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32

SAN Annunciator Manual

Application

The SAN-MIC provides access to a paging microphone when an
AA75P series amplifier is mounted behind an RSAN panel.

Specifications

Specifications

Power

N/A

Standby Current

N/A

Weight (oz)

15.3

Address Requirements

None

Installation

Due to mechanical and possible electrical interference, the SAN-MIC
module should be mounted at the far right side (front view) of the SAN
enclosure.

The AA75(P)-25 amplifier must be mounted directly behind

or below the SAN-MIC module.

The SAN-MIC module requires no

connection to the SAN-CPU ribbon cable.

Field Wiring

SAN-MIC - Plug the microphone cable into connector P2 on the
AA75P-25 amplifier microphone/tone card.

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Summary of Contents for RSAN-6

Page 1: ...SAN Annunciator Installation Manual P N 250084 Revised 21NOV97 firealarmresources com ...

Page 2: ...anual without express written permission from EST This manual contains proprietary information intended for distribution to authorized persons or companies for the sole purpose of conducting business with Edwards Systems Technology Inc If you distribute any information contained in this manual to unauthorized persons you have violated all distributor agreements and we may take legal action CREDITS...

Page 3: ...ng and Programming 11 SLU 16R SLU 16Y SLU 16 R Y Remote Annunciator Lamp Module 13 Description 13 Application 14 Specifications 14 Installation 14 Indicators 14 SWU 8 SWU 8 3 Remote Annunciator Lamp And Switch Module 15 Description 15 Application 16 Specifications 16 Installation 16 Indicators and Controls 16 SWU 8 Programming Applications Notes 17 SWU 8 3 Programming Applications Notes 18 SHO 4 R...

Page 4: ...Remote Annunciator Relay Module 28 Description 28 Application 29 Specifications 29 Installation 29 SAN MIC Remote Annunciator Microphone Module 31 Description 31 Application 32 Specifications 32 Installation 32 ISP 96 2 and ISP 96 3 Annunciator Switch Panel 33 Description 33 Application 34 Specifications 34 Installation 35 ISP Panel Addressing Front View 36 SAN MIC II Remote Microphone 37 Descript...

Page 5: ...al damages arising from loss of property or other damages or losses owing to the failure of EST Inc products beyond the cost of repair or replacement of any defective products EST Inc reserves the right to make product improvements and change product specifications at any time While every precaution has been taken during the preparation of this manual to ensure the accuracy of its contents EST ass...

Page 6: ...cument history SAN Annunciator Installation Manual P N 250084 Revision Status Revision Date Reason For Change 1 0 September 1995 Re write of old manual 2 0 November 1997 Major revision of layout and content firealarmresources com ...

Page 7: ...SAN CPU Both the SAN 4 and SAN 8 are made from 16 gauge steel and are furnished with a key locking door with a Lexan viewing window Backboxes are provided with conduit knockouts module mounting studs and a SAN CPU mounting bracket SAN 001 CDR SAN 4 with SWU 8 SAN 002 CDR SAN 8 The RSAN 6 is designed for mounting SAN series modules in a standard 19 rack enclosure The RSAN 6 is made from 0 125 alumi...

Page 8: ...cifications Model Overall Dimensions Hwd Rough In Dimensions Hwd Module Spaces SAN 4 11 5 x 16 x 4 29 2 cm x 40 6 cm x 10 2 cm 9 5 x 11 25 x 2 5 24 1 cm x 28 6 cm x 6 4 cm 4 SAN 8 11 5 x 27 5 x 4 29 2 cm x 69 9 cm x 10 2 cm 9 5 x 23 x 2 5 24 1 cm x 58 4 cm x 6 4 cm 8 RSAN 6 10 5 x 19 0 x 2 5 26 7 cm x 48 3 cm x 6 4 cm N A 6 Note Refer to rough in dimensions when mounting enclosure in a wall fireal...

Page 9: ...3 U4 Application The SAN CPU is required when using any of the SAN series modules which communicate with the network controller Specifications Specifications Module Power 24 VDC 54 mA Communications Formats RS 485 Fiber Optics 20mA Current Loop Data Line Wiring Style 7 Class A or style 4 Class B Mounting 1 2 Module Space Power Calculations The SAN CPU requires 24 VDC power The following areas must...

