Selected m CONTROL RELAY CONTROL SWITCH FUNCTIONS OPERATlON 2 ALARM OPERATION 11 U TIMING FUNCTIONS (DEVIY ABORT) 12 L; MASTER CODE (SINGLE CODE) 13 u NON-ALARM MONITOR POINTS 14 15 11 NON-LATCHING u PlEZO SIGNAL MONITOR OPERATION POINTS (TRACKING1 16 3 17 g 18 u AC POWER FAIL (CONTROL) 2120 NON-DEFAULT OPERATION RCU SWITCH NON-DEFAVLT OPERATION 19 u SCU RCU MEMORY 20 21 &ELEVATOR 0 SYSTEM 22 23 0 0 POINT MATRIX DEVICE CIRCUIT INFORMATION (32 ZONE Prograwning (ZONE GROUPING) RECALL (ALT FLOOR) OPERATION RESET (SPECIAL) OPERATION) POINT SENSING PNIS ZONE CODING 39 MAXIMUM) ELEVATOR RECALL OPERATION - EXAMPLE A (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-1377) completed by a Simplex technical representative for the above required operation. .Simplex PROJECT CUST 4002 FIRE ALARM ESP PROGRAMMING SYSTEM SHEET PAGE- ORDER NAME OF- NO STR REP CONTACT 8 611 OP STATEMENT IN co DES FUN OUT 7 87654”&, I \/ 01110000~* NOTE: Refer to Output Rule #4 for use of memory points. 40 7 1 I COMMENTS ELEVATOR RECALL OPERATION EXAMPLE B The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. 51 SECTION 2 ] - Expanded Simplez Programmillg 4w2-0112 - l3as,c ESP Memory cap Charge R-Fred ESP two (2) functwns m,2.0, checked . Each Add,twnal Below Ior any below ,3 - ESP Added Funclmahty “amble Charge I” add,,lon 1” 4002-m 12 above. Ior ESP Program INITIATING DEVICE CIRCUIT INFORMATION required Functwn Selected 2 \ I \ . Each PNIS Zone Code Reaured 1 i; SELECTIVE SIGNAL 2 u 3 0 SELECTIVE SELECTIVE RELAY CONTROL FAN’DAMPER RELAY OPERATION 4 0 5 ,, SELECTIVE SELECTIVE DOOR HOLDER RELAY CONTROL BYPASS SWITCH FUNCTIONS 6 q 7 0 SELECTIVE SWITCH OPERATION MVLTIPLE TAMPER ZONES 8 0 PRE.SlGNAL OPERATION 9 L, STAGE I STAGE 2 ALARM CONTROL OPERATION 10 u CROSS ZONING 11 u TIMING FUNCTIONS (DELAY ABORT) 12 n MASTER CODE (SINGLE CODE) 13 0 NON-ALARM MONITOR POINTS 1.4 q NON.LATCHING MONITOR POINTS (TRACKING) 15 0 16 0 17 q 18 0 19 0 20 d 2, q 22. 0 23 q PlEZO SIGNAL OPERATION AC POWER FAIL (CONTROL) 2120 NON-DEFAULT OPERATION RC” SWITCH NON-DEFAULT OPERATION SC” RC” ELEVATOR SYSTEM MEMORY RECALL RESET POINT MATRIX (ALT FLOOR) (SPECIAL) (ZONE GROUPING) OPERATION OPERATION) POlNT SENSING PNIS ZONE CODING E.S.P. -EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES, REFER TO E.S.P APPLICATION GUIDE #FA4-11-156 (ATTACH DETAILED PROGRAMMING SHEETS WHEN COMPLETED) 41 I ELEVATOR RECALL OPERATION - EXAMPLE B (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) completed by a Simplex technical representative for the above required operation. .Simplex PROJECT CUST 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET NAME ORDER CONTACT PROGRAM PAGE-OF- NO STR REP PURPOSE 8 SIT OP CODES OUT NOTE: When using this equation, it is the responsibility of the Elevator Company to ensure that the elevator cab will not be re-assigned to another floor should a subsequent alarm be initiated. 