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MPC6000 RND-2 Installation, Operation and Maintenance Manual

1. REL EOL MODULE Notes 1 All wiring must be in accordance with Article 760 of NEC or local building codes Suomi 2 Polarity shown in active state ouan 0 NM own in de Active State 3 For Compatible Solenoids refer to table below 6 EMO 4 The maximum cumulative output current of the MPC The REL EOL ships REL must not exceed 3A ISI Lal with two resistors Use the 24K resistor 5 REL EOL module P N 500 696359 is required for Lr peii supervision of open and short circuits on the releasing circuit REL EOL must be in the same enclosure or c3 close nippled to the last solenoid in the loop 6 The MPC REL requires an RPT 1 transformer 7 Amechanical manual release must be employed to Releasing Rating meet NFPA 2001 requirements Power Limited 8 Releasing circuit maximum voltage line drop 0 6V Alarm Voltage 24VDC Filtered 9 Wiring shown complies with UL864 9 Edition Max Alarm Current 1 5A Releasing circuit requirements For Special Application Only Open Collector Rating Non power Limited Alarm Voltage 24VDC Filtered Max Alarm Current 200mA Circuit Compatible Solenoids NUMBER OF MAX OF APPLICATION MANUFACTURER OR SOLENOIDS IN SOLENOIDS APPROVAL SERIES PER CARD ASCO R8210A107 One
2. 6000 MPC 7000 RND 2 Fire Alarm System Control Unit Installation Operation and Maintenance Manual MA Ay FN Siemens Building Technologies Inc 8 Fernwood Road Florham Park NJ 07932 Tel 973 593 2600 Fax 973 593 6670 Web www faradayfirealarms com P N 315 447309 7 12 07 07 9 Edition TABLE OF CONTENTS INTRODUCTION eser 1 CONTROL UNIT L IMITATIGONS erii 1 INSTALLATION AND WARRANTY 2 Installer 2 Original Purchaser Information d pad dei CHART BL 2 PREFACE mE 3 MPC 6000 SYSTEM 4 4 X1 Addressable EENER NAR eO 4 Notification Appliance GITCUILS a Hebe Hee QURE LA ERES 5 Serial Interface rae Avg 5 SAUS WIE EE 5 Programming Port Jas o o mi roa ERE RR E
3. 74 APPENDIX H LCD CONTROLS AND INDICATORS eese nnne nnne nrin innen inuenire 75 Communication Port 2 22 2 44 0260000000000000050000000 05554406 600005599944 a E aaa aaia 75 LEDS Sounder and Dedicated Push 20022202 00 75 Alphanumeric Keypad doa ppt S 76 LCD Display t E dati hp ueni ote ptr e n 76 APPENDIX OUTPUT FEATURES nerit rene eret E eerie o Enn To Fn ig ua eant aire a ra eme nu teeters 78 APPENDIX J PAS PRE SIGNAL ccrte Enna prn bn ER rra nana EE nR Emo nana 80 APPENDDCK DIAGNOSTICS LEDS 1 1 pma ara reo DA 82 APPENDIX L DACT INFORMATION nnne nn nnne nnn tnn nein nnn nn nn nennen nn nnn 83 APPENDIX M NETWORK OVERVIEW cerent nnn inen nena anne tnn nnns 87 APPENDIX N DIAGNOSTIC PRINTER 5 neret rnnt nnnm uh nnm ano 90 APPENDDCO GLOSSARY 2 rie repr reote sce
4. Line Resistance ohm 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 Max Number of Devices Per Loop FDLC LINE RESISTANCE vs MAX NUMBER OF DEVICES Note The total number of devices can not exceed 252 Nore The terminal blocks of Faraday X1 devices are rated for a maximum of 14AWG wire 60 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL BATTERY SIZE CALCULATIONS MPC 6000 Current Calculations Panel and Module Current Standby Current A Alarm Current A MPC 6000 Control Unit includes one loop driver board 0 190 0 190 CT 1K City Tie Standby 0 005 Alarm Table 1 NA MPC DACT Board Standby 0 038 NA Alarm 0 054 NA MPC REL Standby 0 017 Alarm 0 050 Total Panel currents Include the total releasing circuit and open collector devices current draw in the appropriate column Place these totals in the Total System Current Table Go to Auxiliary Module Current calculations RND 2 Current Calculations Panel and Module Current Standby Current A Alarm Current A RND 2 Control Unit no loop driver board 0 090 0 090 CT 1K City Tie Standby 0 005
5. 5 MPC 7000 SYSTEM DESCRIP ON tit itai lan ated RE ELDER b e Latt ie beet 6 FOWer d en aum oe T Mee tu i eit 6 1 eee oe Deo cerato da 6 Notification Appliance Circuits 1 7 Serial Interface eed dt rete oe ha tg npe e e eU RR epa deg e regna da seis ea de 7 CHIMIE davies 7 7 RND 2 SYSTEM DESCRIPTION 2 2 aed rete 8 PoWer SUpply RAE RR ERE Seg tee ceo TENA 8 Serial Interface CIFCUIL i i re ce ie ad ad e hee o oe deel EE TR get Eee Ao 9 Status IEEE 9 Programming Mara 9 5 iere rere ette ha dte e e Eee Aaa 10 CT 4K City Tie Board uiii ed ee eee ERR ee VERE ded vn a ee A RR tedden eaa eue ies ae d eeu d ue 10 MPC DAGCT Board ad lets 10 peo Wr HEREDI 10
6. 59 WIRE SELECTION GUIDES doe e aen 59 Resistance of Solid Copper 2 2220 000000 000000000000 esee annee a nnns 59 Addressable Device Circuit Wire Selection enne nnne nnne 60 Line Resistance Graph ai Ee deans MR Coo 60 BATTERY SIZE CALCULATIONS RERO ig Sets nang ok ee 61 6000 lt ag ee Ae 4 61 RNEP 2 Current Calculations fet tee a REED s RE fs Sea te eines Mon aaa 61 MPC7000 Cu rrent Calculation noi Eee esie tete terio RU pM eee edite 61 Auxiliary Module Battery 62 Device Current vi ve Qo vse ee 62 Total System CUON S a a ie EE axo o P od gae ae E Fo a Peas tees nae Feet de 63 Batlery SiZe nio deor D e pea eoi ia E Redi Eta RS 63 APPENDIX B COMPATIBLE 64 DEVICES FOR ADDRESSABLE 5 ener nene 64 Faraday X1 Manual Pull Stations ssss esses ese
7. Uu Addressable Device Circuit IN QUT Do Not Use Circuit Auxiliary Power Serial Interface Circuit 0 4A max 24VDC nominal filtered 31 DC max X X RS 485 levels Wire Type Twisted Pair For Data Wire Resistance 11 ohms line 4000 max Supervised Power Limited See the following Installation Instructions for Compatible Devices RDC 2 P N 315 049103FA RDC 3 P N 315 049700FA if applicable SLU 2 P N 315 447345 SRU 2 P N 315 447344 Remote Device Power When connecting devices on the serial interface circuit a limited amount of current is available from the control unit If more current supply is required for the connected devices auxiliary power must be provided Each address on the circuit must be fully powered from either control unit or auxiliary power no combined source can be configured 49 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Serial Remote Device Wiring Overview When connecting devices on the Serial Interface Circuit the data wires must be daisy chained and wit
8. 7000 GS B PORT 1 1 RND 2 SH QA x 8 ponr 2 1 SEE PANEL 24 4 9154 HOOKUP 24 FRAME GROUND FRAME GROUND CAT 5 NETWORK CABLE 1 3 000 FT BETWEEN NETWORK INTERFACE BOARDS z 24 X A 24V 8 PORT gs232 COMMON a S Sn NIB RESET 6 N PORT 2 5 N _to apomowaL Network Ca INTERFACE BOARDS RS252_ PORT 99 MAX PER SYSTEM 1 070 L SAME ROOM ALL ABOVE CIRCUITS ARE POWER LIMITED Figure 7 12526A Connection to the Printer 94 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL To configure the printer NIB the CIS 4 configuration tool follow the steps listed below 1 Power up the system 2 Connect the programming cable between the laptop and the NIB 3 Right click on the printer node and choose the write command 4 The LED on the NIB will flash briefly indicating the NIB has been configured Since the printer capability is always on there is no need to configure it Every panel however has the capability to turn the printer off using the Tech menu lt Network Setup Once enabled everything will be printed to the network that is picked up by the printer node mH The printer is unsupervised Refer to the MPC NET2 Owner s Manual P N 315 049594 for more information 95 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL APPENDIX
9. TOTAL Modules DEVICES Note2 7 Use the Total Panel Modules Devices for the Battery Size Calculations Battery Size Total Standby Hours of Standby Required AH for Standby Current per NFPA 72 Standard Note 3 4 from above 4 24 or 90 x Hours Total Alarm Current 5 Minutes of Alarm AH for Alarm from above Operation Note 3 4 per NFPA 72 Standard x 0 09 Hours for for Calculated De rating A H Required Standby Alarm A H Factor Battery Capacit Oooo de da X125 e 1 An additional multiplier is included to compensate for the higher discharge rate in alarm Battery capacity decreases with age 2 The Standby current Alarm current for an MPC 6000 must never exceed 3 0 Amps when using the two supplied transformers and 6 0 Amps when using the supplied transformers and the NPE 1 optional transformer assembly The Standby current Alarm current for MPC 6000 with releasing must never exceed 3 0 Amps when using the two supplied transformers The MPC REL releasing circuit and open collectors must never exceed 3 0 Amps using the supplied RPT 1 transformer The Standby current Alarm current for an MPC 7000 must never exceed 5 0 Amps when using two supplied transformers and 8 0 Amps when using the supplied transformers and the NPE 1 optional transformer assembly The Standby current Alarm current for an RND 2 must never exceed
10. Alarm Table 1 NA MPC DACT Board Standby 0 038 NA Alarm 0 054 NA Total Panel currents Place these totals in the Total System Current Table Go to Auxiliary Module Current calculations MPC 7000 Current Calculations Panel and Module Current Standby Current A Alarm Current A MPC 7000 Control Unit includes two loop driver boards 0 450 0 500 CT 1K City Tie Standby 0 005 Alarm Table 1 NA FDLC Loop Standby 0 150 N A Driver on LEM 1 Alarm 0 150 N A HBC 1 Standby 0 0 N A Loop Expander Bd Alarm 0 N A 0 NEM 1 Standby 0 015 0 015 N A NAC Expander Bd Alarm 0 250 N A 0 250 MPC DACT Board Standby 0 038 NA Alarm 0 054 NA Total Panel currents Does not include charging current of 1 9A for fully discharged battery Place totals in the Total System current table Go to Auxiliary Module Current calculations TABLE 1 When using the CT 1K City Tie Board add the following currents for standby and alarm for features being used Type of City Tie Connection Standby Alarm 1 Local Energy 0 007 0 020 Reverse Polarity Alarm Output CA 2 Alarm 0 0 020 3 Alarm w Trouble 0 0 020 4 Reverse Polarity Trouble Output CT 0 020 61 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Auxiliary Module Battery Calculations Panel and Module Current Standby Current A Alarm Current A RDC 2Remote Standby 0 048 X_ 20202 Annunciator Alarm 008 X INA RDC 3
11. 31 Electronics Package2 6000 2 0000 0 06 0 60 in tnn anam 31 Electronics Package RNDR ibe net ct RR rrt o E Eu ere Er 31 With NPE 1 Transformer Package i d oA REED RE ERRARE ence Peed eed 31 CAUTION a irit rege ettet o Ee HEU ACD Uo e E ee attain b e edi ed ede ur idet ete 32 CONTROL UNIT LOCATION ee ale itte Dante dde t ddp ci dient c dio oL edid ead 32 INSTALLATION CDM 32 ENCLOSURE MOUNTING irrito dee nce desee te coe aide sede aditus e esee due nude dese d aude ecd aude 32 6000 and RND 2 Enclosure Mounting Pictures esses enn 33 MPC 7000 Enclosure Mounting Pictures eese sisse eene nnne enhn 34 Remove Knocle QUIS d tere e D E Le p e E DERE EE HE f e o Fe a EE Dee E EE B LEE UE Pa eO ie ai 34 Main Board Installation P N MPC6 MB MPC6 MB2 MPC7 MB sse nnns 35 Bridge Rectifier Installation P N 130 3223 36 Transformer Mou nting ii Terre E Feo AEEA ene Ea a nena en eR EEE A EREA va ena na daas 37 Loop Driver Board s Mounting esee enint nennen enean dees seen rennen 38 Display Board Installation P N MPC 6 7 DB MPC6 DB2 RND2 DB 2 2 39 Keypad Connectio
12. NAC Expansion Boa nad aq a PR a ERE ELS 10 EEM 1 Eoop Expander Board te ete 10 EDEC Loop Driver Board i ER te iate dan du RN 10 HBG sT Battery CHENG CF iu ur cr Et ate n a ee eus 10 5 8 o Ried am boda a alia aided ties ta ee eet cae 11 MPC REL Releasing Module MPC 6000 Only 11 T2600 93AC C bac cda Ue ud ut E URDU tes ihr 11 125234 x iesu otim te teils eats thes een inl Ui Ln ee ea aba 11 12920A ot c I Ela UM d ut bd D M tst 12 12525 dn lisse tr M La ed ted DN ESI 12 t MALADIE REI LEA Mo ti Ri Ud e 12 DUX ME 12 AUXILIARY MODULES reote tice ee dee tci rue delat d d ade ee acceded 13 Serial EGD Anntnciators ue eere oho ole enata tabo petet oai ted leta coge 13 Serial Relay Unit and Serial Relay sesenta nnne rentas 13 Serial Annunciator Unit and Serial Annunciator Extender s seen 13 RSE 300 Remote Signal 13 XT ADDRESSABEE DEVIGES ttn vet reti bene dert date 14 Fire Smart Smoke 2 2 1 1
13. B ou IN Dal j UU D IR Ini o x a S puris o LL x 9 LN O O OUT gee 4i 41621 ND CRM CN Diagnostic Printer Connection 61 IR TES e FD LC O o Auxiliary Power T j O 4 J6 Figure 2 RS232 Connection for HyperTerminal 91 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Following is an example of the Events Output on a HyperTerminal connection fs250 HyperTerminal olx File Edt View Call Transfer Help es as 10 10 2006 12 04 37 Active 1009 Not Prgrmd 10 10 2006 12 04 38 Active 1007 Not Prgrmd 10 10 2006 12 04 39 Active 1006 Not Prgrmd 10 10 2006 12 04 39 Active 1004 Not Prgrmd 10 10 2006 12 04 40 Active 1003 Not Prgrmd 10 10 2006 12 04 40 Active 1002 Not Prgrmd 10 10 2006 12 04 41 Active 1001 Not Prgrmd 10 11 2006 11 16 24 Restore PC Pgmr Trb 10 11 2006 55 06 gt TRB Active RD 10 Incompat RD 10 11 2006 55 08 gt Restore RD 10 Incompat RD 57 gt Power Up Ver 09 08 06 7 01 1 9 BootCtr 008 57 gt Power Up PRST Ver 6 CONFIG er 125 10 12 2006 08 43 57 gt Panel Reset by SYSTEM 10 12 2006 08 44 03 gt Resettable device power valid 08 44 12 gt TRB Active Rel Mod Batt Missing 08 44 17 TRB oa Rel Mod Batt Missing 10 12 2006 08 55 45 gt Power U 09 08 06 7 01 1 9 BootCtr 009 10 12 2006 08 55 Power Up PRST Var 6 CONFIG V er
14. The main board mounts in the rear of the enclosure The power supply is physically contiguous with the main board The MPC 6000 main board MPC6 MB 6 2 provides the connections for external field wiring Optional boards mount on the main board or on the rear of the enclosure The display board MPC6 DB or MPC6 DB2 mounts on the inner hinged plate All normal operation is controlled via a membrane keypad Displays are provided by an 80 character alphanumeric backlit LCD display and by discrete LED indicators for major control unit functions The 80 character 20 x 4 LCD is used to display event data including alarms and troubles identification of zone or device and presentation of history The display is controlled by a set of four push button switches commanding the control processor A back light is included in the display to assure visibility in low light but to conserve power it is only activated during a reported event or on operation of a display control switch Individual LEDs on the panel are provided to indicate SYSTEM ALARM PREALARM SUPERVISORY ALARM SILENCED SYSTEM TROUBLE and AC POWER ON Direct push button controls are provided for ALARM SILENCE ACKNOWLEDGE MENU and SYSTEM RESET For MPC 6000 Electronics Package2 LEDs for Releasing application PREDISCHARGE ABORT DISCHARGE are also provided Power Supply A 24V nominal power supply provides all operating power to the control unit for both stan
15. 13 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL X1 ADDRESSABLE DEVICES Fire Smart Smoke Detector The control unit processor sends the sensitivity and pre alarm settings to the detectors and polls the detectors as to their status The detector determines normal trouble pre alarm or alarm conditions and communicates the status to the control unit e Variable Thesholds The detectors can be set to operate in various pre programmed optimizations depending on installation locations e Operator Alerts The control unit can trigger an alarm or trouble automatically on the occurrence of a number of conditions of the detector These include but are not limited to Maintenance alert Pre alarm alert No response Incorrect response Multiple response Heat Detectors Addressable heat sensing detectors may be intermixed on the circuit for locations where heat sensing may be the most effective detection mode The heat detectors may be programmed for rate of rise operation Addressable Modules Monitor and Control In addition to detectors the circuit can communicate with addressable modules allowing initiating devices or notification appliances with local power sources to supervise the power sources and generate event conditions Manual Stations Addressable manual stations may be intermixed on the circuit with proper response programmed into the control unit Programming X1 Devices X1 devices can
16. Detector Pre Alarm Conditions A pre alarm condition is annunciated by pre alarm LEDs and buzzers on the control unit and LCD Annunciators and Remote Processors The LEDs flash and buzzers are on steady until acknowledgment Acknowledging the pre alarm condition puts LEDs on steady and buzzers off If pre alarm has been acknowledged and the system restores to normal the condition clears Fan Restart If the fan restart feature is implemented the input keyswitch Independent Fan Restart procedure with fan restart usage must be initiated to deactivate the hold thru reset output A supervisory condition will be annunciated that will clear when the keyswitch is restored to its standby state Fan restart can also be initiated from the front panel user level If fan restart is initiated from the panel Global Fan Restart procedure all outputs with hold thru reset output type will immediately deactivate Di Ifa Global Fan Restart procedure is initiated precaution must be taken to prevent physical damage to the fans dampers air ducts and other equipment For example staggering fan activation to avoid power surges and verifying that dampers are opened before the fan activates to prevent damage to the air ducts These parameters must be monitored and controlled by another method technique that is not discussed in this manual Maintenance In order to ensure continued safe and reliable operation of the fire alarm system periodic inspection a
17. CAUTIONS 1 Remove the printed circuit boards for any procedure that may cause dust metal shavings grease or such matter that may affect the operation of the boards to get in contact with the units 2 Disconnect all sources of power prior to installing or removing modules connecting or disconnecting wiring and programming jumpers CONTROL UNIT LOCATION The control unit should be located near an exit at ground level where the normal ambient temperature is maintained within the control unit specification See General Specifications The unit should be in an area that is free of dust vibration moisture and condensation Any auxiliary battery box or other accessory not connected through a protective device or a circuit designed for remote connection must be within 20 ft and in the same room connected through electrical conduit INSTALLATION The enclosures must be fastened securely to a clean dry shock free and vibration free surface in a protected environment Consider the following when mounting the box e Mounting height for visual and manual access to the display and keypad e Weight and size of backbox e Local mounting codes When mounting the backbox position the backbox clear of obstructions so that the door can open freely and so that indicators and controls are easily accessible The fire alarm control unit must be mounted in a properly accessible location as required by applicable codes Any auxiliary battery box or o
18. 1 ADDRESSABLE DEVICE CIRCUIT Addressable Device Circuits Style 4 Class B or Style 6 Class A Operation 24VDC nominal filtered 31 DC max 0 375 Amp Max Wire Resistance 50 ohms max See Appendix A Line Resistance Graph Supervised Power Limited See Appendix B for Compatible Devices MPC 7000 X1 ADDRESSABLE DEVICE CIRCUIT 51 Wavy Addressable Loop Circuit 1 Addressable Device Circuit Style 4 Class B or Style 6 Class A Operation 24VDC nominal 31VDC max filtered 0 375 Amp Max Wire Resistance 50 ohms max See Appendix A Line Resistance Graph Supervised Power Limited See Appendix B for Compatible Devices L Addressable Loop Circuit 1 Addressable Loop Circuit 2 Serial Interface Circuit IN amp OUT MPC 6000 MPC 7000 R
19. FDLC 8 auxiliary Power 122 05 2 ei Circuit T OG 10 O Bi s O 2 se 8 20 OO 9 O 51908 4100 17 RD 16 alo o 15 T 1150 ee Figure 1 DB25 RS232 Diagnostic Printer Connection 90 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL MPC 6000 7000 panels can also be connected to a computer running terminal emulation software using RS232 9 serial cable Terminal emulation software is a communication program that is designed to emulate various types of text terminals configured to be connected through a modem or directory over a serial port HyperTerminal is a terminal emulation program that is typically bundled with Microsoft Windows operating system See Figure 2 below for wiring connections Its communication parameters must be as follows Baud Rate 19200 Data Bit 8 Parity None Stop Bit 1 Flow Control None Following are the pin connections to connect the computer serial connector Main Board RS232 DB9 Terminal TB4 computer serial connection Pin Number RX 3 RXD TX 2 TXD GND 5 56 Addressable n Device Circuit
20. FDLC x GF Plus FDLC x loop detected a positive ground fault FDLC x Not Resp FDLC loop x is not responding FLASH FATAL Trb Configuration Flash memory trouble GRD FAULT Trb System detected positive or negative ground fault LCDxx NoRespons LCD Annunciator xx programmed but is not responding LCDxx Trouble LCD Annunciator xx reports trouble MNLP Bad Ms Main processor to loop processor communication trouble MNLP Fifo Xmit Main processor to loop processor communication trouble MNLP NoRespons Main processor to loop processor communication trouble Multiple Devices at Address Multiple device types are responding on the same loop address 1aaa Must Resolve 1 loop aaa device address NACxx Trouble NAC xx wiring is open or shorted NC xx Trbl Open or short circuit detected on NAC xx Nib Com Trb NIB is not respondin NN GR DsblI MAIN Group at Node NN Grou has been disabled NN NC xx DsbI MAIN Group at Node NN NAC xx has been disabled NN Xaaa DsbI MAIN Device at Node NN Loop x Device aaa has been disabled NN xx ComFit A panel or node is removed from the network NN ZN xx DsbI MAIN Group at Node NN Output Zone xx has been disabled NW Fwd Link Single break detected on NIB network communication port NW Node Cnt Wrong number of nodes has been programmed or a break is detected on the network NW Rev Link Single break detected on NIB network communication port Single break detected on NIB network communicati
21. MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Nameplate CAUTION HScawcr ar Tes nn 8702 8703 PROGRAMMING LOOP 1028702 MODULE FOR CONTACT DEVICES 38705 DUAL MODULE FOR CONTACT DEV REFER INSTL INSTR P N 315 0049475 ALL TERMINALS ARE POWER LIMITED IARAA usa FLORHAM PARK NEW JERSEY 25 3 Nameplate CAUTION DISCONNECT WIRE AT TERM f 8704 E 4 LDDP ADDRESS 8704 MODULE FOR CONTACT DEVICES w R FOL RESISTOR REFER TD INSTL INSTR P N 315 049475 470 pb TERMINALS 1 2 3 4 amp 5 ARE POWER LIMITED mamana amusa FLORHAM PARK NEW JERSEY 3704040 Nameplate 8701 470 1 44 SX 140 820164 EARTH _ GND 24 ORG ORG GRN BLK RED TD INITIATING TO NEXT DEVICE CIRCUIT ADDRESSABLE DEVICE CAUTION DISCONNECT WIRE amp BEFORE PROGRAMMING lt A ER LIMITED Loop ADDRESS 8701 MODEL FOR CONTACT DEV REFER TO INSTL INSTR P N 315 049480FA t FLORHAM PARK NEW JERSEY 575 049480 REY 0 MADE IN U S A 65 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL DEVICES FOR NOTIFICATION APPLIANCE CIRCUITS Refer to P N 315 096363FA for a list of compatible notification appliances Accessory Devices Faraday Cat Mfg Part Number Description No Faraday R711 1 711 1 Polarized Auxiliary Relay RSE 300 RSE 3
22. for procedures in programming these features PAS When an alarm causing device associated with a PAS input group is initiated the alarm condition is reported on the panel The activation of its timeout group outputs e g NACs output relays are delayed for 15 seconds PAS delay time waiting for a manual acknowledgement response If no response is received within 15 seconds the panel proceeds to activate the associated outputs See Figure A If the alarm event is acknowedged during the PAS delay time the programmable PAS investigation time 60 180 seconds is added to the PAS delay time before the audible is activated See Figure B However if a 2nd alarm is initiated anytime during the PAS delay time or PAS investigation time the audibles are immediately activated See Figure C Pressing the Reset button at anytime during the PAS sequence will initiate a reset condition and restore the panel to stand by state 80 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL 1 Alarm initated Rosel Pas 1 1 Delay time Audible 1 Figure A xul PAS Normal Audible OFF Sequence l I I Alarm l Acknowledge Audible ON l Investigation Figure B time When Ack before Audible OFF Y i i PAS delay time I 1 2 Alarm initiated i tot Audible ON Figure C na W
23. 0 100A Additional Transformer Optional Transformer Sub assembly NPE 1 e Provides an additional 3 0A of NAC power max 1 per panel 20 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL MPC REL Optional Releasing Module for MPC 6000 only Two power limited releasing circuits Four non power limited open collector circuits Releasing Circuits are rated at 1 5A at 24VDC filtered Open Collector Circuits are rated at 200mA at 24VDC filtered Maximum cumulative current output must not exceed 3A Each Releasing Circuit requires REL EOL module P N 500 696359 installed as close as possible to the last solenoid for proper wire supervision Requires an RPT 1 transformer Nore REL EOL module P N 500 696359 is required for supervision of open and short circuits on the releasing circuit REL EOL must be in the same enclosure or close nippled to the last solenoid in the loop 21 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL CONTROL UNIT OPERATION OPERATION INSTRUCTIONS Standby Condition In normal standby operation the green AC POWER ON LED should be illuminated and no other indicator operating The display will show the system label and the current date day and time Alarm Conditions e GENERAL ALARM When a general alarm occurs all NACs with output type set to ALARM activate To activate a general alarm proceed as follows e Press MENU On the MENU di
24. 00000000000000000000000400 iaaa 14 Heat Detectors ioo apt bin pO lame a etnia pni es 14 Addressable Modules Monitor and Control sesenta renes nnns 14 Manual Stations uie E 14 1 A oi i b 4 E eid Qed Piles EE ele 14 EVENT HISTORY e cece Math a diis Mec iia 15 GENERAL DESIGN EEATURES irt nnb M RM MTM 16 Environmental meon C ER 16 PoWeI LImliting s eiit RR n RE Aa eat EUR RED RD a n Pe ve o oe ARE PARE aa o Re e 16 Ground Fault Detection a x bo Deinen ai est 16 E EC 16 Transient Protection EO SE e ett dte e Moe ines tad ea dut redes 16 Security Features opi else RE BA pal CR da Jods o Me pad a dU EE PO pagal a E ieee eae 16 REGULATORY STANDAR D S 11a rese e RE e Eo eec 17 Federal Communications Commission esses essen nennen enne shes ninh nnne nnne nna nnns 17 Underwriters Laboratories poe n HM ep elect eed E a EH He Hog REM 17 GENERAL SPECIEIGATIONS iiid nities en reete ec teed e Dec ced e Pea bU ed ec Pea ded edades eque eget 18 Environmenltal lie anise tiie sl esse aids bile 18 EON 18 Secondary Power Supply x nti ee tege uen e LE Cea Eten te tero oen Raga de cete ete net ie Ped 18
25. 042 load of each LED or lamp Total current requirements Must be less than or equal to 0 750 Maximum module current draw from the system Does not include the current draw from releasing circuit and open collector RND 2 System Power Requirements Device Item Max Amps RND 2 Control Unit No FDLC 0 090 0 090 Auxiliary Power Outputs Depends on devices installed CT 1KCityTieBoard 05 MPC DACT DACT Board 0 054 RDC 2 Remote LCD Annunciator 0 085 Total current requirements Must be less than or equal to 0 750 MPC 7000 System Power Requirements Does not include NAC power Device Item Max Amps MPC 7000 Amps MPC 7000 Control Unit Includes 2 FDLCs 0 500 0 500 FDLC Loop Driver Board 0 150 x of FDLCs on LEM 1 NEM 1 Signal Expansion Board 0 250 0 250 Auxiliary Power Outputs Depends on devices installed CT 1K City Tie Board 0 055 MPC DACT DACT Board 0 054 RDC 2 Remote LCD Annunciator 0 085 SRU 2 SRE 8 Serial Relay Unit 0 032 0 020 A for each rela i a m SLU 2 SLE 16 Serial Annunciator Unit 0 042 load of each LED or lamp BRE Total current requirements Must be less than or equal to 3 220 Does not include charging current of 1 9A for a fully discharged battery Auxiliary Power Supply an RSE 300 auxiliary supply when power requirement calculation indicates that an additional source is required For further infor
26. 24 VDC 2 UL NFPA 13 T8210A107 One 24 VDC 2 UL Pre Action Deluge SKINNER 7321GBN99N00N0C111C2 One 24 VDC 2 UL LV2LBX25 One 24 VDC 2 UL ASCO HV21832 6 Four 6 VDC 8 UL P N 2823A 2NB A4F5 Two 12 VDC 4 UL NFPA 2001 HFC 227ea SNAPTITE P N 2823A 2NB A4F6 One 24 VDC 2 UL P N 2823A 2NB A4F4 Four 6 VDC 8 UL P N 932594B One 24 VDC 2 UL Note 1 Single 12VDC and 6VDC solenoids are not supported If 6VDC solenoids used four solenoids in series must be used If 12VDC solenoids are used two solenoids in series must be used Note 2 It is not permitted to mix one 12 VDC solenoid with any combination of 6VDC solenoids 48 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Serial Interface Circuit The serial interface circuit can address up to 16 standard annunciators and or 8 remote processors to drive graphic annunciation or relay modules Devices on the circuit may be connected up to 4000 feet from the control unit At the top of the main board the terminal blocks are used for the connection of remote serial devices AOLE
27. MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Battery Sets The MPC 6000 MPC 7000 RND 2 control units are designed to use only rechargeable sealed lead acid batteries for back up power Attaching a close coupled battery box if required may allow use of battery sets beyond the physical capacity of the enclosure 12 AH for the MPC 6000 and 18 AH for the MPC 7000 Maximum battery charging capacity for the MPC 6000 is 38 AH Maximum battery charging capacity for the MPC 7000 is 38 AH Some of the battery models are listed in the table below Model Number Description Part Number Panel BT 34 10 Amp Hour Battery Set 175 387140 MPC 6000 7000 RND 2 BP 61 15 Amp Hour Battery Set 175 387194 MPC 6000 7000 RND 2 BTX 1 31 Amp Hour Battery Set 175 083897 MPC 6000 7000 RND 2 BTX 2 55 Amp Hour Battery Set 175 083898 MPC 7000 with HBC 1 BTX 3 100 Amp Hour Battery Set 599 034220 MPC 7000 with HBC 1 MPC REL Releasing Module MPC 6000 Only The MPC REL Releasing module is an optional accessory for the MPC 6000 Fire Alarm System Control Panel that allows the panel to control Sprinkler Systems Pre Action Deluge Water Spray Systems and Clean Agent Fire Suppression Systems via approved solenoids NFPA 13 NFPA 750 and NFPA 2001 The MPC REL provides two independent releasing circuits with a capacity of 1 5 amps each This module is controlled by the panel All of the operating parame
28. MPC 7000 control unit has two addressable device circuits expandable to three or four utilizing the X1 Detection Technology Each circuit has the capacity for 252 addresses MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Notification Appliance Circuits The MPC 7000 control unit has four expandable to twelve independent Class B Style Y notification appliance circuits NACs Pairs of NACs can be combined for Class A Style Z operation This reduces the number of NACs to two six Each circuit can be selected to give continuous output or one of five sounding patterns There is also a system coder capable of zone coded operation All of the NACs are power limited and support synchronization of listed devices via the Faraday SYNC Protocol Serial Interface Circuit The MPC 7000 control unit has a Serial Interface Circuit that will drive up to 16 remote LCD annunciators and up to a total of 8 Serial Relay Units and Serial Annunciator Units Status Relays Four relays with dry contacts are provided Three relays are programmable and the Trouble status relay is non programmable The relay contacts are Form C and are rated for 1A 28VDC resistive Programming Port RJ 11 jack is provided for a non isolated RS 232 connection for temporary connection to a computer for panel programming MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL RND 2 SYSTEM DESCRIPTION The RND 2 is a Remote
29. Must report on both If the event needs to be reported to either Account 1 or Account 2 set it to Can report on both If it has to be reported to Account 1 but only needs to be reported on Account 2 if Account 1 is temporarily out of order set the event to Must Report on Account 1 and Can Report on Account 2 Following are examples for illustration purposes Scenario 1 Must Must Alarm event is set to Must Report on Accounts 1 and 2 SU Step 1 Panel goes into alarm Step 2 Panel tries to send event to N Account 1 but is unsuccessful a Step 3 Account 1 Account 2 Panel keeps trying to send event to Account 1 until the programmed Number Of Attemps has been reached Step 4 Panel switches to Account 2 and attempts to transmit but is unsuccessful there too Step 5 Account 1 Account 2 Panel keeps trying to send event to Account 2 until the programmed Number Of Attemps has been reached then switches back to Account 1 Y Step 6 Panel sends event to Account 1 successfully Step 7 Panel switches to Account 2 and transmits successfully Done 84 Account 1 Account 2 Account 1 Account 2 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Scenario 2 Mus
30. the battery connections J4 must be made along the left hand side of the main termination board P N MPC6 MB or MCP7 MB Route all high voltage and non power limited wiring together and away from power limited wiring Use the battery calculation chart to determine battery size See DS ZA INS Battery Connections 4 TX 1 Supervised B D Non Power Limited For MPC 6000 24V Battery Set 7 to 38AH AC AC Supervised ron 24V B is Y Set EARTH GND to 120 VAC 60Hz e up to 100 AH if HBC 1 Battery 2 4A Max MPC 6000 RND 2 AA BAT Charger is used 3 54 MPC 7000 Non Power Limited For RND 2 24V Battery Set 7 to 38AH Keep All Non Power Limited Wiring Separate from Power Limited Wiring Status Relays and Auxiliary Power Outputs Wiring The right side of the main board provides for connection of status relay contacts TB5 8 and auxiliary power connections 9 Four relays with dry contacts are provided Three relays are programmable for various output types The relay contacts are Form C and are rated 1A 28VDC resistive The right hand edge of the main termination board 9 provides for resettable and non resettable auxiliary power connections The resettable terminal TB9 R interrupts the power for 6 seconds after a reset condition Auxiliary
31. 0 MPC 7000 RND 2 This is a line surge suppressor module that allows the NIB cards to be installed in a separate building location This module is installed in a 12525 surface box enclosure that is installed external to the panel Refer to the MPC NET2 Owner s Manual P N 315 049594 for more information 12535 MPC 6000 MPC 7000 RND 2 This is a multi mode fiber optic converter that is installed in NIB cards Refer to the MPC NET2 Owner s Manual P N 315 049594 for more information 12536 MPC 6000 MPC 7000 RND 2 This is a single mode fiber optic converter that is installed in NIB cards Refer to the MPC NET2 Owner s Manual P N 315 049594 for more information MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL AUXILIARY MODULES Serial LCD Annunciators The RDC 2 Serial LCD Annunciator consists of a backlit 80 character 20 x 4 alphanumeric LCD display 4 menu buttons 4 dedicated buttons for operator interface 6 LED indicators and a security key switch The display and controls of the RDC 2 are the same as those on the front of the MPC 7000 and RND 2 panels including a key switch for security The backlight activates only during active button press or when events are present in the system to conserve power The RDC 2 can be installed in RND 2 and MPC 7000 panels It can also be installed in the MPC 6000 panel provided that the Releasing application features are not used The RDC 3 Serial LCD a
32. 0 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Notification Appliance Circuits Power limited Supervised Maximum Standby Current 3 4mA Maximum Line Resistance 24V nominal unfiltered fullwave rectified Current Draw Line Impedance 1 5A 20 1 0 30 0 5A 60 Alarm Voltage 24V nominal 31V unfiltered fullwave rectified Maximum Ripple 16 VAC 120Hz Use for special application only MPC 6000 Four Style Z Class B or two Style Y Class A circuits MPC 7000 Four Style Z Class B or two Style Y Class A circuits Expandable to twelve Style Z Class B or six Style Y Class A circuits Maximum NAC Current 1 5A NAC circuit MPC 6000 maximum total NAC current 3 0A 6 0A with optional NPE 1 transformer installed MPC 7000 Maximum total NAC current 5 0A 8 0A with optional NPE 1 transformer installed Suitable for coded and non coded application Refer to Appendix B to determine maximum synchronized notification appliances allowed per NAC Serial Interface Circuit Power limited Supervised Voltage 24 VDC nominal 31 VDC max filtered Maximum current 0 40A at 24VDC X X RS485 Voltage levels Maximum wire loop resistance 11 ohms line Communications Protocol RS485 The maximum cumulative available power output including Auxiliary power and Serial Interface power is 0 5A for MPC 6000 RND 2 1 0A for MPC 7000 X1 Addressable Device Circuits Power limited Supervised Voltage 24 VDC n
33. 0 9 Amps when using the supplied transformer assembly 3 The following states the maximum standby current allowed for a MPC 6000 RND 2 panel using a 38 AH battery set 90 hours of standby time is 0 320 Amps 24 hours of standby time is 1 144 Amps 4 The following states the maximum standby current allowed for a MPC 7000 panel using a 100 AH battery set 24 hours of standby time is 3 22 Amps 5 Does not include lamp or LED current add separately Refer to installation instructions P N 315 447345 for maximum activated current rating of individual drive circuits 63 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL APPENDIX B COMPATIBLE DEVICES DEVICES FOR ADDRESSABLE DEVICE CIRCUITS Faraday X1 Manual Pull Stations Faraday Cat No Description 8700 S Manual Station Single Action 8700 D Manual Station Double Action 8700 M Manual Station Single Action Metal Faraday X1 Modules Faraday Cat No Description 8701 Mini Module for Contact Devices 8702 Module for Contact Devices 8703 Dual Module for Contact Devices 8704 Module for Contact Devices with Rela 8705 Conventional Detector Zone Module 8706 8709 See Note 3 See Note 4 Faraday X1 Photo Electric Detectors FaradayCat No CompatibleBase 8710 Photo Detector 8853 8715 8716 8840 8717 8712 Thermal Detector Fixed or Fixed Rate of Rise 8853 8715 8716 Faraday X1 Base
34. 00 Remote Signal Expander 1 accessory devices listed above may be wired to activate from the notification appliance circuits 2 For specific wiring and installation information read the instructions provided with each device 3 Controlled device equipment must be within 3 feet of R711 1 DEVICES FOR AUXILIARY POWER OUTPUTS The following lists compatible devices for the auxiliary power outputs e Relays e Four Wire Separately Powered Heat amp Smoke Detectors See Devices for Initiating Device Circuits Relays Faraday Cat Mfg Part Number Description No Pid Faraday R711 1 711 1 Remote Relay Unit Notes 1 accessory devices listed above be wired to the auxiliary power outputs 2 For specific wiring and installation information read the instructions provided with each device 3 Controlled device equipment must be within 3 feet of R711 1 66 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL APPENDIX C TROUBLESHOOTING DEFINITIONS FOR EVENT HISTORY ENTRIES A General ENTRY INDICATES ALRM Blank CrossZone CZ1A CZ1B CZ2A CZ2B DETECTOR HEAT ION LCDxx LCD Annunciator xx MAIN Main panel MANL PULL Manual pull station PAS Positive alarm sequence PHOTO PE detector PRE SIGNL pre signal Pre alarm SUPERVSRY Supervisory SUPR Supervisor TRBL Trou
35. 049590FA 315 099082FA 315 447345 315 447345 315 447344 315 447344 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL APPENDIX E ALARM VERIFICATION Alarm verification provides MPC 6000 MPC 7000 RND 2 with a way to verify an alarm from area type addressable smoke detectors connected to intelligent loops FDLC This feature reduces the incidence of false alarms Only detectors that do not contain an integral alarm verification feature can be used Addressable detectors connected to FDLCs indicate that an alarm condition has been detected If the device is subject to alarm verification the FDLC alerts the control panel that the device has entered verification but is not yet considered to be in alarm The FDLC starts a timer using the MPC 6000 MPC 7000 RND 2 system Retard Reset Period When the timer expires the FDLC begins the fixed 60 second confirmation period If the device is no longer in alarm during the confirmation period the verification cycle is considered complete and detection of a subsequent alarm from that device results in the verification cycle restarting If the device still reports in the alarm state during this confirmation period the alarm condition is reported to the control panel and the system annunciates the alarm condition See the figure below for a graphic illustration of Alarm Verification NOTE For devices connected to the FDLC the Detector Restart period is 0 seconds ALARM VERIFICAT
36. 125 10 12 2006 08 55 Panel Reset by SVSTEM 10 12 2006 08 55 TRB Active BATT Trouble 10 12 2006 08 55 Resettable device power valid 10 12 2006 08 56 TRB Restore BATT Trouble 10 12 2006 08 56 TRB Active Rel Mod Batt Missing 10 12 2006 08 56 TRB Restore Rel Mod Batt Missing Connected 3 31 28 ANSI 1920081 SCROLL CAPS NUM Capture Print echo Figure 3 Events Output when HyperTerminal is Connected fs250 HyperTerminal MEE File Edt View Cal Transfer Help Dis alal el Sensitivity Report 10 19 2006 14 25 17 Device Device Addr Sensitivity 3 1 Connected 3 54 24 ANSI iszongN SCROLL CAPS Capture Print echo Figure 4 Sensitivity Report on HyperTerminal Refer to Programming Manual to access this feature 92 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL 15250 HyperTerminal View Call Transfer Help 5 8 e sole is 10 19 2006 14 28 24 Maintenance Level entered at MAIN Bl 10 19 2006 14 28 27 gt ACKed Manual at MAIN Starting Stored Event History Printing 10 19 2006 14 27 25 gt Event History pled ae MAIN 10 19 2006 14 27 34 gt SUP Active 1076 8 8713 Grp 2 10 19 2006 14 27 36 gt 2 Restore 1076 8713 13 Fire Grp 2 10 19 2006 14 27 40 gt ALM Active 1074 8713 8713 Fire Grp 2 10 19 2006 14 27 40 Maintenance Level exited on timeout by SYSTEM 10 19 2006 14 27 44 gt GEN ALM Active
37. 4 7 7 tlle 16 9 18 TYP oe t gt 16 gi 22 2 2 5 4 Mount Control Unit Mount Control Unit v M co 7A 6 742 Por access to 77 display and controls display and controls 7 7 7 MPC 6000 Box 2 E Z 6000 Enclosure 2 22 Knock out Locations GA Top amp Bottom of Enclosure p 7 1 2 amp 3 4 Combination 1 22 Knockouts 8 Total 1 YZ LG p LOLI oy 7 8 amp 1 1 8 Dia 2 G LL DIL GDL 2 5000 Enclosure MPC 8000 Enclosure w Semi Flush Trim 33 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL MPC 7000 Enclosure Mounting Pictures 18 21 1 8 12 d Z 7 poor 18 sym 77 rte e MAX 477 P724 137 2 2 15 5 8 A 15 1 8 7 2 47 8 U ZA sys E 9 32 28 11 32 oo OO 28 11 32 A 38 i 178 i DOOR 38 9 32 22 he 9 64 e 105 19 9 64 22 t 1 7 GE i i 2 2 A A 56 7 16 55 a Mount Control Unit 77 Mount Control Unit VoU at convenient height A at conwanisht height access to o display and controls display 21 2 gt 7 24 MPC 7000 Box 2 gt 7 22 2000 Enclosu
