LT0294 4100/4120 AS4428.1 Installation Manual 579-315
Contents
1. System Point Summary ascending by zone name ZONE Device Point PNIS Zone Name Custom Label Type Type Code ZN1 ZN1 LEVEL 1 SOUTH LIS FIRE Ignore ZN2 ZN2 LEVEL 1 NORTH LIS FIRE these ZN3 ZN3 LEVEL 2 SOUTH LIS FIRE Virtual ZN4 ZN4 LEVEL 2 NORTH LIS FIRE Zones ZN5 ZN5 LEVEL 3 SOUTH LIS FIRE ZN6 ZN6 LEVEL 3 NORTH LIS FIRE SIG3 SOUNDER LOCAL REMOTE SIGNAL SIG4 EXTERNAL BELL SIGNAL SIG5 WARNING SYSTE SIGNAL SIG6 SIGNAL CARD 1 CIRCUIT SIG6 SIGNAL SIG7 SIGNAL CARD 1 CIRCUIT SIG7 SIGNAL SIG8 SIGNAL CARD 1 CIRCUIT SIG8 SIGNAL SIG9 SIGNAL CARD 8 CIRCUIT SIG9 SSIGNAL SIG1O SIGNAL CARD 8 CIRCUIT SIG10 SSIGNAL s c l SIGNAL CARD 8 CIRCUIT SIG11 SSIGNAL 51612 SIGNAL CARD 8 CIRCUIT 51612 SSIGNAL SIG13 SIGNAL CARD 8 CIRCUIT SIG13 SSIGNAL SIG14 SIGNAL CARD 8 CIRCUIT SIG14 SSIGNAL Ignore the SIG15 VIRTUAL NAC 1 ALL APPLIANCE OUTPUTS A V SIGNAL last four SIG16 VIRTUAL NAC 2 ALL AUDIBLE DEVICES AUD SSIGNAL SIGs SIG18 VIRTUAL NAC 4 ALL VISUAL DEVICES VIS RVISUAL Virtual SIG19 VIRTUAL NAC 5 ALL ISOLATOR DEVICES A V RELAY NACs AUX3 ISOLATE RELAY RELAY AUX4 FAIL RELAY RELAY AUX5 AUX RELAY CARD 2 RELAY AUX5 RELAY AUX2. System Point Summary ascending by zone name ZONE continued Device Point PNIS Zone Name Custom Label Type Type Code FB11 AUX RELAY CARD 9 FEEDBACK PT FB11 ONOFF FB12 AUX RELAY CARD 9 FEEDBACK PT FB12 ONOFF FB13 AUX RELAY CARD 9 FEEDBACK PT FB13 ONOFF FB14 AUX RELAY CARD 9 FEEDBACK PT FB14 ONOFF FB15 AUX RELAY CARD 9 FEEDBACK PT FB15 ONOFF FB16 AUX RELAY CARD 9 FEEDBACK PT FB16 ONOFF FB17 AUX RELAY CARD 9 FEEDBACK PT FB17 ONOFF FB18 AUX RELAY CARD 9 FEEDBACK PT FB18 ONOFF 1 EVEL 1 SOUTH DIRECTOR OF NURSING ZN1 SPHOTO SMOKE 152 EVEL 1 SOUTH STAFF R ZN1 SPHOTO SMOKE 1 3 EVEL 1 SOUTH LAUNDRY ZN1 OHEA HEA 1 4 EVEL 1 SOUTH BEDSI 12 BATHROOM ZN1 OHEA HEA 1 5 EVEL 1 SOUTH BEDSI 12 ZN1 SPHOTO SMOKE 6 EVE NORTH KITCHEN STORE ROM ZN2 SOHEA HEA EVEL NORTH KITCHEN ZN2 SOHEA HEA 1 8 EVEL 1 NORTH KITCHEN ZN2 SOHEA HEA 1 9 EVEL 1 NORTH DINING RM ZN2 SPHOTO SMOKE Z L EVEL 2 SOUTH MALE OILE ZN3 OHEA HEA 2 2 EVEL 2 SOUTH FEMALE OILE ZN3 OHEA HEA 2 53 EVEL 2 SOUTH EANERS RM ZN3 5 SMOKE 2 4 EVEL 2 NORTH MALE OILE ZN4 OHEA HEA 2 5 EVEL 2 NORTH FEMALE OILE ZN4 OHEA HEA 2 6 EVEL 2 NORTH EANERS RM ZN4 SPHOTO SMOKE Iol OCAL SOUNDER PIEZO IO2 OVERALL STATUS LAMP
3. 4100 4120 W Fire Alarm System Installation Manual preu 8 8 Lo ES LT0294 579 315 Rev 1 1 Simplex Manufacturer s Details Approvals Manufactured by Copyrights and Trademark Information Australian Standard AS 4428 1 Control and Indicating Equipment SSL Listing No afp1165 Simplex International Pty Ltd 140 Old Pittwater Road Brookvale N S W 2100 Australia Phone 02 9466 2333 Copyright O Simplex Time Recorder Co 2000 All rights reserved Information in this document is subject to change without notice No part of this document may be reproduced or transmitted in any form or by any means electronic or mechanical for any purpose without the express written consent of Simplex Time Recorder Company Simplex and the Simplex logo are registered trademarks of Simplex Time Recorder Co Product Name and Model No NAME 4100 4120 FIP SERIAL NUMBER MANUFACTURE DATE Cautions and Warnings 4 VN READ AND SAVE THESE INSTRUCTIONS Follow the instructions in this installation manual These instructions must be followed to avoid damage to this product and associated equipment Product operation and reliability depends upon proper installation DO NOT INSTALL ANY SIMPLEX PRODUCT THAT APPEARS DAMAGED Upon unpacking your Simplex product inspect the contents of the carton for shipping damage If damage is apparent immediately file a claim with the carr
4. Dre SableBihre Loss Per Kilometer Power Margin Maximum distance CableFib 50 125 Fibre 4 db 4 db 3 050 meters 50 125 Fibre 3 db 3 db 4 500 meters 62 5 125 Fibre 4 db 4 db 4 000 meters 62 5 125 Fibre 3 75 db 3 db 4 500 meters Table 2 4120 Network Maximum Distances Optical Fibre All the information above is based on the minimum launch power of the transmitter into the specified cable and the maximum value of the minimum input sensitivity of the receiver
5. ZN6 Point Point Number Name Type Custon Label Points 0 ZN1 FIRE ZN1 LEVEL 1 SOUTH 5 1 ZN2 FIRE ZN2 LEVEL 1 NORTH 4 2 ZN3 FIRE ZN3 LEVEL 2 SOUTH 3 3 ZN4 FIRE 254 LEVEL 2 NORTH 3 4 ZNS FIRE ZN5 LEVEL 3 SOUTH 4 5 ZN6 FIRE ZN6 LEVEL 3 NORTH 4 Figure 2 5 Virtual Zone Summary 2 8 Virtual Zone Detail A virtual zone contains a number of addressable MAPNET devices grouped together and acting like a hardwired zone The Virtual Zone Detail Report shows the specific points within each virtual zone XYZ HOSPITAL BLDG 1 VIRTUAL ZONE DETAIL Page 44 00C0901 node 1 rev 10 11 23 35 MON 08 JAN 01 CARD No 170 VIRTUAL ZONE 256 Virtual Zone Card Point No 0 ZN1 continued Zone Description ZN1 LEVEL 1 SOUTH Point Type FIRE Device Point Point Custom Point Label Type Type 1 1 LEVEL 1 SOUTH DIRECTOR OF NURSING 2 1 SPHOTO SMOKE 1 2 LEVEL 1 SOUTH STAFF RM 2 1 SPHOTO SMOKE Ml 3 LEVEL 1 SOUTH LAUNDRY 2 1 OHEAT HEAT M1 4 LEVEL 1 SOUTH BEDSIT 12 BATHROOM 2 1 OHEAT HEAT M1 5 LEVEL 1 SOUTH BEDSIT 12 ZN1 SPHOTO SMOKE XYZ HOSPITAL BLDG 1 VIRTUAL ZONE DETAIL Page 45 00C0901 node 1 rev 10 11 23 35 MON 08 JAN 01 CARD No 170 VIRTUAL ZONE 256 Virtual Zone Card Point No ZN2 continued Zone Description ZN2 LEVEL 1 NORTH Point Type FIRE Device Point Point Custom Point Label Type Type M1 6 LEVEL 1 NORTH KITCHEN STORE ROM ZN2 SOHEAT HEAT M1 7 LEVEL 1 NORTH KITCHEN ZN2 SOHEAT HEAT M1 8 LEVEL 1 NORTH KITC
6. If the LCD displays Extra Card Abnormal A Daughter Card is was installed but not Programmed Reprogram System or Remove Extra Daughter Card Warm Start is Necessary to Clear this Trouble Condition Press the CPU Reset Switch located on the Master Controller Board If the LCD displays Card Missing Failed Identify Card from LCD Is Communication Trouble LED illuminated on Card Check Dipswitch Setting with Programmer s Report Check for 8VDC amp 24VDC at Motherboard Harness P3 Check for Serial Comm at Motherboard Harness P2 If ALL Daughter Cards Report Missing Failed Check Serial Comm fuse on Master Controller Board F6 If this Trouble only Occurs upon Alarm Alarm Silence or System Reset it may be Caused by Unsuppressed Relays Door Magnets High Current Loads etc Continued on next page C1 4100 Fault Messages Continued Battery Troubles If the LCD displays Master Battery Backup Status is Trouble Check connector P9 on Master Power Supply Check that Batteries Terminals are Connected Check Fuse s in the Battery Harness Check for Charger Output at Battery Harness Terminals with the Batteries Disconnected Measure Battery voltage with Terminals from Harness Disconnected gt 18 VDC Test Batteries under load for 1 minutes gt 23 VDC Earth Grounds If the LCD displays Master Earth Status is Trouble Is Ground on Positive Negative side of Power Supply If a Positive Ground Remove
7. Table 3 1 Printed Circuit Board Addresses 1 2 3 4 5 6 7 8 MSB LSB Side View of Dip Switch aF ON OFF SW 1 SW1 2 SW1 3 SW1 4 SW1 5 SW1 6 SW1 7 SW1 8 CPU MODULE IS ALWAYS ADDRESS 0 CPU ADDRESS 0 U ON ON ON ON ON ON OFF ADDRESS 1 S ON ON ON ON ON OFF ON ADDRESS 2 E ON ON ON ON ON OFF OFF ADDRESS 3 D ON ON ON ON OFF ON ON ADDRESS 4 ON ON ON ON OFF ON OFF ADDRESS 5 F ON ON ON ON OFF OFF ON ADDRESS 6 O ON ON ON ON OFF OFF OFF ADDRESS 7 R ON ON ON OFF ON ON ON ADDRESS 8 ON ON ON OFF ON ON OFF ADDRESS 9 B ON ON ON OFF ON OFF ON ADDRESS 10 A ON ON ON OFF ON OFF ON ADDRESS 11 U ON ON ON OFF OFF ON ON ADDRESS 12 D ON ON ON OFF OFF ON OFF ADDRESS 13 ON ON ON OFF OFF OFF ON ADDRESS 14 R ON ON ON OFF OFF OFF OFF ADDRESS 15 A ON ON OFF ON ON ON ON ADDRESS 16 T ON ON OFF ON ON ON OFF ADDRESS 17 E ON ON OFF ON ON OFF ON ADDRESS 18 CONTINUES TO A BINARY 119 ON OFF OFF OFF ON OFF OFF OFF ADDRESS 119 Continued on next page 3 6 Install Printed Circuit Boards Continued Table 3 2 All Expansion Cards SWITCH SW1 ADDRESS AND BAUD RATE SELECT BRS MSB LSB BRS BAUD RATE SELECT 0 9600 baud INTERNAL REMOTE Continued on next page 3 7 Install Printed Circuit Boards Continued Table 3 3 24 Point Graphic Card Pluggable Resistors PLUGGABLE RESISTOR SETTINGS DRIVE RESISTOR INPUT OUTPUT 1 20 2 0K 0 5W 200HM 1W 2 21 2 0K 0
