ISOFACE APPLICATION NO CUTS = 6V 12V 18V BOTH = 24V + - + - + - + - + - + - + - + - + - + - Stone Technologies Corporation 1-800-440-1234 2311 Westrock Dr. #4 Austin, Texas 78704
TWO WIRE LOOP FOR ED DEVICES ALARM CONTROL LOOP AUX. FIRST ED DEVICE PUT N. C. LOOP EOL RESISTOR (IF REQUIRED) SECOND ED DEVICE 1. All detectors must be normally closed (open on alarm). N. C. LOOP 2. Circuit shown wired for normally closed loop panel. 3. Clip marked resistor on Isoface for 12v operation. 4. Observe polarity of panel loop and Isoface output. THIRD ED 5. CAUTION: All detectors will power down and re-power after any alarm condition. DEVICE 6. Duplicate wiring for additional units up to capacity of aux power. N. C. LOOP
TWO PANEL TERFACE, ONE SWITCH N.C. SWITCH PUT PUT CONTROL A AUX. CONTROL B LOOP LOOP
HOLD-UP REPORT FROM FILM CAMERA FILM CAMERA ALARM CONTROL CAMERA TRIP LOOP (NORM. 12-18 VAC) HOLD-UP SWITCH HOLD-UP SWITCH : 1. Will work with AC or DC on hold-up loop. 2. Output of Isoface will open when hold-up switch is activated. 3. Cut appropriate resistor on Isoface. E.O.L. RESISTOR (IF NEEDED) HOLD-UP SWITCH ADDITIONAL HOLD-UP SWITCHES
FAIL MONITORG A/C CONTROL PANEL ZONE E.O.L. RESISTOR ( IF REQUIRED ) : 1. PROGRAM - 24 HR. ZONE WITH RESTORALS. 2. WILL MONITOR 6 TO 24 V.A.C. 3. CUT APPROPRIATE RESISTOR ON ISOFACE. 4. OBSERVE POLARITY ON PUT AND ZONE PUT.
ADEMCO V.C. TO RADIONICS 468TX FLYG LEADS - ( 5V @ 1.5MA ON ALARM ) COMMON ZONE 1 ZONE 2 ZONE 3 ZONE 4 ADEMCO VECTOR CONTROL 1. DO NOT CUT MARKED RESISTORS. 2. DUPLICATE CIRCUIT FOR ADDITIONAL ZONES. RADIONICS 468TX ZONE A E.O.L. RESISTORS ACROSS PUTS ZONE B APPLICATION FOR TERSTATE ALARMS
L.R. WIRELESS TERFACE FOR A/C FAIL & BURGLARY LONG RANGE WIRELESS TRANSMITTER ZONE 1 EOL RESISTOR ZONE 2 EOL RESISTOR A/C PUT 1. Alarm zone 1 = Burg. Alarm zone 2 = A/C Fail 2. Bell Output from digital panel can be 6-18VDC. Siren Output can be 6-24VAC. 3. Long range wireless panel connections are for Radionics model 468TX. Connections are typical for any stand-alone transmitter. BELL - PUT DIGITAL CONTROL
DIRECT WIRE TRANSMITTER DPDT RELAY ( 12 VDC ) BELL - PUT TEL. LE 100 OHM AUX. 100OHM 1. This circuit gives polarity reversal on alarm. 2. Bell output must be programmed on all zones that are to be supervised. 3. 100 Ohm resistor must be used to protect panel from short circuits or grounds on telephone line. 4. Can be used with many standard polarity reverse monitoring systems including Ademco, Arrowhead, and circuit in these Application Notes for conversion of direct wire receiver to digital operation.
HOLDUP CAMERA HOMG SWITCHER Operate a homing sequential switcher to switch direct to a specific camera and trip the hold-up zone on a Radionics 8112 communicator upon activation of any hold-up switch. + AUX PUT PUT RADIONICS 8112 ZONE H/U 1 HOMG SWITCHER CAMERA 1 H/U 2 CAMERA 2 CAMERA N H/U N I K OHMS + AUX N.C. TYPICAL CIRCUIT FOR N.C. SWITCHES - AUX
SMOKE DETECTOR SUPERVISION FIRE OR ALARM PANEL DETECTOR RESET AUX ZONE N.O. SMOKE DETECTORS (ANY NUMBER) 1. Cut appropriate resistor on Isoface. 2. Observe polarity of Isoface outpput and zone input. E.O.L. RESISTOR
CONVERSON OF DIRECT WIRE RECEIVER TO DIGITAL ANY PANEL WITH TROUBLE, ALARM, AND RESTORE CAPABILITY ZONE 1 ZONE 2 TELEPHONE LE E.O.L. RESISTOR DO NOT CLIP MARKED RESISTORS 1. Telephone line should be 32BAPA Bell Tel. Standard. 2. Duplicate of the above circuit for B.A. line, up to capacity of control. Repeat with additional controls for more lines. 3. Program loop for 24 hour, trouble on open/alarm on short with restorals. Each B.A. line will report as a zone of account number programmed in control. 4. Line trouble will report as Trouble zone 1, alarm condition will report as Alarm zone 1, and a return to normal condition will report as Restoral zone 1. 5. Minimum current to operate = 2ma., max drive should be limited to less than 20 ma. Typical operation is to use 12VDC from aux power in field alarm. (See application note) 6. This circuit may be used with any control capable of sending separate zone fault and alarm signals.