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Vector 3000 - At Knight Watch, Inc

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1. 55 VIII SERVICE a 55 RECALLING ALARM AND TROUBLE MESSAGES 55 IX SPECIFICATIONS 4 444 543 944 a o s eda eee eee seie d o e 56 II INTRODUCTION The ADEMOO No 4153 POINT PROTECTION CONTROL COMMUNICATOR is a microprocessor based security control and the heart of the VECTOR 3000 security system The characteristic point protection design affords an extremely reliable system which is easy to install and convenient to use The many programmable options permit the installer to tailor the No 4153 to the design requirements of a particular installation N2759V3 1 90 The No 4153 can monitor and annunciate up to 37 protection points and indicate PANIC alarms polling loop short circuits and open circuits The ARMING AUTHORITY LEVEL feature allows the system to be controlled by up to eight separate user assigned ID codes of varying authority The control may also be used to trigger an alternative communication means Long Range Radio Derived Channel S T U etc The No 4153 also has several options which further extend system capabilities When used with the factory standard No 4153RD RING DETECTOR the control may be when programmed controlled and programmed from a remote location using a No 699 PROGRAMMER or an IBM PC The No 4152LM LINE MODULE is another option that enables the No 4153 to be installed with a CLASS A polling loop configuration at t
2. INTERCOM REMOTE UNIT INTERCOM MASTER UNIT RECOMMENDED INSTALLATION AND GROUNDING TECHNIQUES FOR SHIELDED WIRING IN AN INTERCOM SYSTEM TRANSPONDER SENSOR LOOP WIRES TRANS POE INTERCOM REMOTE UNIT INTERCOM REMOTE UNIT INTERCOM MASTER UNIT DIAGRAM 7 RECOMMENDED INSTALLATION AND GROUNDING TECHNIQUES FOR SHIELDED WIRE IN A VECTOR SYSTEM 22 PROGRAMMING THE No 4153 How the 4153 C COM performs is determined by the installer s programming Programming may be done from a CONSOLE keypad from the No 699 PROGRAMMER The No 699 is simpler to use because of its large alphanumeric English language display that prompts installer responses to questions or remotely from the central station Information regarding the programmer whether used locally or remotely is included with the No 695 53 Programming Cartridge or the 4153PC All information required for programming via a console keypad is included on the worksheet which follows When programming from the console consider the following The system is factory programmed to a set of preset values which can be altered by the installer to suit the specific needs of a particular installation or installation company The preset values are detailed in the Factory Programming Table Enter the keypad programming mode by simultaneously depressing on the keypad WITHIN 30 SECONDS AFTER POWER IS APPLIED TO THE CONTROL or subsequently by keying the
3. TRANSPONDER CONNECTIONS ZZ POLLING LOOP LOC 30 000 Orme Large acre org bi org 4 700 Orme Smali size yal no rad EARTH GROUND COLD WATER PIPE OR ELECTRICAL BOX MAY BE SUITABLE IN SOME SITUATIONS NOT USED GROUND START OUTPUT TO No 675 GROUND START MODULE 4157 CONSOLE max TRANSFORMER No 1349 18VAC 40V CONNECT TO 24 HR 110VAC OUTLET e g Ademco AD 10 12 For UL installations See note below POR OPONAL u frasen COMMECTI NE SSE SSTRUCTIONS 4196 PIR va BR HANDSET TIP GRN INCOMING LINE TIP a 4190Wht DCID INCOMING LINE IRING HANDSET RING RED GRY NOTE OTHER CONSOLES MAY BE USED CONNECT EACH CONSOLE TO THE CONTROL PANEL DO NOT DAISY CHAIN TELEPHONE LINE CONNECTION USING No 620 DIRECT CONNECT CORD PLUG INTO RJ31X JACK THE RECEIVING UNIT TO WHICH THIS EQUIP MENT TRANSMITS SIGNALS MAY OR MAY NOT HAVE BEEN EVALUATED BY UL TRANSMISSION OF THE FIRE ALARM SIGNAL TO A FIRE ALARM HEADQUARTERS OR CENTRAL STA No 706 12 CONSOLE TION SHALL BE PERMITTED ONLY WITH AP MINI HOWLER POWER 181 14 OUTPUTS PROVAL OF THE LOCAL AUTHORITY HAVING OPTIONAL tS T50mA JURISDICTION eTHE BURGLAR ALARM SIGNAL SHALL NOT BE TRANSMITTED TO A POLICE EMERGENCY NUMBER No 4196 PIR CUT JUMPER DIAGRAM
4. INSTALLING AND WIRING KEYPADS Select a location for the keypad that is convenient for entering commands and for receiving the various visual and audible system signals Run wiring between the keypad and the control communicator Use a 4 wire run see the Summary of Connections diagram Additional keypads may be connected in parallel with all keypads connected at the control panel DO NOT DAISY CHAIN KEYPADSI See the section Wiring the 4153 for further information Mount the 4157 keypad as follows Remove the 2 screws whose heads are behind the information compartment door on the front of the keypad to allow removal of the back cover of the keypad In surface mount installations on a plaster sheetrock wall Use the template provided to locate the 3 screw mounting holes 2 keyslot and the wiring access hole Drill the necessary holes route the wiring in the wall through the access hole and mount the back of the keypad Splice the wire run to the keypad s wires and push the interface wiring back into the wall Replace the front cover keypad assembly and screw it in place with the two screws previously removed In surface mount installations over preinstalled standard electrical box No 4157BP backplate required Route the wiring from the electrical box through the access hole in a No 4157BP backplate and screw mount the backplate to 2 screw holes in the electrical box Route the wiring through the access hole in the back cover
5. 3 Data Encryption Data passed between the central station and the No 4153 is encrypted for security so that it ic very difficult for a foreign device tapped into the phone line to take over communication and substitute system compromising information Equipment Required At the premises The No 4153 must be used with the factory installed No 4153RD Ring Detector if remote programming and or control is desired The No 4152LM providing Class A polling loop operation cannot be used when the 4153RD is used At the central station or the installer s office home A No 699MD Intelligent Programmer that incorporates an internal modem and a No 695 53 Program Cartridge n IBM OR PC compatible computer a Hayes Brand Model 1200 Modem No 4153PC Downloading Software Diskette and appropriate interconnecting cables Remote Capabilities See Note 2 Programming All programming functions accessible from the unit s keypad or via local No 699 direct programming Commanding There are two types of commands that can be issued to the system Control To To To To To dE To Commands Arm the System in the Away Mode 1 Disarm the System Bypass a Sensor or Sensors Force the System to Accept a New Program Download Disable Operation because of Lease Non Payment display of will be left on the console Lockout Local Consele or 699IP Programming Preventing System Takeover By Another Ala
6. 5 24 HR AUD DOUBLE DIGITS SIL OR AUX e g 01 1 T zow 6 24 HR AUD SIL OR AUX 10 A 11 B TROUBLE TROUBLE DUMMY BYPASS BYPASS DUMMY LOW BATTERY LOW BATTERY DUMMY RE STORE CLOSE OPEN TEST 42 0222 ZONE 7 FIRE 12 C 13 D ZONE 8 DURESS 14 E 15 F DISABLED 00 NO REPORT FACTORY PROGRAM Z1 3 22 3 23 3 Z4 3 25 2 26 7 27 1 28 2 IF THE COMMUNICATOR WITHIN THE 4153 IS NOT GOING TO BE USED PROGRAM ALL CODES IN ADDRESSES 50 AND 51 AS 00 THIS PREVENTS UNWANTED TELEPHONE LINE SEIZURES WHEN 4 2 BY ZONE FORMAT IS USED THE CODES ASSIGNED IN ADDRESS 50 REPRESENT THE LEADING OR FIRST DIGIT OF THE 2 DIGIT EVENT CODE THE 2ND DIGIT OF THE EVENT CODE IS THE NUMBER OF THE ZONE COMMENTS ENTER ALL CODES AS DOUBLE DIGITS see above DISABLED 00 NO REPORT TO DISABLE RESTORE REPORTS PROGRAM ALL CODES IN ADDRESSES 53 59 AS O 16 SECOND DIALER 52 DELAY ZONE 1 RESTORE 53 REPORT ZONE 2 RESTORE x54 REPORT ZONE 3 RESTORE 55 REPORT COMMENTS COMMENTS COMMENTS COMMENTS FACTORY PROGRAM SEE TABLE EARLIER IN THE SECTION NOTE 43 WHEN 4 2 ZONE FORMAT IS USED THE TROUBLE BYPASS AND LOW BATTERY CODES ARE USED AS THE LEADING OR FIRST DIGIT OF THE 2 DIGIT EVENT CODE THE TROUBLE DUMMY BYPASS DUMMY AND LOW BATTERY DUMMY CODES ARE USED AS THE 2ND DICIT FOR NON ALARM RESTORES THE RESTORE CODE IS THE FIRST DIGIT AND THE DUMMY
7. 66 67 68 69 70 71 72 73 84 85 86 87 88 89 90 91 92 ID CODES FOR SENSORS 9 16 2ND DIGIT ALARM CODE FOR SENSORS 17 24 TROUBLE BYPASS n RESTORE ALL 1ST DIGITS ID CODES FOR SENSORS 17 24 2ND DIGIT ALARM CODE FOR SENSORS 25 32 TROUBLE tr BYPASS RE STORE ALL 1ST DIGITS ID CODES FOR SENSORS 25 32 2ND DIGIT ALARM CODE FOR SENSORS 33 37 97 98 99 TROUBLE CODE FOR SENSORS 33 37 97 98 99 BYPASS CODE FOR SENSORS 33 37 97 98 99 RESTORE CODE FOR SENSORS 33 37 97 98 99 ALL 1ST DIGITS ID CODES FOR SENSORS 33 37 97 98 99 2ND DIGIT OPENING REPORT 1ST DIGIT OPENING REPORT 2ND DIGIT FOR USER 1 Each higher numbered user has this digit increased by 1 CLOSING REPORT 1ST DIGIT CLOSING REPORT 2ND DIGIT FOR USER 1 LOW BATTERY REPORT 1ST DIGIT LOW BATTERY REPORT 2ND DIGIT TEST REPORT 1ST DIGIT TEST REPORT 2ND DIGIT LOW BATTERY RESTORE 1ST DIGIT LOW BATTERY RESTORE 2ND DIGIT CALLBACK PHONE NO CALLBACK ID 15 15 15 15 15 15 15 15 UL REQ D SIREN SOUNDING AFTER 4 HR AC LOSS SWINGER SUPPRESSION GROUND START TELCO LINE TEST DURESS CODE NOT USED SUPERVISED ALARM TRIGGER OUTPUTS FACTORY DEFAULTS NOT USED NOT USED 27 NOT USED NOT USED NOT USED NOT USED NOT USED NOT USED NOT USED NOT USED NOT USED NOT USED NOT USED NOT USED NOT USED NOT USED NOT USED NOT USED NOT