38. 944373 Thermal pad 140 050008 1 120 Ohm E O L Resistor Assembly 2 465 633943 Battery cable assembly 555 446055 Cable Assembly 26 Pin 315 447309 Installation and Operation Manual 130 PM3223 Bridge Rectifier 315 447311 Operating Instructions 555 449116 Rectifier Cable Assembly 575 447310 Riser Diagram MPC 6000 899 G67197 6 32 Keps Nuts 1 575 447388 Riser Diagram MPC 7000 950 220604 6 32 Nut 1 575 447312 Nameplate MPC 6000 600 149373 Ground Wire Assembly 315 049403FA Programming Manual Electronics Package RND 2 MPC6 MB Main Board or MPC6 MB2 950 220604 6 32 Nut 1 RND2 DB or RND2 DB2 Display board for RND 2 906 220604 6 32 x 1 4 Screws 17 575 447328 Nameplate RND 2 375 F943165 Spacers 8 215 649113 Keyboard 140 820405 24K Ohm 1 2W Resistor 4 330 944373 Thermal pad 140 050008 1 120 Ohm E O L Resistor Assembly 2 465 633943 Battery cable assembly 555 446055 Cable Assembly 26 Pin 315 447309 Installation and Operation Manual 130 PM3223 Bridge Rectifier 315 447311 Operating Instructions 555 449116 Rectifier Cable Assembly 575 447310 Riser Diagram RND 2 899 G67197 6 32 Keps Nuts 1 600 149373 Ground Wire Assembl 315 049403FA Programming Manual With NPE 1 Transformer Package Transformer Assembly 120VAC 2 required 899 G67 197 6 32 Keps Nuts 2 31 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL
39. ACs can be combined for Class A Style Z operation This reduces the number of NACs to four Each circuit can be selected to give continuous output or one of five sounding patterns There is also a system coder capable of zone coded operation All of the NACs are power limited and support synchronization of listed devices via the Faraday SYNC Protocol If a NEM 1 is installed in an MPC 7000 panel its NACs are synchronized in sets of 4 as follows NAC1 2 NAC3 and are synchronized with each other NAC5 NAC6 NAC7 and NAC8 are synchronized with each other NAC9 NAC10 NAC11 and NAC12 are synchronized with each other A maximum of one NEM 1 NAC Expander board can be installed per MPC 7000 panel LEM 1 Loop Expander Board MPC 7000 The LEM 1 has circuitry for the addition of an additional two FDLC Loop Driver boards to a MPC 7000 panel FDLC Loop Driver Boards are not included A maximum of one Loop Expander Board is allowed per MPC 7000 system FDLC Loop Driver Board MPC 7000 The FDLC has one addressable device circuit that is programmed for connection to Faraday addressable devices using the X1 The circuit has the capacity for 252 addresses A maximum of four FDLC boards per MPC 7000 panel is allowed Loops 3 and 4 require a LEM 1 Loop Expander Board HBC 1 Battery Charger MPC 7000 The HBC 1 is an optional battery charger to increase the charging capacity of the MPC 7000 up to 100AH lead acid batteries
40. ANCE MANUAL QUICK TEST If the control unit has remote connections to the Fire Department or other monitor be sure to disable the remote signal and notify the remote monitoring station before performing test operations since an off normal state will be indicated If the MPC 6000 uses the releasing application make sure to disconnect the releasing circuit wiring prior to performing this test to avoid inadvertent discharge AN Caution All system timers are disabled during quick test The Quick Test mode makes it fast and easy to test a system by eliminating the need to reset the panel after each device is activated In this way a single person is able to quickly check that each device is working and activating the system For the system with more than one device loop Quick Test is done on a loop by loop basis so that the remainder of the system may operate normally When the loop is in Quick test mode the NAC will sound for the programmed period as each addressable device on the loop is activated To configure the Quick Test parameters enter the Maintenance mode and navigate through the menu to the Quick Test option Configure the following parameters prior to starting the Quick Test e Loop Number if applicable the device loop number that will be tested e NAC Activation Time the time to NAC will activate when associated device is initiated e Configure Diagnostic printer allows use of diagnostic printer during quick tes
41. AND MAINTENANCE MANUAL APPENDIX F APPLICATION SPECIFIC DETECTION Application Specific Detection ASD allows the system designer to program an 8713 detector s sensitivity pre alarm threshold and other alarm related parameters using English descriptions of the detector s environment application This eliminates the need for detailed knowledge of smoke detector terminology and operation The designer can set all of the critical detector parameters by simply selecting an application description that closely fits the one where the detector is to be installed For example to use ASD to select the optimal parameters for a detector in a hotel lobby select the LOBBY application the CIS 4 programing tool for that device The system will automatically transmit the factory determined sensitivity pre alarm threshold and detection algorithm R algorithm to the corresponding device This eliminates the guesswork of selecting these parameters for different environments ASD APPLICATIONS ASD Application ASD Description Disable No Applications Standard Photo thermal Detector Office Retail Reasonably clean climate controlled atmosphere Warehouse Light Manufacturing Airborne dust equipment fork truck and light to medium dock area exhaust fumes Lobby Relatively clean area temperature changes cellular phones smoking Computer Room Very controlled environment clean temperature closely r
42. Auxiliary Power OPUS M 18 Status Ielays zu aiussddustedeeiuebepnienuie intentando uie iieri M oe 18 Notification Appliance 22 19 19 X1 Addressable Device 22 2 0 022000000 000110000000100000010000 nn nra nnne nnns 19 City Tie Optional City Tie Board araa e AAE TAON aine ador need Aon na rds do donna edat nn 19 DACT Circuit Optional DACT Board 2 2 000 000000000000000000000000000000 rne nnns 20 Additional Transformer Optional Transformer Sub assembly 1 2 1 0000000000000000000000 20 MPC REL Optional releasing module for MPC 6000 only sess esee enean 21 GONTROL UNIT OPERATION Dm 22 OPERATION INSTRUGTIONS m erepta haa ee etre e e edt UR de He n P 22 Standby Condition 5 1 aite uta a P at ca gs ead et acd tag 22 Alarm Conditlonss d aote een ud ee M ora aes 22 Trouble GonditiOns 3 tut cf oe etia PU Hatit onim E a e o e a 24 Supervisory CONGILIONS so rc OE Ha io ae UR Le oe rt REO ne ed ene 25 Detector Pre Alarm Conditions 2 2 to Re P Eo Eo EAM C HERM
43. D flashes LCD displays alarm conditions and the panel buzzer sounds steady Local audible and visual signals and remote alarm signals operate When an alarm occurs proceed according to the established emergency plan Assure that all personnel are accounted for and notify the Fire Department to advise of the alarm and or verify that an automatic signal has been received at the Fire Department Authorized Personnel Only To acknowledge the alarm To acknowledge the alarm press the Acknowledge button The local buzzer will be silenced and the Alarm LED will change from on flashing to on steady Note On a networked system the alarm may only be acknowledged at the node which initiates the alarm or the RND 2 To silence the alarm To silence the notification appliances after evacuation where permitted press the Alarm Silence button The silenceable notification appliances will be silenced The Alarm Silenced LED will be lit Note Do not reset the panel until the alarm has been cleared Warning Alarm silence inhibit if set prevents the alarm from being silenced for a predetermined time To reset panel after alarm When the alarm condition is corrected return the panel to normal standby operation by pressing the System Reset button Note If the fan restart feature is implemented the Independent or Global Fan Restart procedure must be initiated to deactivate the hold hru reset output type and activate the fans Trouble Opera
44. ES Ree FE aki 25 Fan estamos innixa ES ete estas c s emet DUM dde 25 ETHER 25 ADDITIONAL OPERATING PROCEDURES ee eene enne 26 26 EE EEES EE Mant Maeda 26 ie OS a 26 shee ds thereat 26 Global Fan Restart oi 27 HISTON iiit dte o o e GR E HUGE da 27 MPC 6000 MPC 7000 RND 2 OPERATING 28 oem diae idis 28 Authorized Personnel 28 ieee 28 lt 28 Normal Standby Condition eraris oT OA EEE 28 RDC 2 RDC 3 OPERATING INS
45. ION TIMING DIAGRAM lt ALARM VERIFICATION PERIOD gt RETARD RESET RESTART PERIOD MAXIMUM 60 SECONDS CONFIRMATION PERIOD 60 SECONDS OPTIONAL NO ALARM AT CONTROL UNIT ALARM REQUIRED AT CONTROL UNIT REGION k CONTROL UNIT DETECTOR RESTART gt RETARD RESET PERIOD POWER UP PERIOD A B D E t 0 Seconds t n Seconds A Smoke detector goes into alarm AB RETARD RESET PERIOD Control Unit Control unit senses detector in alarm and retards delays alarm signal usually by de energizing power to the detector Length of time vaires with design 11 to 55 seconds BC RESTART PERIOD Detector Power up Time Power to the detector is reapplied and time is allowed for detector to become operational for alarm Time varies with detector design AC RETARD RESET RESTART PERIOD No alarm obtained from control unit Maximum permissible time is 60 seconds CD CONFIRMATION PERIOD Detector is operational for alarm at point C If detector is still in alarm at point C control unit will alarm If detector is not in alarm system returns to standby If the detector re alarms at any time during the confirmation period the control unit will alarm DE OPTIONAL REGION Either an alarm can occur at control unit or restart of the alarm verification cycle can occur AD ALARM VERIFICATION PERIOD Consists of the retard reset restart and confirmation periods 72 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION
46. MAIN 10 19 2006 14 27 44 gt ALM Active 1122 8713 8713 Fire Group 32 10 19 2006 14 27 47 gt ALM Active 1123 8713 871 Fire Group 32 10 19 2006 14 27 55 gt ALM Active 1114 8713 8713 Fire Group 16 10 19 2006 14 28 02 gt ACKed Manual at MAIN 10 19 2006 14 28 03 Alarm Silenced Manual at MAIN 10 19 2006 14 28 07 gt 10 19 2006 14 28 10 gt 10 19 2006 14 28 15 U 10 19 2006 14 28 16 10 19 2006 14 28 23 Panel Reset at Resettable device power turned off ser Level entered at Resettable device power turned on Resettable device power valid 10 19 2006 14 28 24 TRB fictive RD 10 NoRespons 10 19 2006 14 28 24 Maintenance Level entered at MRIN 10 19 2006 14 28 27 ACKed Manual at MAIN Stored Event History Printing Complete 1 2008 7 2801 Connected 3 57 09 ANSI CAPS Captur Print echa Figure 5 System History on HyperTerminal Refer to the Programming Manual to access this feature Network Printer A diagnostic printer can also be installed in a network Refer to the Network Block diagram in Figure 6 NETWORK BLOCK DIAGRAM RND MPC 6000 MPC 7000 NE De Serial Printer Node 1 Node 2 Node 3 Printer Node 4 unsupervised Serial connection between network and printer RS 485 Data Figure 6 Network Block Diagram Network printing requires a serial printer connected to a 12526A NIB with
47. ND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL X1 Addressable Device Wiring Diagrams Refer to the instruction sheets packed with each device Detectors and modules may be wired together according to several NFPA defined wiring styles The wiring style that is appropriate for your installation should be determined from the relevant building codes and the local authority having jurisdiction Style 4 wiring permits branching of circuit connections The control equipment supervises modules because they are active and must respond periodically to the control unit s poll X1 ADDRESSABLE DEVICE CIRCUIT WIRING OPERATION COMPARABLE TO NFPA STYLE 4 SUPERVISED POWER LIMITED ADS o A ISOLATOR SEE NOTE SEE NOTE SEE NOTE OUT r4 ALAIS 7 M 7 QUT MODULE 1 o N Pa 4 N 4 4 TO OPTIONAL 27 5 BRANCH ES OF LOOP CIRCUIT SS d 4 g N ISOLATOR SEE NOTE SEE NOTE SEE NOTE An MODULE 1 o 2 3 BE Ny J 5 J d b ISOLATOR SEE NOTE SEE NOTE SEE NOTE H m M MODULE 4 1 NC NOTE Faraday X1 Devices Detectors Monitor Modules or Control Modules up to a maximum of 252 devices per addressable device circuit A Maximum of 20 devices recommended per Isolator Module A Ma
48. Network Display designed to connect to a Faraday MPC NET2 Network It features advanced programming and memory capability Its base configuration includes a power supply serial interface circuit four status relays and a programming port Nore In system with multiple panels connected via the 2 the RND is used to Acknowledge Silence and Reset the total system The RND 2 Network annunciator mounts in a 22 x 18 backbox with overall cover size of 22 9 32 x 18 3 8 Operating controls and indicators are mounted on the inside hinged plate An 80 20 x 4 alphanumeric character LCD provides specific indications for addressable devices while LEDs indicate general panel status Semi flush mounting kits are available for the enclosure The main board mounts in the rear of the enclosure The power supply is physically contiguous with the main board The RND 2 main board MPC6 MB or 6 2 provides the connections for external field wiring Optional boards mount on the main board and the network interface card mounts on the rear of the enclosure The display board mounts on the inner hinged plate All normal operation is controlled via a membrane keypad Displays are provided by an 80 character alphanumeric backlit LCD and by discrete LED indicators for major control unit functions The 80 character LCD is used to display event data including alarms and troubles identification of network links or devices and presen
49. O GLOSSARY 1st Alarm Condition Refers to the condition in which the releasing or counting zone input group meets at least one of the threshold requirements This does not refer to the pre alarm condition detected by the smoke detector Abort Condition Condition in which the abort function is pressed during 1st Alarm IRI type only or during Pre Discharge condition Abort Function Defines an event that is manually initiated during the proper releasing event sequence that will indefinitely prevent the releasing circuit from activating AC Power Fail Refers to a condition in which AC power loss is detected by the system Agent Release Delay Same as Pre Discharge Delay Alarm Signal A signal indicating an emergency requiring immediate action such as an alarm for fire from a manual station a waterflow alarm or an automatic smoke detector Alarm Silence Inhibit An option that prevents a human operator from silencing the notification appliances for a preset period of time Alarm System A combination of compatible initiating devices control units and notification appliances designed and installed to produce an alarm signal in the event of a fire Alarm Verification A preset option that causes the control unit to verify alarms originated by smoke detectors before indicating an alarm Annunciator A remotely located electrically powered display separate from the control unit containing LEDs or lamps to indicate the states of the f
50. Power Outputs 0 4A max 24VDC Nominal Filtered 31VDC max Supervised Power Limited Maximum cumulative current of all available output circuits L Serial Interface Circuit and option boards is 0 5A for the MPC 6000 RND 2 1 0A for the 7000 69 6990 Programmable Relay Circuit 1 Relay Contacts _ Programmable Relay Circuit 2 Shown in normal standby condition Programmable 1A 28VDC max Resistive Relay Circuit 3 For connection to a Power Limited Source Supervised Trouble Status 283 8 D Relay Circuit Ng C Common NO Normally Open Normally Closed SAd 45 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL MPC 6000 System Power Req uirements Does not include NAC power and releasing circuit Device Item Max Amps MPC 6000 Control Unit Includes 1 FDLC 0 190 Addressable Device Circuit Power of Devices X0 0018Amps Auxiliary Power Outputs Depends on devices installed CT 1K City Tie Board 0 055 Board 004 RDC 2 Remote LCD Annunciator 0 085 RDC 3 Remote LCD Annunciator 0 048 SRU 2 SRE 8 Serial Relay Unit 0 032 0 020 A for each relay SLU 2 SLE 16 Serial Annunciator Unit 0
51. Refer to Primary and Secondary Wiring for diagram Optional Modules See Appendix D for the list of installation instructions for each optional module Installation Instructions are provided with each module Follow these instructions for proper installation Check System Operation Check for proper operation of all the system functions See Operation Instructions section on page 21 WIRING Basic system wiring and detector locations must be in accordance with NFPA 72 or other instructions from the appropriate local authority having jurisdiction Devices that may be satisfactorily used with the control unit are shown in the compatible device listing in Appendix B Wire reference data are included in Appendix A 42 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Control Unit Wiring Overview In compliance with NEC Article 760 and UL 864 all power limited fire protective signaling conductors must be separated a minimum of 1 4 inch from all of the following wiring located within a control panel e Electric light e Power e Class 1 or non power limited fire protective signaling conductors To meet these requirements the following guidelines must be observed when installing modules and wiring to this control panel When installing power limited field wiring the installer must comply with NEC article 760 which states The fire alarm power limited circuits are installed using Types FPL FPLR FPLP or per
52. Remote Stand 0025 X 0 Annunciator Alam 0048 X SRU 2 Serial Standby 0032 X 4 uu uu Relay Unit Alam 04192 X SRE 8 Serial Standby 0000X NA RelayExtender 1 NA SLU 2 Serial Standby 0018 X 4 1 y Annunciator Unit Aamos oop pa e A SLE 16 Serial Standby 0 005 Extender Total Auxiliary Module Current Place these totals in the Total System Current table Go to Device Current Calculations Device Current Calculations Device Current Catalog Quantit X Current A Standby Current A Alarm Current A 4 wire Smoke Detectors Catalog Quanity XCuren A 2 Standby Xx 2 Alarm Standby Alarm X m End of Line Rela Catalog Quantity X Current A X Notification Appliances Catalog Quantity X Current A X NA X NA X NA Other DEVICE Current Place these totals in the Total System Current table Go to Total System Current Calculations 62 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Total System Currents STANDBY A ALARM A Total Panel amp Modules current Total Auxiliary current Total Device current
53. STALLATION OPERATION AND MAINTENANCE MANUAL D Validation and Warning Warning Error Messages Condition Address 1xxx 1 bad input usage Loop 1 address xxx requires valid input usage Address out of range 1001 4353 Device being programmed is out of range City Tie required in auxiliary system No City Tie installed in Auxiliary system type Counting Zone Group xxx too few points Counting Zone at Input Group xxx has less devices than required Dact Account x bad PN DACT account x has a bad phone number Dact alm restore event not rept An installed DACT must have alarm and alarm restore configured on account 1 Detector 1xxx 1 Alarm input not in a valid Loop 1 addresss xxx needs to be programmed to valid group input group Detector 1xxx 1 Fire input doesn t activate Fire input group the device belongs to is not properly an audible NAC configured Detector 1xxx ASD with alarm verify is nota Configured an 8713 FireSmart detector for Office and for Duct detector Alarm Verify Loop 1 address xxx requires device type configuration audible NAC selected that is configured with at least one NAC circuit Warning 1xxx 1 doesn t activate an audible NAC in PAS Pre signal selected for input zone Warning City tie not allowed in local system A City Tie is programmed and set up for a local system Dact not allowed in local system programmed and set up for a local system Warning No zone selected for group xx
54. TRUCTIONS 29 Alarm iba et teas ah acd tuse E SE 29 Authorized Personnel ON pni prd oett te pha vies pod ee gea eu ba Ped dg 29 Trouble Operation ez Zia iar te Em pio ERI Rene i ieu educi 29 Event Scrolling neo o gt gg atii qu vais Pe P E RENDERE 29 Normal Standby Condition SEA HERD eee FOR 29 MPC 6000 RDC 3 WITH RELEASING OPERATING INSTRUCTIONS eee 30 Alarin Operation 30 Authorized Personnel Only eee tacet be sc eee ba e ee pod ee NAE ete Eun eed ed 30 Trouble O pera iO stt pn acp ente 30 Event Scrolling z eii RU t A o dao Ro ed HERR ERR e ERR E RR RE Ro e RR 30 Normal Standby Condition E p ED cnt vate palet edat 30 CONTROL UNIT INSTALLATION ciere n rr inn tien RE neo E cu deny to th exeedsandseceerevuceeteetsectessashevleekectenehectersxcecters 31 PARTS SUPPLIED MPC 6000 MPC 7000 2 31 Enclosure Packages Black or sienten htt 31 Electronics Package MPC 6000 7000
55. Timer e Trouble supervisory reminder Alarm trouble supervisory Acknowledgment Trouble supervisory restored to normal Pre alarm activation Pre alarm acknowledgment restore e Activation of points defined for logging e Pre discharge condition Applicable to MPC 6000 with Releasing application only e Discharge condition Applicable to MPC 6000 with Releasing application only e Abort condition Applicable to MPC 6000 with Releasing application only e Manual Fan Restart 15 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL GENERAL DESIGN FEATURES Environmental The MPC 6000 MPC 7000 RND 2 panels and subassemblies are suitable for use in a dry interior or protected location Power Limiting The AC power battery wiring and open collector circuits when MPC REL is installed are not power limited All other circuits leaving the control unit are power limited provided the proper installation rules are maintained Ground Fault Detection The control unit provides system ground fault detection and is annunciated as a trouble condition on the system In addition each addressable loop circuit has its own ground detection circuitry and indicator System Ground Fault Threshold 20kO System Ground Fault Threshold 20kO NAC Operation The notification appliance circuits are commanded and controlled by a microprocessor e Output Sounding Patterns The notification appliance circ