8. depressed Holding the Lamp Test pushbutton in for more than three seconds will test the piezo Perform an individual lamp test on all remote annunciators to include the 24 point I Os RCUs SCUs and LED switch modules Remove and replace defective lamp s Note The serial annunciator lamps LEDs will not illuminate during the lamp test Install the retainer assembly onto the back box assembly utilising the two bottom hook tabs and secure it by using two plastic squeeze release tabs located on the upper centre of the retainer assembly Install two screws to secure the retainer assembly one at the top centre of the retainer assembly and the other at the bottom centre of the retainer assembly Note The two screws must be installed to ensure proper ESD electro static 3 discharge protection Close and lock the door assembly 3 11 Introduction Troubleshooting Chart APPENDIX A Troubleshooting Procedures Before troubleshooting the system notify the customer and monitoring facility that you are repairing the system and may trip an alarm Local codes may require notification of additional personnel therefore check local codes for these requirements Tools required for troubleshooting are a multimeter side cutting pliers IC removal insertion tool optional and two sizes of screwdriver It is also recommended that Field Wiring Diagrams be used as appropriate The Voltage Chart shown on the following page co
9. 103 SOUNDER SILENCE LOCAL USWITCH 04 POWER LED ALWAYS LAMP IO5 ZN1 FIRE WITH ISOLATE STATUS CONTROL LAMP IO6 LAMP 7 USWITCH 108 ZN2 FIRE WITH ISOLATE STATUS CONTROL LAMP 109 LAMP 1010 USWITCH Ioll 283 FIRE WITH ISOLATE STATUS CONTROL LAMP 012 LAMP 1013 USWITCH Iol4 ZN4 FIRE WITH ISOLATE STATUS CONTROL LAMP 1015 LAMP 1016 USWITCH 1017 ZN5 FIRE WITH ISOLATE STATUS CONTROL LAMP 1018 LAMP 1019 USWITCH 1020 ZN6 FIRE WITH ISOLATE STATUS CONTROL LAMP 021 LAMP 1022 USWITCH 1023 USWITCH Figure 2 4 System Point Summary Report continued Continued on next page 2 6 System Point Summary Continued Notes Custom label information tells you where the circuit goes At both ends of each circuit tag wires with zone name and polarity in cases where polarity applies For example SIG 3 and SIG 3 T tapping is permitted only for Style 4 formerly Class B MAPNET 19 circuits All MAPNET II circuits have zone names that begin with 2 7 Virtual Zone Summary A virtual zone contains a number of addressable MAPNET devices grouped together and acting like a hardwired zone The Virtual Zone Summary shows the name of each zone on the system and the number of points on each virtual zone XYZ HOSPITAL BLDG 1 VIRTUAL ZONE SUMMARY Page 43 00C0901 node 1 rev 10 11 23 35 MON 08 JAN 01 CARD No 170 VIRTUAL ZONE 256 Virtual Zone Card ZN1
10. OFF ADDRESS 22 OFF ON ON OFF ON OFF ON OFF OFF OFF ADDRESS 23 ON ON ON OFF ON OFF ON OFF OFF OFF 24 OFF OFF OFF ON ON OFF ON OFF OFF OFF 25 ON OFF OFF ON ON OFF ON OFF OFF OFF 26 OFF ON OFF ON ON OFF ON OFF OFF OFF 27 ON ON OFF ON ON OFF ON OFF OFF OFF 28 OFF OFF ON ON ON OFF ON OFF OFF OFF 29 ON OFF ON ON ON OFF ON OFF OFF OFF ADDRESS 30 OFF ON ON ON ON OFF ON OFF OFF OFF ADDRESS 31 ON ON ON ON ON OFF ON OFF OFF OFF OFF OFF OFF OFF OFF ON ON OFF OFF OFF ON OFF OFF OFF OFF ON ON OFF OFF OFF OFF ON OFF OFF OFF ON ON OFF OFF OFF ON ON OFF OFF OFF ON ON OFF OFF OFF OFF OFF ON OFF OFF ON ON OFF OFF OFF ON OFF ON OFF OFF ON ON OFF OFF OFF ADDRESS 38 OFF ON ON OFF OFF ON ON OFF OFF OFF ADDRESS 39 ON ON ON OFF OFF ON ON OFF OFF OFF 40 OFF OFF OFF ON OFF ON ON OFF OFF OFF 41 ON OFF OFF ON OFF ON ON OFF OFF OFF 42 OFF ON OFF ON OFF ON ON OFF OFF OFF 43 ON ON OFF ON OFF ON ON OFF OFF OFF 44 OFF OFF ON ON OFF ON ON OFF OFF OFF 45 ON OFF ON ON OFF ON ON OFF OFF OFF ADDRESS 46 OFF ON ON ON OFF ON ON OFF OFF OFF ADDRESS 47 ON ON ON ON OFF ON ON OFF OFF OFF OFF OFF OFF OFF ON ON ON OFF OFF OFF ADDRESS 49 ON OFF OFF OFF ON ON ON OFF OFF OFF ADDRESS 50 OFF ON OFF OFF ON ON ON OFF OFF OFF 51 ON ON OFF OFF ON ON ON OFF OFF OFF 52 OFF OFF ON OFF ON ON ON OFF OFF OFF 53 ON OFF ON OFF ON ON ON OFF OFF OFF 54 OFF ON ON OFF ON ON ON OFF OFF OFF 55 ON ON ON OFF ON ON ON OFF OFF OFF 56 OFF OFF OFF
11. a Typical Device and Device Address Label Continued on next page Installation Overview Continued SWI 1 ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF SW1 2 OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF OFF ON ON OFF SWI 3 OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF OFF OFF OFF ON ON ON ON OFF SWI 4 OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON OFF SWI 5 OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON OFF OFF OFF OFF OFF OFF OFF OFF OF
12. if detector power is absent and separately powered devices four wire smoke detectors are involved D Connect the wires to their terminals Continued on next page 1 7 Installation Overview Continued Table 1 3 Acceptable Zone and Signal Circuit Meter Readings Circuit Type Meter Reading Style formerly Class Initiating Device Zone Circuit From zone to zone each zone 3 3K ohms From zone to ground Infinity From zone to ground Infinity Style D formerly Class A Initiating Device Zone Circuit From zone to zone each zone Infinity From zone to ground Infinity From zone to ground Infinity From zone OUT to IN Less than 50 ohms From zone OUT to IN Less than 50 ohms Style Y formerly Class B Notification Appliance Circuit each signal circuit From to ground Infinity From to ground Infinity Resistance across circuit In one direction 10K ohms In opposite direction Less than 200 ohms Style Z formerly Class A Notification Appliance Circuit each signal circuit From to ground Infinity From to ground Infinity From OUT to IN Less than 50 ohms From OUT to IN Less than 50 ohms Resistance across circuit In one direction Infinity In opposite direction Less than 200 ohms Shielding Shield to ground Infinity Shield to Infinity Shield to Infinity MAPNET II Loops ZAMs and IAMs From MAPNET II to ground Infinity From MAPNET II to ground Infinity Con
13. next page Install Printed Circuit Boards Continued ZONES 231 ZN2 ZN3 7 4 f 1 1 1 1 T BOTTOM E to ES e ZN5 2 6 ZN7 2 8 24 POINT 1 0 S BOTTOM PM2 l CLASS B SIGNAL SIG3 SIG4 5105 SHLD rrr 1 BOTTOM eng LD 51906 5107 SIG8 gy AUXILIARY RELAY FEEDBACKS TOP NC C NO NC NO FB FB Ltt LI 1 gd AUX 3 AUX4 3 4 xd hs NC NO NC C NO FB FB NC C NO NC C NO FB FB 1 LL AUX 5 AUX6 5 6 T TOI TT 1 NC NO NC C NO FB FB BOTTOM NC C NO NC C FB FB EE 1c p Jd AUX 7 AUX8 7 8 ro 4 ks dd NC C NO NC C FB NC C NO NC C NO FB FB 11 L 1 I AUX 9 AUX10 9 10 T_T 1 TT 1 1 l NC NO NC NO FB FB LED SWITCH CONTROLLER SPM1 SPM2 SPM3 BOTTOM ee CNT1 CNT2 CNT4 EXTERNAL COMMUNICATIONS TOP TOP AN ET w 9 2120 COMMS A m TOP E r COMM 1 n 2120 1 a RS232 PORT TOP geag 000 PRINTER PORT 1 MAPNET BOARD TOP MAPNET CHANNEL 1 CLASS B CLASS A s s CPU BRIGADE CIRCUITS BOTTOM N N N N ALARM FAULT Figure 3 1 Terminal Block Labels Continued on next page Install Printed Circuit Boards Continued
14. on next page D1 Troubleshooting Procedures Continued Continued Indicating Appliance Signaling Device A device which produces an audible and or visual signal in response to a fire condition horn bell chime flashing light etc ID Initiating Device A manual or automatic device which when activated initiates an alarm pull station heat or smoke detector water flow switch etc Initiating Device Zone Circuit A circuit consisting of one or more initiating devices Local Energy Master Box A municipal fire department connection box mounted externally to the panel that uses electrical energy from the fire alarm panel to energise its the master box s electromagnetic tripping mechanism Power Supply Module That portion of the fire alarm panel which provides the power needed to operate all panel modules as well as that needed to operate all electrically powered initiating devices and all indicating appliances Signal Module A panel mounted module which supervises two indicating appliance signal circuits Silence Inhibit Option A field programmed option which when entered prevents all alarm indicating appliances from being silenced and the system from being reset until the delay s duration expires Supervision The continuous electrical checking of fire alarm circuits and components for faults opens and in some cases shorts For example 4100 signal circuits are supervised for both opens and s