8. INSTALLATION No 4153 ADEMCO WSTRUCTIONS of oN PROTECTION THIS ISSUE HAS BEEN SUBSTANTIALLY REVISED I TABLE OF CONTENTS PAGE NOS I TABLE OF CONTENT Ss 5 um e alwa e 00 0 6 nd RT a eee eee 1 II INTRODUCTION cc ccce eeeeeeeeeeocsessecctsasssossaccosecscqee 1 PRINCIPLE OF OPERATION a 3 IV REMOTE PROGRAMMING AND CONTROL 3 V POINT PROTECTION EQUIPMENT 5 VI OPERATION 7 VII INSTALLATION 10 WIRING THE POLLING AND CONTACT LOOPS 10 4190WH DCID RPM PREPARATION 12 CONFIGURING THE RPM 6 6 12 SELECTING AN RPM ID NUMBER 14 INSTALLING THE 4153 e neo rege wie ea a 17 WIRING THE 4 amp 153 17 WIRING THE 4153RD RING DETECTOR 18 WIRING THE 4152LMB LOOP MODULE 19 INSTALLING AND WIRING KEYPADS 19 INSTALLING VECTOR SYSTEMS NEAR AN INTERCOM SYSTEM 21 PROGRAMMING THE 4153 23 FACTORY PROGRAMMING TABLE eo T 24 SPECIFIC ADDRESS PROGRAMMING INSTRUCTIONS 28 INSTALLING AND REMOVING CIRCUIT BOARDS 53 BEFORE RELEASING THE SYSTEM
9. ONLY NEEDED WHEN REMOTE PROGRAMMING COMMANDING OVER TELEPHONE LINES WILL BE USED THIS CODE IS ID OF THE NO 699 PROGRAMMER OR PC personal computer THAT IS ALLOWED TO TALK TO THE 4153 CANNOT BE VIEWED USING 83 ENTER 8 HEXADECIMAL DIGITS 0 9 B F 00 15 ENTER O NO OR 1 YES MANDATORY SELECTION FOR UL609 GRADE INSTALLATIONS MANDATORY FOR UL1635 INSTALLATIONS ALSO ACTIVATES TROUBLE COMMUNICATION REPORT TO THE CENTRAL STATION FACTORY PROGRAM NO ENTER 0 NO REPORT SUPPRESSION OR 1 REPORT SUPPRESSION ENABLED FACTORY PROGRAM NO SUPPRESSION GROUND START TELCO LINE TEST DURESS CODE NOT USED SUPERVISED ALARM TRIGGER OUTPUTS FACTORY DEFAULTS NOT USED NOT USED NOT USED NOT USED 86 se lst digit 88 89 90 91 92 93 94 COMMENTS L LT 2nd digit COMMENTS COMMENTS COMMENTS 52 ONLY APPLICABLE TO 4 2 SENSOR REPORTING FIELD 41 MUST BE PROGRAMMED AS 1 WHEN SUPPRESSION IS ENABLED A MAXIMUM OF 15 ALARM AND 15 ALARM RESTORE REPORTS PLUS 15 TROUBLE AND 15 TROUBLE RESTORE REPORTS WILL BE PERMITTED IN AN ARMED PERIOD FROM THE SYSTEM WHEN THESE PARAMETERS ARE EXCEEDED THAT REPORT TYPE WILL BE INHIBITED ENTER O NO OR 1 YES MANDATORY SELECTION FOR UL611 GRADE A INSTALLATIONS USING ONE WAY LONG RANGE RADIO 7621AD ON GROUND START PHONE LINES CAN ONLY USED IN CONJUNCTION WITH No 4259 TELCO LINE MONITOR TRANSPON
10. of the keypad and hang this cover from its 2 keyslot holes on plastic posts protruding from the No 4157BP backplate Screw the back cover to the No 4157BP using one screw Splice the wire run to the keypad s wires and push the interface wiring back into the electrical box Replace the front cover keypad assembly and screw it in place with the two screws previously removed For information regarding flush mounting the keypad see the instructions accompanying the keypad 19 TYPICAL 4 WIRE SMOKE DETEC FOR UL 609 GRADE A INSTALLATIONS SEE I SUPPLEMENT FOR 4153ML No 4153 POINT PROTECTION C COM Fuses BATTERY No 90 17 BELL TB1 B INO 90 12 AUX POWER TB1 6 No 90 2 CONSOLE POWER TB1 14 No 90 14 COMPLIES WITH FCC RULES PART 68 FCC REGISTRATION No AC398U 68192 A RINGER EQUIVALENCE 008 FLYING LEADS BAK e ca CONNECT TO BATTERY jp RED MAXIMUM AUXILIARY CURRENT AS A FUNCTION OF NO OF CONSOLES USED BATTERY REQUIREMENTS SEE INSTALLATION INSTRUCTIONS BURGLARY RED Baray WARNING FOR CONTINUED PROTECTION FIRE GAN OUTPUTS AGAINST THE RISK OF FIRE REPLACE PANIC WHT ONLY WITH SAME TYPE AND RATING FUSE GROUND BLK E a EXE en MISES 00000 gt amp Z x TORS TO BE USED WITH 4190 gt 2 INSTRUCTIONS INCLUDE BK 1812 BK 2812 BK2812TH BRK DETECTORS USE WITH BRK DETECTORS BK 1851B BK 28518 BK 2851BTH
11. ASSIGNED MUST BE CONFIGURED AS LEFT LOOP SENSORS MANDATORY SELECTION FOR UL609 GRADE A INSTALLATIONS PROVIDES A 1 2 SECOND SOUNDING FROM THE EXTERNAL SOUNDER AT END OF EXIT TIME OUT OR AT KISSOFF FROM A CLOSING REPORT ENTER O NO OR 1 YES MANDATORY FOR UL609 GRADE A AND UL1635 INSTALLATIONS FACTORY PROGRAM NO DETERMINES IF CONSOLE SOUNDING WILL OCCUR WHEN AC POWER IS LOST ENTER O DISABLED OR 1 ENABLED FACTORY PROGRAM DISABLED ENABLES THE CONSOLE SOUNDER TO SOUND STEADILY FOR A BURGLARY ALARM UNTIL THE SYSTEM IS DISARMED ENTER 0 SOUND TIMES OUT OR 1 LATCHED STEADY SOUND FACTORY PROGRAM SOUND TIMES OUT DISABLES THE SOUNDER TIMEOUT FEATURE FOR ANY PROTECTION POINT DESIGNATED AS A FIRE ZONE SO THAT FIRE SOUNDING CONTINUES UNTIL THE FIRE INDICATION 17 using numeric display BYPASS INDICATION 18 using numeric display MULTIPLE ALARMS 19 DISABLE TAMPER 20 COMMENTS COMMENTS COMMENTS COMMENTS 32 SYSTEM IS RESET ENTER O TIMEOUT TIMEOUT A SELECTION OF 1 IS MANDATORY FOR A LISTED UL985 FIRE INSTALLATION FACTORY PROGRAM TIMEOUT OR 1 NO ENABLES A DISPLAY OF FI WHENEVER FIRE SENSORS ARE CAUSING AN ALARM WHEN THE ALARM IS SILENCED OR TIMES OUT THE FI DISPLAY IS REPLACED BY DISPLAY OF THE SENSOR NUMBERS ENTER O NO FI DISPLAY ONLY SENSOR NUMBERS OR 1 FI DISPLAY ENABLED FACTORY PROGRAM DISPLAY ENABLED ENABLES A DISPLAY
12. BY NIGHT BURG 24 HR SILENT AUDIBLE or AUXILIARY 24 HR SILENT AUDIBLE or AUXILIARY FIRE uUo g gw t t O Q ti E See Address Numbers 23 and 24 for selection of the kind of 24 hour zone response desired for Types 5 and 6 28 DESIGNATE RIGHT LOOP USAGE 05 06 07 08 SENSORS 97 AND 98 ARE ALLOCATED AND RESPOND ACCORDING TO THE ZONES ASSIGNED TO POLLING LODP OPEN 98 AND POLLING LOOP SHORT 97 HINT USE EITHER ZONE 4 OR ONE OF THE 24 HOUR ZONES AS A RESPONSE FOR THESE CONDITIONS ASSIGN ZONE 98 ONLY WHEN A 4152LMB IS USED AND THE POLLING LOOP IS WIRED AS A CLASS A LOOP See Diagram 3 OTHERWISE ZONE 98 WILL ALWAYS DISPLAY AS FAULTED SEE ADDRESS 27 SENSOR 99 IS THE CONSOLE PANIC AND SHOULD BE ASSIGNED TO A 24 HOUR ZONE THE PANIC FEATURE IS ACTIVATED BY SIMULTANEOUSLY DEPRESSING THE KEYS ASSIGN A 6 OR A 5 CAUTION IF ALL LOCATIONS ARE ASSIGNED AS ZEROES THE SYSTEM IS INOPERATIVE AND THE CONSOLE WILL DISPLAY OC WHEN THE PRCGRAMMING MODE IS EXITED J 2 3 4 5 6 7 8 9 10 SENSORS 1 10 amp 15 16 17 18 0 SENSORS 11 20 1 22 23 24 25 26 27 28 29 30 LT 3 34 7 97 97 98 99 CAUTION When any sensor is not assigned an alarm response in Addresses 01 04 response set to 0 make sure that the Right Loop designation for that sensor is also set to zero Addresses 05 08 Failure to do So can cause unpredictable op
13. Must be B hex 11 if opening by user is to be processed on an Ademco CAPS Automation System The second digit represents the user ID for the Master Security code User No 2 is automatically assigned an ID 1 higher than this code ex If 01 is keyed User 2 reports as 2 User 3 as 3 etc See first comment for Field 72 Must be a C hex 12 if English printout of close is desired on 685 Must be a C hex 12 if closing by user is to be processed on an Ademco CAPS Automation System See comment for Field 73 50 LOW BATT REPORT 76 See 1st digit LOW BATT REPORT 77 See 2nd digit TEST REPORT 78 See 1st digit TEST REPORT 79 See 2nd digit LOW BATT RESTORE 80 See REPORT ist digit LOW BATT RESTORE 81 See REPORT 2nd digit first comment for Field 72 first comment for Field 72 first comment for Field 72 first comment for Field 72 first comment for Field 72 first comment for Field 72 mmm FEE REMOTE CONTROL PROGRAMMING COMMENTS PHONE NUMBER CENTRAL STATION ID 83 ALARM SOUNDING 84 COMMENTS AFTER 4 HOUR LOSS OF AC SWINGER INTER 85 COMMENTS MITTENT SENSOR REPORT SUPPRESSION 51 EACH DIGIT REQUIRES A 2 DIGIT ENTRY EXAMPLE 01 21 02 2 ETC ENTER UP TO 11 DIGITS 0 9 DO NOT FILL UNUSED SPACES FACTORY PROGRAM NONE DISPLAYS SINGLE ZERO WHEN VIEWED THIS PHONE NUMBER UTILIZES THE PABX ACCESS CODE PROGRAMMED IN FIELD 29
14. OF bb WHENEVER ANY SENSOR IS BYPASSED ENTER O NO DISPLAY OR 1 DISPLAY ENABLED MANDATORY FOR UL609 INSTALLATIONS FACTORY PROGRAM DISPLAY DISABLED ENABLES THE SYSTEM TO PERMIT MULTIPLE ALARMS FROM A PROTECTION POINT DURING ONE ARMED PERIOD AS OPPOSED TO ONLY ONE ALARM ENTER 0 ONLY ONE ALARM FROM A SENSOR PER ARMED PERIOD OR 1 MULTIPLE ALARMS FROM EACH SENSOR BUT NOT MORE FREQUENTLY THAN ALLOWED BY ALARM TIME OUT FACTORY PROGRAM MULTIPLE WHEN SELECTED ALL BURGLARY RPM TAMPER MESSAGES ARE IGNORED BY THE CONTROL ENTER 0 TAMPER ENABLED OR 1 TAMPER IGNORED NIGHT TAMPER FAULTS WILL BE TREATED WITH THE ALARM RESPONSE OF THE ZONE ASSIGNED TO THE LEFT LOOP FOR EXAMPLE IF THE LEFT LOOP IS A BURGLARY ZONE THEN THE TAMPER FAULT WILL CAUSE BURGLARY ALARM TEST REPORT ENABLE 21 TEST REPORT 22 INTERVAL ZONE 5 ALARM 23 RESPONSE ZONE 6 ALARM 24 RESPONSE COMMENTS COMMENTS COMMENTS COMMENTS 33 FACTORY PROGRAM TAMPER IGNORED SYSTEM PRODUCES A TEST MESSAGE TO THE CENTRAL STATION FIRST TEST 12 HOURS AFTER EXITING THE PROGRAMMING MODE AND THEN EITHER EVERY 24 OR 12 HOURS THEREAFTER MANDATORY SELECTION FOR UL1635 INSTALLATIONS MUST BE PROGRAMMED IN CONJUNCTION WITH DATA FIELD 22 IF ENABLED ENTER 0 NO REPORT OR 1 REPORT ENABLED MANDATORY FOR UL609 INSTALLATIONS FACTORY PROGRAM NO REPORT DETERMINES TIME PERIOD BETWEEN