56. Trouble Most Recent Alarm Most Recent Pre Alarm Most Recent Supv Most Recent Trouble 77 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL APPENDIX I OUTPUT FEATURES Output ON and OFF Time Delays Each output device has a selection for ON time delay and OFF time delay when it is installed in the configuration The ON time delay refers to the delay in which the output will activate after the reception of its activation command If the ON time delay is set to 0 default setting the output immediately activates For output types Alarm Pre Alarm Trouble Supervisory 1 Alarm if applicable Pre discharge if applicable Discharge if applicable AC Fail if applicable the OFF time delay refers to the time the output will remain active before it is deactivated If the OFF time delay is set to 0 default setting the output will remain ON until activation of manual fan restart ON State Command Output State OFF ae 4 OF F time Delay ___ gt Fan Restart Feature The Fan Restart feature is implemented when the input device usage Fan Restart is selected and its input group is associated to an output zone that has a device output with Hold Thru Reset output type selected Hold Thru reset output type acts differently than other output types because its output does not change state on soft reset command Hold Thru Reset is also non silen
57. WN button is used to scroll to the previous event M1 TOP button is used to place the list at the top of the queue and M2 NEXT QUE is used to go to the next queue if present of lower priority Alphanumeric Keypad The alphanumeric keypads are used to enter the password to access the maintenance and technician modes of the panel It allows the user to program the panel using these keypads with using the CIS 4 programming tool Refer to the MPC 6000 MPC 7000 RND 2 Programming Manual P N 315 049403FA LCD Display The LCD operates as follows Supervisory Mode Line 1 First Custom Message and System ID 20 supervisory Msgol Line 2 Second Custom Message and System ID aa ee Line 3 Current Time Monday 07 26 04 Line 4 Day and Date Active Event Mode Line 1 Acknowledged or unacknowledged event Event type 1 RUE MEE Event location in the list and time the event occurred 5 char custom msg01 Line 2 First 20 character custom message 20 char custom msg02 Line 3 Second 20 character custom message 1003 Dual in rel Line 4 Address of the device where the event occurred and a generic description of the device or trouble type 76 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL The events are displayed one at a time and cycle through a circular list once the first event or last event message is reached First Alarm First Pre Alarm First Supervisory First
58. ady configured install the node and then follow prompts to configure the panel for node print events and total number of network nodes 87 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL If using the CIS 4 tool choose Configure a Network An untitled ncf configuration will be displayed and panels nodes can be easily added to the system and individually configured Network Printing Diagnostic printers are NOT supervised and MUST NOT be installed permanently on the panel typically longer than 24 hours The printers are used strictly for diagnostic purposes only Network printing requires a serial printer connected to an RS 232 serial interface module which is then connected to a network interface board NIB The NIB is connected to the network and programmed with a node number Refer to the network block diagram below NETWORK BLOCK DIAGRAM RND MPC 6000 MPC 7000 NE Serial Printer Node 1 Node 2 Node 3 Printer Node 4 unsupervised Serial connection between network and printer RS 485 Data To configure the printer NIB using the 5 4 configuration tool connect a programming cable between the RS 232 port on a laptop and the NIB then right click on the printer node and choose the write command The LED on the NIB will flash briefly indicating the NIB has been configured This should be done with the
59. aintenance of the fire alarm system should be performed in accordance with NFPA 72 The National Fire Alarm Code and all applicable local codes BATTERY MAINTENANCE Perform the following tests at the recommended interval Replace the battery set every four years or if any of the test criteria are not met Initiation Reacceptance 1 Charger Test With the batteries fully charged and connected to the charger measure the voltage across the battery set It must read 27 3V 0 3V 2 Discharge Test With full system alarm load the voltage on a fully charged battery must not fall below 20 4V after 30 minutes 3 Load Voltage Test With full system alarm load the voltage on a fully charged battery must not fall below 24 6V after one minute Testing Interval 1 Semiannually Perform the Load Voltage Test 2 Annually Perform the Charger Test and Discharge Test 74 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL APPENDIX H LCD CONTROLS AND INDICATORS The MPC 6000 MPC 7000 RND 2 has a sounder 6 LEDs 4 navigational push buttons adjacent to the LCD display M1 M4 3 dedicated push buttons alphanumeric keypad and communication port connector Communication Port Connector The communication port is connected to the serial output terminal of the computer that has the 5 4 programming tool This is used to upload and or download panel configuration if this method of programming is used The c
60. ate a supervisory event that clears as soon as the input device reverts back to its stand by state 79 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL APPENDIX J PAS PRE SIGNAL PAS Positive Alarm Sequence and Pre Signal input groups allow the user to delay the activation of the audibles strobes and other output devices when an initial alarm is detected These input groups have an associated timeout group that activates when the delay timer elapses thereby activating its outputs The Timeout group must be a fire group type and it can have its own initiating devices This scenario is based on the PAS group with no output zone association If output zones are directly associated with PAS input groups then these zones immediately activate Initiating devices or other PAS Pre Signal Input Groups Output Zone 242 Timeout Group Output Initiating Devices Input Group gt P gt Fire Group Zone Delay Timer It works as follows refer to the diagram above When an initiating device is initiated PAS Pre signal group it activates its associated output typically a non audible device and starts a delay timer When the delay timer elapses the timeout group it is associated with is initiated and activates its audible outputs The timeout group and delay timers are configurable Refer to the MPC 6000 7000 RND 2 Programming Manual P N 315 049403FA
61. attery Size Calculations ec er a aux gab v ERE ae EE RR eR Eua 46 CR Tem esa cece ade eli indeed ade adds tn adenine 47 Releasing Circuit 48 Setial Interface CHCUIE x 1 iit e n d e ce Oe fee ee ath e Ro eet ee ate 49 Serial Remote Device Wiring Overview usse esee eene nena 50 X1 Addresable Device Circuit s iaces tiene dedo tee aa nte en sae eo naa teneas Leona nte niat dn 51 X1 Addressable Device Wiring 5 52 PROGRAMMING THE CONTROL 54 ci atte Pads 54 PC PROGRAMMING een eee Dey 54 PROGRAMMING SECURIT Vis cinereo 54 PAR B en dicent t reet emer 55 QUICK LIEST iei ie tete ee atqiie den at 56 APPENDIX A REFERENCE DATA
62. be programmed in the following manner e 8720 Device Programmer Loop Tester Refer to the 8720 User s Manual P N 315 033260FA for further information 6000 MPC 7000 RND 2 Panel Keypad Refer to the MPC 6000 MPC 7000 RND 2 Programmer s Manual P N 315 049403FA for detailed information of system programming Used only for field removal and reinstallation of individual devices MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL EVENT HISTORY The control unit includes a non volatile memory recording over 1900 system events Identified alarm trouble supervisory trouble and other significant events will be recorded along with the date and time of occurrence and can be inspected by operating front panel push buttons Events recorded in the history are e Alarm Trouble or Supervisory conditions e Drill Recall and General Evacuation e Activation of NACs or modules used for sounders or strobes e Unit used for command functions Silence acknowledge reset etc e Alarm silence Manual e System reset e Power up e Entry to Programmer Mode e Back up configuration edited e Validity check on backup configuration Errors detected or no errors detected e Replacement of primary configuration e Execution of Auto program e Exit from Programmer Mode e System time or date change e Input point disable enable e Start and stop of Quick Test e Expiration of Quick Test
63. ble TROUBLE Trouble USERx User defined input x WATERFLOW Waterflow 67 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL B System Troubles ENTRY INDICATES 1aaa Mult Addr Multiple devices reporting at loop 1 device aaa address 1aaa Not Pgrmd System detected a device at loop 1 address aaa that is not part of the configuration AC input low or off AddrLp 1 DBLSHT Double Short trouble on addressable 00 1 Alm Sup Pre Rlys Dsbl Status relays have been disabled at Application Status Disabled ASD application specific detection has been disabled BATT Trouble Battery input low or off Cannot Edit Requested NAC Ckt Attempting to program the second half of a Class A NAC pair Is Second Half of a Class A Ckt CHARGER SUPV Trouble Battery charger voltage too low CITY Trouble Local Energy circuit open DACT Acct Trb See Note 1 DACT account reporting trouble DACT Com Trouble DACT communication trouble with main processor DACT PL x Trouble Open or short on DACT phone line x Disp Queue Full Trouble messages exceed 2000 events FDLC 1 Uncf Devi System detected an unconfigured device at loop 1 device address aaa FDLC x DLC Open FDLC loop x detected an open circuit FDLC x DLC Short Short circuit is detected on FDLC x loo FDLC x EXT EE EEPROM of FDLC X is corrupted requires replacement of the FDLC FDLC x GF Minus FDLC x loop detected a negative ground fault
64. ceable output type When hold thru output type is selected the ON time delay selection refers to the time delay from the reception of the ON command to the actual activation of the output When ON time delay is set to 0 default setting the output immediately activates upon reception of the ON command The OFF time delay selection refers to the time delay from the System Soft Reset to the actual deactivation of the output When the OFF time delay is set to 0 default setting the output will remain ON indefinitely until Global or Independent Fan Restart procedure is initiated Global or Independent Fan Restart procedure will immediately deactivate the hold thru reset output type regardless of the state of its OFF time Global Fan Restart refers to the fan restart procedure initiated from the panel Refer to Additional Operating Procedures on page 25 Independent Fan Restart refers to the fan restart procedure initiated from a device with fan restart usage that will deactivate the hold thru reset associated with its input group 78 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL ON State Soft Reset Fan Restart Command Command Initiated Hold Thru Reset Output State OFF L e y yes 4 OF F time Delay The initiation of fan restart usage device during stand by will annunci
65. d the Trouble status relay is non programmable The relay contacts are Form C and are rated for 1A 28VDC resistive Programming Port RJ 11 jack is provided for a non isolated RS 232 connection for temporary connection to a computer for panel programming MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL MPC 7000 SYSTEM DESCRIPTION The MPC 7000 is an expandable modular fire alarm control unit It features advanced addressable detection programming and memory capability Its base configuration includes a power supply two X1 addressable device circuits four two notification circuits NAC serial interface circuit four status relays and a programming port The basic MPC 7000 control unit mounts in a 38 x 18 backbox with overall cover size of 38 9 32 x 18 3 8 Operating controls and indicators are mounted on the inside hinged plate An 80 character LCD provides specific indications for addressable devices while LEDs indicate general panel status Semi flush mounting kits are available for the enclosure The main board mounts in the rear of the enclosure The power supply is physically contiguous with the main board The MPC 7000 main board MPC7 MB provides the connections for external field wiring and connection points for optional modules Optional boards mount on the main board or mount on the rear of the enclosure The display board MPC7 DB or MPC6 DB2 and controls mount on the inner hinged plat
66. dby and alarm conditions Sufficient battery charging capability is available to charge 38 AH sealed lead acid batteries within code requirements for up to 90 hours quiescent plus 5 minutes alarm The cabinet will hold batteries only up to 12 AH The back up battery is 24V maintained by floating on the power supply The battery will be automatically disconnected at low battery voltage to prevent deep discharge X1 Addressable Device Circuit The MPC 6000 control unit has one addressable device circuit utilizing the X1 Detection Technology The circuit has the capacity for 252 addresses MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Notification Appliance Circuits The MPC 6000 control unit has four independent Class B Style Y notification appliance circuits NACs Pairs of NACs can be combined for Class A Style Z operation This reduces the number of NACs to two Each circuit can be selected to give continuous output or one of five sounding patterns There is also a system coder capable of zone coded operation All of the NACs are power limited and support synchronization of listed devices via the Faraday SYNC Protocol Serial Interface Circuit The MPC 6000 control unit has a Serial Interface Circuit that will drive up to 16 remote LCD annunciators and up to a total of 8 Serial Relay Units and Serial Annunciator Units Status Relays Four relays with dry contacts are provided Three relays are programmable an
67. dest to latest event in a circular list If there are multiple events on the system pressing the upper right button adjacent to the LCD displays the next event that occurred to latest event of highest priority Pressing the lower right button adjacent to the LCD displays the previous event that occurred to the oldest event with the lowest priority Normal Standby Condition The green AC Power On LED will be lit and no other indicators on For service contact Telephone Number Frame these instructions and mount them near the annunciator for operator reference 30 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL CONTROL UNIT INSTALLATION PARTS SUPPLIED MPC 6000 MPC 7000 RND 2 Enclosure Packages Black or Red e Backbox Assembly e Front Door Assembly with Window e Inner Door Assembly Electronics Package MPC 6000 MPC 7000 575 447328 Nameplate MPC 7000 906 220604 6 32 x 1 4 Screws 17 375 F943165 Spacers 8 575 447388 Riser Diagram MPC 7000 950 220604 6 32 Nut 1 575 447312 Nameplate MPC 6000 600 149373 Ground Wire Assembl 315 049403FA Programming Manual Electronics Package2 MPC 6000 MPC6 MB2 Main Board 575 447328 Nameplate 7000 MPC6 DB2 Display Board 906 220604 6 32 x 1 4 Screws 17 FDLC Loop Driver Board 375 F943165 Spacers 8 215 649577FA Keyboard w Releasing 140 820405 24K Ohm 1 2W Resistor 4 330
68. dition a 90 second investigation time delay is added before pre discharge delay countdown initiates again AHJ Local Jurisdiction Delay Timer If the abort timer function type is configured as AHJ and abort condition is initiated during pre discharge condition the pre discharge delay timer is restored to its initial programmed value and will not start the countdown as long as the abort switch is pressed A supervisory condition is initiated whenever the abort switch is pressed Failure of an initiated abort switch to communicate with the fire panel will automatically restart the pre discharge delay countdown timer See the MPC 6000 MPC 7000 RND 2 Programming Manual PN 315 049403FA for more information Manual Release Input modules can be configured for Manual Release usage to be used for releasing application only If an input module programmed for Manual Release is initiated it will generate an alarm condition override all abort timers and activated abort switches and automatically activate the releasing circuits placing the panel in discharge condition A manual release courtesy delay is provided if required See the MPC 6000 MPC 7000 RND 2 Programming Manual PN 315 049403FA for more information Trouble Conditions In case of a trouble condition the system trouble LED and any programmed trouble LEDs activate ON pulsing the LCD identifies the problem and the buzzer sounds pulsing Refer to the applicable section
69. dy indicates that ALL trouble events have been acknowledged DISCHARGE LED Yellow Indicates that one of the releasing circuits is active MPC 6000 only PRE DISCHARGE LED Yellow Indicates that the panel is counting down the release delay timer before discharge MPC 6000 only ABORT Led Yellow Indicates that one of the devices which have been assigned to abort the discharge is active MPC 6000 only 75 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL The sounder operates as follows SOUNDER Normally OFF indicates that the system is in supervisory mode or all events in the system have been acknowledged ON steady indicates that at least ONE unacknowledged alarm is present in the system ON pulsing indicates that at least ONE unacknowledged non alarm trouble supervisory or pre alarm event is present in the system Dedicated Push Buttons ALARM SILENCED When pressed when ALARM SILENCED LED is OFF silences all the activated silenceable NACs When pressed when the ALARM SILENCED LED is ON reactivates all previously silenced NACs ACKNOWLEDGE When pressed acknowledges all events that are unacknowledged RESET When pressed initiates a system reset M1 M4 ROH Le DISPLAY MO AY 4X 20 LCD o These push buttons are used for navigation while in the USER screen If events are present in the system M3 UP button is used to scroll up to the next event and M4 DO
70. e All normal operation is controlled from the front of the control unit via push button switches Displays are provided by an 80 character alphanumeric backlit LCD display and by discrete LED indicators for major control unit functions The 80 character 20 x 4 LCD is used to display event data including alarms and troubles identification of zone or device and presentation of history The display is controlled by a set of four push button switches commanding the control processor A backlight is included in the display to assure visibility in low light but to conserve power it is only activated during a reported event or on operation of a display control switch Individual LEDs on the panel are provided to indicate SYSTEM ALARM PREALARM SUPERVISORY ALARM SILENCED SYSTEM TROUBLE and AC POWER ON Direct push button controls are provided for ALARM SILENCE ACKNOWLEDGE MENU and SYSTEM RESET Power Supply A 24V nominal power supply provides all operating power to the control unit for both standby and alarm conditions Sufficient battery charging capability is available to charge 38 AH sealed lead acid batteries within code requirements for up to 60 hour quiescent plus 5 minutes alarm The cabinet will hold batteries only up to 18 AH The back up battery is 24V maintained by floating on the power supply The battery will be automatically disconnected at low battery voltage to prevent deep discharge X1 Addressable Device Circuits The
71. e circuit 99 MN A Fa Siemens Building Technologies Inc 8 Fernwood Road Florham Park NJ 07932 Tel 973 593 2600 Fax 973 593 6670 Web www faradayfirealarms com P N 315 447309 7 12 07 07
72. e active device for at least six seconds 56 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Either of these methods will cause the active detector to reset Even though the 8705 latches into alarm when the first detector on its loop activates it will report additional alarms to the panel as they occur provided the last active detector is reset each time The NACs activate for the programmed NAC Sound Time after each detector is alarmed The previous detector must be clear of smoke after resetting the loop or it will orc MEI generate another alarm 57 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL 58 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL APPENDIX A REFERENCE DATA This appendix provides reference for the following topics e Wire selection guides e Battery size calculations WIRE SELECTION GUIDES Resistance of Solid Copper Wire AWG Ohms per Thousand Feet 18 8 08 16 5 08 14 3 19 12 2 01 NEC Chapter 9 Table 8 59 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Addressable Device Circuit Wire Selection Guide Each addressable device circuit must meet the following requirements e Total loop resistance 50 ohm maximum with 252 devices Refer to following graph Total loop capacitance 0 5uF max line to line and 1 0uF max line to shield Line Resistance Graph