15. sending No Answer Trouble If the LCD displays MAPNET Communication Failed e Check for 36VDC out of MAPNET Power Supply e Check for short across the MAPNET Lines Additional Trouble Message Continued on next page C3 4100 Fault Messages Continued Mapnet Troubles continued RUI Troubles If the LCD displays MAPNET Power Supply Status e Check for Power Harness P4 If the LCD displays MAPNET Open Circuit Fault e Check Mapnet communications loop for Open circuit e Locate and repair wiring break e Press the System Reset key on the front panel to clear the fault message If the LCD displays MAPNET Short Circuit Fault e Check Mapnet communications loop for Short circuit condition e Check that Mapnet wiring to devices has not been reversed e Locate and repair wiring fault If the LCD displays RUI Open Circuit Fault e Check RUI communications loop for Open circuit e Locate and repair wiring break Press the System Reset key on the front panel to clear the fault message C4 Appendix D Glossary of 4100 Fire Alarm System Terms Alarm Verification Option A field programmed option that causes the CPU to verify double check all alarm initiations originated by smoke detectors before sounding the signals Annunciator A remotely located electrically powered display separate from the control panel containing lamps to indicate the status of the fire alarm system Auxiliary AU
16. will display a fault condition e When a printed circuit board is inserted but configured incorrectly or not defined in software the system will display a fault condition normal operation will be suspended for that card until the fault has been corrected e Other failures will cause a message to be displayed to the operator and may cause the system to become inoperative and the tone alert to sound continuously e Refer to Appendix C for a list of Fault Messages and likely causes and rectification To power up the 4100 system perform the following steps 1 Ensure that the mains isolate switch is OFF and batteries are disconnected Ensure that 240V AC supply is connected to the panel from the mains distribution board 2 Turn the panel mains isolate switch ON When the green Power LED turns on after approximately 30 seconds connect the batteries 3 Acknowledge all abnormal conditions by pressing the appropriate ACK Alarm and Fault pushbutton s Press the ACK pushbutton to review all abnormal conditions within each list Once all abnormal conditions are cleared press the CLR key 4 Set the correct time and date The system should then display SYSTEM IS NORMAL followed by the time and date 5 Repair restore all abnormal conditions refer to Appendix A Troubleshooting Procedures 3 9 System Test Procedures Introduction Battery Test Alarm Test Fault Test These procedures should be foll
17. 24 3 03 x 0 5 36 72 1 52 38 42 Ah Therefore required new battery capacity 38 24 x 1 25 47 8 Ah Rounded up to nearest available battery 50 0 4100 Power Supply Battery Capacity Calculations Project SAMPLE 4100 4120 PANEL Module Description 4100 8XXX Fire Indicator Panel Base Uni 4100 0110 _ Mapnet 2 Addressable Loop 3 o3 0 0547 125 Standby Current A Alarm Current A 4100 0111 Mapner 2 QUAD Isolator E o e 9 4100 0113 45232 Modem Interface o o b 9 4100 1017 10 AMP PS CHARGER 10 AMP AUX PS ONLY 2 AMP AUX PS ONLY AS1668 RTU 64 64 Led Switch Controller 4100 0302 24 point I O Module 4100 0304 Remote Unit Interface 4100 3003 8XSPDT 3A 24VDC Relay module 4100 3024 24 I O Relay Motherboard 4100 0302 6 Supervised Relays 4100 5004 8 AZF Monitor Zone 4100 0451 Panel Mounted Printer 100 CPU CPU Module 100 0140 RS 485 Network Interface Card Hardwired 4100 0141 Modular Network Card Requires 2 media cards 4100 0142 Wired Media Card RS485 4100 0143 ibre Optic Media Card 100 8225 5W Amplifier 100 8250 OW Amplifier 100 0302A 6 Amplifier Control Module 190 9156 ZAM Monitor Mapnet 2 190 9162 ZAM Signal Mapnet 2 190 9164 ZAM Control Mapnet 2 098 9794 Sounder Base TrueAlarm 4907 0012 Evac Tone Sounder 24VDC VESDA LaserPlus Total Power Supply Capacity 0 03 0 02 0 gt NINN Note If Power
18. 5W 200HM 1W 3 22 2 0K 0 5W 20 OHM IW 4 23 2 0K 0 5W 20 OHM 1W 5 24 2 0K 0 5W 20 OHM 1W 6 25 2 0K 0 5W 20 OHM 1W 7 26 2 0K 0 5W 20 OHM 1W 8 27 2 0K 0 5W 20 OHM 1W 9 28 2 0K 0 5W 20 OHM IW 10 29 2 0K 0 5W 20 OHM 1W 11 30 2 0K 0 5W 200HM 1W 12 31 2 0K 0 5W 20 OHM 1W 13 32 2 0K 0 5W 20 OHM 1W 14 33 2 0K 0 5W 20 OHM 1W 15 34 2 0K 0 5W 20 OHM 1W 16 35 2 0K 0 5W 20 OHM 1W 17 36 2 0K 0 5W 20 OHM 1W 18 37 2 0K 0 5W 20 OHM 1W 19 38 2 0K 0 5W 20 OHM 1W 20 39 2 0K 0 5W 20 OHM 1W 21 40 2 0K 0 5W 20 OHM 1W 22 41 2 0K 0 5W 20 OHM 1W 23 42 2 0K 0 5W 20 OHM 1W 24 43 2 0K 0 5W 20 OHM 1W For Input Contact Monitors For Relays LED Lamps Note Systems are shipped from the factory with 2 0K OHM resistors Use 2 0K OHM resistors for contact monitors and 20 OHM resistors for RELAY or LED lamp outputs 3 8 CPU Main Power Supply Boards with Components Introduction Power Up Procedure When power is first applied to the panel or when the processor has been reset the system will self test the integrity of 1ts memory and verify proper card installation At the end of the self test the system will display SYSTEM STARTUP IN PROGRESS followed by at least two fault conditions battery and time and date After the battery is connected and the time and date has been entered the system should then display the message SYSTEM IS NORMAL along with the time and date Notes When a printed circuit board is not properly inserted the system
19. 6 AUX RELAY CARD 2 RELAY CKT AUX6 RELAY AUX7 EVEL 1 MDH OUTPU RELAY AUX8 EVEL 2 MDH OUTPU RELAY AUX9 AUX RELAY CARD 2 RELAY CKT AUX9 RELAY AUX10 AUX RELAY CARD 2 RELAY CKT AUX10 RELAY AUX11 AUX RELAY CARD 9 RELAY CKT AUX11 RELAY AUX12 AUX RELAY CARD 9 RELAY CKT AUX12 RELAY AUX13 AUX RELAY CARD 9 RELAY CKT AUX13 RELAY AUX14 AUX RELAY CARD 9 RELAY CKT AUX14 RELAY AUX15 AUX RELAY CARD 9 RELAY CKT AUX15 RELAY AUX16 AUX RELAY CARD 9 RELAY CKT AUX16 RELAY AUX17 AUX RELAY CARD 9 RELAY CKT AUX17 RELAY AUX18 AUX RELAY CARD 9 RELAY CKT AUX18 RELAY FB3 AUX RELAY CARD 2 FEEDBACK PT FB3 ONOFF FB4 AUX RELAY CARD 2 FEEDBACK PT FB4 ONOFF FB5 AUX RELAY CARD 2 FEEDBACK PT FB5 ONOFF FB6 AUX RELAY CARD 2 FEEDBACK PT FB6 ONOFF FB7 AUX RELAY CARD 2 FEEDBACK PT FB7 ONOFF FB8 AUX RELAY CARD 2 FEEDBACK PT FB8 ONOFF FB9 AUX RELAY CARD 2 FEEDBACK PT FB9 ONOFF FB10 AUX RELAY CARD 2 FEEDBACK PT FB10 ONOFF Figure 2 3 System Point Summary Report Continued on next page 2 5 System Point Summary Continued XYZ HOSPITAL BLDG 1 SYSTEM POINT SUMMARY Page 5 00C0901 node 1 rev 10 11 23 35 MON 08 JAN 01 POINT SUMMARY
20. 7A 4100 0302 4100 4321 4100 0154 MAPNET TRUEALARM Addressable Loop Module Up to 127 MAPNET Addressable devices or TrueAlarm Analog Sensors Up to 10 MAPNET Loop Cards per 4100 system Supports MAPNET Short Circuit Line Isolator Modules Remote Unit Interface Module Provides a supervised serial communications channel to remotely located distributed Miniplex Transponders and LCD Annunciators Up to 32 distributed Miniplex Transponders and or LCD Annunciators per 4100 system 24 Relay Input Output Relay Motherboard 24 CPU controlled relays Each of the 24 relays can be individually configured as either an input or an output SPST contacts rated for 0 5 amps 24VDC or 30VAC 64 64 LED SWITCH Controller Interfaces up to 64 LEDs and 64 switches to the master controller for front panel annunciation Mapnet 2 Quad Isolator Module The Mapnet Quad isolator provides fault tolerance and electrical isolation capabilities to 4100 Mapnet lines The fault tolerance is twofold loop open circuit Class A operation and short circuit disconnection Provides a 24 VDC 8 Amp Power Supply with integral 4 Amp battery charger 24 Point Graphic Input Output Module This card provides up to 24 inputs or outputs to be programmed and connected into the system These 24 points can be split up into any combination of inputs or outputs to suit individual system needs 6 Supervised Relay Module Each card provides 6 circuits of Style Y c
21. ATE button and any other Auxiliary Control Functions ACF including AC Shutdown and MDH controls using the ACF ISOLATE FUNCTION 2 Place the fire brigade transmitter selector switch in the isolate position 3 Select a point or zone upon which to perform the test refer to the Point Summary Report 4 Press the Alarm test key to activate the actuating devices that will test the system s signals To check the alarm bell or any other ancillary circuit operation press the EXT BELL ISOLATE key again Note Under Alarm Test the brigade relay will operate as well as any other ancillary outputs that have been programmed to operate under alarm conditions Perform a fault test by first selecting a point or zone to test and then press the FLT TEST key The system will automatically create a momentary fault condition on the selected point or zone and will indicate a system fault during testing Continued on next page 3 10 System Test Procedures Continued Lamp Test Remounting Retainer The lamp test pushbutton on the control panel is used to determine local lamp failures within the system Only lamps on the 4100 control panel will illuminate along with the five function and acknowledge LEDs All segments on the LCD will also change Perform the following procedures to determine lamp failure 1 3 Press the LAMP TEST pushbutton All LEDs should illuminate lamps should stay illuminated as long as the pushbutton is