15. Right loop Assign ID numbers with future expansion in mind If many ID s are not being used skip an ID number whenever the Right loop of a 4190WH or 4196 is NOT used Right loop sensors can then be added later if an installation is being expanded without having to reprogram the DIP switches on any of the RPMs and just by reprogramming of the control 4208 sensor loops 4139WHs 4191WHe 4194WHs and 4275s are all to be assigned Left Loop response 15 E X A PROTECTION ID ALARM RESPONSE POINT ASSIGNMENT REPORTING ZONE DESCRIPTION ASSIGNMENT LEFT RIGHT LEFT RIGHT LEFT RIGHT LOOP LOOP LOOP LOOP LOOP ENTRANCE AREA FRT DOOR 1 CONTACT M DINING RM INDOW WINDOW BEHIND VERT BLINDS CONTACT CONTACT TRANSPONDER LOCATION t KITCHEN DOOR BCK DOOR WINDOW RADIATOR WELL CONTACT CONTACT INSIDE BASEMENT SMOKE DOOR CEILING IDET HALLWAY REAR CORNER Do not use sensor 7 of field 01 if ring detection is enabled FOR EXAMPLE ONLY ACTUAL ENTRIES SHOULD BE MADE ON THE ACCOMPANYING WORKSHEET LEFT LOOP ID IS TRANSPONDER DIP SWITCH SETTING ZONE ASSIGNMENTS 1 E E BURGLARY 5 24 HR AUDIBLE SILENT OR AUX 2 PERIMETER BURGLARY 6 24 HR AUDIBLE SILENT OR AUX 3 INTERIOR BURGLARY 7 FIRE 4 DAY NIGHT BURGLARY 8 DURESS DIAGRAM 4 PROTECTION POINT WORKSHEET 16 C INSTALLING THE No 4153 C COM Installing the No 4153 C COM involves wiring all connections and programming
16. THE 24 HOUR ALARM RESPONSE SELECTED FOR THIS ZONE ENTER 0 DISABLED OR 1 ENABLED FACTORY PROGRAM DISABLED ENABLES RESTORE REPORTING FOR A FIRE ZONE ALARM ENTER O DISABLED OR 1 ENABLED FACTORY PROGRAM DISABLED REPORTS SUBSCRIBER ID EVENT CODE AND ZONE ENABLES COMMUNICATION TO BOTH THE PRIMARY AND SECONDARY PHONE NUMBER IF USED USING 4 2 TRANS MISSION FORMAT THE PRIMARY AND SECONDARY FORMAT SELECTIONS IN ADDRESS 38 AND 40 IF SECONDARY IS USED OR 96 EXPRESS DTMF ARE REQUIRED TO SELECT THE APPROPRIATE DATA TRANSMISSICH PULSE RATE AND ACKNOWLEDGE KISSOFF FREQUENCY ENTER 0 DISABLED OR 1 ENABLED FACTORY PROGRAM DISABLED THE 1ST DIGIT OF THE EVENT CODE IS THE CODE ENTERED IN ADDRESS 50 AND 51 AND THE 2ND DIGIT IS THE ZONE TYPE USER ID OR DUMMY EXPANSION CODE WHICHEVER IS APPLICABLE TO THE INDIVIDUAL REPORT USAGE OF THE 4 2 ZONE FORMAT PERMITS THE USAGE OF SELECTIVE EXPANDED REPORTING See 42 43 44 45 46 47 and 50 for addresses that can be appropriately set for expanded reporting IMPORTANT NOW PLEASE JUMP TO FIELD 82 AS THE NEXT TWENTY ONE DATA FIELDS 61 81 ARE PROVIDED TO STORE THE REPORTING CODES WHEN SENSOR REPORTING IN THE 442 FORMAT IS USED INTRODUCTION TO FIELDS 61 81 In order to make it easier for an installer to understand point reporting an explanation and some illustrative examples are given first Bearing in mind that a 2 digit
17. alongside each device Although any number of sensors may be assigned to sensor loop avoid assigning too many contacts to any sensor loop left or right as this makes it difficult for the end user or your service personnel to identify a specific sensor that has been faulted 12 See Beiow for DIP Switch Settings 00000000 See Below for Jumper Options d RIGHT LOOP FOR N C SERIES CIRCUITS ONLY USE SEALED REED CONTACTS LEFT LOOP FOR N C CIRCUIT INTERNAL EOLR OR N C AND OR N O CIRCUIT EXTER NAL EOLR See Left Loop Jumper Options Below INSTRUCTIONS FOR LEFT LOOP OPTIONS POLLING LOOP ALWAYS OBSERVE POLARITY e ALWAYS CONNECT IN PARALLEL e SEE TEXT FOR WIRE GAUGE AND WIRE LENGTH REQUIREMENTS INSTRUCTIONS FOR SETTING ID CONVERT ID NUMBER TO DIP SWITCH CUT ACCORDING TO THIS TABLE o SD DOCTI 1 RED JUMPER SETS LOOP RESPONSE TIME CUT 10 MSEC UNCUT 400 MSEC ARED jma em rE Orr OFFON Ott Ota fv BLUE POSITION RED OFE D OG ON f ON CUT 0 1mA FOR REED EXPOSED AT OFF OFF OFF DFF ON ON ON 7 CONTACTS OOO Orr OFF ON OFF OFF ON 9 UNCUT 1 mA FOR OFF QN t N ors 10 MECHANICAL SWITCHES Or or ON ON OF OFF 12 3 BLUE JUMPER CUT ONLY YOU ONLY NEED TO SET THE OFF OFF ON ON OFF 14 WHEN AN EOLR IS NOT USED LEFT LOOP ON mI WHITE JUMPER MUST ALSO Orr ON OFF OFF ON CUT WHEN BOTH LOOPS ARE USED OFF ON
18. code 4 1 5 3 followed by CODE key 0 key depression Once a master code is programmed use it instead of 4153 as 4153 is then no longer present to gain access to the programming mode When a data field has been completely programmed from the keypad the console will beep three times and then automatically proceed to and display the next data field address to be programmed If the number of digits that you enter in the data field is less than the maximum permitted for example phone number then the console will display the last data entered To proceed the next data field address to be programmed must be entered for example 05 If an address is improperly entered the console vill display EC If a program entry is improperly entered for example a larger number than what is permitted the console display will go blank In either case simply re enter the number i Enter each address separately when you are first beginning to use the _ product to insure that the control is properly programmed All entries may be changed as often as required The following describes 3 methods of using the programming mode PROGRAMMING ENTER PROGRAMMING MODE 1 POWER UP AC or DC Depress and simultaneously within 30 seconds OR 2 INITIALLY 4 1 5 3 CODE Key 0 OR 3 AFTER MASTER CODE IS PROGRAMMED Master Code CODE Key O NOTES Types 2 and 3 methods of entry to the programming mode can be subse
19. first digit of 9 Note that a common restore report is used for alarms troubles and bypasses In Field 65 the second digit of the 2 digit event code is stored a different code for each sensor in the group ex 1 8 for the eight sensors Sensors grouped in 17 24 25 32 33 37 97 98 99 are programmed similarly 45 The sensors in the 1 8 group are similarly programmed he only difference in this group is that the alarm code leading digit is not common for all sensors in ZN the group a separate code is available for each alarm in the group EXAMPLE 2 An example of code assignments that maximize the reporting for the nost number of sensors reporting to an Ademco CAPS Automation System is given below SENSOR ALARM TROUBLE BYPASS RESTORE 1 11 41 71 1 2 12 42 72 02 3 13 43 73 g3 4 14 44 74 4 5 15 45 75 05 6 16 46 76 g6 ze 1 17 47 77 07 8 19 49 79 g9 9 21 51 91 D1 10 22 52 92 D2 11 23 53 93 D3 12 24 54 94 D4 13 25 55 95 D5 14 26 56 96 D6 15 27 57 97 D7 16 28 58 98 D9 17 31 61 81 El 18 32 62 82 E2 19 33 63 83 E3 20 34 64 84 EA 21 35 65 85 5 22 36 66 86 E6 23 37 67 87 E7 24 38 68 88 E8 25 10 4 70 00 26 18 7B B 27 1C 4C 7 gc 28 1D 4D 7D D 4 29 1E 4E 7E GE 4 30 1E 4E 7E GE 4 31 1F 7 F 4 32 1F 4F 7F F 33 29 59 99 D9 34 20 50 96 D 35 2B 5B 9B DB 36 2C 5C 9 DC 37 2D 5 9D DD 4G 97 2E 5E 9E DE 5 98 2E 5E 9E DE 39 2F 5F 9F DF NOTES 1 Only
20. marginal devices It can be powered from the control or locally from AC power via a No 729 plug in power supply provide local rechargeable battery in the latter instance No 4198 POLLING LOOP TESTER This diagnostic device tests the polling loop for potentiel failure due to excessive length or inappropriate gauge When inserted between the control panel and the polling loop it places a load on line and tests those loops which might extend too far from the panel VI OPERATION A point protection security system uses a computer based control panel connected to a single multiplex communication circuit called a polling loop The polling leop consists of a run of paired wire twisted is preferred but is not mandatory with multiple RPMs e g Nos 4190WH 4192 4194WH 4196 4208 connected in parallel to each other Sensor devices are connected to the RPMs by a contact loop Each contact loop forms a protection point Vector 3000 supports up to 37 such protection points on the polling loop and monitors the condition of this polling loop for opens and shorts As the control receives individual sensor status it checks the installer defined assignments stored in the EEPROM Electricelly Erasatle FROM that retains its memory in the absence of power to determine what action has to be taken The control then responds accordingly with an appropriate alarm display audible console annunciation external sounder and or dialer communication Each p