42 SYSTEM RESET - SPECIAL OPERATION The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION 2 INITIATING ESP - Expanded Simplex Programming 4002-0112 - Basic ESP Memory Chtp Charge two (2) functions checked below Requred for any 4002-0113 - ESP Added Funcbonal~ty Variable Charge required ’ I” add,,,‘,” to 4002-0112 above. for . Each Addwxval ESP Program Function Selected B&W . Each PNIS Zone Code Requwd ZONE 1 DEVICE CIRCUIT INFORMATION (32 ZONE MAXIMUM) DESCRIPTION Instructions 1 Check Blocks for each Function Reqwed 2 Puce ESP per above GuIdelInes 3 Complete Programmtng Details for each Function Selected on Reverse Side ESP Functions 1 ; SELECTIVE SIGNAL OPERATION 2 U SELECTIVE FiELAY CONTROL 3 0 SELECTIVE FAN DAMPER RELAY CONTROL .4. 0 SELECTIVE DOOR HOLDER RELAY CONTROL 5 0 SELECTIVE BYPASS SWITCH FUNCTIONS 6 u SELECTIVE SWITCH OPERATION 7 ;: MULTIPLE TAMPER ZONES 6: PRE-SIGNAL OPERATION 9 i: STAGE 1 STAGE 2 ALARM OPERATION 10. fl CROSS ZONING 11 3 TIMING FUNCTIONS (DELAY ABORT) 12 L1 MASTER CODE (SINGLE CODE) 13 0 NON-ALARM MONITOR POINTS 14 i] NON-LATCHING MONITOR POINTS (TRACKING) 15 u PIEZO SIGNAL OPERATION 16. 0 AC POWER FAIL (CONTROL) 17 0 2120 NON-DEFAULT OPERATION 16 0 RCU SWITCH NON-DEFAULT OPERATION 19 0 SCU RCU MEMORY POINT MATRIX (ZONE GROUPING) 20 0 ELEVATOR RECALL (ALT FLOOR) OPERATION 21 $SYSTEM RESET (SPECIAL OPERATION) 22 0 POINT SENSING 23 0 PNIS ZONE CODING E.S.P. -EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES, REFER TO E.S.P Ak’PLICATION GUIDE #FA4-11-156 (ATTACH DETAILED PROGRAMMING SHEETS WHEN COMPLETED) 43 1 SYSTEM RESET - SPECIAL OPERATION (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-1377) completed by a Simplex technical representative for the above required operation. 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET .Simplex PROJECT CUST ORDER CONTACT PROGRAM MEM LOC NAME PAGE -. OF-.-m. NO STR REP PURPOSE ” Ai\ c i&W ’ %kW,i 6 BIT OP STATEMENT IN COC )ES FUN OVT I 676543211 , COMMENTS SYSTEM RESET - STAGGER START OPERATION The example below depicts a 4.002 System Programming sales representative. SECTION Work Order Form (M-1378-1) completed by a Simplex 2 ESP - Expanded Simplex PrOgramming 0x2.Ott2 - Bas!c ESP Memory Chip Charge two (2) fmclons checked below. 4002.0122 - ESP Added Funct~onallty ,” a*dltlO” to 4002-0112 Each Addmow. l Required Ior any Variable Charge akwe. for: required ESP Program Functnqn Selected Ewow. . Each PNIS Zone Code Reaulrcd. 1. Check Blocks for each Function Required 2. Price ESP per above Guldellnes 3. Complete Programming Details for each Function ESP Functions 1 q SELECTIVE SIGNAL OPERATION 2. 0 SELECTIVE RELAY CONTROL 3. ,, SELECTlVE FAN/DAMPER q q SELECTIVE DOOR SELECTIVE BYPASS 4. 6. 6. ,, SELECTIVE 7. 0 MULTIPLE 6. q PRE-SIGNAL STAGE liSTAGE CROSS TIMING ZONING FUNCTIONS 13. 14. q q q 16. 