73. e department of an abnormal condition even where the DACT option or similar device is included in the system NOTICE TO USERS INSTALLERS AUTHORITIES HAVING JURISDICTION AND OTHER INVOLVED PARTIES This product incorporates field programmable software In order for the product to comply with the requirements in the Standard for Control Units and Accessories for Fire Alarm Systems UL 864 certain programming features or options must be limited to specific values or not used at all as indicated below Program Feature or Option Possible Settings Settings Permitted in UL 864 Abort function ULI Type Yes IRI type Yes provided pre discharge time is 60 seconds or less NYC ype No AHJ type Yes provided pre discharge time is 60 seconds or less Supervision Not enabled Yes Trouble Resound 1 30 hours 1 24 hours Courtesy Delay Releasing 0 60 seconds 0 30 seconds On MPC REL module S2 8 9 Edition Jumper 8 Edition No 9 Edition Yes MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL INSTALLATION AND WARRANTY INFORMATION Warranty Information Faraday the Manufacturer provides a limited warranty to the original purchaser of this product The original purchaser is the party to whom the manufacturer issued its sales order generally the manufacturer s distribution In order to preserve this warranty it is important that only persons who have been properly trained and authorized by the manu
74. e eene enin nne nennen 64 Faraday X1 Modules mn e mn eer e od eH e o d e ec Oden E ug e dr i 64 Faraday X1 Photo Electric 9 thirst nnne nnn 64 Faraday X1 B8868 iu ome itin ne i o d a a a e on Lal PL o reo B b aoe EE Eo LE 64 Faraday 1 e 64 DEVICES FOR NOTIFICATION APPLIANCE CIRCUITS enne nnne nennen nnne 66 DEVICES FOR AUXILIARY POWER 7 66 ROBY Sir icin datnm debe pna utn EH n Made per 66 APPENDIX C TROUBLESHOOTING cernere natia aee De ta nanc na rr nera Pme uo d vns a Fano 67 DEFINITIONS FOR EVENT HISTORY 67 CIC 67 B System Troubles tiii n o UR URGERE GRAUE a dva psi 68 C System EVOM S tait qn vr ue et me died ao adu eee ed es 69 D Validation and Warning i iii e i ERE ERR HER EXE EE ARAE DR adie 70 APPENDIX D MODULE INSTALLATION INSTRUCTIONS LIST eene nnne nnne nnne nnns 71 APPENDIX E ALARM VERIFICATION 2 RET se euo Ern 72 APPENDIX F APPLICATION SPECIFIC DETECTION eene nennen nennen 73 APPENDIX G
75. e from on flashing to on steady To silence the alarm To silence the notification appliances after evacuation where permitted press the Alarm Silence button The silenceable notification appliances will be silenced and LED indications will change from flashing to continuous The Alarm Silenced LED will be lit Note Do not reset the panel until the alarm has been cleared Warning Alarm silence inhibit if set prevents the alarm from being silenced for a predetermined time To reset panel after alarm When the alarm condition is corrected return the panel to normal standby operation by pressing the System Reset button Note If the fan restart feature is implemented the Independent or Global Fan Restart procedure must be initiated to deactivate the hold thru reset output type and activate the fans Trouble Operation Trouble is indicated by Trouble LED flashes LCD displays trouble conditions Panel buzzer sounds pulsing To acknowledge the trouble Press the Acknowledge button The Trouble LED turns on steady and the buzzer turns off When the trouble condition has been cleared you may need to reset the panel to restore to a normal standby condition Warning Leaving the panel in a trouble condition may prevent a fire alarm condition from initiating a fire alarm sequence Event Scrolling Viewing Events on the System Events are displayed in the system by event priority Alarm Supervisory Trouble followed by event occurrence ol
76. e these instructions and mount them near the annunciator for operator reference 29 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL MPC 6000 RDC 3 with releasing OPERATING INSTRUCTIONS Alarm Operation When an alarm occurs and the set threshold is satisfied on a releasing zone the agent release timer is activated The LCD displays the timer as it counts down and the Pre Discharge LED will be on Proceed according to the established emergency plan Assure that all personnel are accounted for and notify the Fire Department to advise of the alarm and or verify that an automatic signal has been received at the Fire Department Authorized Personnel Only Important Note The RDC 3 Button Enable key switch must be the ON position for the keypad to operate To abort the suppression release Press the Abort switch Depending on the configuration of the panel the pre discharge timer will be halted or reset Proceed to clearing and acknowledging the alarm To initiate manual release Press the Manual Release switch This will actuate the releasing zones and put the panel to discharge condition regardless of the previous condition of the panel Note Manual release and abort switches are installed external to the panel and are normally monitored by contact devices To acknowledge the alarm To acknowledge the alarm press the Acknowledge button The local buzzer will be silenced and the Alarm LED will chang
77. easing group has to meet in order to initiate a pre discharge event Releasing Input Group The only input group type that can be associated with the releasing circuits Releasing NAC NAC associated with releasing input group type that annunciates Releasing Group 1st Alarm pre discharge and discharge conditions associated with the releasing application Reset Condition Condition in which the panel is forced to return to its normal state usually performed by pressing the SYTEM RESET button after all known events conditions are cleared 98 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Supervisory Alarm A signal indicating the operation of a supervisory device Supervisory Device A device that monitors the condition of a sprinkler system such as a gate valve switch water level switch low pressure switch low temperature switch or fire pump monitor Trouble Signal An audible signal indicating trouble of any nature such as a circuit break or ground occurring in the device or wiring associated with a fire alarm signal Waterflow Switch An assembly approved for service and so constructed and installed that any flow of water from a sprinkler system equal to or greater than that from a single automatic sprinkler head will result in activation of this switch and subsequent indication of an alarm condition Zone A designated area of a building Commonly zone is interchanged with initiating devic
78. ed DS7 ON indicates Relay 3 is activated 058 ON indicates Relay 4 is activated DS9 ON indicates voltage is OFF on TB9 R terminal DS10 DS11 flashing indicates that I2C communication line is active 82 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL APPENDIX L DACT INFORMATION OVERVIEW The DACT Digital Alarm Communicator Transmitter is an optional module for the MPC 6000 MPC 7000 and RND 2 control panels that allows transmission of event information to a remote receiver at a monitoring station using a dial up modem connection These events are transmitted in one of the following formats SIADCS 8 e SIADCS 20 e ADEMCO 4 2 1400 HZ 3 1 1400 HZ 3 1 2300 HZ 4 2 2300 HZ Information on the format of the codes reported can be found in the DACT Installation Instructions P N 315 699464FA A few aspects of the operation of the DACT are clarified below Lines Accounts The DACT supports two independent lines and can report to two separate accounts Lines should not be confused with accounts Lines are the actual telephone cords that plug into the DACT module which are in turn connected to the PSTN Public Service Telephone Network If line 1 is not functioning no dial tone etc the DACT will try line 2 instead Accounts are the phone numbers that the DACT dials Once the DACT has found a live line to dial out on it transmits the event s on that line startin
79. ed 5 5 Battery If external enclosure required s E Power limited non power limited if MPC REL is used OW HOF WI Non power limited if Local Energy Box used 3 F Power limited or G or H G Power limited or F or H 7 or 8 w or wio 4 Power limited or F or G Loop 44 Loop 2 I A C E G A C E G E 4 4 E 6 od 5 a 6 6 3 ay Ji E 2 2 mm 4 E 3 i ISPLAY n E E 4 k F 10 E AF E S 2 n 2 1 3 3 F 2 It 1 3 1 2280 Pu elt Be dI lieu B D RND2 p H p 6000 p 700 SYSTEM MODULES FOR MPC 6000 MPC 7000 RND 2 1s MID Beat 6 NPE 1 Expansion Transformer 2n NEE Transformer 7 1 NAC Expansion Module 3 MPC DACT DACT Board or CT 1K City Tie 8 LEM 1 Loop Expansion Module 4 FDLC Loop Driver Board requires Main Board 9 HBC 1 Optional Battery Charger or LEM 1 Loop Expansion Board 5 12603A Network Interface Board Note Cannot be used with an expansion module in the uppermost position 10 Future Expansion 11 NPE 1 Expansion Transformer or RPT 1 if MPC REL is installed 12 12603A Network Interface Board or MPC REL Module 44 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Primary and Secondary Power Wiring The AC main connections TB1 and
80. ed to the Abort usage The abort type is selected when the releasing application is activated Failure of the abort switch to communicate with the fire panel will automatically restart the agent release timer When the abort input is activated it puts the panel in abort condition and turns the Abort LED to ON steady The following abort functions may be assigned ULI Standard UL Type Delay Timer If the abort function type is configured as ULI and an abort condition is initiated during pre discharge condition the pre discharge delay timer counts down or restores to 10 seconds then holds as long as the abort switch is pressed The pre discharge delay timer will resume the countdown as soon as the abort switch is released IRI Type Delay Timer If the abort function type is configured as IRI an abort condition is initiated only if the abort switch is held during the releasing group 1 alarm condition Otherwise it will be ignored When the abort switch is held during the 15 alarm condition the pre discharge timer is prevented from starting even if the threshold is subsequently met When abort is released pre discharge starts from the beginning Di A releasing threshold of Any 1 is not allowed for an IRI abort type NYC Type Delay Timer If the abort function type is configured as NYC it meets the New York City abort condition requirement for releasing application If the abort condition is initiated during the pre discharge con
81. egulated high cost clean machinery operating no smoking high air velocity Dormitory Airborne dust and temperature changes living quarters cooking fumes smoking Healthcare Higher level risk relatively clean electronic equipment Parking Garage Airborne dust car and diesel fumes temperature swings Equipment Storage Transformer Room Normal to somewhat dirty environment heat from running equipment Precious Storage Sensitive Environment Sensitive materials or equipment storage clean dust free environment earliest warning desired Hostile Environment Dirty dusty humid operating equipment RF present wide temperature swings Duct Open air or duct housing Dirty dusty humid wide temperature swings high air velocity Duct Alarm Verification Duct application with Alarm Verification enabled Alarm Verification Alarm Verification enabled No application 73 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL APPENDIX G TESTING MAINTENANCE If the system is connected to the fire department etc or actuates an internal system disarm the appropriate outputs before servicing to prevent actuation Notify the fire department and personnel at your facility that a System test is being performed so that any alarm sounding can be ignored during the test Notify the fire department before resetting the system Inspection Testing and M
82. eplaced when they fail to provide the control unit with the required standby and alarm power or after 4 years whichever happens first These batteries must be checked for performance at least two 2 times a year or more often if local requirements dictate Even though this control unit was made to last for the expected life of the fire alarm system any part could fail at any time Therefore a regular test program should be followed and documented to make sure that each part of the system is tested as in Chapter 7 of NFPA 72 or more often if dictated by local code requirements Malfunctioning units must be replaced or repaired immediately by factory authorized service personnel This control unit is designed to show an alarm condition when the initiating devices mH connected to it detect specific conditions These conditions may or may not represent a life threatening condition Also evacuation of a building or area unnecessarily may subject individuals to an unnecessary hazard Therefore it is most important that the building owner manager or representative promulgate distribute and or post instructions describing steps to be taken when the fire alarm control unit signals an alarm condition These instructions should be developed in cooperation and conformance with representatives of the local authority having jurisdiction As a backup or precautionary measure it is strongly suggested that one of these steps should be to notify the local fir
83. es commands from the control unit for activating the outputs and transmits supervision and control functions to the control unit The processor board can control up to 4 SLE 16 annunciator driver boards Each driver board provides 16 supervised programmable outputs for LEDs or incandescent lamps The control unit can address up to 8 Serial Relay Units and or Serial Annunciator Units RSE 300 auxiliary power supplies will be required to power units beyond the control unit capability RSE 300 Remote Signal Expander The RSE 300 is a notification appliance circuit expander with a built in auxiliary power output This power source is designed to provide power for notification appliances door holders and 4 wire smoke detectors The RSE 300 provides 6 amps of 24 VDC power for multiple uses All 6 amps can be directed to 4 Notification Appliance Circuits NACs Each is rated at 3 amps and is power limited Either 1 or 2 inputs can control the four outputs These outputs are compatible with Faraday notification appliances The RSE 300 can be configured so that the inputs can be programmed to provide steady outputs ANSI temporal outputs or Faraday SYNC protocol for synchronized horn strobe outputs It can also be programmed to silence Faraday sync horns while the sync strobes remain on using two wires This requires a silenceable and non silenceable input The RSE 300 also offers a 3 amp auxiliary output for driving other portions of your fire alarm system
84. facturer service the product Other parties involved in the installation of this product may have also provided a warranty which may be different from that of the manufacturer The manufacturer will only be responsible to the original purchaser and only for the manufacturer s own warranty For further information regarding the manufacturers warranty contact the original purchaser OWNER S MANUAL The owner s manual does not purport to cover all the details or variations in the equipment described nor does it provide for every possible contingency to be met in connection with installation operation and maintenance All specifications subject to change without notice Should further information be desired or should particular problems arise which are not covered sufficiently the matter should be referred to the installer or original purchaser listed below Installer Information Installer Company Address City State Zip Phone Date installed Installer s signature Original Purchaser Information Company Address City State Zip Phone Date purchased Purchaser s purchase order number Faraday sales order acknowledgment number Original purchaser s signature MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL PREFACE Along with the use of this instruction manual the appropriate following standards and the manufacturer s instructions for ini
85. g with the first account that is configured to send that event If the first account does not respond after the programmed number of attempts busy account not responding etc the DACT will automatically attempt to send the event to the second account providing the event is set to report for that account The DACT may be configured for connection to lines that are set up for Rotary and or Tone dialing See the MPC 6000 MPC 7000 RND 2 Programming Manual P N 315 049403FA for details Must Can No Report Each event type Alarm Alarm Restoral etc can be configured as Must Can or No report independently for each account If configured as No report the DACT will not report the event to that account If configured as Can report the DACT will only attempt to report the event to the account if it has not reported it on the other account If configured as Must report the DACT will attempt to report the event to the account even if it has already reported it to the other account In summary Must Report The event will be reported to this account even if it has reported it to the other account Can Report The event will only report to this account if it has not been successfully reported to the other account No Report The event will never report to this account 83 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL To configure an event to be reported to Account 1 and Account 2 set it to
86. h no T taps to preserve the integrity of the data Each end two places must be terminated with a 120 ohm E O L Resistor Assembly P N 140 050008 1 The following diagrams show the proper wiring IN OUT Remote Device Control Panel Remote Device OUT IN OUT Remote Device Remote Device Control Panel IN OUT Remote Device IN Remote Device RDC Remote Device Control Panel 50 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL X1 Addressable Device Circuit s These devices are polled by the control unit every few seconds and input or output functions communicated to determine device status or function The control unit monitors all device addresses for alarm and trouble conditions TW gt Wap v NM LZ 2 MPC 6000
87. hen 2 Alarm i is initiated Audible OFF i time gt Pre Signal When an alarm causing device in a Pre Signal input group is initiated the alarm condition is reported at the panel Its timeout group outputs are not activated until the programmed investigation delay has elapsed regardless of annunciation of subsequent alarms and acknowledgement of alarms see figure below 1 Alarm Panel initated Reset Investigation gt l 1 time 1 I Audible ON Alarm 2 Alarm Acknowledge wa Audible OFF Y v v time Pressing the Reset button at anytime during the Pre Signal sequence will initiate a reset condition and restore the panel to stand by state 81 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL APPENDIX K DIAGNOSTIC LEDS The LEDs on the following boards are used for diagnostic purposes only MPC6 MB MPC6 MB2 053 ON indicates Low battery voltage or No battery detected DS2 ON indicates High Battery voltage detected DS4 ON indicates panel detected a ground fault condition DS16 ON indicates defective battery charger circuit DS1 OFF indicates panel detected an AC Failure DS12 ON indicates that NAC1 is active DS13 ON indicates that NAC2 is active DS14 ON indicates that NAC3 is active DS15 ON indicates that NACA is active DS5 ON indicates Relay 1 is activated DS6 ON indicates Relay 2 is activat
88. iet oh cen ds ed anette E De rs secu erue EE e Fes co re dete 96 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL INTRODUCTION CONTROL UNIT LIMITATIONS This control unit may not show an alarm condition without compatible initiating devices smoke detectors etc and notification devices horn lights etc connected to it Electrical ratings of the initiation and notification appliances must be compatible with the electrical ratings of the control unit and must be properly interconnected The wiring used for interconnection must be large enough to carry the total current for all appliances without excessive voltage drop The RND 2 will not indicate alarm conditions without being connected to and configured correctly on an MPC NET2 network Refer to the MPC NET2 Manual P N 315 049594 for more information The control unit must be connected to a dedicated primary electrical source that has a high degree of reliability and adequate capacity for this control unit The only means of disconnecting this power source shall be available only to authorized personnel and clearly marked Fire Alarm Circuit Control The control unit must also have connected to it a battery set 24V that has enough capacity to properly operate the system for 24 60 or 90 depending on system type hours standby and 5 minutes alarm per NFPA 72 Chapter 1 These batteries do lose capacity with age Batteries must be r
89. ing the alarm will display a light indicating activation if applicable When the alarm condition has been corrected return the system to standby operation by pressing the SYSTEM RESET button e ALARMS ON RELEASING ZONES MPC 6000 ONLY Devices that activate the releasing circuits must be assigned to the releasing group via the CIS 4 configuration tool or front panel programming The releasing group may be configured to activate on any one alarm any two alarms or any one smoke plus any one thermal alarm For instance if the threshold of the group was set at any 2 the following would occur The first device activating will put the panel in a releasing group 15 alarm condition When the 274 device in that group activates it will start the pre discharge timer and put the panel in the pre discharge condition If the threshold were to be set at one any device in that group activating would immediately start the pre discharge timer When the pre discharge timer is activated the LCD displays the timer as it counts down and the Pre Discharge LED will be ON steady When the pre discharge timer expires the panel goes to the discharge condition and activates the releasing zones The Discharge LED will be ON steady It is recommended that the releasing group has devices with abort and manual release usages 23 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Abort Function Input modules may be assign