21. no obligation under this Limited Warranty or otherwise if the productis altered or improperly repaired or serviced by anyone other than Ademco factory service For warranty service return product transportation prepaid to Ademco Factory Service 165 Eileen Way Syosset New York 11791 THERE ARE NO WARRANTIES EXPRESS OR IMPLIED OF MERCHANTABILITY OR FITNESS FOR PARTICULAR PURPOSE OR OTHERWISE WHICH EXTEND BEYOND THE DESCRIPTION ON THE FACE HEREOF IN NO CASE SHALL SELLER BE LIABLE TO ANYONE FOR ANY CONSEQUENTIAL OR INCIDENTAL DAMAGES FOR BREACH OF THIS OR ANY OTHER WARRANTY EXPRESS OR IMPLIED OR UPON ANY OTHER BASIS OF LIABILITY WHATSOEVER EVEN IF THE LOSS OR DAMAGE IS CAUSED BY THE SELLER S OWN NEGLIGENCE OR FAULT Seller does not represent that its product may not be compromised or circumvented that the product will prevent any personal injury or property loss by burglary robbery fire or otherwise or that the product will in all cases provide adequate warning or protection Buyer understands that a properly installed and maintained alarm may only reduce the risk of a burglary robbery or fire without warning but it is not insurance or a guarantee that such will not occur orthat there will be no personal injury or property loss as a result CONSEQUENTLY SELLER SHALL HAVE NO LIABILITY FOR ANY PERSONAL INJURY PROPERTY DAMAGE OR OTHER LOSS BASED ON A CLAIM THE PRODUCT FAILED TO GIVE WARNING However if Seller is held liable whether directl
22. only low current operation of the sensor loop is possible i e only reed contacts may be used SELECTING AN RPM ID NUMBER When setting the RPM only the ID for the left loop should be set at the DIP Switch If the right loop is used the control will automatically add 1 one to the left loop ID for right loop identificstion If the right loop is not being used the next RPM can be set to the next sequential number Left Loop Right Loop Left Loop Right Loop Set this RPM s DIP switch to Set this RPM s DIP ID 1 switch to ID 3 Left loop MOTION DETECTOR will be Left loop DOOR will be Point 1 I Point 3 Right loop DOOR will automatically Right loop WINDOW will be set to be Point 2 when the automatically be set to be control is programmed for this Point 4 when the control configuration is programmed for this config uration CAUTIONS 1 NEVER set two RPMs DIP switches to the same ID f 2 NEVER assign two loops to the same ID f when programming the control EXAMPLE 2 If only the left loop is used RPM DIP switches can be set sequentially as the control will be programmed to know that the right loop is not being used 14 Set this RPM s DIP Set this RPM s DIP switch switch to ID 1 to ID to 2 Since right loop is unused no ID will be assigned by the control HINTS Right loop cannot be used without first using Left loop Smoke Detector RPMs do not support a
23. reporting code is utilized let us first discuss how sensors 9 37 97 98 99 can be coded as the programming is easier to follow Once that is completed we will discuss sensors 1 8 The recurring theme of the following information is that the leading digit represents the type of event being reported and the second digit identifies the sensor within that type NOTES 1 Two digit entries are required because hexadecimal entries are allowed 0 9 B F 00 15 for fields 61 81 2 Users of the Ademco CAPS Automation System cautioned mot to assign 78 or 8C for any report as these codes are reserved EXAMPLE 41 In the sensor group 9 16 for example the installer may program Field 64 as follows All alarm reports may have a first digit of 1 If it is desired to have the alarm code denote the kind of sensor being monitored all sensors of a similar type ex entry exit should be grouped together within a group of eight 11 trouble reports may have first digit of 2 Bear mind that trouble reporting would not just be for sensor loop trouble as in a fire zone or a day night zone but would also be used to report a polling loop trouble such as for a non responding RPM 11 bypass reports may have a first digit of 3 Note that in the sensor reporting format a common bypass report for all sensors is not possible If bypass reporting is desired it must be by sensor All restore reports may have a
24. that the system and the central station are linked to each other for the described functions following a valid exchange of codes Keypad entries are ignored during the same time interval cited above The console emits a trouble tone during this interval Should an alarm transpire during the remote program control interval the system would not respond to the alarm condition until the remote mode was ended The Nos 4190WH 4192 4194WH 4196 and 4208 all store their fault conditions until they are read by the No 4153 Ae such alarm conditions from these RPMs would not be missed only delayed copy of the program downloaded may be produced from either the No 699 Intelligent Programmer or the IBM PC compatible computer using those products internal report generators when an optional printer is connected POINT PROTECTION PMENT The No 4153 C COM is a special control designed to operate with a point protection polling loop It should not be used to operate other kinds of alarm circuits such as separate conventional wired zones The No 4153 can presently be used with the following equipment No 4157 SECURITY CONSOLE The No 4157 CONSOLE provides all system status indications and permits all system control functions The console is used to program the system to arm and disarm the burglary system to assign and remove programmed selections activate PANIC alarms to provide protection point identification and to prov
25. the audio wiring running between the master station and remote stations which is in close proximity to VECTOR system wiring All shields must be grounded at the master intercom unit Observe all precautions established by the manufacturer Ground the master intercom unit to earth ground A cold water pipe or electrical box may often be suitable using shielded cable with the VECTOR system See Diagram 7 When multiple wire runs are made from the polling connection on the control the combined length of all runs is reduced from 4 000 feet to 2 000 feet independent of wire gauge The maximum length of any single run ermains unchanged When using a 4152LMB LOOP MODULE all of the aforementioned wire length restrictions must be observed When using 4197 LINE EXTENDER MODULE all of the aforementioned wire length restrictions must be observed All sensor loop wiring in close proximity to intercom system wiring must utilize shielded cable These cable lengths must comply with the restrictions presented in the installation instructions There is no upper limit wire length reduction as there was with the polling loop cable 21 INTERCOM REMOTE UNIT SHIELD GROUND AT MASTER ONLY DIAGRAM 6 SHIELD GND AT POLLING LOOP WIRES 3 PROXIMITY WIRING INTERCOM REMOTE UNIT TRANSPONDER VECTOR PANEL ONLY TRANSPONDER SENSOR LOOP WIRES No 4190 No 4190 1 INTERCOM REMOTE UNIT TRANSPONDER PROXIMITY WIRING
26. the ccontrol conmunicator WIRING THE No 4153 The following information describes the terminal connections of the control TERMINALS 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 DESGRIPTION Connections for the polling loop Be certain to use no more than the indicated maximum length of wire 11 are connected in parallel to each other No more than 37 identifiable sensor loops may be connected to this polling loop whether single double or octuple sensor loop RPMs are used AC input connections from the No 1349 TRANSFORMER Connect the transformer to a 24 hour unswitched 110V 60Hz outlet Auxiliary power output 12V 750 mA max power includes the current available from terminal 14 to power consoles Alarm sounder wet output 12V 1 5 A installation see Note Regarding UL Installations For UL WARNING Use only one 8 ohm speaker with a VECTOR system equipped with a No 733 SIREN DRIVER Multiple speakers may be used only when they are wired in series Under no circumstances should multiple 8 ohm speakers be wired in parallel as the 4153 power supply is not capable of supplying the 3 or more amps required to power such a load Although the No 733 is capable of powering such a configuration the supporting control product cannot provide the required power This configuration therefore could cause a product nalfuncticn Telephone line connections Us
27. used if downloading is not used 2 English language on 685 should not be used for most of these reports GE NG Z 46 3 Note that B and C are not used for leading digits in the aboye table or in the table on the next page It is suggested that these digits be reserved for use in reporting openings and closings so that the appropriate display and print out can be obtained at the central station receiver and an automation system can be given the appropriate information 4 Within the 77 code locations allocated for the sensor report format it is mot possible for Ademco CAPS Automation System Users to uniquely report alarm trouble bypass and restore for all 40 points plus handle open close test low battery and low battery restore As such several sensors must share reports In the example shown the pairs including 31 and 32 36 and 37 97 and 98 each share a common report 5 The fact that the 97 and 98 ghare a common report is irrelevant in installations where downloading is used amp 153RD is installed as a loop open 98 condition cannot be detected without a 4152LM connected for use with a Class A polling loop That module cannot be used when downloading is desired EXAMPLE 3 Other possible groupings of codes could have alarms in consecutive hexadecimal groups For example Fire Alarms 10 17 Panic Alarms 18 19 1B 1F Burglary Alarms 20 29 2B 2F 30 37 Troubles and Bypasses could be treated similarly i