0 MASTER MONITOR NON-LATCHING AC POWER 2120 NON-DEFAULT RC” SWITCH 20. 0 21. J SYSTEM (TRACKING) FAIL (CONTROL) OPERATION NON-DEFAULT MEMORY LEVATOR POINTS OPERATION 17. 0 SC”‘RC” CODE) POINTS MONITOR SIGNAL 16. 0 q OPERATION (DELAYfABORT) (SINGLE 16. 0 19. OPERATION ZONES 2 ALARM CODE NON-ALARM PIEZO CONTROL FUNCTIONS OPERATION 9. IJ 10. 0 1,. q 12. CONTROL RELAY SWITCH SWITCH TAMPER RELAY HOLDER Selected RECALL RESET POINT OPERATION MATRIX (ALT FLOOR) (SPECIAL (ZONE GROUPING) OPERATION OPERATION) 22. q POINT SENSING 23. 0 PNIS ZONE CODING E.S.P.- EXPANDED SIMPLEX PROGRAMMING DETAILS FOR EXAMPLES, REFER TO E.S.P. APPLICATION GUIDE #FA4-1 l-i 56 (ATTACH DETAILED PROGRAMMING SHEETS WHEN COMPLETE) 45 SYSTEM RESET - STAGGER START OPERATION (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-l 376) completed by a Simplex technical representative for the above required operation. a PROJECT CUST Simplex 4002 FIRE ALARM ESP PROGRAMMING NO STR REP PURPOSE 8 BIT OP MEiM’ LO C 7 - - PAGElOF% ORDER NAME CONTACT PROGRAM SYSTEM SHEET fi 5 CODES 43 - -3 COMMENTS 1 0 I - a 3 6 8 s I -10 -I9 tumnn FIbor ft 3 a0 Continued on the following page. 46 can . SYSTEM RESET - STAGGER START OPERATION (CONT.) This is a continuation of the 4002 Fire Alarm System ESP Programming Sheet (M-1376) completed by a Simplex Technical Representative for the required operation. a\ da -22 -3 -25 -at -a -a0 -a9 30 31 - 2s 32 3Y 3? ii-3-f 38 - 39 +I - +a +3 WI - 47 . . POINT SENSING The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION 2 SECTION 4 ESP - Expanded 4002.0112 Simplex - Basic ESP Memory IWO 12) funcf~ons 4002-0, 13 - ESP Added e Each Chip Charge checked Required MAXIMUM) for any below Variable 10 4002-0112 Add!tlonal DEVICE CIRCUIT INFORMATION (32 ZONE Funct~onal~fy I” addl,,on INITIATING Programming Charge above. ESP requtred lor Program Functon Selected Below . Each PNIS Zone Code Requred Instructions 1 Check 2 Price Blocks 3 Complete ESP Reverse for each Funcl~on per above Guldelmes Programming Defa~ls Required for each Functton Selected on Side ESP Functions , ._ SELECTIVE SIGNAL OPERATION 2 I SELECTIVE RELAY CONTROL 3 _ SELECTIVE FAN 4 I SELECTIVE DOOR 5 ‘i SELECTIVE BYPASS 6 _ SELECTIVE 7 _ MULTIPLE DAMPER RELAY HOLDER SWITCH SWITCH TAMPER OPERATION 8 _ PRE-SIGNAL : STAGE 1 STAGE !O I CROSS ZONING 11 _ TIMING FUNCTIONS 12 ; MASTER 13 - NON-ALARM 14 1 NON-LATCHING 15 L: PIE20 OPERATION 16 i AC POWER 17 ‘- 2120 NON-DEFAULT 18 19 fj RCU SCU SWITCH NON-DEFAULT RCU MEMORY POINT 20 E ELEVATOR q SYSTEM d POINT 23 c PNIS 2 ALARM CODE OPERATION (DELAY (SINGLE MONITOR POINTS POINTS (TRACKING) OPERATION FAIL (CONTROL) OPERATION RECALL RESET ABORT) CODE) MONITOR SIGNAL 2, CONTROL FUNCTIONS ZONES 9 22 CONTROL RELAY (ALT (SPECIAL 14 OPERATION MATRIX (ZONE FLOOR) I I OPERATION OPERATION) , 16 SENSING ZONE me3 I GROUPING) CODING SIMPLqX PROGRAMMING DETAILS REFER TO E.S.P APPLICATION GUIDE #FA4-11-156 (ATTACH DETAILED PROGRAMMING SHEETS WHEN COMPLETED) E.S.P. FOR - EXPANDED EXAMPLES. 