Page 10: ... 2 4 RMAX IMAX Where RMAX Maximum allowable wire resistance IMAX Wire resistance per 1000 pair 2 4 Maximum allowable voltage drop Using wire resistance Table 1 the maximum SAN CPU distance from the power supply using any listed wire gauge may be determined as follows below Table 2 was derived using this method RMAX D X 1000 R 1000 PAIR Where D Distance in feet RMAX Maximum allowable wire resistanc...

Page 11: ... 109 167 3 00 62 100 154 3 25 57 93 142 3 50 53 86 133 Installation Caution Disconnect power before removing or installing this module The SAN CPU requires 1 2 module footprint The SAN CPU is mounted on the back plane of the SAN 4 and SAN 8 enclosures When using an RSAN 6 the SAN CPU mounts on a special L SHAPED bracket perpendicular to the other SAN option modules installed in the rack Field Wiri...

Page 12: ...3 with header ribbon cable from SO 20 P3 Replace U4 with header ribbon cable from SO 20 P2 Two SO 20 s may be used instead of an SO 20D Fiber Optic Replace U3 with header ribbon cable from SO FIB P4 Replace U3 and U4 with header ribbon cable from two SO FIB s P3 Jumper Setup JP1 Install when using style 4 Class B or style 7 Class A Rs 485 communications format AND the SAN CPU is the last device on...

Page 13: ...e from previous panel P1 TYPICAL SAN MODULE RIBBON CABLE TO NEXT SAN MODULE P2 RED STRIPE JP1 2 1 1 1 2 3 3 4 4 4 RED STRIPE HEADER REPLACEMENT FOR SERIAL FORMAT COMMUNICATIONS RIBBON CABLE TO SO FIB OR SO 20D DETAIL A U3 U4 POWER LIMITED CIRCUIT NOTES INSTALL JUMPER ON LAST SAN MODULE ONLY INSTALL JUMPER IF DEVICE IS LAST ON DATA LINE REPLACE CHIPS U3 PRIMARY AND U4 SECONDARY FOR SERIAL FORMAT CO...

Page 14: ...E ON indicates data line 1 is active OFF indicates data line 2 is active LD2 TXD ON indicates the SAN CPU is transmitting data on either channel 1 or 2 Troubleshooting A Power NG indication at the SAN CPU address indicates that either the option module ribbon cable is improperly installed or loose or the continuity jumper is missing from the last SAN option module connected to SAN CPU connector P1...

Page 15: ...line The SAN COM features system status LEDs alarm and trouble silence switches system reset switch drill test switch annunciator lamp test switch key lock enable disable switch and an integral trouble buzzer SAN 007 CDR POWER ALARM SUPERVISORY TROUBLE SECURITY RESET ALARM SILENCE TROUBLE SILENCE DRILL LAMP TEST ENABLE DISABLE BUZ 1 JP1 CONTINUITY JUMPER P1 P2 SAN COM Front and Rear View firealarm...

Page 16: ...ence switch Operating the trouble silence switch illuminates the trouble silenced LED The SAN COM may not be installed in systems designed to meet the requirements of NFPA 72 Chapter 9 Proprietary Protective Signaling Systems Specifications Current Requirements Standby 22 mA Alarm 7 mA Trouble 15 mA Installation The SAN COM may be installed in the SAN 4 SAN 8 or RSAN 6 enclosure When the SAN COM f...

Page 17: ... toggle switch tests all indicators on SAN option modules Enable Disable Key switch disables SAN COM controls Sounders Trouble Buzzer Operates on system trouble and when trouble silence switch is in the off normal position when no troubles exist on the system Addressing and Programming When used on a data line which has the SAN COM enabled the SAN COM module requires the FIRST group of 8 input add...

Page 18: ...user programmed to activate when drill all call is activated action 9003 if SAN COM function disabled SAN COM Input Functions Input Address Function Description xx01 Reset Switch Activates common reset switch action 9002 when SAN COM is enabled Must be user programmed to activate action 9002 when SAN COM is disabled Action 9002 should be programmed to SET all output xx97 panel addresses Activating...