22. F OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON OFF Note SWI OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON OFF Table 1 1 MAPNET Addresses 6 SWI 7 SWI 8 SWI 1 SW1 2 SW1 3 SWI 4 SWI 5 SWI 6 SWI 7 SWI 8 OFF OFF ADDRESS 1 ON OFF OFF OFF OFF OFF ON OFF OFF OFF ADDRESS 2 OFF ON OFF OFF OFF OFF ON OFF OFF OFF ADDRESS 3 ON ON OFF OFF OFF OFF ON OFF OFF OFF ADDRESS 4 OFF OFF ON OFF OFF OFF ON OFF OFF OFF 5 ON OFF ON OFF OFF OFF ON OFF OFF OFF 6 OFF ON ON OFF OFF OFF ON OFF OFF OFF 7 ON ON ON OFF OFF OFF ON OFF OFF OFF 8 OFF OFF OFF ON OFF OFF ON OFF OFF OFF 9 ON OFF OFF ON OFF OFF ON OFF OFF OFF 10 OFF ON OFF ON OFF OFF ON OFF OFF OFF ADDRESS 11 ON ON OFF ON OFF OFF ON OFF OFF OFF ADDRESS 12 OFF OFF ON ON OFF OFF ON OFF OFF OFF 13 ON OFF ON ON OFF OFF ON OFF OFF OFF 14 OFF ON ON ON OFF OFF ON OFF OFF OFF 15 ON ON ON ON OFF OFF ON OFF OFF OFF 16 OFF OFF OFF OFF ON OFF ON OFF OFF OFF 17 ON OFF OFF OFF ON OFF ON OFF OFF OFF 18 OFF ON OFF OFF ON OFF ON OFF OFF OFF ADDRESS 19 ON ON OFF OFF ON OFF ON OFF OFF OFF ADDRESS 20 OFF OFF ON OFF ON OFF ON OFF OFF OFF ON OFF ON OFF ON OFF ON OFF OFF
23. HEN ZN2 SOHEAT HEAT M1 9 LEVEL 1 NORTH DINING RM ZN2 SPHOTO SMOKE XYZ HOSPITAL BLDG 1 VIRTUAL ZONE DETAIL Page 46 00C0901 node 1 rev 10 11 23 35 MON 08 JAN 01 CARD No 170 VIRTUAL ZONE 256 Virtual Zone Card Point No 2 ZN3 continued Zone Description ZN3 LEVEL 2 SOUTH Point Type FIRE Device Point Point Custom Point Label Type Type M2 1 LEVEL 2 SOUTH MALE TOILET ZN3 OHEAT HEAT 2 2 LEVEL 2 SOUTH FEMALE TOILET ZN3 OHEAT HEAT 2 3 EVEL 2 SOUTH CLEANERS RM ZN3 SPHOTO SMOKE Figure 2 6 Virtual Zone Detail Continued on next page 2 9 Virtual Zone Detail Continued XYZ HOSPITAL BLDG 1 VIRTUAL ZONE DETAIL Page 47 00C0901 node 1 rev 10 11 23 35 MON 08 JAN 01 CARD No 170 VIRTUAL ZONE 256 Virtual Zone Card Point No 3 ZN4 continued Zone Description ZN4 LEVEL 2 NORTH Point Type FIRE Device Point Point Custom Point Label Type Type M2 4 LEVEL 2 NORTH MALE TOILET ZN4 OHEAT HEAT 2 5 LEVEL 2 NORTH FEMALE TOILET ZN4 OHEAT HEAT M2 6 LEVEL 2 NORTH CLEANERS RM 2 4 SPHOTO SMOKE XYZ HOSPITAL BLDG 1 VIRTUAL ZONE DETAIL Page 48 00C0901 node 1 rev 10 11 23 35 MON 08 JAN 01 CARD No 170 VIRTUAL ZONE 256 Virtual Zone Card Point No 4 ZN5 continued Zone Description ZN5 LEVEL 3 SOUTH Point Type FIRE Device Point Point Custom Point Label Type Type 2 15 2 LEVEL 3 SOUTH BEDSIT 13 BATHROOM HEAT 2 M1 2 LEVEL 3 SOUTH BEDSIT 13 SMOKE 23M1 3 LEVEL 3 SOUTH MALE TOILET HEAT 2 M1 4 LEVEL 3 SOUTH FEMALE T
24. OILET HEAT XYZ HOSPITAL BLDG 1 VIRTUAL ZONE DETAIL Page 49 00C0901 node 1 rev 10 11 23 35 MON 08 JAN 01 CARD No 170 VIRTUAL ZONE 256 Virtual Zone Card Point No 5 ZN6 continued Zone Description ZN6 LEVEL 3 NORTH Point Type FIRE Device Point Point Custom Point Label Type Type 2 M1 6 LEVEL 3 NORTH BEDSIT 14 BATHROOM HEAT 2 M1 7 EVEL 3 NORTH BEDSIT 14 SMOKE 2 M1 8 NORTH MALE TOILET HEAT 2 M1 9 NORTH FEMALE TOILET HEAT Figure 2 7 Virtual Zone Detail continued 2 10 2120 RS232 Interface Report The 2120 RS232 Interface Report provides information on any of the 2120 RS232 Interface Cards installed on the system including what specific settings exist for each port of the card XYZ HOSPITAL BLDG 1 2120 RS232 INTERFACE REPORT Page 59 00C0901 node 1 rev 9 09 22 30 FRI 29 DEC 00 CARD No 5 2120 RS232 INTERFACE 0113 2120 RS232 Interface CARD 5 PORT TYPE BAUD PARITY DATA BITS STOP BITS A RS232 1200 EVEN 8 1 B UNUSED 0 0 Figure 2 8 2120 RS232 2 11 Chapter 3 Final Installation Power Up and Testing of the System Introduction This chapter contains information for finishing up the installation of the 4100 4120 system Final connections inspections and additions that may be made are discussed In this Chapter Refer to the page number listed in this table for information on a specific topic Topic See Page Installation Checklist for Simple
25. ON ON ON ON OFF OFF OFF ADDRESS 57 ON OFF OFF ON ON ON ON OFF OFF OFF ADDRESS 58 OFF ON OFF ON ON ON ON OFF OFF OFF ON ON OFF ON ON ON ON OFF OFF OFF OFF OFF ON ON ON ON ON OFF OFF OFF ON OFF ON ON ON ON ON OFF OFF OFF OFF ON ON ON ON ON ON OFF OFF OFF ON ON ON ON ON ON ON OFF ON OFF ADDRESS 64 The envelope labeled 748 200 System Hardware contains the required tors 3 3K monitor zone resistors are colour coded orange orange red and have a gold tolerance band 10K Notification appliance signal circuit resistors are colour coded brown black orange and also have a gold tolerance band Resistors other than those described above will be used by the Simplex Technical Representative T R during installation checkout Continued on next page ADDRESS 65 ADDRESS 66 ADDRESS 67 ADDRESS 68 ADDRESS 69 ADDRESS 70 ADDRESS 71 ADDRESS 72 ADDRESS 73 ADDRESS 74 ADDRESS 75 ADDRESS 76 ADDRESS 77 ADDRESS 78 ADDRESS 79 ADDRESS 80 ADDRESS 81 ADDRESS 82 ADDRESS 83 ADDRESS 84 ADDRESS 85 ADDRESS 86 ADDRESS 87 ADDRESS 88 ADDRESS 89 ADDRESS 90 ADDRESS 91 ADDRESS 92 ADDRESS 93 ADDRESS 94 ADDRESS 95 ADDRESS 96 ADDRESS 97 ADDRESS 98 ADDRESS 99 ADDRESS 100 ADDRESS 101 ADDRESS 102 ADDRESS 103 ADDRESS 104 ADDRESS 105 ADDRESS 106 ADDRESS 107 ADDRESS 108 ADDRESS 109 ADDRESS 110 ADDRESS 111 ADDRESS 112 ADDRESS 113 ADDRESS 114 ADDRESS 115 ADDRESS 116 ADDRESS 117 ADDRESS 118 ADDRES
26. S 119 ADDRESS 120 ADDRESS 121 ADDRESS 122 ADDRESS 123 ADDRESS 124 ADDRESS 125 ADDRESS 126 ADDRESS 127 Installation Overview Continued 5 Using the procedure below remove the option bay door See Figure 1 4 a Ifapplicable mark the top of the ribbon cable Then pull the cable straight out of its connector b Remove the hair pin cotter pins item 1 from the upper clevis pins item 2 Then push the clevis pins inward and lower the door c Free the lower end of the retainer cable item 3 by removing the screw and washer items 4 and 5 d Remove the hair pin cotter pins item 6 from the lower clevis pins item 7 Then push the clevis pins inward and remove the door e Store the door and its hardware in a safe clean and dry place until the remainder of the steps are complete RIBBON CABLE MARK TOP Figure 1 4 Removing the Option Bay Door Continued on next page 1 6 Installation Overview Continued 6 Check and terminate all zone ZN MAPNET Loops MAP MAP B and signal SIG wiring Note A standard job has at least 3 signal circuits one of which is wired in the factory Signal 3 The other two circuits must be wired The three standard job signal circuits are described in the table below Refer to the Programmer s Report for the actual configuration of your system Table 1 2 Standard Job Signal Circuits Signal Custom Label Card Location Signal 3 Sounder Local Remote Add
27. Supply Capacity exceeds 8 Amps then select an additional Power Supply Battery Capacity Ahr 65 x 24 0 5xI A see Note 46 56 2 975 49 535 Ahr Note I A Two zones in Alarm including Ancillary loads Total Battery Capacity allowing for battery efficiency 1 25 61 9188 Ahr Therefore Select 65Ahr E2 Appendix F Cable Characteristics 4100 Line Characteristics Note In the following paragraphs the term MAPNET channel is used to mean those lines connected to any one Mapnet Transceiver board Parallel runs from the same board do not constitute separate channels The term continuous run refers to the loop distance from the primary output through all devices and back to the secondary output Line characteristics are based on 0 58uF and or 35 Ohms total line resistance Total length of line on one MAPNET channel shall not exceed 3 000 m including all T taps and parallel runs Maximum length for ONE continuous MAPNET run is 1200 m for up to 128 MAPNET devices using 1 5 mm sq cable When the run exceeds 850 m it is necessary to use twisted shielded pair 4120 NETWORK Copper Line Characteristics 4120 Network Wired formerly called RS 485 Communication wiring shall be 0 75 mm sq twisted shielded pair TSP or 0 22 mm sq twisted pair TP Shielded Cable is recommended for new installations When shielding is used the shield shall be connected to Earth Ground at the Left Port end of span only No T ta