28. will result in the message being erroneously converted by the No 685 into a meaningless message 3 1 4 1 3 1 4 1 Report Standard Expanded 4 2 Standard 4 2 Expanded Alarm SSS S SSS S ssss Ag ssss AZ AAA A Z Trouble SSS S T SSS S T ssss T SSSS TTd TTT T Td By pass SSS S B SSS S B SSSS B SSSS BBd BBB B Bd Low Battery SSS S L SSS S L SSSS L SSSS LLd LLL L Ld Open SSS S O SSS S O SSSS Of SSSS OU 000 0 U Close SSS S C 555 5 C 5555 C SSSS CU CCC C U Test SSS S Te SSS S Te 5555 Ted ssss Te Regtore Alarm SSS S R SSS S R SSSS R SSSS RA RRR R Trouble SSS S R SSS S R ssss R SSSS RTd RRR R Td Bypass SSS S R SSS S R SSSS R SSSS RBd RRR R Bd Low Battery SSS S R SSS S R SSSS R SSSS RLd RRR R Ld where SSS or SSSS Subscriber ID where L Low Battery Code A Alarm Code Ld Low Battery Dummy Code Zero Open Code Z Zone Type C Close Code T Trouble Code U User Number Td Trouble Dummy Code Te Test Code B Bypass Code R Restore Code Bd Bypass Dummy Code 39 ALARM REPORT TROUBLE REPORT BYPASS REPORT RESTORE REPORT 42 43 44 45 COMMENTS COMMENTS COMMENTS COMMENTS 40 ENTER 0 STANDARD REPORT OR 1 EXPANDED REPORT FACTORY PROGRAM STANDARD WHEN EXPANDED THE ZONE TYPE IS TRANSMITTED IN THE LAST POSITION DOES NOT APPLY TO 4 2 SENSOR FORMAT EXPRESS OR NORMAL ENTER O STANDARD OR 1 EXPANDED FACTO
29. 2 RESTORE ZONE 3 RESTORE ZONE 4 RESTORE ZONE 5 RESTORE ZONE 6 RESTORE ZONE 7 RESTORE DELAY REPORT ENABLE REPORT ENABLE REPORT ENABLE REPORT ENABLE REPORT ENABLE REPORT ENABLE REPORT ENABLE 4 2 ZONE REPORTING DIALER FORMAT ALARM CODES FOR SENSORS 1 8 1ST DIGIT ID CODES FOR SENSORS 1 8 2ND DIGIT TROUBLE CODE FOR SENSORS 1 8 BYPASS CODE FOR SENSORS 1 8 RESTORE CODE FOR SENSORS 1 8 ALL 1ST DIGITS ALARM CODE FOR SENSORS 9 16 TROUBLE CODE FOR SENSORS 9 16 BYPASS CODE FOR SENSORS 9 16 RESTORE CODE FOR SENSORS 9 16 ALL 1ST DIGITS 26 30 SECONDS 0 ADEMCO LOW SPEED 0 NO 0 EN STANDARD 0 STANDARD 0 STANDARD 0 EXPANDED 1 STANDARD 0 EXPANDED 1 PRIMARY PHONE NO 0 No 0 ZONE 1 E E BURG 3 03 ZONE 2 PERIM BURG 3 03 ZONE 3 INTERIOR BURG 3 03 ZONE 4 DAY NITE BURG 3 03 ZONE 5 PANIC 2 02 ZONE 6 24 HR AUX 7 07 ZONE 7 FIRE 1 01 ZONE 8 DURESS 2 02 TROUBLE F 15 TROUBLE DUMMY F 15 BYPASS D 13 BYPASS DUMMY F 15 LOW BATTERY 8 08 LOW BATTERY DUMMY 0 00 RESTORE E 14 i CLOSE C 12 OPEN B 11 TEST 9 09 NO 0 DNE DISABLED 0 DISABLED 0 DISABLED 0 DISABLED 0 DISABLED 0 DISABLED 0 DISABLED 0 No 0 NOT USED Fields 61 thru 61 are not used NOT USED as the default value of Field 41 disables reporting by sensor NOT USED NOT USED 65
30. 4 1 465 654 7 8 465 680 9 1 0 300 350 400 450 500 550 600 650 700 6 3 2 3 0 2 8 2 7 2 5 2 4 2 3 2 1 2 0 3 6 8 6 3 5 9 5 6 5 3 5 0 4 7 4 5 4 3 5 8 0 7 6 7 2 6 8 6 5 6 2 6 0 5 7 5 5 ALL UL INSTALLATIONS MUST HAVE A STANDBY TIME OF 4 HOURS OR MORE BATTERY NORMALLY NEED NOT BE REPLACED FOR AT LEAST 5 YEARS TWO BATTERIES REQUIRED WIRE IN SERIES FUSES BATTERY 4A No 90 17 BELL 3A No 90 12 CONSOLE POWER 1A No 90 14 AUX No 4157 CONSOLE 1 PHYSICAL 2 ELECTRICAL POWER 2A No 90 2 H 4 102 mm W 6 1 2 165 mm D 1 25 mm VOLTAGE INPUT 12VDC CURRENT DRAIN 120 mA No 4137 REMOTE CONSOLE 1 PHYSICAL 2 ELECTRICAL No 5330 CONSOLE 1 PHYSICAL 2 ELECTRICAL H 4 75 121 mm W 8 4 213 mm D 1 1 28 mm VOLTAGE INPUT 12VDC CURRENT DRAIN 60 mA H 4 37 113 mm W 7 75 207mm D 1 25 32mm VOLTAGE DRAIN 12VDC CURRENT DRAIN 80 mA standby 105 mA lit display No 4190WH DUAL POINT RPM i PHYSICAL 2 ELECTRICAL H 3 1 4 81mm W 2 1 8 53mm D 1 23mm VOLTAGE INPUT 8 11 volts CURRENT DRAIN 2 mA HIGH CURRENT 1 mA LOW CURRENT No 4192SD PHOTOELECTRIC SMOKE DETECTOR 1 PHYSICAL 2 ELECTRICAL BASE DIA 5 0 127mm COVER HGT 3 76mm COVER DIA 3 15 80mm VOLTAGE INPUT 7 11VDC CURRENT DRAIN Less than 320 uA standby i 320 400 uA Active 57 No No 2 No 2 No No 1 2 No 1 4192SDT PHO
31. 4192SDT photoelectric with thermostat report to the control all faults and identify the alarm location at the console If other smoke detectors 4 wire type are used in conjunction with the left loop of the 4190WH RPM 2 additional wires must be run to power these detectors and a switch must be provided to interrupt the power to these detectors to reset them The Vector series detectors are totally accommodated by the polling loop for their power and resetting and they draw less than 1 mA each from the loop Nos 4139WH 4194WH 4191WH REED CONTACT REMOTE POINT MODULES These surface mount 4139WH and 4194WH and recessed mount 4191WH Magnetic Reed Contacts each with a built in RPM allow vindows and doors to be monitored without the need to separately mount and wire an RPM Nos 4196 QUAD and 4275 DUAL SENSOR PIR REMOTE POINT MODULES These matched Passive Infrared detectors respond to rapid changes of infrared energy associated with an intrusion into the protected area and reports the event to the control The RPM built into the matched Vector 4196 Quad PIR also permits nearby closed circuit contacts to be interfaced to the unit enhancing the economy of the RPM The PIRs have a nominal coverage of 35 x 35 and can be extended to 45 x 45 coverage by mounting adjustment The 4196 utilizes two dual detectors to achieve verified PIR operation By mirror changeout the PIRs can be adapted for long range corridor application 70 x 16
32. 4196 or 80 x 10 4275 These PIRs are directly powered by the polling 6 loop and no separate power wiring is required If other motion detectors are used separate power wiring is required Up to 5 4196 PIRs can be selected to utilize pulse count to further enhance their false alarm immunity each 4275 has a built in pulse count option Additional 4196 PIR s can be utilized without pulse count Do not use pulse count feature with PIRs configured fcr long range coverage Do not use software pulse counting for 4275s internally set for pulse count No 4152LMB CLASS A POLLING LOOP ADAPTER This add on circuit board is used tc provide additional security by enabling the polling loop to be connected Class A where it car be polled even though the loop may be broken This adapter may also be wired as a separate open ended loop to effectively double the length of the polling loops that can be supported See SECTION WIRING THE POLLING LOOP Use of this adapter does not increase the number of sensors that the system can uniquely identify This adapter cannot be used if central station initiated remote comnand or programming is to be used with this product No 4197 LOOP EXTENDER MODULE This device is a signal repeater that doubles the maximum polling loop length from the point of loop cut in It may also be used to enhance polling loops with marginal or poor signaling performance at certain extended RPMs by providing signal boosting for the
33. 5 No 4153 SUMMARY OF CONNECTIONS Note regarding UL installations 1 Sounding devices must be listed per UL 464 and have a marked rating of 85 Decibels or more 2 UL 609 installations Sounding device must be listed Burglar Alarm Sounding Device For Use In Listed Housing and the bell housing must be listed Grade A 3 Maximum bell output power is 12V at 1 5A 20 gt INSTALLING VECTOR SYSTEMS NEAR AN INTERCOM SYSTEM The polling loop and sensor loops connected to transponders RPM s can cause audio interference when installed too close to the wiring running between the master station and remote stations of an intercom system To avoid this problem the following precautions must be taken A minimum distance of three inches must be maintained between the polling sensor loop wires of the VECTOR security system and those of the intercom Where it is not practical to maintain a three inch distance between the two systems it is necessary to install shielded wiring for either the VECTOR polling and or sensor loops or for the intercom system wiring depending which was installed first Whenever shielded wires are used the shields must be earth grounded at the control or in the case of the intercom at the master unit If both the VECTOR and the intercom system are being installed at the same time it may be easier to use shielded cable in the intercom system See Diagram 6 1 2 3 4 When 1 3 4 Shield