Page 19: ...ications when using the SAN CPU The SLU 16R provides 16 RED LEDs while the SLU 16Y provides 16 YELLOW LEDs The SLU 16 R Y provides 8 RED LEDs and 8 YELLOW LEDs The front panel protects a slip in legend sheet used to identify individual LED functions SAN 008 CDR JP1 CONTINUITY JUMPER GROUP OUTPUT ADDRESS P1 P2 SLU 16 Front and Rear View firealarmresources com ...

Page 20: ...ate LED identification information on the LED label strip before installing the SLU 16 The SLU 16 module requires two groups of 8 output addresses of the SAN CPU to which it is connected Wiring The only wiring required is to plug the ribbon cable assembly P N 250080 from the previous SAN series module into P2 and to plug the ribbon cable assembly to the next SAN series module into P1 Jumper Setup ...

Page 21: ...switches the SWU 8 3 provides three center off toggle switches Two LEDs are positioned adjacent to each switch providing an easy to read functional group Operation of the switches is independent of the LEDs both being under control of the system program The front panel protects a slip in legend sheet used to identify individual switch and LED functions SAN 009 CDR JP1 CONTINUITY JUMPER GROUP OUTPU...

Page 22: ...AN 6 enclosures Enter the appropriate switch and LED identification information on the label strip before installing it in the SWU 8 or SWU 8 3 The SWU 8 module requires one group of 8 input addresses and two groups of 8 output addresses of the SAN CPU to which it is connected The SWU 8 3 module requires two groups of 8 input addresses and two groups of 8 output addresses of the SAN CPU Field Wiri...

Page 23: ...ndicate an incoming call and is illuminated when a handset is plugged into a jack station or removed from the hook switch on a warden station a supervisory short is detected by the control module or zone The lower LED is the circuit selected LED which illuminates when the zone monitoring the circuit detects a supervisory open indicating the circuit selection relay control module or zone has connec...

Page 24: ... the switch is in the lower speaker silence position the appropriate speaker circuit is RESET and the lower adjacent LED illuminated indicating the circuit has been silenced The speaker circuit must also be programmed so that all silenced LEDs are RESET upon any alarm condition This insures valid circuit status indications at all times Manual Override The switches may be used to override any autom...

Page 25: ...ach switch providing an easy to read functional group Operation of the yellow LEDs is independent of the switches under control of the network program The green LED illuminates when the switch is in the center position The front panel protects a slip in legend sheet used to identify individual switch and LED functions SAN 010 CDR JP1 CONTINUITY JUMPER GROUP OUTPUT ADDRESS GROUP INPUT ADDRESS P1 P2...

Page 26: ...ation on the label strip before installing it in the SHO 4 The SHO 4 module requires one group of 8 input addresses and one group of 8 output addresses of the SAN CPU to which it is connected Field Wiring The only wiring required is to plug the ribbon cable assembly P N 250080 from the previous SAN series module into P2 and plug the ribbon cable assembly into P1 of the next SAN series module Jumpe...

Page 27: ...mal control cycle The center switch position is automatically indicated by the illuminated green LED The top switch position is typically programmed to force the device on via a control module or zone The lower switch position is programmed to force the device off again using a control module or zone The adjacent upper and lower LEDs are used to indicate a device status and are activated by status...

Page 28: ...d outputs for use with LEDs The SDR 32K provides no current limiting for use as a relay driver used to control external relays The SDR 32C and SDR 32K C are comprised of the circuit card only with the option for mounting in graphic annunciators JP1 GROUP OUTPUT ADDRESS P1 P2 1 1 ON 2 2 3 4 4 8 1 9 17 25 PO1 PO2 PO3 PO4 2 10 18 26 3 11 19 27 4 12 20 28 5 13 21 29 6 14 22 30 7 15 23 31 8 16 24 32 SA...

Page 29: ...ion without mounting plate may be ordered The SDR 32 K module requires four groups of 8 output addresses of the SAN CPU to which it is connected Jumper Setup JP1 Install JP1 if the SDR 32 K is the last module installed on the data line Field Wiring Plug the ribbon cable assembly P N 250080 from the previous SAN series module into P2 and plug the ribbon cable into P1 on the next SAN series module C...