28. X Relays Control relays that energise only during alarm conditions and that are used to either apply power to or remove power from other equipment during an alarm condition Class A Circuit An initiating device or indicating appliance circuit within which all components remain fully functional even though a single pen or ground exists in the circuit Class B Circuit An initiating device or indicating appliance circuit within which some or all components may be disabled when a single open or ground exists in the circuit CPU Central Processing Unit That portion of the fire alarm panel which processes alarm and fault information received from throughout the system and acts on that information in an appropriate manner Master Controller Board A panel mounted module consisting of the CPU itself eight zone circuit monitors two signal circuit monitors and two AUX relays End of Line E O L Resistor A resistor installed at the electrically furthermost point in a signal or zone circuit Fan Control Module A panel mounted module that consists of manual switches which allow fan or damper control circuits to be turned on turned off or operated automatically Fire Alarm Control Module The portion of the fire alarm system which provides the power and contains the circuitry needed for system operation Indicating Appliance Signal Circuit A circuit consisting of one or more indicating appliances Continued
29. ances initiating devices etc Note The first page of each Field Wiring Diagram is an index which should be used to identify the correct page for a specific installation procedure 1 2 Installation Overview The next ten steps outline the installation process for the 4100 Fire Alarm System Each step in the procedure is followed by an explanation of exactly what needs to be done and how If possible proceed through the installation process in the sequence that follows 1 Inventory the delivered equipment The delivered equipment includes the envelope that contained this publication the materials listed in the Packaging Information section of the Factory Documentation and the envelope labeled System Hardware shown in Figure 1 1 Note The contractor is not responsible for inventorying or installing daughter cards or for interconnecting panel components All cartons that contain daughter cards are to be opened inventoried and installed by Simplex personnel SYSTEM HARDWARE OPEN CAREFULLY 748 200 H SIMPLEX TIME RECORDER CO Simplex GARDNER MA 01441 U S A 570210 A Figure 1 1 System Hardware Envelope Label Continued on next page 1 3 Installation Overview Continued 2 Install the back box Refer to the 4100 4120 UT Back Box Installation Instructions Pub No FA4 21 203 3 Install and tag all system wiring Refer to the SYSTEM POINT SUMMARY Report for the points that must be wired figu
30. c cards whether they are in the local controller unit or in a remote unit and to identify the specific I Os mapped to those cards The report shows a Card Number that corresponds to the address of each printed circuit board and a Zone Range that identifies the 1 on each card You can also use this section of the report to verify delivery of system cards from the factory XYZ HOSPITAL BLDG 1 CARD SUMMARY BY LOCATION Page 3 00C0901 node 1 rev 10 11 23 35 MON 08 JAN 01 CARD CARD LOCATION LISTING LOCATION LOCAL CONTROLLER UNIT DAUGHTER CARDS Card Card Type Zone Range 0 7003 4100 Master Controller 1 6005 Power Supply Charger 2 4322 3 Input Class B Signal w Sup SIG3 8 3 3003 8 Pt 3 Amp Relay w Feedback AUX3 10 4 0140 4120 Network Interface 5 0113 2120 RS232 Interface RS232 1 6 0110 MAPNET Interface M1 1 9 7 0304 Remote Unit Interface RUI RUI 1 ANNUNCIATORS Annun Card Card Type zone Range no local annunciators REMOTE UNIT INTERFACE 1 RUI 1 Type Unit Card Card Type Zone Range 1 0 1 10 6005 Power Supply Charger 1 0 1 11 3003 8 Pt 3 Amp Relay w Feedback AUX11 18 I O 1 12 4322 3 Input Class B Signal w Sup SIG9 14 1 0 al 1 3 0110 Interface 2 1 6 Ann 2 1 5 0302 24 Pt Graphic Interface 101 24 Ann 3 20 4603 9101 LCD Annunciator Figure 2 2 Card Summary by Location 2 3 System Point Summary Int
31. e next step is to test the return field wires from the peripheral devices This is the next section to troubleshoot because proper voltage terminals are accessible which allows these checks to be made quickly Check for incorrect voltage or signals with voltmeter If an incorrect reading is observed you know the defective printed circuit board is the one you are testing Continued on next page A1 Troubleshooting Procedures Continued If the voltage and signals are correct on the return field wiring the next step is to localise the trouble by swapping printed circuit boards of the same type Perform the following procedure to swap printed circuit boards 1 Disconnect battery power Turn system power OFF AC Remove the suspected printed circuit board from the motherboard deae 19 Remove printed circuit board of the same type from the system when available or from branch stock 5 Set the good printed circuit board address to match the white address label on the motherboard where the bad printed circuit card was located Ifa printed circuit board is swapped from within the system set the bad printed circuit board address to match the white address label on the motherboard where the good printed circuit board was located Install both printed circuit boards good and bad Apply AC power to the system Apply DC power to the system 00 c a
32. er coated Cabinet Colour Magnolia Ripple Mounting Wall mount Mains Input 240V AC 6 10 2 Internal Power Supply 24V DC 8 0A Standby Battery 24V sealed lead acid up 110Ah Battery Charger 27 6V DC nominal 4 0 PSU Supervision Charger high low Battery low fail Temperature 5Cto45C Humidity 10 to 90 RH non condensing Maximum Number 4100 5004 4100 3003 Module 4100 0113 4100 0149 4100 0142 Module 4100 0143 119 modules Conventional Zone Module Eight zone circuits per module Supports standard 20V detectors plus normally open contact devices Eight CPU Controlled Auxiliary Relays per SPDT contacts rated for 3 amps Y 24VDC or 30VAC RS 232 2120 Communications Module Provides two RS 232 C outputs for remote printers and or CRT Five RS 232 C ports maximum per 4100 system Can be configured for communication with a host 2120 system or it can be configured as a Computer Port for communications to a remote system i e BMS or BAS Systems 4120 Modular Network Interface Module Provides Network Interface with plug in media modules for RS485 Communications copper cable Fiber Optics Media Card RS485 Communications Copper Cable Media Fiber Optics Media Card B1 Continued on next page 4100 Specifications Continued Expansion Modules continued 4100 0110 4100 0304 4100 3024 4100 0301 4100 0111 4100 015
33. half of the Motherboards Isolated to a Row Remove half of the Daughter cards Ifa Negative Ground Check Power MAPNET and Shields Ground could be Internal to the Control Panels If the LCD displays MAPNET Ground Fault Status is Abnormal Determine which MAPNET Power Supply is Reporting Ground Verify that JW2 is Installed and JW1 is Removed unless only 2 Wire Devices are used Disconnect MAPNET Communication Lines Disconnect MAPNET Power Supply Connector 4 Continued on next page C2 4100 Fault Messages Continued Annunciator If the LCD displays Troubles Card X Led Switch Display Slot X Card Defined But Not Inserted e Annunciator Display Card Programmed in Software but not connected via the Ribbon Cable If the LCD displays Card X Led Switch Display Slot X Card Not Defined But Inserted e Annunciator Display Card not Programmed in Software but connected via the Ribbon Cable e Check ribbon cable or Verify Annunciator Programming Mapnet Troubles If the LCD displays MAPNET Extra Device Trouble e Check Trouble Log for Device Number e Add Device to Program if needed If the LCD displays MAPNET No Answer Trouble e Determine Device Address and Location e Check Address is set properly e Check for MAPNET Communication 36VDC e Check for DC Voltage if applicable 24DC If the LCD displays MAPNET Bad Answer Trouble e Check Shield for Open or Ground e Are any Devices