34. CODE IS THE 2ND DIGIT FOR ALARM RESTORE THE RESTORE CODE IS THE FIRST DIGIT AND THE ALARM CODE IS THE SECOND DIGIT FOR OPEN CLOSE THE OPEN OR CLOSE CODE IS THE FIRST DIGIT AND THE USER ID IS THE 2ND DIGIT ENABLES A 16 SECOND DIALER DELAY FOR FIRE BURGLARY ALARM REPORTS SO THAT USER CREATED FALSE ALARMS CAN BE SHUT OFF BEFORE THE CENTRAL STATION IS NEEDLESSLY ALERTED ENTER 0 DISABLED OR 1 ENABLED FACTORY PROGRAM DENABLED THIS DOES NOT APPLY TO 442 FORMAT SENSOR ID REPORTING ALL REPORTS ARE INSTANT ENABLES RESTORE REPORTING FOR AN ENTRY EXIT ZONE BURGLARY ALARM ENTER O DISABLED OR 1 ENABLED FACTORY PROGRAM DISABLED ENABLES RESTORE REPORTING FOR A PERIMETER ZONE BURGLARY ALARM ENTER 0 DISABLED OR 1 ENABLED FACTORY PROGRAM DISABLED ENABLES RESTORE REPORTING FOR AN INTERIOR ZONE BURGLARY ALARM ENTER 0 DISABLED OR 1 ENABLED FACTORY PROGRAM DISABLED ZONE amp RESTORE REPORT ZONE 5 RESTORE REPORT ZONE 6 RESTORE REPORT ZONE 7 RESTORE REPORT 4 2 REPORTING BY ZONE 56 57 58 59 60 COMMENTS COMMENTS COMMENTS COMMENTS COMMENTS 44 ENABLES RESTORE REPORTING FOR DAY NIGHT ZONE BURGLARY ALARM ENTER O DISABLED OR 1 ENABLED FACTORY PROGRAM DISABLED ENABLES RESTORE REPORTING FOR THE 24 HOUR ALARM RESPONSE SELECTED FOR THIS ZONE ENTER O DISABLED OR 1 ENABLED FACTORY PROCRAM DISABLED ENABLES RESTORE REPORTING FOR
35. DER FACTORY PROGRAM O TWO DIGIT ENTRIES ARE REQUIRED BECAUSE HEXADECIMAL CODES ARE ALLOWED 0 9 B F FACTORY PROGRAM 00 00 DO NOT PROGRAM ENTER 0 NO OR 1 YES MANDATORY SELECTION FOR UL611 GRADE A OR AA INSTALLATIONS USING TWO WAY LONG RANGE RADIO CAN ONLY BE USED WITH No 7920SE TRANSCEIVER REVISION 5 0 OR HIGHER FACTORY PROGRAM 0 ONLY ENTERED IF ALL PROGRAM OPTIONS ARE TO BE SET TO FACTORY DEFAULTS DO NOT PROGRAM DO NOT PROGRAM DO NOT PROGRAM DO NOT PROGRAM CONDITIONAL OPENING 95 COMMENTS ENTER 0 NO OR 1 YES CANCEL REPORT SHOULD ONLY BE USED IF NORMAL OPENING CLOSING REPORTING IS NOT USED N P AN OPEN REPORT IN ADDRESS 51 OR ADDRESSES 72 AND 73 MUST BE PROGRAMMED THIS SHOULD SELECTED IF 16 SECOND DIALER DELAY ADDRESS 52 IS SELECTED SINCE A CANCEL REPORT COULD BE RECEIVED WITHOUT ANY PRIOR ALARM REPORT ONLY SENDS REPORT IF SYSTEM IS DISARMED DURING AN ALARM gt FACTORY PROGRAM O 4 1 4 2 EXPRESS 96 COMMENTS ENTER 0 NO OR 1 YES FORMAT FOR ZONE C SHOULD ONLY BE USED WITH COMPATIBLE OR SENSOR REPORTING DIGITAL RECEIVERS EX ADEMCO 685 LEVEL 4 3 AND HIGHER SOFTWARE RECEIVER DISPLAY AND PRINT OUT IS THE SAME AS FOR THESE MESSAGES NOT USING THIS HIGH SPEED 10 CHAR SEC DTMF FORMAT FACTORY PROGRAM 0 INSTALLING AND REMOVING CIRCUIT BOARDS Removing a 4153 MAIN BOARD The main circuit board is removed and
36. EC FOR ADEMCO AND 20 PULSES SEC FOR SESCOA RADIONICS AND THE ACKNOWLEDGE KISS OFF FREQUENCY 1400 HZ FOR ADEMOO AND 2300 Hz for SESCOA RADIONICS ENABLES COMMUNICATION TO BOTH THE PRIMARY AND SECONDARY PHONE NUMBER IF USED USING A 4 2 TRANSMISSION FORMAT BY SENSOR 38 This sensor format selection can also be used to create a zone reporting format that offers certain advantages over the standard 4 2 zone transmission format These advantages are 1 True Restore The 4 2 sensor reporting format has true restore capability in that a re amp tore report will be transmitted as soon as the sensor restores independent of when the alarm sounder times out 2 True Zone Reporting The 442 sensor reporting format allows the insteller to assign each sensor to a8 particular alarm report Therefore if it was desirable to have one group of sensors ex sensors 9 14 be treated as a particular perimeter grouping and another group of sensors ex sensors 15 21 be treated as another perimeter grouping each of the sensors in one group could be assigned to the same alarm report code and each of the sensors in the other group could be assigned a common but different alarm report code s such installers can create their own zone reporting scheme THE PRIMARY AND SECONDARY FORMAT SELECTIONS IN ADDRESS 38 AND 40 IF SECONDARY IS USED ARE REQUIRED TO SELECT THE APPROPRIATE DATA TRANSMISSION PULSE RATE AND ACKNOW
37. ER ACC T NO PRIMARY PHONE NO SECONDARY PHONE NO TOUCHTONE DIALING USED DIALTONE WAIT PAUSE DIALTONE DETECTION DISABLE RING DETECTION USED PRIMARY ACKNOWLEDGE WAIT PRIMARY TRANSMISSION FORMAT 25 21 30 NOT USED 0 31 37 NOT USED 0 97 POLLING LOOP SHORT TROUBLE BY DAY ALARM BY NIGHT BURG 4 98 POLLING LOOP OPEN NOT USED 0 99 CONSOLE PANIC PANIC 5 1 LEFT 0 2 RIGHT 1 3 LEFT 0 4 RIGHT 1 S LEFT 0 6 RIGHT 1 7 NOT USED 0 8 LEFT 0 9 10 NOT USED 0 11 20 All NOT USED 0s 21 30 A11 NOT USED 0s 31 37 97 98 99 All NOT USED 0s 30 SECONDS 03 40 SECONDS 04 4 MINUTES 02 ALL NOT USED 00s NO 0 NO 0 SOUND UNTIL TIME OUT 0 TIMEOUT 0 Timeout is not allowed for any listed UL985 installation YES 1 NOT DISPLAYED 0 YES 1 YES 1 No 0 24 HR 1 SILENT 1 AUXILIARY 0 YES 1 YES 1 4152LM NOT USED 0 00 NONE FFFF NONE 0 NONE 0 NO 0 5 SECONDS 0 ENABLED 0 NO 0 30 SECONDS 0 ADEMCO LOW SPEED 0 0 15 15 15 15 51 52 54 55 56 57 58 60 61 62 63 64 SECONDARY ACKNOWLEDGE WAIT SECONDARY TRANSMISSION FORMAT 4 2 SENSOR REPORTING DIALER FORMAT ALARM REPORT TROUBLE REPORT BYPASS REPORT RESTORE REPORT LOW BATTERY REPORT OPEN CLOSE REPORT NON ALARM ROUTING BACK UP REPORTING ZONE ALARM REPORT CODES OTHER MESSAGE REPORTS 16 SEC DIALER ZONE 1 RESTORE ZONE
38. ES THE SYSTEM FOR USE OF THE 4152LMB LOOP MODULE ENTER O 4152LMB NOT USED OR 1 4152LMB USED FACTORY PROGRAM NOT USED IF 4153RD RING DETECTOR IS USED ENTER 0 ENTER 00 IF NOT REQUIRED ENTER NOTHING AND PROCEED TO NEXT ADDRESS ENTER UP TO 3 DIGITS 0 9 ONLY ENTER DIGITS REQUIRED DO NOT FILL UNUSED SPACES FACTORY PROGRAM NONE DISPLAYS SINGLE ZERO WHEN VIEWED SUBSCRIBER ACCT 30 No COMMENTS FOR USE OF 4 2 REPORTING FORMAT SEE ADDRESS NUMBERS 41 AND 60 PRIMARY PHONE No 31 COMMENTS SECONDARY PHONE 32 No COMMENTS TOUCH TONE 33 DIALING COMMENTS CAUTION ENTER 3 OR 4 DIGITS ONLY ENTER DIGITS REQUIRED EACH DIGIT REQUIRES A 2 DIGIT ENTRY SO AS TO ALLOW ENTRY OF HEXADECIMAL DIGITS A F FACTORY PROGRAM ALL F s IF 3 DIGIT ENTRY ENTER THE ADDRESS OF THE NEXT FIELD e g 31 AFTER THE THIRD DIGIT IS ENTERED IF 4 1 FORMAT IS USED A LEADING ZERO MUST BE USED FOR ACCOUNT NUMBERS BELOW 1000 USE THE FOLLOWING CHART TO DETERMINE THE ENTRY FOR EACH DIGIT NUMBER ENTER NUMBER ENTER 0 00 8 08 1 01 9 09 2 02 A DO NOT USE 3 03 B 11 4 04 C 12 5 05 D 13 6 06 E 14 7 07 F 15 ENTER UP TO 11 DIGITS 0 9 DO NOT FILL UNUSED SPACES ERASE THE FIELD BY ENTERING 31 FACTORY PROGRAM NONE DISPLAYS SINGLE ZERO WHEN VIEWED ENTER UP TO 11 DIGITS 0 9 DO NOT FILL UNUSED SPACES ERASE THE FIELD BY ENTERING 32 FACTORY PROGRAM NONE DISPLAYS SINGLE ZERO WHEN
39. HT causes an instantaneous audible alarm a latched display of the ID number of the sensor and a dialer report installer defined Either one alarm or multiple alarms per protection point per armed period is installer selectable as a systemwide selection Dialer RESTORE messages can be reported for alarms See address 85 in Programming Section DISARMED STATE A faulted sensor will result in a TROUBLE condition The console will beep rapidly and display the ID number of all faulted sensors The console TROUBLE LED will glow The first trouble can initiate a dialer TROUBLE report Subsequent TROUBLES prior to a TROUBLE RESTORE will not initiate 8 additional dialer reports When all TROUBLES have been removed a system TROUBLE RESTORE message can be reported Pressing any key silences the beeping A subsequent entry Code OFF clears the display ZONE TYPES 5 AND 6 24 HOUR ZONES Operational response is individually selectable for zones 5 and 6 from the below listed 24 hour modes SILENT A faulted sensor initiates a dialer report installer defined with no local display and no sounders activated Upon disarming there will not be a memory indication of the faulted sensor Faults in the disarmed state will result in the READY LED being extinguished Dialer reports are limited by the sounder duration programmed selection Only one dialer report will be issued per sounder duration defined period When using the 442 format alarm an
40. IRING THE POLLING AND CONTACT LOOPS Wiring the polling and contact loops first is the most efficient way to install a point protection system By following this method the installer not only establishes all circuits but also creates a programming plan For this reason the installer should keep a record of what zone is to be assigned to each protection point and how that protection point is to perform 10 The following should De considered when wiring the two types of loops POLLING LOOP twisted pair preferred CONTACT LOOPS MAXIMUM WIRE LENGTH GAUGE PER RUN LEFT LOOP 22 0 64 mm 0 D 650 200 High Current 22 gauge 0 64mm 0 D 20 0 81 mm O D 950 290 1200 feet 370m Refer to Diagram 3 18 1 0 mm 0 D 1500 460m under heading INSTRUCTIONS FOR LEFT 16 1 3 mm 0 D 2400 730m LOOP OPERATION for additional information If multiple wire runs are Low Current 22 gauge 200 extended from the control f 60m fast response 10 ms maximum total length 1200 370m slow response 400ms of wire that can be connected RIGHT LOOP 22 gauge 1200 370m to the polling loop is 4000 max LOW CURRENT use feet 1200m independent of reed contacts only how heavy a wire gauge is used 300 ms response When a 4152LMB Polling Loop Adapter is used to create a separate open ended loop an additional 4000 feet 1200m of polling loop wire can be run While the polling loop is being wired don