48 I . POINT SENSING (CONT.) The example below depicts a 4002 ESP Data Base Programming technical representative for the above required operation. H- ORDER NAME: PURPOSE . 4and Zone: MEMORY . 5 hr~~&&~r, 6 BIT DIP SWITCH FUNCTION LOCATION completed by a Simplex PAGE- OF- NO. STR REP CUST. CONTACT, PROGRAM (M-1377) 4002 FIRE ALARM SYSTEM ESP DATA BASE PROGRAMMING SHEET W&Sir - nplex ---PROJECT Sheet 0 7 6 sokct zo*\o SETTING 5 4 3 ,I3 M2 > 0 111 Ml0 > 0 oth> COMMENTS 1 2 IO h&h2 Ml 0 M9 s&L tsnes w6must bQ 0 SEE a M6 16 I 17 _ POINT SENSING LSB SEE NOTE 2 M5 M4 M25 3 0 0 hh3 M2 Ml I I 1 Ml6 Ml5 Ml4 Ml3 Ml2 M111 Ml0 I \ I I I I \ M23 M22 M21 M20 I M32 19 M6 I-, M26 II00 M24 16 I NOTES: M7 ,- 27 1 ’ I 1 M31 ) M30 1 M29 [I [ 1 I I M9 I zones \,a+3 ad b.,7,8,q crnh \\ M I #,,,I, 1 M26 1 M27 1 M26 1 II II II 1 1. M”, followed by 1 thru 32 are monitor points 1 thru 32, 2. Point Sensing is divided into three sections, MSB, MIDDLE, and LSB. Mark all three sections to select the MSB 0 0 MIDDLE 0 0 LSB 0 1 0 0 1 1 1 1 0 1 0 0 1 1 1 0 1 1 0 1 = = = = Normal Normal Current Trouble alarm point alarm point (no verification) limited alarm point (short = tbl.) monitor (all but normal = trouble) = = = = Normally closed zone Alarm only (all but normal = alarm) Invalid Invalid 49 fOlIOWing: POSITIVE NON-INTERFERING, AND SUCCESSIVE (PNIS) CODING The example below depicts a 4002 System Programming Work Order Form (M-1378-1) completed by a Simplex sales representative. SECTION 7 2 SECTION 4 ESP - Expanded 4002.0112 4002.0113 Simplex INITIATING Programming - Basic ESP Memory Chip Charge Required for any two (2) functions checked below. - ESP Added Functionality Variable Charge required I” add,,,on to 4002-0112 above. for: l Each Addlbonal ESP Program Function Selected BelOW . Each PNIS Zone Code Required ZONE Instructions 1 Check Blocks for each Function Required 2 Puce ESP per above Guldeknes 3 Complete ProgrammIng Details for each Function Selected on Reverse Side ESP Funclions 1 ;I SELECTIVE SIGNAL OPERATION 2 0 SELECTIVE RELAY CONTROL 3 0 SELECTIVE FAN DAMPER RELAY CONTROL 4 0 SELECTIVE DOOR HOLDER RELAY CONTROL 5 0 SELECTIVE BYPASS SWITCH FUNCTIONS 6 0 SELECTIVE SWITCH OPERATION 7 0 MULTIPLE TAMPER ZONES 13 ” PRE-SIGNAL OPERATION 9 u STAGE 1 STAGE 2 ALARM OPERATION 10 0 CROSS ZONING 11 0 TIMING FUNCTIONS (DELAY,ABORT) 12 0 MASTER CODE (SINGLE CODE) 13 0 NON-ALARM MONITOR POINTS 14 u NON-LATCHING MONITOR POINTS (TRACKING) 15 0 PIEZO SIGNAL OPERATION 16 0 AC POWER FAIL (CONTROL) 17 0 2120 NON-DEFAULT OPERATION 18 0 RCU SWITCH NON-DEFAULT OPERATION 19 0 SCU RCU MEMORY POINT MATRIX (ZONE GROUPING) 20 0 ELEVATOR RECALL (ALT FLOOR) OPERATION 21 0 SYSTEM RESET (SPECIAL OPERATION) 22 0 POINT SENSING 23 dPNlS ZONE CODING DESCRIPTION 1 Fkwr 2 T\oorLL 3 T\oor EXAMPLES, (ATTACH 1 Isa& l&S brAdoc 1 6 9 10 11 13 14 A 15 16 E.S.P. - EXPANDED SIMPLEX PROGRAMMING FOR DEVICE CIRCUIT INFORMATION (32 ZONE MAXIMUM) REFER DETAILED TO E.S.P PROGRAMMINb 50 A!