34. horts while 4100 zone circuits are supervised for opens only a zone circuit short causes an alarm condition Zone Module A panel mounted module containing the circuitry needed to supervise either four or eight zone circuits for both fault conditions and to monitor the circuits for alarm conditions D2 Appendix E Battery Capacity Calculation Methology BATTERY CAPACITY CALCULATION EXAMPLE 10 quiescent current calculation Item Unit 1 in mA Quantity Total mA CIE base 200 0 1 200 0 AZ17 20 0 6 120 0 ACI7 20 0 2 40 0 Detector Hard contact heat 0 0 60 0 0 Tonisation smoke 0 01 50 0 5 Photoelectric smoke 0 1 40 4 0 IR flame 0 25 6 1 5 UV flame 2 0 2 4 0 Beam 180 0 4 720 0 Ancillary loads normally energised Aircon relays 20 0 2 40 0 Electric locks 100 0 4 400 0 Total I mA 1530 0 1 53A NOTE 1 Ampere A 1000 milliamperes mA IA alarm current calculation following alarm currents are the values in addition to any quiescent value Item Unitlin mA Quantity Total mA Total Zo 1530 0 Sounders bells 80 0 1 80 0 AZITs 100 0 2 200 0 Evac interface relay 20 0 2 40 0 Fire control stn interface 20 0 1 20 0 ACI7s 300 0 2 600 0 Warning signs 500 0 2 1000 0 3470 0 3 47A Less loads that de energise on alarm Aircon relays 20 0 2 40 Electric locks 100 0 4 400 0 440 0 Total alarm load IA mA 3030 0 3 03 A E1 Required battery capacity at end of battery life Io x 24 Za x 0 5 1 53 x
35. ier and notify Simplex ELECTRICAL HAZARD Disconnect electrical field power when making any internal adjustments or repairs Servicing should be performed by qualified Simplex Representatives STATIC HAZARD Static electricity can damage components Therefore handle as follows e Ground yourself before opening or installing components use the 553 484 Static Control Kit e Prior to installation keep components wrapped in anti static material at all times EYE SAFETY HAZARD Under certain fiber optic application conditions the optical output of this device may exceed eye safety limits Do not use magnification such as a microscope or other focusing equipment when viewing the output of this device Table of Contents vi How to Use this Publication Introduction Before you start using the 4100 4120 Fire Alarm System Installation Manual it s important to understand the typographic conventions used in this publication General The following conventions are used in this publication to identify special names or text Convention Meaning Indicates words or characters that you type Unless it is specifically noted you can type the text in lowercase or Bold type uppercase characters For example cd access means that you type the lowercase letters cd followed by a space and the lowercase word access Indicates information that the user must supply such as filenames For example cd directory name means
36. lass B signal circuits All 6 circuit also have two power inputs one for every three signal circuits Every signal circuit is supervised for ground faults opens and line to line shorts VESDA HLI Module Provides a high level interface to control up to 30 VESDA LaserPlus Laser Compact Mini scanners or E70D units The module occupies a Mapnet channel address and requires a VESDA Net Interface Unit to connect to the VESDA units B2 Continued on next page 4100 Specifications Continued INDICATORS and DISPLAY KEYPAD CONTROLS SOFTWARE FEATURES Zone Status 2 line by 80 character backlight Liquid Crystal Display LED Status Indicators Alarm Fault and Isolate EXT Bell Isolate WARN SYS Isolate AC Power Audible Buzzer Alarm And Fault Indications Keypress feedback Operator Keypad AS4428 Firefighter Facility Ext Bell Isolate Warn Sys Isolate Prev Next Ack Reset Power Service Technician 20 keys including Alarm Test Fault Test Keypad Fault Isolate Battery Test and Lamp Test e WALK TEST System Test e Operator Access Levels 600 Event Historical Logging e Zone selectable Alarm Verification e Individual Circuit Disconnect Isolate e Nonvolatile Flash EPROM for field editable program changes B3 Card Troubles APPENDIX C 4100 Fault Messages If the LCD displays Wrong Card Abnormal 1st Line Shows Card Expected at this Address Reprogram System or Insert Proper Daughter Card
37. ll abnormal conditions If the visual indications change the problem is in the bad printed circuit board If the symptoms do not change check inputs and outputs from the now good printed circuit board Voltages and signals on the terminals should match the Voltage Chart shown below Note the voltages given in the chart are with reference to the negative of the 24V power Supply When field wiring is removed remove and mark one wire at a time Ensure that the wiring is properly replaced to prevent additional fault indications Use the Voltage Chart as required Positive Negative Temi o MONITOR CIRCUIT SIGNAL CIRCUIT SUPERVISED ANNUNCIATOR Figure A 1 Voltage Chart Continued on next page Troubleshooting Procedures Continued 10 Verify the ground status of the system by connecting the negative black lead of a voltmeter to the Earth Ground and connect the positive red lead of the voltmeter to the positive terminal of the 24V DC supply and check for the following readings Voltage Reading Circuit Status 12 14V DC Normal 15 21V DC Partial Positive Ground 6 12V DC Partial Negative Ground A3 General Expansion Modules APPENDIX B 4100 Specifications System Capacity 1 000 points of addressable input output devices or conventional zones Cabinet Size mm Dependent on system configuration Cabinet Material 1 5mm Mild grade steel Cabinet Finish Powd
38. n existing system must be shut down while the 4100 system is being installed notify the appropriate personnel building occupants fire department monitoring facility etc Warning After reading the information contained in this manual call your local Simplex Representative before proceeding to connect field wiring Do not apply AC or battery power to the 4100 system unless in the presence of a Simplex Technical Representative In this chapter Refer to the page number listed in this table for information on a specific topic Topic See Page pplied mentation h 2 nstallation Overview 1 1 Supplied Documentation The envelope that contained this publication also contains the following documents e Factory Documentation packed in a clear plastic envelope 4100 Field Wiring Diagram 841 731 e Field Wiring Diagrams Smoke Detectors 841 687 Field Wiring Diagrams MAPNET Devices 841 804 e 4100 4100 Fire Alarm Operating Instructions 579 314 Except for the last publication all of the above documents are required for system installation The 4100 Field Wiring Diagrams 841 731 are used when wiring peripheral devices to the 4100 panel These diagrams provide a pictorial reference on how to terminate wiring on all motherboards in a 4100 system Field Wiring Diagrams 841 687 should be available for the installer during installation of all peripheral devices auxiliary relays indicating appli
39. ntains voltage readings for various motherboard terminals and connectors and is to be used as required Do not take voltage readings on the system printed circuit board s ICs When troubleshooting the 4100 system check the obvious things first These are the LEDs toggle switches dip switch settings power clipped jumpers resistors city jumpers and wiring to include contractor installed field wiring all of which are located in the fire alarm panel Perform a visual inspection of the panel The following indications should be observed on the fire alarm panel 1 Normal LED indications a Green Power LED is illuminated b All other LEDs are OFF Note Ifthe green power LED is not illuminated check the AC input voltage 1 Toggle switches are in the centre normal position ii Fuses are good and are the correct values iv X Ensure dip switches are properly set v Field wiring is correct see Field Wiring Diagrams vi Correct jumpers and resistors are clipped Ribbon cables are properly installed If the alphanumeric display shows an abnormal indication on a module troubleshoot that circuit printed circuit board first Check the return field wiring to that printed circuit board to ensure proper voltage and signals are present If these signals and voltages are incorrect the printed circuit board is probably defective If the visual inspection of the panel was normal and the voltages are correct th
40. oard connector The daughter board will have an identical label The custom label identifies a location within a building or area and contains additional information concerning each circuit Also included with the custom label is the corresponding zone name This ties the custom label to a zone name and allows the installer to identify where field wires are terminated according to zone name examples 6TH FLOOR NORTH WING EXHAUST FANS FB25 15 FLOOR SOUTH WING VISUALS SIGNAL 2 3RD FLOOR EAST WING STROBES SIGNAL 40 This is the type of device indicating appliance initiating device relays etc connected to each circuit Each device type is abbreviated An operational description may also be included in the abbreviation example AHUM Air Handling Unit Monitor PRI Primary Elevator Capture The installer should use the System Point Summary when marking wires to the 4100 panel These markings should include zones ZNx ZNx signals SIGx etc for each circuit within the system Marking each wire in this matter will facilitate termination and checking of the wiring in the 4100 panel Continued on next page System Point Summary Continued XYZ HOSPITAL BLDG 1 SYSTEM POINT SUMMARY Page 4 00C0901 node 1 rev 10 11 23 35 MON 08 JAN 01 POINT SUMMARY