Page 30: ...ER IN TERMINAL LED CONNECTIONS WHEN USING MODEL SDR 32 LED CONNECTIONS WHEN USING MODEL SDR 32k ARA 1 RELAY CONNECTION WHEN USING MODEL SDR 32K EXR RELAY CONNECTION WHEN USING MODEL SDR 32K RESISTOR VALUE TO BE SIZED FOR 100mA MAX CURRENT PER OUTPUT 3 2 1 2 2 3 1 POWER LIMITED NOTES NON SUPERVISED CONNECTION THE POWER SOURCE THAT SUPPLIES CURRENT TO EXTENAL DEVICES MUST HAVE THE TERMINAL CONNECTED...

Page 31: ...e provides 16 optically isolated unsupervised input circuits for remote annunciator applications when using the SAN CPU TB2 COM JP1 TB1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 GROUP INPUT ADDRESS CONTINUITY JUMPER P1 P2 ON 1 2 4 8 1 4 5 8 9 12 13 16 IN SAN 013 CDR SIN 16 Rear View firealarmresources com ...

Page 32: ...SIN 16 may be installed in the SAN 4 SAN 8 or RSAN 6 enclosures For integral mounting within a custom annunciator enclosure the board only version without mounting plate may be ordered The SIN 16 module requires two groups of 8 input addresses of the SAN CPU to which it is connected Jumper Setup JP1 Install JP1 if the SIN 16 is the last module installed on the data line Field Wiring Plug the ribbo...

Page 33: ...P1 P2 ON 1 2 4 8 1 4 5 8 9 12 13 16 IN SAN 014 CDR 24 VDC OUTPUT PS4 8B OR APS8B 24 VDC OUTPUT DRY CONTACTS DRY CONTACTS EXTERNAL INPUTS OPEN COLLECTOR TRANSISTOR PS4 8B OR APS8B 1 2 1 1 2 NON SUPERVISED INPUTS NOTES EACH GROUP OF FOUR INPUTS MUST SHARE THE SAME POWER SUPPLY POSITIVE AND NEGATIVE firealarmresources com ...

Page 34: ...ONT 5A RES 240AC 1725S DC 24V A410 367396 13 JAPAN 692NA G C CONT 5A RES 240AC 1725S DC 24V A410 367396 13 JAPAN 692NA G C CONT 5A RES 240AC 1725S DC 24V A410 367396 13 JAPAN 692NA G C CONT 5A RES 240AC 1725S DC 24V A410 367396 13 JAPAN 692NA G C CONT 5A RES 240AC 1725S DC 24V A410 367396 13 JAPAN 692NA G C CONT 5A RES 240AC 1725S DC 24V A410 367396 13 JAPAN 692NA J P 1 C O N T I N U I T Y J U M P...

Page 35: ...sses of the SAN CPU to which it is connected Jumper Setup JP1 Install JP1 if the SRU 8 is the last module installed on the data line Field Wiring Plug the ribbon cable assemble P N 250080 from the previous SAN series module into P2 and plug the ribbon cable into P1 on the next SAN series module TB1 1 K1 NC TB1 2 K1 COM TB1 3 K1 NO TB1 4 K2 NC TB1 5 K2 COM TB1 6 K2 NO TB1 7 K3 NC TB1 8 K3 COM TB1 9...

Page 36: ... 24V A410 367396 13 JAPAN 692NA G C CONT 5A RES 240AC 1725S DC 24V A410 367396 13 JAPAN 692NA G C CONT 5A RES 240AC 1725S DC 24V A410 367396 13 JAPAN 692NA G C CONT 5A RES 240AC 1725S DC 24V A410 367396 13 JAPAN 692NA G C CONT 5A RES 240AC 1725S DC 24V A410 367396 13 JAPAN 692NA J P 1 C O N T I N U I T Y J U M P E R S1 TB1 TB2 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 11 11 12 12 K 1 K 5 K 2 K 6 K...

Page 37: ...IC module provides a push to talk microphone mounted in a SAN series module The SAN MIC is supplied with a 24 microphone cable for installation in an AA75P 25 amplifier The AA 75T 25 does not come with the header installed on the tone card SAN 017 CDR SAN MIC Front View firealarmresources com ...

Page 38: ...one Installation Due to mechanical and possible electrical interference the SAN MIC module should be mounted at the far right side front view of the SAN enclosure The AA75 P 25 amplifier must be mounted directly behind or below the SAN MIC module The SAN MIC module requires no connection to the SAN CPU ribbon cable Field Wiring SAN MIC Plug the microphone cable into connector P2 on the AA75P 25 am...