90. ire alarm system Audible Signal An audible signal is a sound made by one or more audible notification appliances such as bells or horns in response to the operation of an initiating device Authority Having Jurisdiction AHJ The organization office or individual responsible for approving equipment installation or procedure Auxiliary Relays Control relays that energize only during alarm conditions 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 notification appliance circuit within which all components remain fully functional even though a single open or ground exists in the circuit Class B Circuit An initiating device or notification appliance circuit within which some or all components may be disabled with a single open or ground exists in the circuit Detector FireSmart An intelligent fire detector that blends photoelectric thermal and neural network technologies for superior protection without false alarms Detector Smoke Photoelectric Type A detector employing the photoelectric principle of reflection or obstruction of light by smoke 96 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Detector Thermal Type An addressable thermal sensor that is programmable as either a fixed temperature 135 F or as a rate of rise detector Discharge Condition Refers to the condition in which the
91. l configured devices on the addressable device circuit and the Serial Interface Circuit respond to an address poll The system reports a trouble condition if the following conditions are detected e Configured device is missing Unconfigured device is installed Two devices are programmed with the same address location Loop card is shorted When loop card is shorted trouble is detected by the panel all devices on the loop card are disabled and will not be able to annunciate any events REGULATORY STANDARDS The MPC 6000 MPC 7000 control units and the RND 2 network annunciator meet the requirements of industry and government regulatory agencies as noted Federal Communications Commission The MPC DACT meets the Class A requirements of the Code of Federal Regulations CFR 47 Part 15 for electromagnetic field emissions The MPC DACT also meets the requirements of the Code of Federal Regulations CFR 47 Part 68 for connection of equipment to the public switched telephone network Underwriters Laboratories The MPC 6000 MPC 7000 Fire Alarm control units and the RND 2 network annunciator are listed under UL Standard 864 for compliance to NFPA Standard 72 for fire service 17 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL GENERAL SPECIFICATIONS Operating specifications for the MPC 6000 MPC 7000 RND 2 are as follows Environmental e Operating temperature 32 120 F 0 49 C e Re
92. lative humidity Up to 93 90 F 32 C To be installed in a dry protected environment only Primary Supply e Primary Input Voltage 120 VAC 60 Hz nominal e MPC 6000 RND 2 Maximum primary input current 2 4A at 120 VAC e MPC 7000 Maximum primary input current 3 5A at 120 VAC Secondary Power Supply e 24 volt lead acid battery set e Maximum Charge Voltage 27 8 VDC e Automatic Low Battery Disconnect Disconnect Voltage 18VDC 6000 RND 2 Maximum Charge Current 1 7A Minimum supervisory load e MPC 7000 Maximum Charge Current 3 8A e MPC 6000 RND 2 Battery capacity 7 38 AH over 12 AH requires separate enclosure for the batteries MPC 7000 Battery capacity 7 38 AH 100 AH with optional Battery Charger HBC 1 over 18 AH requires separate enclosure for the batteries Auxiliary Power Outputs maximum per power output circuit e Non Resettable Power Output Power limited Voltage 24 VDC nominal 31 VDC max filtered Ripple 1 5 VAC maximum 120 2 Resettable Power Output Power limited Voltage 24 VDC nominal 31 VDC max filtered Ripple 1 5 VAC maximum 120Hz The maximum cumulative available power output including Auxiliary power and Serial Interface power is 0 5A for MPC 6000 RND 2 1 0A for MPC 7000 Status Relays e Three programmable relays e One Non programmable status relay Status Trouble e Contact Rating 1 A 28 VDC maximum resistive e Form C Contact MPC 600
93. le and visual signals and remote alarm signals operate When an alarm occurs proceed according to the established emergency plan Assure that all personnel are accounted for and notify the Fire Department to advise of the alarm and or verify that an automatic signal has been received at the Fire Department Authorized Personnel Only Important Note The Button Enable key switch must be in the ON position for the keypad to operate To acknowledge the alarm To acknowledge the alarm place the Button Enable key switch in the ON position and press the Acknowledge button The local buzzer will be silenced and the Alarm LED will change from on flashing to on steady Note On a networked system the alarm may only be acknowledged at the node which initiates the alarm or the RND 2 To silence the alarm To silence the notification appliances after evacuation where permitted place the Button Enable key switch in the ON position and press the Alarm Silence button The silenceable notification appliances and buzzer will be silenced and LED indications will change from flashing to continuous The Alarm Silenced LED will be lit Note Do not reset the panel until the alarm has been cleared Warning Alarm silence inhibit if set prevents the alarm from being silenced for a predetermined time To reset panel after alarm When the alarm condition is corrected return the panel to normal standby operation by placing the Button Enable key switch i
94. ll When selected activates all NACs assigned to the Output Zone selected for Drill To activate a fire alarm drill proceed as follows e Press MENU e On the MENU display select More e Atthe next screen select DRILL e Atthe next screen select Yes e Operate RESET to terminate drill signal Recall When selected activates all NACs assigned to Output Zones selected for Recall To signal recall after a drill proceed as follows e Press MENU Onthe MENU display select More e Select RECALL Atthe next screen select Yes e Operate RESET to terminate recall signal Alert When selected activates all NACs assigned to the Output Zone selected for Alert To activate an alert alarm proceed as follows e Press MENU Onthe MENU display select ALERT Atthe next screen select Yes e Operate RESET to terminate alert signal 26 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Global Fan Restart When the fan restart feature is implemented initiating a global fan restart will immediately deactivate all hold thru reset outputs To initiate a Global Fan Restart proceed as follows Press MENU On the MENU screen select More On the next screen select More again On the next screen select More again History Select Fan Restart On the next screen select Yes to execute the global fan restart nor NE If a Global Fan Restart pr
95. mation refer to Appendix D Battery Size Calculations For calculation of battery size requirements see Appendix A 46 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL NAC Wiring At the lower right corner of the main board the terminal blocks TB12 and TB13 are used for the connection of notification appliances Four individual NACs marked 1 through 4 are provided and the polarity shown is when the NAC is activated NAC Rating Power Limited Alarm Voltage 24V nominal unfiltered fullwave rectified 31V max Max Alarm Current 1 5A NAC circuit Max Ripple 16VAC 120Hz Typical Typical Maximum Line Resistance 24V nominal Notification Appliance Circuit Notification Appliance Circuit unfiltered fullwave rectified Style Z Class A Style Y Class B Current Draw Line Impedance Supervised Power Limited Supervised Power Limited 1 5A 20 See Appendix B for See Appendix B for 1 0A 30 Compatible Devices Compatible Devices 0 5A 60 No EOL Device Max Standby Current 3 4mA For special application only Suitable for coded and C non coded application Refer to Appendix B to determine maximum sync b bea on notification appliances allowed per NAC The maximum total current for the MPC 6000 NACs is Pee 3 0A and 6 0A with the optional additional ae Transformer P N NPE 1 NAC 3 2 A The maximum total current for the 7000 NACs is 5 0A and 8 0A with the
96. mitted substitute cable provided these power limited cable conductors extending beyond the jacket are separated by a minimum of 0 25 in 6 35 mm or by a nonconductive sleeve or nonconductive barrier from all other conductors If energy limited cable or equivalent is not used within the MPC 6000 MPC 7000 RND 2 enclosure then the following guidelines do not apply In that case be sure to follow standard wiring practices Wiring Entering Enclosure Non Power Limited Wiring Wiring entering the enclosure from the bottom left side of the backbox is considered non power limited wiring Wiring must be in the shortest route and must not overlap any other wiring e Power Limited Wiring Wiring entering the enclosure from the top and the left side of the backbox is considered power limited Wiring must be in the shortest route and must not overlap any other wiring Install Wiring The primary mains input must have a separate or dedicated circuit breaker Wire in accordance with local codes and NEC 760 e Remove the knockouts in the backbox for the entry of field wiring Refer to Enclosure Mounting Pictures on pages 32 and 33 and Wiring Separation Diagram on next page for the location of knockouts e Pull all field wiring into the backbox Do not dress the wiring until the location of all the equipment is known Install the wiring from the external power source to the approximate location of the power supply The overall arrangement
97. n the ON position and then pressing the System Reset button Note If the fan restart feature is implemented the Independent or Global Fan Restart procedure must be initiated to deactivate the hold thru reset output type and activate the fans Trouble Operation Trouble is indicated by Trouble LED flashes LCD displays trouble conditions Panel buzzer sounds pulsing To acknowledge the trouble Place the Button Enable key switch in the ON position and press the Acknowledge button The Trouble LED turns on steady and the buzzer turns off When the trouble condition has been cleared you may need to reset the panel to restore to a normal standby condition Warning Leaving the panel in a trouble condition may prevent a fire alarm condition from initiating a fire alarm sequence Event Scrolling Viewing Events on the System Events are displayed in the system by event priority Alarm Supervisory Trouble followed by event occurrence oldest to latest event in a circular list If there are multiple events on the system pressing the upper right button adjacent to the LCD displays the next event that occurred to latest event of highest priority Pressing the lower right button adjacent to the LCD displays the previous event that occurred to the oldest event with the lowest priority Normal Standby Condition The green AC Power On LED will be lit and no other indicators on For service contact Telephone Number Fram
98. n to MPO DB 2 arrra tiri o Aaaa E EANO 40 SYSTEM WIRING AEEA E RAEE SIRENE EENE R 41 AC S pply Gonhnecti n 5 AEE A ET 41 Battery Installation E can ne a in ie i th tu A ie re 42 Powering the Control Unit i A EE UTR EUER EE LEER 42 Optional Modules st Sie de Sete oM tute X e ivt ose Er ero ME Nene REA 42 Check System Operation idees oca Bre i E RR EET AF 42 in dic c does Mace oic 42 Control Unit Wiring Overview 2 2 0 20000000006 E sa rsen nnne na nns enn 43 Wiring Entering Enclosure ct E Ero ed d A DU te rt HR EY He P o eR E 43 43 Wiring Separation and Module 44 Primary And Secondary Power nnne etant 45 Status Relays And Auxiliary Power Outputs Wiring sse eee enne enne nnns 45 MPC 6000 System Power Requirements sss sisse eene nennen nennen enean 46 RND 2 System Power 2 76 inan tnis en nnns 46 MPC 7000 System Power Requirements sssssss sisse eene nnne essen nne ennt 46 Auxiliary eed e bete eft iat Los Ua 46 B
99. nd testing should be performed in accordance with applicable NFPA 72 standards If the system has remote connections to the Fire Department or other monitor be sure to disable the remote signals and or notify the remote monitoring station before performing test operations To access the Panel Firmware Version Number Press Menu on the keypad Select the Maintenance mode e Enter the maintenance password If password is correct the firmware version displays on the LCD screen For any required service refer to the system manual or contact a factory authorized representative 25 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL ADDITIONAL OPERATING PROCEDURES In addition to the basic fire alarm instructions above several features are included to facilitate maintenance and increase the versatility of the system Following are procedures to call up these functions Lamp Test When selected Lamp Test activates the buzzer and turns on all the LEDs on the user interface for 2 seconds then reverts to its previous state To initiate a Lamp Test proceed as follows e Press MENU On the MENU display select More e Onthe next screen select More again e Select Lamp Test to initiate the lamp test sequence e Select Esc to return the control unit to normal display Note that lamp test operates the indicators only on the units being operated and no record is reported to system history Dri
100. neral Alarm Alert Drill and Recall from the RND 2 to the networked panels Setting this option to No disables this feature 89 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL APPENDIX N DIAGNOSTIC PRINTER Nore ar Diagnostic printers are NOT supervised and MUST NOT be installed permanently on the panel typically longer than 24 hours The printers are used strictly for diagnostic purposes only MPC 6000 MPC 7000 printer connection Diagnostic printers are connected to the MPC 6000 7000 panels through terminal TB4 of its main board using an RS232 DB25 serial cable serial cable is not provided See Figure 1 below Following are the pin connections to connect the diagnostic printer Main Board RS232 DB25 TB4 Terminal serial printer Pin Number RX 2 TXD TX 3 RXD GND 7 56 Hn 3 _ Addressable 3 m Device Circuit E BI bui IN nnn lg x nn o 3 x T e uS O E 5 Y O OUT m galt 46 END Ap 3 105 Diagnostic Printer Connection Jor an TA B 13 5
101. nnunciator consists of a backlit 80 character 20 x 4 alphanumeric LDC display 4 menu buttons 4 dedicated buttons for operator interface 9 LED indicators and a security key switch The display and controls of the RDC 3 are the same as those on the front of the MPC 6000 panel including a key switch for security The backlight activates only during active button press or when events are present on the system to conserve power The RDC 3 can be installed in MPC 6000 panels with releasing application only Up to sixteen annunciators may be addressed by the communication circuit Some may require additional RSE 300 auxiliary power supplies depending on the total accessory power loading Serial Relay Unit and Serial Relay Extender The SRU 2 Serial Relay Unit includes a processor board and a relay board The processor board receives commands from the control unit for activating the relays and transmits supervision and control functions to the control unit The processor board can control up to 3 SRE 8 relay boards Each relay board provides 8 programmable relays with Form C contacts The control unit can address up to a total of 8 Serial Relay Units and or Serial Annunciator Units RSE 300 auxiliary power supplies will be required to power units beyond the control unit capability Serial Annunciator Unit and Serial Annunciator Extender The SLU 2 Serial Annunciator Unit includes a processor board and an annunciator driver board The processor board receiv
102. ocedure is initiated precaution must be taken to prevent physical damage to the fans dampers air ducts and other equipment For example staggering fan activation to avoid power surges and verifying that dampers are opened before the fan activates to prevent damage to the air ducts These parameters must be monitored and controlled by another method technique that is not discussed in this manual The last approximately 2000 system events are time tagged and recorded for review in the user level event history This history is available to anyone with the door key but may be erased only at the maintenance security level Operation of history New events overwrite old when filled Printer if used records all events For more information see the Event History section Access to history To recall past events proceed as follows Press MENU button On the MENU display select More On the next screen select More Select View History Operate upper left button adjacent to the LCD for previous event display Operate lower left button adjacent to the LCD for next event display Operate upper right button adjacent to the LCD to exit to MENU DISPLAY The display reverts to its previous state if no action is performed within 30 seconds 27 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL MPC 6000 MPC 7000 RND 2 OPERATING INSTRUCTIONS Alarm Operation In case of alarm the Alarm LE
103. of boards in the control unit is shown in the following diagram 43 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Wiring Separation and Module Placement All high voltage and non power limited wiring must be kept separate from power limited wiring A separation of at least a 1 4 inch must be maintained with high voltage and non power limited wiring running in separate conduit openings from power limited wiring KNOCKOUTS FOR MPC 6000 MPC7000 RND 2 A Non power limited High Voltage AC power or B B Non power limited High Voltage AC power or A C Power limited A C E G D Non power limit
104. of the system manual to determine the probable cause of the trouble and the action to be taken When the trouble condition has been noted pressing the ACKNOWLEDGE button will silence the buzzer and change the trouble LED to steady ON If the panel is configured for Supv Trouble Resound Reminder and the trouble condition is not corrected and the Supv Trouble Resound Reminder timer has elapsed the panel will re annunciate the trouble condition 24 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL If the control unit is programmed for trouble acknowledge required when the indicated trouble condition has been cleared the system reverts to standby condition only after the ACKNOWLEDGE button is pressed mH Some trouble conditions are latching troubles that require a system reset to restore the control unit to supervisory mode Supervisory Conditions In case of a supervisory condition the system supervisory LED activates ON flashing and the sounder activates ON pulsing When the supervisory has been noted pressing the ACKNOWLEDGE button will silence the buzzer and change the supervisory LED to steady ON If the panel is configured for Supv Trouble Resound Reminder and the supervisory condition is not corrected and the Supv Trouble Resound Reminder timer has elapsed the panel will re annunciate the supervisory condition The releasing zone will indicate a supervisory condition when it is disabled
105. olts securely against the back wall of the backbox e The RSE 300 Auxiliary Power Supply or battery enclosure may be mounted immediately below the main enclosure close nipple allowing a minimum of 1 inch in between the enclosures for clearance between the doors Keeping the wire run to the control unit short will keep the voltage drop to a minimum asemi flush mount installation is desired use the SFTK 6 R B Semi flush Trim for the MPC 6000 RND 2 and the SFTK 7 R B Semi flush Trim for the MPC 7000 The backbox can be mounted up to 3 1 2 inches into the wall Place the semi flush trim around the backbox and affix to the wall with four 10 x 3 4 inch wood screws provided with trim DH You may need a different screw type depending on the wall material For semi flush installations if the RSE 300 Auxiliary Power Supply or a battery enclosure is required it may be mounted immediately above or below the main enclosure close nipple allowing a minimum of 3 inches in between the enclosures for clearance between the semi flush trims Keeping the wire run to the control unit short will keep the voltage drop to a minimum MPC 6000 and RND 2 Enclosure Mounting Pictures ie ym ejs te EENES WE p 22 f gt BOX 22 7 25 Vg DOOR 22 9 32 11 9 64 oh 11 9 64 T 1 9 32 L Ven 2
106. ominal 31 VDC max filtered Maximum Current shorted 0 375A Maximum wire loop resistance 50 ohms see graph in Appendix A on page 60 Style 4 or 6 circuit 252 Addresses detectors and modules max MPC 6000 One circuit RND 2 No loop circuits MPC 7000 Two circuits expandable to four 19 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL City Tie Optional City Tie Board P N CT 1K CA Reverse Polarity Selectable for Alarm with Trouble or Alarm only operation e Not power limited e Supervised by receiver e Voltage 24 VDC nominal 31 VDC max filtered e Current 0 020A maximum normal or trouble e Current 0 025A maximum shorted e Ripple 1 5 VAC maximum 120Hz CT Reverse Polarity Programmable for Trouble or Supervisory or both e Not power limited e Supervised by receiver e Voltage 24 VDC nominal 31 VDC max filtered e Current 0 020A maximum normal or alarm e Current 0 025A maximum shorted e Ripple 1 5 VAC maximum 120Hz LE Local Energy e Not power limited e Supervised for open by control unit e Voltage 24 VDC nominal 31 VDC max filtered e Standby Current 0 007A maximum e Alarm Current 0 400A maximum e Ripple 1 5 VAC maximum 120Hz e Maximum wire loop resistance 30 ohms e Trip coil impedance 14 5 ohms DACT Circuit Optional DACT Board MPC DACT e Power limited e Supervised for short or open circuit e Maximum Voltage 60 VDC e Maximum Current shorted