41. Intrusion detectors e g passive infrared detectors smoke detectors and many other sensing devices will not work without power Battery operated devices will not work without batteries with dead batteries or if the batteries are not put in properly Devices powered solely by AC will not work if their AC power supply is cut off for any reason however briefly A user may not be able to reach a panic or emergency button quickly enough While smoke detectors have played a key role in reducing residential fire deaths in the United States they may not activate or provide early warning for a variety of reasons in as many as 35 ot all fires according to data published by the Federal Emergency Management Agency Some of the reasons smoke detectors used in conjunction with this System may not work are as follows Smoke detectors may have been improperly installed and positioned Smoke detectors may not sense fires that start wnere smoke cannot reach the detectors such as in chimneys in walls or roofs or on the other side of closed doors Smoke detectors also may not sense a fire on another level of a residence or building A second floor detector for example may not sense a first floor or basement fire Moreover smoke detectors have sensing limitations No smoke detector can sense every kind of fire every time In general detectors may not always warn about fires caused by carelessness and safety hazards like smoking in bed violent explosions escap
42. LEDGE KISS OFF FREQUENCY ENTER O DISABLED OR 1 ENABLED FACTORY PROGRAM DISABLED IF PROGRAMMED FOR O CONTINUE ON TO PROGRAM ALL FIELDS UNTlI FIELD 60 THE DURESS REPORT USES THE SAME REPORT CODE AS THE KEYPAD PANIC SENSOR 99 WHEN THE POINT ID 4 2 REPORT FORMAT IS USED IF FIELD 41 4 2 TRANSMISSION FORMAT BY SENSOR IS ENABLED SET TO ONE FIELDS 42 THROUGH 47 ALWAYS YIELD EXPANDED FORMAT REGARDLESS OF THEIR SETTING IMPORTANT IF PROGRAMMED FOR 1 SKIP TO QUESTION 61 AND PROGRAM FIELDS 61 THRU 81 OTHERWISE CONTINUE THE REPORTS IN FIELDS 42 THROUGH 47 MAY BE DESIGNATED TO REPORT EITHER IN STANDARD OR EXPANDED FORMAT IN ALL CASES THE STANDARD MESSAGE REPORTS TO THE CENTRAL STATION A SUBSCRIBER ID NUMBER AND A REPORT e g ALARM see Address 42 TROUBLE RESTORE OPEN CLOSE CODE THE EXPANDED MESSAGE REPORTS A SUBSCRIBER ID NUMBER THE REPORT CODE FOLLOWED BY A SECOND LINE WHERE THE REPORT CODE IS REPEATED THREE OR FOUR TIMES when 341 or 4 1 formats are used AND IS TRAILED BY THE ZONE TYPE OR USER ID RELATED TO THAT REPORT Expanded TROUBLE and RESTORE reporting with channel numbers i e TROUBLE DUMMY for TROUBLE and ALARM code for RESTORE higher than 9 should not be used if 341 or 4 1 reporting formats are used and ADEMCO s No 685 Digital Receiver is the message monitoring receiver at the central station The 4 2 format should be used if numbers higher than 9 must be used Failure to heed this advisory
43. OFF OFF ON ON ig NOTE IF YOU USE HIGH CUR THE TRANSPONDER WILL OG OFF e 20 RENT FOR MECHANICAL AUTOMATICALLY ADD 1 TO OFF ON OF ON ON OFF 22 SWITCHES YOU MUST USE SET THE RIGHT LOOP o ON ON OFF Ot OFF encore re NOT Hs IF ONLY ONE LOOP IS USED OFF oN ON om on ON E USE THE LEFT LOOP ID 4 AND USE THE NEXT CON OFF ON ON ON on on SECUTIVE FOR THE N TRANSPONDER ON Ort OFF OFF OFF ON 39 ON OFF FF OFF ON OFF 34 ON OFF OFF OFF ON ON 35 ON OFF OFF ON OFF 36 ON OFF OFF ON OFF ON 37 Diagram 3 4190WH RPM SUMMARY OF CONNECTIONS 13 If using a fast acting sensor such as glass break or a vibration ADEMCO No 11 sensor cut tbe RED jumper to configure the RPM for 10 MSEC response As delivered the left loop is configured to be used with both parallel N O and series N C sensors loop is supervised against opens and shorts and an external End of Line Resistor either 4700 ohms small YELLOW VIOLET RED 1 4 watt size for high current mechanical switch operation or 30 000 ohms large ORANGE BLACK ORANGE 1 2 watt size for low current reed operation must be connected across the loop at the last furthest sensor The white jumper must be cut to use the 30 000 Ohm EOLR If this level of supervision is not desired and if only N C contacts will be used the requirement for using the external End of Line Resistor can be eliminsted by cutting the BLUE jumper When this is done
44. R 1 DELAY FOR DIAL TONE FACTORY PROGRAM DIAL TONE DETECTION 00 NO RING DETECTOR XX THE NUMBER OF RINGS BEFORE PICK UP ENTER 00 15 I SEE ADDRESSES 82 AND 83 4153RD MUST BE INSTALLED IF ENABLED IF RING DETECIOR IS ENABLED DO NOT USE SENSOR 7 IN ADDRESS 01 FACTORY PROGRAM NO RING DETECTOR 00 N PRIMARY ACK WAIT 37 PRIMARY TRANS 38 MISSION FORMAT SECONDARY ACK 39 WAIT SECONDARY TRANS 40 MISSION FORMAT 4 2 TRANS 41 MISSION FORMAT BY SENSOR COMMENTS COMMENTS COMMENTS COMMENTS COMMENTS 37 ENTER O 30 SECONDS OR 1 60 SECONDS s FACTORY PROGRAM 30 SECONDS CENTRAL STATION RECEIVER ACKNOWLEDGE WAIT TIME FOR PRIMARY PHONE NUMBER ENTER 0 ADEMCO OR 1 SESCOA RADIONICS FACTORY PROGRAM ADEMCO FOR PRIMARY PHONE NUMBER WHEN 4 2 FORMAT IS SELECTED see Address Number 41 60 THE SELECTION IN THIS FIELD DETERMINES THE PULSE TRANSMISSION RATE 10 pulses sec for Ademco and 20 pulses sec for SESCOA RADIONICS AND THE ACKNOWLEDGE KISS OFF FREQUENCY 1400 Hz for Ademco and 2300 Hz for SESCOA RADIONICS ENTER O 30 SECONDS OR A 1 60 SECONDS FACTORY PROGRAM 30 SECONDS FOR SECONDARY PHONE NUMBER ENTER O ADEMCO OR A 1 SESCOA RADIONICS FACTORY PROGRAM ADEMCO FOR SECONDARY PHONE NUMBER WHEN 4 2 FORMAT IS SELECTED SEE ADDRESS NUMBER 41 60 THE SELECTION IN THIS FIELD DETERMINES THE PULSE TRANSMISSION RATE 10 PULSES S
45. RY PROGRAM STANDARD WHEN EXPANDED A DUMMY CODE IS TRANSMITTED IN THE 4TH POSITION OF THE 2ND TRANSMISSION LINE OF THE FIRST TRANSMISSION LINE IF 4 2 FORMAT IS USED ZONE ID IS NOT TRANSMITTED DOES NOT APPLY TO 4 2 SENSOR FORMAT EXPRESS OR NORMAL ENTER O STANDARD OR 1 EXPANDED FACTORY PROGRAM STANDARD BYPASSING A CONTACT RESULTS IN A RESTORE REPORT WHEN ALL BYPASSES ARE REMOVED FIRE SENSORS CAN NOT BE BYPASSED WHEN EXPANDED A DUMMY CODE IS TRANSMITTED IN THE 4TH POSITION OF THE 2ND TRANSMISSION LINE OF THE FIRST TRANSMISSION LINE IF 4 2 FORMAT IS USED ZONE ID IS NOT TRANSMITTED DOES NOT APPLY TO 4 2 SENSOR FORMAT EXPRESS OR NORMAL ENTER O STANDARD OR 1 EXPANDED FACTORY PROGRAM EXPANDED WHEN A POINT OF PROTECTION ALARM BYPASS OR TROUBLE REPORT IS TRANS MITTED A RESTORE REPORT FOR ANY OF THOSE CONDITIONS IS NOT ISSUED UNLESS ALL LIKE CONDITIONS WITHIN A ZONE ARE RESTORED WHEN EXPANDED THE ALARM CODE IS TRANSMITTED IN THE LAST POSITION OF THE 2ND TRANSMISSION LINE OF THE 1ST TRANSMISSION LINE IF 4 2 FORMAT IS USED TN LOW BATTERY 46 REPORT OPEN CLOSE REPORT 47 NON ALARM ROUTING 48 BACKUP REPORTING 49 COMMENTS COMMENTS COMMENTS COMMENTS 41 DOES NOT APPLY TO 442 SENSOR FORMAT EXPRESS OR NORMAL RESTORE REPORTS FOR EACH ZONE TYPE ALARM ARE INDIVIDUALLY SELECTABLE SEE ADDRESS NUMBERS 53 THROUGH 59 ENTER O STANDARD OR 1 EXPANDED WHEN E
46. TEST REPORTS ENTER O 12 HRS OR 1 24 HRS MUST BE PROGRAMMED IN CONJUNCTION WITH DATA FIELD 21 EVEN IF TEST REPORTING IS NOT USED THE TIME SETTING ESTABLISHES HOW OFTEN THE BATTERY IS TESTED UNDER LOAD WITH AC AUTOMATICALLY DISCONNECTED FACTORY PROGRAM 24 HRS NOT RELEVANT WHEN 21 0 DETERMINES THE TYPE OF 24 HOUR PROTECTION PROVIDED BY SENSORS ASSIGNED TO THIS ZONE ENTER O 24 HR AUXILIARY 1 24 HR SILENT OR 2 24 HR AUDIBLE FACTORY PROGRAM SILENT DETERMINES THE TYPE OF 24 HOUR PROTECTION PROVIDED BY SENSORS ASSIGNED TO THIS ZONE ENTER O 24 HR AUXILIARY 1 24 HR SILENT OR 2 24 HR AUDIBLE FACTORY PROGRAM AUXILIARY POWER UP IN PREVIOUS STATE LOOP MODULE NOT USED PABX ACCESS CODE 25 26 27 28 29 COMMENTS COMMENTS COMMENTS COMMENTS COMMENTS 34 IF SELECTED ON POWER UP SYSTEM WILL ASSUME SYSTEM STATUS PRIOR TO POWER DOWN IF NOT SELECTED IT WILL POWER UP DISARMED ENTER 0 NO OR 1 YES WHEN THE SYSTEM POWERS UP ARMED AN ALARM WILL BE CAUSED 1 MINUTE AFTER ARMING IF CONTACTS ARE FAULTED FACTORY PROGRAM YES THIS FEATURE WORKS PROPERLY ONLY WHEN BATTERY IS CONNECTED ENABLES ARMING OF THE BURGLARY SYSTEM IN ANY MODE WITHOUT USE OF A SECURITY CODE JUST KEY DEPRESSION FOLLOWED BY THE COMMAND AWAY STAY INSTANT OR 4 MAXIMUM ENTER O DISABLED OR 1 ENABLED FACTORY PROGRAM ENABLED THIS SELECTION PREPAR