Page 39: ...e switch and two amber LEDs Placing a switch in the UP position generates an active condition the DOWN position is the normal state Each LED requires 1 output address and each switch requires 1 input address The ISP 96 2 has a total of 96 outputs and 48 inputs and requires 1 SAN CPU ISP 96 3 The ISP 96 3 provides 48 switch LED groups consisting of a three position toggle switch and two amber LEDs ...

Page 40: ... as H O A Hand Off Automatic controls to override the automatic operation of the system the two associated LEDs may be programmed for indicating the status of the fans or dampers using limit switches Run Stop contacts etc as monitored by M500CF M500MF RZB12 6 or UIO 12 modules When an ISP 96 3 is used in a typical Audio Evacuation System application the UP switch position is used for circuit page ...

Page 41: ...ne Jumper Setup SAN CPU JP1 Install when using style 4 Class B or style 7 Class A RS 485 communications format AND the ISP 96 is the last device on the data line JP2 Install when using style 7 Class A RS 485 communications format AND the ISP 96 is the last device on the data line LED Switch Cards JP1 One continuity jumper on each card Jumpers are on inside of cards facing back side of metal face p...

Page 42: ...8 SW UP xx78 SW DN xx77 LED A xx79 LED B xx80 SW UP xx80 SW DN xx79 LED A xx81 LED B xx82 SW UP xx82 SW DN xx81 LED A xx83 LED B xx84 SW UP xx84 SW DN xx83 LED A xx85 LED B xx86 SW UP xx86 SW DN xx85 LED A xx87 LED B xx88 SW UP xx88 SW DN xx87 LED A xx89 LED B xx90 SW UP xx90 SW DN xx89 LED A xx91 LED B xx92 SW UP xx92 SW DN xx91 LED A xx93 LED B xx94 SW UP xx94 SW DN xx93 LED A xx95 LED B xx96 SW...

Page 43: ...otely from the audio power amplifier The SAN MIC II provides a pre amp level signal which may be transmitted over 2 000 feet of shielded cable In addition the SAN MIC II provides a PTT Dynamic Microphone three tone generators auxiliary audio input solid state VU meter and a supervisory pulse generator SAN 020 CDR SAN MIC II Front View firealarmresources com ...

Page 44: ...elect supervised TB1 81 Steady 1 KHz tone Select TB1 9 TB1 10 N O Trouble contact closes upon broken alarm activate TB1 1 TB1 2 alarm silence TB1 3 TB1 4 or auxiliary input select TB1 6 TB1 7 circuit wiring or upon loss of 24 VDC power to the module TB1 11 TB1 12 N O Speaker activate contact Closes on activation of microphone PTT switch any off normal tone switch selection activation of the auxili...

Page 45: ...N JP6 IN Emergency Tone 1 JP7 OUT JP8 OUT JP7 IN JP8 OUT JP7 OUT JP8 IN JP7 IN JP8 IN JP7 IN JP8 IN Emergency Tone 2 JP3 OUT JP4 OUT JP3 IN JP4 OUT JP3 OUT JP4 IN JP3 IN JP4 IN JP9 OUT JP3 IN JP4 IN JP9 IN JP9 Located on the small front PC board JP1 Install for 0 25 VRMS level pre amp audio output on terminals TB1 14 and TB1 15 Remove for 2 0 VRMS output level JP2 Install for 0 25 VRMS audio input...

Page 46: ...2 2 2 3 3 3 3 4 4 SAN MIC II Wiring Operation In the normal state the SAN MIC II generates a supervisory pulse tone for supervision of the audio wiring and circuitry Switches Fire Tone Activation causes the jumper defined alarm tone to be sent to the module output terminals as long as the emergency tone select switch is in the normal position The fire tone is overridden when the auxiliary input is...

Page 47: ...nput TB1 5 TB1 2 must be simultaneously connected to DC common to select an alarm tone The external alarm silence input overrides the alarm activate command Alarm Silence TB1 3 TB1 4 A supervised control circuit used to silence the SAN MIC II external alarm mode NOTE The silence switch does NOT effect the emergency tones microphone or auxiliary inputs Auxiliary Input Select TB1 6 TB1 7 A supervise...

Page 48: ...42 SAN Annunciator Manual firealarmresources com ...

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