‘PLlCATlON DETAILS GUIDE #FA4-11-156 SHEETS WHEN COMPLETED) PNIS (CONT.) The example below depicts a 4002 Fire Alarm System ESP Programming Sheet (M-1376) and a possible ESP Data Base Programming Sheet (M-l 377) completed by a Simplex technical representative for the above required operation. a CUST .Simplex PAGE- OF--- STR REP CONTACT PROGRAM NOTE: 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET PURPOSE Data base memory locations 20, 21, 22, and 23 must be completed to define the list specifier output, duty cycle, and PNIS specifier. 51 . OP CODES INPUTS IN ORD 00000000 00000001 D00000 10 D0000011 D0000100 00000101 D0000110 30000111 30001000 00001001 D0001010 30001011 30001100 30001101 30001110 30001111 30010000 30010001 30010010 ,0010011 J0010100 30010101 10010110 )0010111 10011000 ~0011001 10011010 30011011 30011100 30011101 30011110 30011111 00100000 00100001 00100010 00100011 00100100 00100101 00100110 00100111 00101000 00101001 00101010 00101011 00101100 00101101 00101110 00101111 00110000 00110001 00110010 00110011 00110100 00110101 00110110 00110111 00111000 00111001 00111010 00111011 00111100 00111101 00111110 00111111 AND 01000000 01000001 01000010 01000011 01000100 01000101 01000110 01000111 01001000 01001001 01001010 01001011 01001100 01001101 01001110 01001111 01010000 01010001 01010010 01010011 01010100 01010101 01010110 01010111 01011000 01011001 01011010 01011011 01011100 01011101 01011110 01011111 SPECIAL OP-CODES ZONE MONITQR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR MONITOR 1 2 3 4 5 6 7 6 9 10 11 12 13 14 15 16 17 16 19 20 21 22 23 24 25 26 27 26 29 30 31 32 OR 01111110 01111111 10000000 10000001 10000010 10000011 10000100 10000101 10000110 10000111 10001000 10001001 10001010 10001011 10001100 10001101 10001110 10001111 10010000 10010001 10010010 10010011 10010100 10010101 10010110 10010111 10011000* 10011001 *- 2 BYTE OPCODE OP-CODES 11001001 11001010 11001011 11001100 START START START START E - DELAY DELAY DELAY DELAY THESE ARE FOLLOWED S TRUTH 1 2 3 4 VALUE (ACT ON OUTPUT IF INPUT ** *’ l * l * BY DELAY VALUE CCCCCC -II- I 11001101 11001110 11001111 11010000 11010001 BINARY DELAY TIME (IN SECONDS) 1 = 10 SEC ) MULTIPLIER (0 = SEC ALWAYS ZERO ABORT ABORT ABORT ABORT AFTER DELAY 1 DELAY 2 DELAY 3 DELAY 4 PNIS CODE COMPLETE FUNCTIONS DESCRIPTION AND 10011010 MEMORY 1 10011011 MEMORY 2 10011100 MEMORY 3 10011101 MEMORY 4 10011110 MEMORY 5 10011111 MEMORY 6 10100000 MEMORY 7 10100001 MEMORY 6 10100010 MEMORY 9 10100011 MEMORY 10 10100100 MEMORY 11 10100101 MEMORY 12 10100110 MEMORY 13 10100111 MEMORY 14 10101000 MEMORY 15 10101001 MEMORY 16 10101010 