41. owed when the system is first installed during periodic tests or as required by local code Check local codes to determine how frequently your system should be tested Always inform appropriate personnel that you will be testing the system city Fire Brigade customer etc Important On completion of the tests ensure that all switches are in the correct operating position and that the system has been returned to its normal status Should a fault condition exist or if a circuit indicator did not illuminate when tested immediately contact your maintenance company to rectify the problem The battery test is performed to determine battery status To test the batteries perform the following procedures Note The system automatically tests the battery once a week on Tuesdays at 8 AM Any tests performed with the battery test key are in addition to these weekly tests 1 Unlock then open the panel door and remove the retainer 2 Read the battery labels If either battery is more than 4 years old replace the battery s 3 Ifthe battery is less than 4 years old press the battery test key the system will load the battery for one hour and signal a fault if the test fails Carry out a fire alarm call by simulating an alarm on detector zones as follows 1 Isolate any system outputs you wish not to respond to the testing of the system such as the exterior bell using the EXT BELL ISOLATE button the warning system using the EXT BELL ISOL
42. pping of the Network conductors is allowed Network wiring is point to point only Maximum line length between ports at 57 600 and 9600 bits per second is shown in the table below Maximum wiring distance 0 75mm sq TSP Wire 0 22mm sq TP Wire Communication Speed Maximum capacitance between Maximum capacitance between Pee conductors is 174 pf per meter conductors is 66 pf per meter 57 600 bps 3 000 m 2 300 m 9600 bps 5 600 m 4 000 m Table 1 4120 Network Maximum Transmission Distances Wired Network Fibre Optic Cable Characteristics All fibre cables shall be multimode graded index ST style connectors must be used No physical strain shall be put on the cables There must be no cable bends of less than a 50mm radius Two methods are available for joining fibre cable Splices provide a permanent very low loss fibre to fibre connection Couplers provide temporary connection between two ST style connectors with a loss of 1 2dB Both methods are permitted on a 4120 fibre Network The characteristics of the 4100 0143 fibre optic media card are as follows Mininium Launch Power into a 50 125 cable is 50 uW 13 dBm Minimum Launch Power into a 62 5 125 cable is 109 5 uW 8 6 dBm The maximum value for the minimum input sensitivity of the receiver is 1 0 uW 30 dBm Maximum line lengths for 50 125 and 62 5 125 cable are shown in the table below
43. re 2 3 hows an example and the appropriate page in the 4100 Field Wiring Diagram 841 731 for instructions on wiring that type of point 4 Install the peripheral devices and E O L resistors Refer to the Point Type column in the System Point Summary Report for device type Notes Wire peripherals in accordance with the appropriate 4100 Field Wiring Diagram 841 731 Wire a MAPNET II device in accordance with the appropriate MAPNET II Field Wiring Diagram 841 804 a Use a small screwdriver or ballpoint pen to set the MAPNET II device s address switches Refer to the note below for instructions on setting proper addresses MAPNET II device s address is represented by the final digit s in the zone s name See Table 1 1 for a complete listing of MAPNET II addresses address examples A device that connects to a zone named 1 2 must have its switches set to address 2 A device that connects to a zone named M1 117 must have its switches set to address 117 e Address zero all switches turned OFF is not a valid address e Switch number 8 is never turned ON b After setting the device address write the device s address on the address label to agree with the address switches 12345678 DIP SWITCHES ADDRESS 5 ADDRESS CODE WRITE IN THE E on ADDRESS HERE Address Label Marked for address 5 on channel 1 Figure 1 2 and Figure 1 3 Location of DIP Switches on
44. ress Label 2 Signal 4 External Bell Address Label 2 Signal 5 Warning System Address Label 2 This table represents standard job signal circuits only refer to the Card Summary by Location Report for all of the signal circuits on your job A Refer to the Card Summary by Location Report Figure 2 2 to determine the location of each card on the motherboard A stock on ADDRESS label on each motherboard identifies that board s number The Card Summary by Location Report is found within the computer printout portion of the Factory Documentation B Use the terminal identifier paper labels on the terminal blocks to find specific terminals See Custom Terminal Wiring Identifiers for typical custom terminal wiring paper label identifiers C Check each circuit for voltages shorts or opens as follows 1 With the meter set on 300V AC read the voltage across the circuit e Meter must read 0 volts 2 With the meter set on 60VDC read the voltage across the circuit again this time in both directions e Meter must read 0 volts 3 With the meter set on OHMS x 10 and its and leads connected to the circuit s and wires respectively check resistance e Readings must compare favourably with those shown in Table 1 3 e If reading indicates an open in a circuit that includes a smoke detector make sure the detector head s are properly mounted and seated Circuits always read open infinity
45. rminal block identifier label for the Brigade circuits is shown in AC Power Connect the AC Power after all other circuits are terminated The AC Power terminal block like other TBs is labeled for correct wiring Warning The main breaker for AC Power to the Fire Panel should be turned off when wiring AC Power Important Only Simplex representatives are authorised to apply AC or battery power to the 4100 system Continued on next page 1 9 Installation Overview Continued 8 Use the tie wraps in the System Hardware envelope to neatly dress the panel wiring 9 Re install the option bay door 10 Call your local Simplex Branch Office listed in the Yellow Pages to install the printed circuit boards and test the system Introduction In this Chapter Chapter 2 Programmer s Report Explained The Programmer s Report identifies peripheral connections within the panel and specifies system operational data The sections within the Programmer s Report normally required for contractor installation are explained in this chapter Refer to the page number listed in this table for information on a specific section in the Programmer s Report Topic See Page Card Summary by Locatio System Point Summar irtual Zone Summar irtual Zone Detail 120 RS232 Interface Report NO _ General Information XYZ 1 00C 01 This section contains branch office required information It de
46. roduction Zone Name Address Custom Label Point Type The System Point Summary is of primary importance to the installer Simplex personnel must provide this information prior to installation Call your local Simplex branch office listed in the Yellow Pages and request this information be provided This is used in conjunction with the Layout pages to determine wiring terminations and the information shown below Note The System Point Summary Report can be found within the computer printout portion of the Factory Documentation Zone names reference the custom label to specific points for actual customer wiring They include monitor zones ZNx signals SIGx auxiliary relays AUXx 24 point I O IOx and feedback FBx numbers Zones signals relays feedbacks etc are shown in numerical sequence Note Zones with a device type of LIST are virtual zones and do not represent actual points Note The last four signals circuits in Figure 2 3 SIG 15 19 in a job are not used in Australia You can ignore these Each printed circuit board requires a unique address Address O identifies the master termination module Up to 119 addresses one per printed circuit board may be used in a system Addresses may or may not be in sequential order but the report always starts with address 0 Two address labels are used for each mother daughter board combination The mother board will have its unique address label next to the P C b