107. omputer must be disconnected from the panel if not in use LEDS Sounder and Dedicated Push Buttons The LEDs operate as follows POWER Green Normally ON steady indicates that power is applied to the panel OFF indicates that the panel is not powered up ALARM Red Normally OFF indicates that there is no alarm event the system ON flashing indicates that at least ONE alarm event is unacknowledged ON pulsing indicates that ALL alarm events have been acknowledged ALARM SIL Yellow Normally OFF indicates that NACs are in the OFF state if the system is in normal supervisory mode If any event is present it indicates that the silenceable NACs are in the OFF state ON steady indicates that at least one silenceable NAC has been activated PRE ALARM Yellow Normally OFF indicates that there is pre alarm event in the system ON flashing indicates that at least ONE pre alarm event is unacknowledged ON steady indicates that ALL pre alarm events have been acknowledged SUPERVISORY Yellow Normally OFF indicates that there is no supervisory event in the system ON flashing indicates that at least ONE supervisory event is unacknowledged ON steady indicates that ALL supervisory events have been acknowledged TROUBLE Yellow Normally OFF indicates that there is no trouble event in the system ON flashing indicates that at least ONE trouble event is unacknowledged ON stea
108. on port PAS Status Disabled PAS has been disabled PC Pgmr Trb Control unit is not receiving communication from PC QuickTest Abort Quick Test Timer expired causing abnormal exit of Quick Test RDC xx Norespons Configured RDC 2 3 xx is not responding RP xx No Respons Configured remote processor SLU2 SRU2 xx is not responding Trb Reminder Trouble Reminder timer expired Note 1 Panel reset is required to clear this trouble MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL System Events ENTRY INDICATES NOTES Backup Cnfg Edit Mnt Levl Enter Entered Maintenance level Mnt Levl Exit Exited Maintenance level Mnt PW Changed Changed Maintenance level password NACxx Active Confirm NAC activation confirmed Panel Reset MAIN LCDxx shown on bottom line Power Up PriConfigCopied Primary configuration copied to backup QuickTest Exit Exited Quick Test MAIN or LCDxx shown on bottom line QuickTest Start Started Quick Test MAIN or LCDxx shown on bottom line System Date Changed Changed system date old and new dates shown on lines 3 and 4 System Time Changed Changed system time old and new times shown on lines and 4 Tech Levl Enter Entered Tech level Tech Levl Exit Exited Tech level Tech Levi PW Changed Changed Tech level password User Levl Enter Entered User level 69 MPC 6000 MPC 7000 RND 2 IN
109. optional additional Transformer P N NPE 1 Voltages are in RMS values NAC4 2 J See table for NAC Jumper Configurations v3 TB8 99 cort GH uii G3 2 2 TB12 09 3 Com 8H See Typical O 4 e Wiring TB13 Polarity Shown In Activated Condition Use the following table to configure the NACs for either Class A or Class B operation by placing the 8 pin jumper to the proper socket location This must be configured before system power up NAC s Class B Paired Class Operation A Operation 1 2 JP1 JP2 3 4 JP3 JP4 47 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Releasing Circuit Wiring Use only if MPC REL is installed The releasing circuits are connected to TB1 of the MPC REL module Two individual Releasing Circuits are provided along with 4 programmable open collector circuits that are connected to TB2
110. re J GE Knock out Locations JJ 22 Top amp Bottom of Enclosure 24 nati 22 7 8 amp 1 1 8 Dio 7000 Enclosure MPC 7000 Enclosure w Semi fiush Trim Remove Knock Outs Prepare the enclosure for electrical wiring by breaking out the appropriate conduit entry points Segregation is required between power limited and non power limited conductors In order to maintain the minimum separation follow the wire routing illustrated on page 43 Separation of at least a 1 4 inch is required between the non power limited and power limited conductors Power limited and non power limited wiring must be run in separate conduit Attach conduit if required and run wires as required Label each field cable for future reference Basic system wiring and detector siting must be in accordance with NFPA 72 or other instructions from the appropriate local authority having jurisdiction Unit connections and limitations are as indicated on the wiring diagrams included in System Wiring part of this manual Wire reference data are included in Appendix A 34 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Main Board Installation P N MPC6 MB MPC6 MB2 MPC7 MB e Secure the board to the back of enclosure using the provided 6 32 x 1 4 screws P N 906 220604 Eight for the MPC6 MB and ten for the MPC7 MB e AC Input terminals must be located at
111. releasing circuit is activated Discharge Output Type Defined as the output type associated with a releasing group and activated if the panel proceeds to the Discharge event Discharge Period Defined as the time period in which the releasing circuit will remain active before automatically deactivating Enable Disable Refers to the state of individual circuits inputs and outputs or logic functions regardless of the presence of its corresponding modules End Of Line EOL A device used to terminate a supervised circuit Fan Restart Condition Refers to a condition where after a soft reset from an alarm condition the deactivation of a hold thru reset output where ON time 0 is dependent on the initiation of fan restart usage device General Alarm A term usually applied to the simultaneous operation of all the notification appliances on a system mapped to the general alarm system group Global Fan Restart Refers to the fan restart procedure initiated from the panel Ground Fault A trouble condition in which a low resistance has been detected between the system wiring and conduit ground Hold Thru Reset Condition Refers to a condition where the hold thru reset output will remain in its current state before and after the reset until the OFF time delay has elapsed Initiation of fan restart usage has higher priority than the OFF time delay and will therefore immediately deactivate the hold thru reset outputs Independent Fan Re
112. rmer plugs into J1 f optional additional transformer P N NPE 1 or RPT 1 is required install it also at this time Optional transformer plugs into connector J3 the Main Board P N 6 7 or MPC6 MB2 NPE 1 Transformer optional NPE 1 Transformer 4 optional i RR OR SS RPT 1 Transformer NPE 1 eene comet Transformer A MPC 6000 7000 37 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Loop Driver Board s Mounting P N FDLC e Place the provided standoffs P N 375 F943165 in locations shown on the Main Board four for the MPC 6000 and eight for the MPC 7000 e Carefully align connector J1 on the Loop Driver Board with connector J9 on the MPC 6000 Main Board P N MPC6 MB or MPC6 MB2 or with connectors J9 and J14 on the MPC 7000 Main Board P N MPC7 MB 375 943165 Standoffs EDLC Loop Driver Boards MPC 6000 MPC 7000 38 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Display Board Installation P N MPC 6 7 DB MPC6 DB2 RND2 DB or RN2 DB2 With the Inner Front Plate closed carefully pass connector and cable from keypad through vertical slot in front plate Remove backing from keypad and carefully attach keypad to front plate Center window in keypad on large opening in front plate l
113. roved External 24VDC Power Supply Network Printer Basic Networking Principles The MPC networking system allows up to 99 panels or nodes to be connected in a network Every panel counts as a node address as does a network Printer NIB For a panel to be connected to the MPC network a network interface board NIB is required The optional RND 2 acts as a location to monitor network events and simultaneously acknowledge silence and reset all networked panels Each node requires a unique network address which can also have a label that describes the panel location or capability For example an RND 2 at the lobby of an office might be programmed to have a node address of 1 and a label such as RND 2 Lobby If an RND 2 is not configured into the system each network node will act individually unless programmed to activate the other panel s output zone This can be accomplished using the network links described below The auto program feature can be used to detect connected hardware however it will not detect other nodes in the network Additional nodes must be configured separately through either the CIS 4 programming tool or directly from each panel If programming from the panel each node requires a unique network node address and total number of network nodes that will be configured To program the network nodes from the panel in the Tech mode choose Edit Manual Pgm Network Setup If not alre
114. s Faraday Cat No Description Compatible Detector 8853 Base 8710 8712 8713 8715 Audible Base 8710 8712 8713 8716 Relay Base 8710 8712 8713 8840 Duct Housing 8710 8813 8717 Duct Housing with Relay 8710 8713 Faraday X1 Accessories Faraday Cat No Description 8726C Intelligent Remote Lamp Ceiling mount 8726W Intelligent Remote Lamp Wall mount 8727C Remote Lamp Ceiling mount 8727W Remote Lamp Wall mount Notes 1 Faraday X1 devices detectors and modules up to a maximum of 252 addresses may be used per addressable X1 FDLC Loop Driver Circuit 2 Forspecific wiring and installation information read the instructions provided with each device 3 If the contact device family is used in a releasing application the EOL resistor listed the nameplate is a 4700hm 74W EOL resistor Rev 7 0 or higher firmware must be used Refer to the nameplate figures on the following page 4 f more than one 8706 is used on an X1 device loop the loop must be wired Class A or the riser conductors must be installed in accordance with the Survivability From Attack By Fire requirements in the National Fire Alarm Code NFPA 72 If wired Class A at least one 8709 loop isolator must be installed between each 8706 and between the panel and the first and last 8706 See the 8709 installation instructions for the maximum number of isolators allowed per loop and other wiring instructions 64 MPC 6000
115. s but delays additional programmed outputs for 15 seconds 22 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Operation of the ACKNOWLEDGE button within 15 seconds will add a number of seconds 60 180 to the PAS timer for the purpose of investigation If the ACKNOWLEDGE button is not operated within 15 seconds the additional user programmed outputs activate If the initiating device and the panel are reset before the PAS timer times out the alarm sequence is aborted During the investigation period an alarm condition on a device programmed for direct alarm response will override the PAS timer and activate the additional user programmed outputs See the MPC 6000 MPC 7000 RND 2 Programming Manual P N 315 049403FA for additional details PRE SIGNAL ALARMS Activation of an initiating device in an input group programmed for PRE SIGNAL activates the Alarm LED display buzzer system and user programmed outputs The delay of activation of additional user programmed outputs can be programmed from 60 to 180 seconds If the system is not reset during this period these additional user programmed outputs will activate See the MPC 6000 MPC 7000 RND 2 Programming Manual P N 315 049403FA for additional details Do not reset the system until the alarm condition has been cleared The LCD will indicate the area in which the alarm was detected The detector or module associated with the device initiat
116. s for the maximum number of isolators allowed per loop and other wiring instructions 53 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL PROGRAMMING THE CONTROL UNIT KEYPAD PROGRAMMING Customized programming of the control unit may be accomplished through the keypad in the control unit See the Faraday MPC 6000 MPC 7000 RND 2 Programmer s Manual P N 315 049403FA for detailed information of system programming PC PROGRAMMING Programming the panel may also be done by a temporary connection to the programming port with a computer This is a convenient method to program the panel The Faraday 5 4 software allows programming the control unit by connection to a Personal Computer PC with an EIA 232 serial port This allows ease of operation by preparing the program in advance and downloading to the control unit in simple rapid operation PROGRAMMING SECURITY The following levels of security protect the system from unauthorized use User Locked Door e Maintenance Locked Door and 4 digit Maint Password e Technician Locked Door and 6 digit Tech Password The User Level is also accessible from the Remote LCD Annunciators 54 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL MAINTENANCE GENERAL The MPC 6000 MPC 7000 RND 2 provides a maintenance mode to allow for the setting and controlling of various features in the system Since the RND 2 does not ha
117. serial interface that is connected to the MPC NET2 network system Connect 12536A serial connector to the printer using an RS232 DB25 or DB9 as shown in Figure 7 93 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL FOR CONN ECTIONS ALL WITHIN SAME BUILDING NOT SUPERVISED oo 1 2 o 1 20 2 8 7 6 5 159 299 v 2 SUB 9 PIN COMPUTER FOR is SUPPLEMENTAL l D SUB 25 PIN USE 1 N E TX RX lt 24V oO Q SH OIA SB SERIAL PRINTER amp SH FARADAY P N 12519 OR 401355 A l FOR SUPPLEMENTAL USE ONLY 12526 NETWORK INTERFACE BOARD WITH ISOLATED RS232 FOR SUPERVISED __ PRINTER OR SUPPLEMENTAL SUPERVISED en SUN COMPUTER d Bas MOUNTS IN 12411 0 14 4 1 SURFACE BACKBOX ae eee PREVIOUS NETWORK INTERFACE BOARD 24 6000 24 O
118. sistive Programming Port RJ 11 jack is provided for a non isolated RS 232 connection for temporary connection to a computer for panel programming Refer to the MPC NET2 Owner s Manual P N 315 049594 for more details on the networking system MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL OPTIONAL MODULES CT 1K City Tie Board MPC 6000 MPC 7000 RND 2 The Faraday CT 1K city tie board provides local energy and polarity reversal connections The polarity reversal connections provide a trouble circuit and an alarm circuit with optional trouble output The CT 1K mounts on the MPC6 MB MPC6 MB2 or MPC7 MB Cannot be used in conjunction with a DACT Board MPC DACT Board MPC 6000 MPC 7000 RND 2 The Faraday MPC DACT Digital Alarm Communication Transmitter board will send control unit status data to a remote receiving station The MPC DACT mounts the MPC6 MB MPC6 MB2 or MPC7 MB Cannot be used in conjunction with the City Tie Board NPE 1 Transformer Assembly MPC 6000 MPC 7000 The Faraday NPE 1 optional transformer assembly provides an additional 3 amps of NAC power The transformer mounts in the cabinet above the two transformers that come standard with the MPC 6000 MPC 7000 A maximum of one optional NPE 1 is allowed per system 1 NAC Expansion Board MPC 7000 The NEM 1 NAC Expansion Board has eight independent Class B Style Y notification appliance circuits NACs Pairs of N
119. splay select GENERAL ALARM e At the next screen select Yes Silence and reset the system to restore the system to supervisory state e NORMAL ALARM When the system detects an alarm condition the system alarm LED activates ON flashing and the buzzer activates ON steady Local audible and visual signals along with remote alarm signals operate and the LCD panel indicates the alarm On receipt of an alarm proceed in accordance with the established emergency plan Assure that all personnel are accounted for and notify the Fire Department To silence the audible after evacuation where permitted by the codes and control unit programming press ALARM SILENCE The alarm audible will be silenced the alarm silence LED will be illuminated Operating the ACKNOWLEDGE button will silence the local buzzer and change the LED alarm indicator from flashing to steady e WATERFLOW Alarms Alarms detected on devices with usage designated as waterflow to indicate sprinkler operation and the audible alarms cannot be silenced in this condition Operation of alarm silence will produce no effect e SILENCEABLE WATERFLOW Alarms Alarms detected on devices with usage designated as waterflow to indicate sprinkler operation The associated audibles are silenceable e POSITIVE Alarm Sequence PAS Activation of an initiating device in an input group programmed for PAS activates the Alarm LED display buzzer system and user programmed output
120. start Refers to the fan restart procedure initiated from a device with fan restart usage that will deactivate hold thru reset associated with its input group Initiating Device A manually or automatically operated device such as a manual pull station smoke detector heat detector waterflow switch or tamper switch Initiating Device Circuit IDC A circuit to which initiating devices are connected Labeled Equipment or materials to which have been attached a label symbol or other identifying mark of an organization acceptable to the authority having jurisdiction and concerned with product evaluation that maintains periodic inspection of the production of such labeled equipment or materials And by whose labeling the manufacturer indicates compliance with appropriate standards or performance in a specified manner 97 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Listed Equipment or materials included in a list published by an organization acceptable to the authority having jurisdiction and concerned with product evaluation that maintains periodic inspection of production of listed equipment or materials And whose listing states either that the equipment or material meets appropriate standards or has been tested and found suitable for use in a specified manner Manual Release Function Defines an event that is manually initiated in which the releasing circuit activates regardless of the condition of the sys
121. surrounding it and the transformer when the AC supply is turned on Do not touch 41 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Battery Installation WARNING Improper battery connections or shorting battery terminals may damage the system and or batteries and may cause personal injuries Use the battery calculation chart to determine the battery size Place the batteries in the space provided in the bottom of the backbox If a battery set larger than 12 AH MPC 6000 RND 2 or 18 AH MPC 7000 is required a separate enclosure must be used The Faraday 14050 may be used for battery sets 18 AH and smaller The Faraday BE 1 may be used for battery sets 38 AH up to 100 AH The control unit uses a 24V battery set Connect the two 12V batteries or four 6V batteries in series with wire that is rated for the maximum worst case battery current draw Route the battery leads to the left of the enclosure and up to the battery connector The battery leads are not power limited DO NOT CONNECT THE BATTERIES YET Powering the Control Unit After all modules and wiring are installed and properly checked apply AC power to the control unit AC POWER ON LED SYSTEM TROUBLE LED and the trouble buzzer should be on Observe polarity Connect the B black lead from the main board into the black or terminal of the battery set and the B red lead from the main board into the red or terminal of the battery set
122. system powered Since the printer capability is always on there is no need to configure it further Every panel has the capability to turn off the printer via the Tech menu lt Network Setup option Once enabled everything will be printed to the network which is picked up by the printer Node Refer to MPC NET2 Owner s Manual P N 315 049594 for further information Network Links Network links allow the panel to display and annunciate events from other networked panels They may be programmed with either the configuration tool or the firmware A maximum of 255 network links may be used Refer to the MPC 6000 MPC 7000 RND 2 Programming Manual P N 315 049403FA for a detailed description of network links When using a DACT network links must be programmed for input groups to report to the DACT Input groups that are not associated with network links will not report to the DACT 88 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Global Accept This option can only be configured in MPC 6000 7000 networked panels There are two programming options for Global Accept Yes and Setting this option to Yes allows a Networked panel MPC 6000 7000 to be silenced acknowledged and reset from the RND 2 Setting this option to No requires independent silence acknowledge and reset at the local panel Global Send Setting this option to Yes at the RND 2 allows the RND 2 to activate Ge
123. t If J3 is populated with 24 pin header insert the keypad connector to J3 header with pin 1 of J3 properly aligned with the keypad connector until it is a tight fit Verify that pins 23 and 24 last two pins on the bottom of J3 are not connected to the keypad connector LCD Contrast Adjust M 5 Keyboard w ith Releasing LEDs connector P N 215 649557FA Backside of MPC6 DB2 26 ribbon cable connected to the Main Board Keypad without releasing application LEDs P N 215 649113 Align the keypad connector P N 215 649113 to J3 of MPC6 DB2 as shown below If J3 is populated with a 22 pin header insert the keypad connector to J3 header with pin 1 of J3 properly aligned with the keypad connector until it is a tight fit Verify that pins 19 22 last four pins of J3 are not connected to the keypad If J3 is populated with 24 pin header insert the keypad connector to J3 header with pin 1 of J3 properly aligned with the keypad connector until it is a tight fit Verify that pins 19 24 last six pins of J3 are not connected to the keypad LCD Contrast Adjust Keypad w ith no Releasing LEDs connector P N 215 649113 Backside of MPC6 DB2 26 pin ribbon cable connected to the Main Board 40 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Ground Wire Installation P N 600 149373 At