NEW ALARM DETECTED 10101011 UNSILENCED TROUBLE 10101100 AUX 1 BYPASS 10101101 AUX 2 BYPASS 10101110 CITY BY PASS 10101111 ALARM SILENCE 10110000 TROUBLE SILENCE 10110001 MANUAL EVACUATE (DRILL) 10110010 AC POWER FAILURE 10110011 2120 COMM FAILURE RCUi2120 INPUT 10110100* DETECT (USED TO START AN OR-DETECT) RESET (TRUE AT POWER UP AND RESET) 10110101 ALARM VERIFICATION IN PROGRESS - SEE RCU:2120 COMPLEMENT FALSE) f. SPECIAL INPUTS IN 11100000 )1100001 11100010 11100011 11100100 ,1100101 31100110 31100111 01101000 01101001 01101010 01101011 01101100 01101101 01101110 01101111 01110000 01110001 01110010 01110011 01110100 01110101 01110110 01110111 01111000 01111001 01111010’ 01111011 0!111100 01111101 11001000 10110110 10110111 10111000 10111001 10111010 10111011 ON UNTIL SILENCED MARCH TIME UNTIL SILENCED SLOW MARCH TIME UNTIL SILENCED TEMPORAL CODE UNTIL SILENCED CALIFORNIA CODE UNTIL SILENCED MASTER CODE UNTIL SILENCED 10111100 10111101 10111110 10111111 11000000 11000001 ON UNTIL SYSTEM RESET MARCH TIME UNTIL SYSTEM RESET SLOW MARCH TIME UNTIL SYSTEM RESET TEMPORAL CODE UNTIL SYSTEM RESET CALIFORNIA CODE UNTIL SYSTEM RESET MASTER CODE UNTIL SYSTEM RESET 11000010 11000011 11000100 SET POINT OFF SET POINT AUTO TRACK EQUATION TRUTH VALUE 11000101 11000110 LOCK POINT UNDER ESP CONTROL UNLOCK POINT TO GENERAL ALARM (NON-ESP) 11000111 PNIS CODER (ZONE CODER) ALWAYS O’S CODE 1 = PULSE 0 = PAUSE LISTING FOR 2ND BYTE , 52 OP CODES (CONT.) OUTPUTS 11010011 11010100 11010101 11010110 11010111 11011000 OUTPUT SIGNAL OUTPUT SIGNAL OUTPUT SIGNAL OUTPUT SIGNAL OUTPUiSlGNAL OUTPUT SIGNAL 1 2 3 4 5 6 11011001 11011010 11011011 11011100 11011101 11011110 11011111 11100000 11100001 11100010 OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT AUX. 1 AUX. 2 AUX 3 AUX. 4 AUX. 5 AUX 6 AUX 7 AUX 6 AUX 9 AUX 10 11100011 11100100 11100101 11100110 11100111 11101000 11101001 11101010 11101011 11101100 11101101 11101110 11101111 11110000 11110001 11110010 OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT MEMORY MEMORY MEMORY MEMORY MEMORY MEMORY MEMORY MEMORY MEMORY MEMORY MEMORY MEMORY MEMORY MEMORY MEMORY MEMORY 11110011 11110100 li i I0101 11110110 11110111 11111000 11111001 11111010 OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT OUTPUT FAP: FAN FAN FAN FAN FAN FAN FAN 11111011 11111100 OUTPUT OUTPUT TO CITY RELAY TO PIE20 11111101 LIST 11111110 NO-OP 11111111 END OF PROGRAM RCUI2120 OP-CODES (SECOND BYTE) l 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 CONTROL CONTROL CONTROL CONTROL CONTROL CONTROL CONTROL CONTROL SWCH SWTCH SWTCH S\KTCH SWTCH SWTCH SWTCH SWTCH SWTCH SWTCH SWTCH SWTCH SWTCH SWTCH SWTCH SWKH SWTCH SWTCH SWTCH SWTCH 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 00101000 RCU IO. SWTCH 00101001 RCU IO. SWTCH 00101010 - RCU 10. SWTCH 00101011 - RCU 10. SWKH 00101100-RCUll.SWlCHl 00101101 - RCU 1 