47. s used to set its address and communication baud rate Verify each address and baud rate prior to installation of each board The system may contain up to 119 printed circuit cards each has its own address The CPU board is always address 0 Each printed circuit board address is a binary address that corresponds with a Custom Terminal Wiring Identifier white label on its motherboard daughterboard and the Programmers Report Match the address label on the motherboard to the address label on the daughterboard then install each daughterboard Table 3 1 shows a binary switch setting table which may be used to determine binary address and baud rate Dip switch positions 2 through 8 are used for addressing while dip switch position 1 is used for baud rates selection Check switch settings jumpers and resistors on each printed circuit board prior to installation Use the Custom Terminal Wiring Identifiers same address on motherboard and daughterboard Layout pages and the Programmer s Report to determine proper address and placement for each printed circuit board The dip switch on each board has been set to its correct binary address at the factory This binary address corresponds with a Custom Terminal Wiring Identifier label on each motherboard Match the address on the daughter card with the address label on the motherboard then insert the card Install the printed circuit boards from left to right and from top to bottom Continued on
48. tails branch personnel involved with the system system power data agency and software information The title at the beginning of the report should match the panel being installed Also note the build date It should be up to date If the report doesn t seem to match the current site contact the local Simplex TR HOSPITAL BLDG 1 0901 node 1 rev 10 GENERAL INFORMATION Page 11 23 35 MON 08 JAN 410 0 Fire Alarm System GEN ERAL Simplex Time Recorder Co INFO Nod Sys e Number 1 tem Type 4100 Job Filename Job Title Order Number Customer Customer Contact Contractor Salesperson Branch Number Branch Location Programmed by Agency Approval NFPA Standard Standby Generator Hours of Standby Battery Comments SAMPLE 4100 Job Rev Built Rev Built Date Programmer Rev System Defaults Rev Database DBF Format CFIG Format 00C0901 XYZ HOSPITAL BLDG 1 ACME FIR E ALARMS JOE FLAME 909 DIR NONI NONI NO Er Sl JOB FOR US 10 10 I IN THE INSTALLATION MANUAL 08 Jan 01 11 22 Current As Built A9 02 13 A9 02 13 100 100 160 160 96 96 Figure 2 1 General Information 2 2 Card Summary by Location The Card Summary by Location shows the number of cards within the system as well as the I Os on those cards Mainly use this section of the report to locate specifi
49. that you Italic type type the letters cd followed by a space and a directory name Indicates important terms or titles of publications Conventions Text in quotes Indicates the title of a chapter or section of the manual such q as How to Use This Publication e Bulleted lists Provides you with information They are also used to indicate alternatives in numbered procedural steps 1 Numbered lists Indicates procedures that you must carry out sequentially vii Related Documentation Information Covered The following table shows the recommended reading path for information related to the in Other Manuals 4100 4120 Fire Alarm System The document in boldface italic type represents this manual 4100 4120 Fire Indicator Panel Operator Manual 574 314 4100 4120 Fire Alarm System Installation Manual 579 315 4100 4120 Fire Indicator Panel Technical Manual 579 316 Chapter 1 Contractor Installation Instructions Introduction This chapter provides a logical sequence of procedures to follow when installing a 4100 system Refer to the notes below before moving on with the installation procedure Also see the next section for a list of documents referred to during the installation Important installer is responsible for safeguarding all 4100 material shipped to the job site During system installation store all 4100 items including all documentation in a clean dry safe place until needed Important If a
50. tinued on next page 1 8 Installation Overview Continued 7 Check and terminate all remaining circuits Auxiliary Relays Brigade AC Power MAPNET II etc according to the instructions below Auxiliary Relays A standard job has at least two Auxiliary Relays that must be wired The table below describes these two relays Refer to the Programmer s Report for the actual configuration of your system Table 1 4 Standard Job Auxiliary Relays Auxiliary Custom Label Card Location Auxiliary 3 Isolate Relay Address Label 3 Auxiliary 4 Fail Relay Address Label 3 This table represents standard job auxiliaries only refer to the Card Summary by Location Report for all of the auxiliary circuits for your job Note The Fail Relay Aux 4 is always held on in a failsafe mode by the software Marked on the termination label for auxiliaries are the connections N O Normally Open N C Normally Closed and C Common These connections are in the de energised state Brigade Circuits A standard job has two Brigade Circuits that must be wired The table below describes these two circuits Refer to the Programmer s Report for the actual configuration of your system Table 1 5 Standard Job Brigade Circuits Brigade Custom Label Card Location Brigade Alarm none CPU Board Brigade Fault none CPU Board As the table points out the Brigade circuits are now located on the CPU Board The te
51. ubleshooting procedures 3 2 Visual Inspection A visual inspection of the panel should be performed prior to installation of printed circuit boards as they obstruct the view of panel terminations when installed Visually inspect for the following g g 1111241 Neat terminations within the panel System wiring is complete and unused circuits are terminated Terminations are tight Ribbon cables from CPU board are properly installed both ends Battery cable is connected to the battery test facility P9 of the master power supply or P1 of an expansion power supply Green ground screw is connected to a unified building ground Inspect local and remote annunciators connections Verify that system is clean and free from wire clippings Switches are in the proper position toggle switches are centre Verify that the configuration chip and revision shown in the main menu match the Programmer s Report then check the following i File name 8 digits example 809005A ii Order number X digits example XXXXXX ii Revision number 3 digits example 006 iv Date 9 digits example 07 JUL 88 3 3 Install Printed Circuit Boards There are several types of motherboards and printed circuit boards for the 4100 system Each printed circuit board must be plugged into its proper motherboard for power and communications with the CPU Each 4100 printed circuit board has an 8 bit DIP switch SW 1 that i
52. x Technical Representative isual Inspection Install Printed Circuit Boards CPU Main Power Supply Boards with Components System Test Procedures 3 1 Installation Checklist for Simplex Technical Representative d uw uu 1 2 Step Procedure Use the Packing List in the Layout pages to verify delivery availability of all required system hardware This includes the printed circuit boards Unlock then open the panel door Remove the retainer by removing the top and bottom screws then squeeze and pull the two black plastic tabs located on the upper part of the retainer Lift the retainer from the back box Visually inspect the 4100 system Verify that all wiring is connected to the panel to include the unified ground Use a volt ohmmeter to check system wiring This includes all wiring to the panel local and remote annunciators etc Check the AC power input to the power supply Repair required circuits prior to powering up the system Check jumpers switches capacitors and resistors on all system printed circuit boards Match the address label on the motherboard to the address label on the daughter board then install each daughter board Install all wiring harnesses and cables except battery This includes auxiliary relay and signal cables Apply power to the system e Ifthe system is trouble free perform System Test Procedures e Ifthe system displays abnormal conditions perform tro
Download Pdf Manuals
Related Search