124. t To initiate the Quick Test mode enter Maintenance mode and navigate through the menu for the Quick Test option and then select START A trouble condition is annunciated and the LCD on the panel indicates that the panel is in Quick Test Mode It will also indicate the time before it reverts back to stand by mode if there is no activity on the panel This is configurable in Technician Mode System Parameter System Timers Quick Test Exit Time Initiation of any addressable device on the loop that is Quick Test mode will activate associated NACs and outputs for the configured activation time This event will be indicated on the panel and recorded in Event History As soon as the NAC deactivates the next addressable device is ready to be initiated Initiating a reset condition by pressing the Reset pushbutton while in Quick Test mode will exit Quick Test and restore the panel to its stand by mode Refer to the MPC 6000 7000 RND 2 Programming manual P N 315 049403FA for details on accessing the Quick Test functions 8705 in Quick Test Testing conventional detectors in Quick Test requires a few more steps than testing addressable devices Since the 8705 only guarantees that one detector will stay in alarm at a time its detector loop must be reset after each detector is alarmed This can be accomplished in the following ways By shorting the device loop for at least six seconds By interrupting power to the device loop or th
125. t Do not remove the small strip of paper backing next to the ribbon cable This will S J3 Keypad g prevent the cable from adhering to the keypad prior to positioning on the plate Attach the cable connection from the keypad on the Inner Front Plate to connector J3 on the Display Board P N MPC 6 7 DB MPC6 DB2 RND2 DB or RND2 DB2 Secure Display Board P N MPC 6 7 DB MPC6 DB2 RND2 DB or RND2 DB2 to Inner Front Plate Assembly using four of the provided 6 32x1 4 screws P N 906 220604 Plug the Cable Assembly P N 555 446055 into connector J1 of the Display Board P N MPC 6 7 DB MPC6 DB2 RND2 DB or RND2 DB2 and to connector J11 of the Main Board P N MPC6 MB MPC6 MB2 or MPC7 MB Display 906 220604 4 Pa Board N 6 32 x 1 4 SCREW_ N Comnection J1 Connection to Main Termination 7 N Board d y PLATE ASS Y 6000 showing Display Board and Keyboard being attached to Front Plate Ass y MPC 7000 showing Display Board attached to Front Plate Ass y 39 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Keypad Connection to MPC6 DB2 Keypad with releasing application LEDs P N 215 649577FA for MPC 6000 only Align the keypad connector P N 215 649557FA to J3 of the MPC6 DB2 as shown below If J3 is populated with a 22 pin header insert the keypad connector to J3 header until it is a tight fi
126. t Can Alarm event is set to Must Report on Account 1 and Can Report on Account 2 Panel succeeds on Account 1 before Account 2 512 Step 1 Panel goes into alarm Step 2 N Account 1 Panel tries to send event to Account 1 but is unsuccessful Account 2 Step 3 Panel keeps trying to send event to Account 1 until the programmed Number Of Attemps has been reached Step 4 Account 1 Panel switches to Account 2 and attempts to transmit but is unsuccessfull there too BE N Account 2 Step 5 Panel keeps trying to send event to Account 2 until the programmed Number Of Attemps has been reached then switches back to Account 1 Step 6 Y Account 1 Panel sends event to Account 1 successfully Account 2 Done The panel does not try to send to Account 2 again since Account 2 is set for Can Report and the event was already successfully sent to Account 1 85 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Scenario 3 Must Can Alarm event is set to Must Report on Account 1 and Can Report on Account 2 Panel succeeds on Account 1 the first time Se Step 1 Panel goes into alarm Step 2 Panel sends event to Account 1 Y Account 1 successfully Account 2 Step 3 Panel does NOT a
127. tach Ground Wire P N 600 149373 to inside of outer door using provided 6 nut P N 950 220604 Attach Ground Wire P N 600 149373 to outside of inner door using provided 6 screw P N 906 220604 SYSTEM WIRING Before connecting the field wiring check the wiring for opens shorts grounds and stray voltages WARNING Damage may result if a high voltage insulation tester is used on wiring while connected to the control unit Terminate the field wiring to the main board in accordance with the diagrams in System Wiring Section and the system design documents D wiring must be in accordance with local codes and the National Electrical Code Use only wire as described in Article 760 of the National Electric Code AC Supply Connection Wire the AC supply to terminal block TB1 on the main board The supply should originate from a dedicated 15A branch circuit It should be provided with a breaker or other means of isolation that must be colored red Refer to Primary and Secondary Wiring Section for connection diagram Observe the wiring order the bottom terminal is ground and must be wired back to the electrical panel ground earth bonding point or another good ground acceptable to the authority having jurisdiction and the electrical inspector The neutral wire must be taken back to the electrical panel neutral distribution bar Dangerous voltages will be present on this terminal block and on other components
128. tation of history The display is controlled by a set of four push button switches commanding the control processor A back light is included in the display to assure visibility in low light but to conserve power it is only activated during a reported event or on operation of a display control switch Individual LEDs on the panel are provided to indicate SYSTEM ALARM PREALARM SUPERVISORY ALARM SILENCED SYSTEM TROUBLE and AC POWER ON Direct push button controls are provided for ALARM SILENCE ACKNOWLEDGE MENU and SYSTEM RESET Power Supply A 24V nominal power supply provides all operating power to the control unit for both standby and alarm conditions Sufficient battery charging capability is available to charge 38 AH sealed lead acid batteries within code requirements for up to 60 hour quiescent plus 5 minutes alarm The cabinet will hold batteries only up to 12 AH The back up battery is 24V maintained by floating on the power supply The battery will be automatically disconnected at low battery voltage to prevent deep discharge MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Serial Interface Circuit RND 2 control unit has a Serial Interface Circuit that will drive up to 16 remote LCD annunciators Status Relays Four relays with dry contacts are provided Three relays are programmable and the Trouble status relay is non programmable The relay contacts are Form C and are rated for 1A 28VDC re
129. tem This function is ignored if the releasing circuit has already activated and the Discharge Period has elapsed NEC National Electrical Code also published as NFPA standard 70 Node In a networked system it is a redistribution or end point for data transmission that has a programmed or engineered capability to recognize and process or forward transmission to other nodes Notification Appliance An electrically operated appliance used to indicate the system status such as a bell horn strobe light or speaker Notification Appliance Circuit NAC A circuit to which notification appliances are connected Power Supply That portion of the fire alarm control unit which provides the power needed to operate all control unit modules as well as that needed to operate all electrically powered initiating devices and all notification appliances Pre discharge Condition Refers to the condition in which the Pre discharge delay has been activated Pre discharge Delay The time period delay before the activation of the releasing circuit when the releasing condition is met Programming Tool Refers to an external proprietary software package that allows the user to program the panel CIS 4 for the MPC 6000 MPC 7000 panels Quick Test A term pertaining to the test mode of the system that automatically resets after a service technician tests initiating devices Releasing Group Threshold Defined as a set of conditions which the input rel
130. ters are programmed through the panel or the CIS 4 configuration tool The MPC REL requires an MPC 6000 Electronics Package 2 see page 30 and an RPT 1 transformer that mounts above the NPE 1 transformer s mH When an RPT 1 transformer is used the optional NPE 1 transformer is not available fg TheMPC REL must not be installed a networked system 12603A MPC 6000 MPC 7000 RND 2 This is the basic NIB Network Interface Board card that is installed in the panel enclosure that allows the panel to communicate in the MPC NET2 network It is connected to the serial port of the main board MPC6 MB MPC6 MB2 MPC7 MB2 Refer to the MPC NET2 Owner s Manual P N 315 049594 for more information 12523A MPC 6000 MPC 7000 RND 2 The 12523A is a 12603A NIB Network Interface Board card installed in a 12411 surface box enclosure that is installed external to the panel enclosure It is connected to the serial port of the main board MPC6 MB MPC6 MB2 MPC7 MB2 Refer to the MPC NET2 Owner s Manual P N 315 049594 for more information 11 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL 12526A MPC 6000 MPC 7000 RND 2 The 12526A is a 12523A NIB Network Interface Board card has an RS232 daughter card This allows the network to be connected to a diagnostics isolated serial printer to print network events Refer to the MPC NET2 Owner s Manual P N 315 049594 for more information 12525 MPC 600
131. the left side of the enclosure MPC 7000 35 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Bridge Rectifier Installation P N 130 PM3223 Secure the bridge rectifier P N 130 PM3223 to the backbox placing the thermal pad P N 330 944373 between the Bridge Rectifier and the backbox using a provided 6 keps nut P N 899 G67197 See drawing below for details Wire Bridge Rectifier to Rectifier Cable Assembly 555 449116 Red wire goes to the plus connection of Bridge Rectifier and Black wire goes to the minus connection of the Bridge Rectifier Gray wires connect to the AC connections of the Bridge Rectifier Plug Rectifier Cable Assembly into J4 on the Main Board P N MPC 6 7 MB 330 944373 Thermal Pad 9 130 PM3223 Bridge Rectifier Keps Nut 6 32 P N 899 G67197 Bridge Rectifier Mounting 36 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Transformer Mounting e Place the NPE 1 transformer assemblies one for RND 2 two for MPC 6000 or MPC 7000 over the bottom one or two sets of studs on the left side of the enclosure if desired Mounting the transformer can be accomplished before mounting the enclosure e Tighten provided transformer mounting nuts P N 899 G67197 2 per NPE 1 e Plug the transformer assemblies into connectors J1 and J2 on the Main Board P N 6 7 or MPC6 MB2 Bottom transfo
132. ther accessory not connected through a protective device or a circuit designed for remote connection must be within 20 ft and in the same room connected through electrical conduit Installation is to be done only by qualified personnel who have thoroughly read and understood these instructions The fire alarm control unit must be mounted in a properly accessible location as required by applicable codes ENCLOSURE MOUNTING Install the backbox Select a clean dry shock and vibration free surface in a protected environment e Position the backbox clear of obstructions so that the front door opens freely and the controls and indicators are easily accessible e Mark the locations of the two upper mounting bolts of the backbox on the wall 32 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL igs There are two key shaped cutouts on the top of the backbox Make sure the end with the two key shaped cutouts is on top when installing the backbox e Drill the two holes located in the previous step and screw in the top bolts leaving a small gap between the wall and each top bolt Nore The screw type and length must be able to support the control panel options and battery set You may need a different screw type depending on the wall material Place the backbox over the two top bolts and allow it to slide down over the bolts e Mark drill and install the two bottom bolts in the backbox e Tighten all four b
133. tiating and notification devices should be used to install and maintain a functioning fire alarm signaling system NFPA 70 National Electrical Code NFPA 72 National Fire Alarm Code NFPA 101 Life Safety Code For other standards that may apply contact the authority having jurisdiction In order to comply with NFPA 750 NFPA 13 and NFPA 2001 the MPC REL releasing module and RPT 1 transformer must be installed in an MPC 6000 panel only When the system is configured per NFPA 750 an emergency release device shall be provided For NFPA publications contact National Fire Protection Association Batterymarch Park Quincy Massachusetts 02269 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL DESCRIPTIONS MPC 6000 SYSTEM DESCRIPTION The MPC 6000 is a modular fire alarm control unit It features advanced addressable detection programming and memory capability Its base configuration includes a power supply an X1 addressable device circuit four two notification circuits NAC serial interface circuit four status relays and a programming port The MPC 6000 control unit mounts in a 22 x 18 backbox with overall cover size of 22 9 32 x 18 3 8 Operating controls and indicators are mounted on the inside hinged plate An 80 4x20 alphanumeric character LCD provides specific indications for addressable devices while LEDs indicate general panel status Semi flush mounting kits are available for the enclosure
134. tion Trouble is indicated by Trouble LED flashes LCD displays trouble conditions Panel buzzer sounds pulsing To acknowledge the trouble Press the Acknowledge button The Trouble LED turns on steady and the buzzer turns off When the trouble condition has been cleared you may need to reset the panel to restore to a normal standby condition Warning Leaving the panel in a trouble condition may prevent a fire alarm condition from initiating a fire alarm sequence Event Scrolling Viewing Events on the System Events are displayed in the system by event priority Alarm Supervisory Trouble followed by event occurrence oldest to latest event in a circular list If there are multiple events on the system pressing the upper right button adjacent to the LCD displays the next event that occurred to latest event of highest priority Pressing the lower right button adjacent to the LCD displays the previous event that occurred to the oldest event with the lowest priority Normal Standby Condition The green AC Power On LED will be lit and no other indicators on For service contact Telephone Number Frame these instructions and mount them near the control unit for operator reference 28 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL RDC 2 RDC 3 OPERATING INSTRUCTIONS Alarm Operation In case of alarm the Alarm LED flashes LCD displays alarm conditions and the buzzer sounds Local audib
135. ttempt to send event to Account 2 since Account 2 is set for Can Report and the event was transmitted to Account 1 successfully Scenario 4 Can Can Alarm event is set to Can Report on Account 1 and Account 2 Panel succeeds on Account 2 before Account 1 Step 1 Panel goes into alarm Step 2 N Account 1 Panel tries to send event to Account 1 but is unsuccessful Account 2 Step 3 Panel keeps trying to send event to Account 1 until the programmed Number Of Attemps has been reached Step 4 Account 1 Panel switches to Account 2 and successfully transmits the event E Y Account 2 Done The panel does not try to send to Account 1 again since Account 1 is set for Can Report and the event was already successfully sent to Account 2 Note The same sequence of events would happen if Account 2 was set to Must Report 86 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL APPENDIX M NETWORK OVERVIEW The purpose of this section is to provide a general understanding of the network portion of this system Typical MPC NET2 System RND 2 Panel iod o port 1 NB 2 AEK Port 2 RS232 Port 1 gt 6000 4 Ru MPC7000 Panel Panel Port 1 Port 2 14 pot 2 Port th m 1 v UL App
136. uits are operable in different sounding patterns Any circuit is selectable to any of five software generated patterns or continuous sounding e Audible Silence Inhibit In addition to designation of water flow zones the entire control unit may be programmed to inhibit audible silence for 0 1 3 or 6 minutes from the last alarm System reset may also be inhibited All of the NACs are power limited and support synchronization of listed devices If a NEM 1 is installed in an MPC 7000 panel its NACs are synchronized in sets of 4 as follows NAC1 NAC2 NAC3 and NAC4 are synchronized with each other NAC5 NAC6 NAC7 and NAC8 are synchronized with each other e NAC9 NAC10 11 and 12 are synchronized with each other A maximum of one NEM 1 NAC Expander board can be installed per MPC 7000 panel Transient Protection Transient protection devices are provided to meet UL864 requirements Security Features Processor control and addressing allow inclusion of several functions to assure security and proper programming of the system Multi level password protection of programming functions prevents unauthorized configuration changes Device type supervision If the type reported by an addressable detector or module does not agree with the configuration the system reports a trouble condition 16 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL Device address supervision The system checks that al
137. ve devices connected to it some of these functions are not available on the RND 2 The maintenance functions are protected by a four digit password To access the maintenance features press the MENU button until Maint Level is displayed and select Maint Level from the display enter the four digit code when prompted and then press Enter The functions listed below are now accessible to the user by using the function buttons on either side of the display Disable Enable Devices Disable Enable Input Groups Disable Enable Output Zones Disable Enable NACs Disable Enable City Tie Disable Enable DACT Disable Enable Status Relays Disable Enable Detector Applications Disable Enable PAS Disable Enable Open Collector Circuit Disable Enable Releasing Circuit Starting and Configuring Quick Test Print Clear History Log Print Sensor Levels Edit Device Labels Edit System Labels Program a Device Set the Time Set the Date Change the Maintenance Password For MPC 6000 only when MPC REL is installed ms Disabling any input and output devices modules and applications will annunciate a trouble condition Exception Disabling the Releasing Circuits using the disable switch on MPC REL will annunciate a supervisory condition Refer to the Programming Manual P N 315 049403FA for more information about accessing and using the maintenance level functions 55 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTEN
138. x Input group xxx has no output zone selected or input group is not activated 70 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL APPENDIX D MODULE INSTALLATION INSTRUCTIONS LIST This Appendix provides a list of installation instructions for the following option modules and accessories BE 1 CIS 4 CT 1K FDLC HBC 1 LEM 1 MPC DACT MPC NET2 MPC REL NEM 1 NPE 1 RDC 2 RDC 2 RDC 3 RDC 3 RPT 1 RSE 300 SLU 2 SLE 16 SRU 2 SRE 8 Battery Box Laptop Configuration Tool City Tie Board Loop Driver Board Battery Charger Loop Expansion Module Serial Digital Communicator System Networking Owner s Manual 12603A Network Interface Board 12525 Line Surge Suppressor 12523A Network Interface Board 12526A NIB w Isolated RS232 Port 12535 12536 Fiber Converter Board Releasing Module NAC Expansion Module Optional Transformer Assembly Remote LCD Annunciator Remote LCD Annunciator Operating Instructions Remote LCD Annunciator Remote LCD Annunciator Operating Instructions Releasing Transformer Remote Signal Expander Serial Annunciator Unit Serial Annunciator Extender Serial Relay Unit Serial Relay Extender 71 315 033917FA 315 049380FA 315 447052 315 447360FA 315 447362FA 315 447361 315 699464FA 315 049594 315 049594 315 049594 315 049594 315 049594 315 049594 315 049570FA 315 447363FA 315 049120FA 315 049103FA 315 049104FA 315 049700FA 315 049701FA 315
139. ximum of 15 Isolator Modules per addressable device circuit NOTE If more than one 8706 control module is installed on an addressable device circuit Style 4 wiring cannot be used 52 MPC 6000 MPC 7000 RND 2 INSTALLATION OPERATION AND MAINTENANCE MANUAL X1 ADDRESSABLE DEVICE CIRCUIT WIRING OPERATION COMPARABLE TO NFPA STYLE 6 Style 6 provides redundant communication paths OUT IN IN _ SUPERVISED _ POWER LIMITED ur NA N ISOLATOR SEE NOTE SEE NOTE SEE NOTE MODULE J x x SEE NOTE N b ISOLATOR SEE NOTE _ SEE NOTE j _ SEE NOTE AS Pi NOTE Faraday 1 Devices Detectors Monitor Modules or Control Modules up to a maximum of 252 devices per addressable device circuit A Maximum of 20 devices recommended between Isolator Modules A Maximum of 15 Isolator Modules per addressable device circuit NOTE If more than one 8706 is used on an X1 device loop the loop must be wired Class A or the riser conductors must be installed in accordance with the Survivability From Attack By Fire requirements in the National Fire Alarm Code NFPA 72 If wired Class A at least one 8709 loop isolator must be installed between each 8706 and between the panel and the first and last 8706 See the 8709 installation instruction

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