I, SWTCH 00101110-RCUll.SWTCH3 00101111-RCUll.SWTCH4 00110000 - RCU 12. SWTCH 00110001 - RCU 12. SWTCH 00110010 RCU 12. SWTCH 00110011 RCUl2. SWTCH4 00110100 RCU 13. SWTCH 00110101 - RCU 13. SWTCH 00110110-RCUl3.SWTCH3 00110111 - RCU 13. SWTCH 00111000 RCU 14. SWTCH 00111001 - RCU 14. SWTCH 00111010-RCUl4,SWKH3 OOlllOll-RCUl4.SWTCH4 00010100 - RCU 5. SWTCH 00010101 RCU 5. SWTCH 000101 IO - RCU 5. SWTCH 00010111 RCU 5. SWTCH 00011000 RCU 6, SWTCH 00011001 RCU 6. SWTCH 00011010 RCU 6, SWTCH 00011011 RCU 6, SWTCH 00011100 - RCU 7. SWTCH 00011101 - RCU 7. SWTCH 00011110-RCU7.SWTCH3 00011111 -RCU7,SWCH4 00100000 - RCU 8. SWTCH 00100001 RCU 6. SWTCH 00100010 - RCU 6. SWTCH 00100011 - RCU 6. SWTCH 00100100 - RCU 9. SWTCH 00100101 - RCU 9. SWTCH 001001 IO - RCU 9. SWTCH 00100111 - RCU 9. SWTCH 1 2 3 4 1 2 3 4 1 2 10000000.2120, INPUT 10000001 - 2120. INPUT 10000010 2120, INPUT 10000011 2120, INPUT 10000100 - 2120, INPUT 10000101 - 2120, INPUT 10000110.2120. INPUT 10000111 - 2120. INPUT 10001000 - 2120. INPUT 10001001 2120. INPUT 10001010-2120,INPUTll 10001011 2120. INPUT 10001100 2120, INPUT 10001101 - 2120. INPUT 10001110-2120,INPUTl5 10001111 2120, INPUT 10010000 - 2120, INPUT 10010001 - 2120, INPUT 10010010 2120, INPUT 10010011 - 2120, INPUT 00000000 00000001 00000010 00000011 00000100 00000101 00000110 00000111 00001000 00001001 00001010 00001011 00001100 00001101 00001110 00001111 00010000 00010001 00010010 00010011 1 2 3 4 5 6 7 6 SW1 SW2 SW3 SW4 53 = = = = - - - RCU RCU RCU RCU RCU RCU RCU RCU RCU RCU RCU RCU RCU RCU RCU RCU RCU RCU RCU RCU TEL RES SIL DRILL 0, 0, 0. 0. I. I, I. 1, 2. 2. 2. 2. 3. 3. 3. 3. 4. 4. 4. 4. 1 2 3 4 1 2 3 4 1 2 3 4 5 6 7 6 9 IO 12 13 14 16 17 16 19 20 1 2 3 4 2 1 2 3 1 2 4 1 2 RULES AND HINTS INPUTS: 1. An equation using “Or-Detected” inputs must always start with an “In Detect” to preserve Alarm Resound. 2. An equation using “In Reset” will be true any time the SYSTEM RESET button is pressed or the system is powered up. 3. When “Complement” is used, it complements all inputs that precede it in the equation. 4. When multiple inputs are separated by a delay timer, the inputs listed after the timer statement will not be looked at by the system until after the delay expires. 5. If an Input(s) is not listed in a particular equation, the system will refer to the Input(s) listed in the previous equation. FUNCTIONS: 1. Track (Equation Truth Value) can not be used with a delay timer (the system will react as if the delay was immediately aborted). 2. If a function is not listed in an equation, the system will assume “On Until Silenced”. OUTPUTS: 1. Once an output is listed in an equation it is not included in any general alarm operations (unless “Unlock Point to General Alarm” is mentioned in an ESP equation followed by the output). 2. Once an output is listed in an equation to operate ‘I... Until Silenced”, the only operation system for that output will be Until Silenced. permitted by the 3. If two equations listing the same output are true at the same time, the equation listed further down in the program will occur. 4. A Memory Point must be used as an output before it can be used as an input to another equation. MISC. HINTS: 1. Always start a program with a “No-0~” (Memory Location 0). 2. Changes to an existing ESP Program will not be saved to the NOVRAM chip if power is lost during an editing session. 54 , Appendix B@Simplex Gardner, MA 01441-0001 U.S.A. PROJECT NAME: CUST. CONTACT: PROGRAMPURPOSE: A - Suppression Release Equations 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET ORDER NO.: STR REP: PAGE - 1 OF2 %Simplex Gardner, MA 01441-0001 U.S.A. 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET PAGE 2 PROJECT NAME: OF -i? ORDER NO.: GUST. CONTACT: STR REP: I STATEMENT ‘654321 56 COMMENTS I - 4002 HWE ALARM SMSUEM Gardner, MA 01441-0001 IJ.S.A. ESP PROGRAMMING SMEEU PAGE - ORDER NO.: PROJECT NAME: CUST. CONTACT: PROGRAM PURPOSE: 6 BIT OP. CODES STATEMENT 67654321 7 OFa BSmplex Gardner, MA 01441-0001 U.S.A. 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET ORDER NO.: PROJECT NAME: STR REP: CUST. CONTACT: PROGRAMPURPOSE: 58 PAGE 2 OF 2 Appendix 835implex Gardner, MA 01441-0001 U.S.A. C - 4002 FIRE ALAR ESP PROGRAMMING SHEET PAGE - 1 OFI ORDER NO.: PROJECT NAME: STR REP: CUST. CONTACT: PROGRAM PURPOSE: 8 BIT OP. CODES STATEMENT IN I FUN OUT COMMENTS 07654321 I I \ I 70 77077077/ 77 77777777 M-1376 59 Appendix D - Non-Alarm Monitors B5implex Gardner, MA 01441-0001 U.S.A. 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET PAGE --t- ORDER NO.: PROJECT NAME: STR REP: CUST. CONTACT: PROGRAM PURPOSE: 8 BIT Op. CODES 60 OF -2. IJ,Simplex Gardner, MA 01441-0001 U.S.A. 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET PAGE -.xi?m ORDER NO.: PROJECT NAME: CUST. CONTACT: PROGRAMPURPOSE: OF -ii!!- STR REP: , .bU~~~~ (FUNIOUTI 8 BIT OF? CODES - ^ - _ ^ ^ 8105492 1 I COMMENTS NOTES: 1. Removes general alarm operation for all signals (AUX and City Relays). 2. Adds general alarm operation for Alarm Zones. 3. All zones in data base are Alarm Type Zones, but only zones specified in Equation 2 will work general alarm functions. Activation of zones not mentioned in Equation 2 will only cause the piezo to sound. 61 Appendix Gardner, MA 01441-0001 U.S.A. E - ecai8 Program 4002 FIRE ALA ESP PROGRAMMING SHEET PAGE - PROJECT NAME: OFm..i?- ORDER NO.: CUST. CONTACT: STR REP: STATEMENT oj 1 I 87654321 I _I I I I I I I I I COMMENTS I M-1376 62 BaSimplex Gardner, MA 01441-0001 U.S.A. 4002 FIRE ALARM SYSTEM ESP PROGRAMMING SHEET PAGE 2 ORDER NO.: PROJECT NAME: STR REP: CUST. CONTACT: PRO MEL LOC a 7 IA 1111 63 6 5 4 OF -2 3 SSimplex SimDlex Plaza l Gardner, Massachusetts 01441-0001 U.S.A FA4-1 l-1 56 (574-012) 1