47. TION A MAXIMUM OF 60 SECONDS MAY BE USED FOR EXIT DELAY IN A LISTED UL609 COMMERCIAL BURGLARY INSTALLATION A MAXIMUM OF 60 SECONDS MAY BE USED FACTORY PROGRAM 40 SECS IN A UL609 GRADE A INSTALLATION A MINIMUM OF 16 MIN MUST BE USED FOR SOUNDER DURATION DEFINES THE LENGTH OF TIME A LOCAL EXTERNAL OR INTERNAL ALARM SOUNDER WILL SOUND ON ALL ZONES PROGRAM DATA FIELD 16 TO ASSURE NO TIME OUT FOR FIRE ZONE ALARMS ENTER 00 15 MULTIPLY BY 2 MINUTES TO DETERMINE SOUNDER DURATION IN A LISTED UL1023 985 HOUSEHOLD BURGLARY FIRE INSTALLATION A MINIMUM OF 4 MINUTES SHOULD BE USED FOR THE ALARM SOUNDER DURATION FACTORY PROGRAM 4 MINS CONFIRMATION OF 13 ARMING DING ENABLE AC LOSS SOUNDING 14 LATCHED CONSOLE 15 SOUNDING FOR BURGLARY NO FIRE TIME OUT 16 COMMENTS COMMENTS COMMENTS COMMENTS 31 UP TO FIVE SENSORS E G 4196 PIRS IN THE ADDRESS RANGE OF 01 15 CAN BE ASSIGNED TO RECEIVE FALSE ALARM PROTECTION SIGNAL PROCESSING VIA PULSE COUNT LOGIC IF LESS THAN FIVE SENSORS UTILIZE PULSE COUNT THE UNUSED LOCATIONS MUST BE FILLED WITH OO THE PULSE COUNT LOGIC SHOULD NOT BE ENABLED FOR 4275s OR FOR SENSORS PROVIDING CORRIDOR HALLWAY COVERAGE USING LONG RANGE OPTICS OR FOR WIDE AREA COVERAGE SENSORS COVERING A DOORWAY WITH ONLY 1 OR 2 BEAMS PULSE COUNT HAS NOT BEEN TESTED FOR USE IN A UL609 COMMERCIAL INSTALLATION FACTORY PROGRAM ALL 005 STORED NO PULSE COUNT ALL SENSORS
48. TOELECTRIC SMOKE DETECTOR W BUILT IN 135 F 57 C HEAT DETECTOR T PHYSICAL BASE DIA 5 0 127mm COVER HGT 3 76mm COVER DIA 3 15 80mm ELECTRICAL VOLTAGE INPUT 7 11VDC CURRENT DRAIN Less than 320 uA standby 320 400 uA Active 4192CP IONIZATION DETECTOR PHYSICAL BASE DIA 5 0 127mm COVER HGT 3 76mm COVER DIA 3 15 80mm ELECTRICAL VOLTAGE INPUT 7 11VDC CURRENT DRAIN Less than 320 uA standby 320 400 uA Active 4196 PASSIVE INFRARED DETECTOR RPM PHYSICAL H 4 1 4 108mm W 3 1 4 82 6mm D 2 1 8 54mm ELECTRICAL VOLTAGE INPUT 8 11V CURRENT DRAIN 0 8 mA OPERATING 1 mA ALARM 4197 LINE EXTENDER MODULE PHYSICAL H 5 127mm W 3 94 100mm D 1 25 32mm C ELECTRICAL VOLTAGE INPUT 12VDC CURRENT DRAIN 80 mA 4208 8 POINT RPM Cover included PHYSICAL H 7 178mm W 3 7 8 98mm D 1 3 8 35mm ELECTRICAL VOLTAGE INPUT 8 11V CURRENT DRAIN 16 mA 4275 PIR TRANSPONDER PHYSICAL H 3 7 94mm W 3 76mm D 1 5 38mm ELECTRICAL VOLTAGE INPUT B 11V CURRENT DRAIN Less than 1 mA LED inactive 6 mA LED Active 4194WH SURFACE MOUNT REED CONTACT TRANSPONDER PHYSICAL L 4 25 108mm W 625 16mm H 75 19mm ELECTRICAL VOLTAGE INPUT 8 11V CURRENT DRAIN 0 5 mA GAP 75 19mm 58 No 4139WH GY BR SURFACE MOUNT REED CONTACT TRANSPONDER 1 PHYSICAL 56 14mm W 50 13mm L 1 5 64mm 2 ELECTRICAL VOLTAGE INPUT 8 11V CURRENT DRAIN 0 5 mA 3 GAP 875 22m
49. USED NONE 00 NOT VIEWABLE No 0 NO 0 NO 0 NO 0 DO NOT PROGRAM NO 0 PRESSING 90 RESETS ALL SELECTIONS TO THE ORIGINAL FACTORY SETTINGS DO NOT PROGRAM DO NOT PROGRAM 93 NOT USED DO NOT PROGRAM 94 NOT USED DO NOT PROGRAM 95 CONDITIONAL OPENING REPORT NO 0 96 4 1 4 2 EXPRESS FORMAT FOR ZONE OR SENSOR REPORTING NO 0 SPECIFIC ADDRESS PROGRAMMING INSTRUCTIONS FUNCTION ADDRESS MASTER SECURITY 00 CODE ASSIGN ZONE ALARM 01 RESPONSE TO SENSORS 02 03 04 COMMENTS T COMMENTS ENTER 4 DIGITS 0 9 entry of all 4 is mandatory USING A 9 IN THE LAST POSITION INHIBITS THE AMBUSH FEATURE FACTORY PROGRAM 4153 J 2 3 4 5 6 7 B 9 10 SENSORS 1 10 11 12 15 14 15 16 17 18 19 20 SENSORS 11 20 SENSORS 21 30 21 32 33 34 35 36 37 97 98 99 SENSORS 31 37 and 97 98 99 ALL BOXES MUST BE FILLED WITH 0 7 ENTER O IN BOXES REFERRING TO SENSORS NOT USED ENTER FOR SENSOR 7 IF REMOTE PROGRAMMING CONTROL DOWNLOADING IS USED THIS SENSOR CAN T BE USED WHEN THE RING DETECTOR IS ENABLED FIELD 36 THE FIRST 37 BOXES REPRESENT PROTECTION POINTS ASSIGN ZONE TYPES TO EACH POINT FACTORY PROGRAM 21 2 22 3 23 4 24 5 Z5 6 Z6 NOT USED 8 Z7 9 37 NOT USED 97 Z4 98 NOT USED 99 Z5 INe ASSIGN ZONES FROM THE FOLLOWING TABLE ASSIGN FOR UNUSED POINTS ENTRY EXIT BURG PERIMETER BURG INTERIOR W DELAY BURG TROUBLE BY DAY ALARM
50. VIEWED O TOUCH TONE NOT USED 1 TOUCHTONE DIALING ENABLED FACTORY PROGRAM NOT USED 0 SOME TELEPHONE LINES THAT WERE ACCEPTING PULSE ROTARY DIALING AND TOUCH TONE DIALING ARE BEING OR WILL BE RESTRICTED TO PULSE DIALING IF THE SUBSCRIBER IS NOT PAYING FOR TOUCH TONE SERVICE COMMUNICATORS THAT ARE SET TO USE TOUCH TONE DIALING MAY CEASE TO BE ABLE TO 35 DIAL PAUSE 34 DIAL TONE DETECTION 35 RING DETECTOR 36 COMMENTS COMMENTS COMMENTS PLACE THEIR CALLS IF THEY HAPPEN TO BE ON ONE OF THESE LINES DO NOT SELECT A DIALING METHOD THAT IS NOT LEGALLY PERMITTED BY THE TELEPHONE COMPANY FOR THE SUBSCRIBER 36 WHETHER OR NOT TOUCH TONE DIALING FOR CALL PLACEMENT IS PERMITTED COMMUNICATION BY THE USE OF TOUCH TONE DTMF SIGNALLING USING THE ADEMCO EXPRESS FORMAT CAN BE PERFORMED ONCE THE CONNECTION IS MADE ENTER DIGITS 0 2 FACTORY PROGRAM 5 SECONDS THIS FEATURE DETERMINES THE WAIT TIME FOR DIAL TONE DETECTION BEFORE DIALING WILL COMMENCE IF DETECTION DOESN T TAKE PLACE MAKE SELECTION FROM THE FOLLOWING VALUES 0 1 5 SECONDS 2 30 SECONDS 11 SECONDS DETERMINES WHETHER TRUE DIAL TONE DETECIION IS USED OR WHETHER JUST DELAY BEFORE DIALING SAME DELAY AS PROGRAMMED IN FIELD 34 IS USED THE LATTER MAY BE NECESSARY IN HIGH NOISE ENVIRONMENT TELCO NETWORKS WHERE NOISE CAN BE CONFUSED WITH DIAL TONE AND PREMATURE DIALING RESULTS ENTER 0 DIAL TONE DETECTION O
51. XPANDED A DUMMY CODE IS TRANSMITTED IN THE 4TH POSITION OF THE 2ND TRANSMISSION LINE OF THE FIRST TRANSMISSION LINE IF 4 2 FORMAT IS USED FACIORY PROGRAM STANDARD 0 DOES NOT APPLY TO 442 SENSOR FORMAT EXPRESS OR NORMAL ENTER O STANDARD OR 1 EXPANDED FACTORY PROGRAM EXPANDED WHEN EXPANDED USER ID 1 8 IS TRANSMITTED IN THE LAST POSITION OF THE 2ND TRANSMISSION LINE OR OF THE 1ST TRANSMISSION LINE IF 4 2 FORMAT IS USED DOES NOT APPLY TO 4 2 SENSOR FORMAT EXPRESS OR NORMAL ENTER 0 PRIMARY PHONE NO OR 1 SECONDARY PHONE NO FACTORY PROGRAM PRIMARY PHONE NO THIS DOES NOT APPLY TO 4 2 FORMAT SENSOR ID REPORTING ALL REPORTS ARE ROUTED TO THE PRIMARY TELEPHONE NUMBER ENTER 0 PRIMARY PHONE NO REPORT ONLY OR 1 REPORT ALL PRIMARY PHONE NUMBER REPORTS TO SECONDARY NO IF PRIMARY NO CAN T BE REACHED FACTORY PROGRAM PRIMARY NO ONLY THIS DOES NOT APPLY TO 4 2 FORMAT SENSOR ID REPORTING WHEN THIS FORMAT IS USED BACKUP REPORTING IS STANDARD AFTER MAKING 8 UNSUCCESSFUL ATTEMPTS TO OONTACT THE PRIMARY NUMBER VECTOR WILL MAKE 8 ATTEMPTS TO CONTACT THE SECONDARY NUMBER ZONES 1 8 ALARM REPORT CODE OTBER MESSAGE REPORTS 50 51 IMPORTANT IF NO SECONDARY NUMBER IS USED MAKE CERTAIN THE PRIMARY TELEPHONE NUMBER IS ENTERED BOTH IN FIELDS 31 AND 32 ZONE ZONE ZONE ZONE 1 E E BURG COMMENTS 2 PER BURG ZONE 3 INT BURG ENTER ALL 4 D N BURG CODES AS
52. and replacing a wire from the RPM Check the entry delay As each point is faulted the corresponding ID number will appear on the console display If the TAMPER option was selected remove and replace the RPM covers The corresponding ID numbers will appear on the console display With the external sounder connected enter the SECURITY CODE and TEST to test the battery and external sounders Show the user how to perform all functions Notify central station of all tests and verify results VIII SERVICE RECALLING ALARM AND TROUBLE MESSAGES The system will recall ten day s worth of ALARM and TROUBLE messages for to service personnel with the following Procedure ENTER SECURITY CODE 0 55 The memory will retain alarm and trouble reports ten days from the last alarm or trouble event pinpointing their specific sensor location If no subsequent events occur then all previous events are automatically removed from memory If new events occur within tbe ten day period then all events are retained and the ten day cycle starts again After displaying all alarm and trouble reports the memory is erased when this mode is exited by entering CODE OFF This feature does not provide information concerning time of occurrence or sequence of occurrence It simply indicates that an alarm or trouble occurred on a particular point during the period WARNING If the system is armed and the user exits through various inte
53. d restore reports are sent as they occur See address 85 in Programming Section AUDIBLE A faulted sensor initiates an audible alarm a latched display of the ID number of the sensor and a dialer report installer defined Either one alarm or multiple alarms per protection point until system is next disarmed armed is installer selectable as a systemwide selection Dialer RESTORE messages can be reported AUXILIARY Faulted contacts initiate a steady sounding at the console a latched display of the ID number of the sensor and a dialer report installer defined Either one alarm or multiple alarms per protection point until system is next disarmed armed is installer selectable as a systemwide selection Dialer RESTORE messages can be reported See address 85 in Programming Section ZONE TYPE 7 FIRE ZONE Alarms shorted thermostats or pull stations or activated smoke detectors initiate a pulsed sounder alarm for a time duration defined by the installer Concurrent fire alarms burglary alarms and troubles are alternately displayed but the sounder will always give priority to fire alarms Fire alarms are displayed when field 17 is enabled Fire zone protection points may not be bypassed An open fire zone circuit TROUBLE WILL NOT prevent the arming of the burglary system A shorted sensor ALARM WILL prevent system arming Either one alarm or multiple alarms per protection point until system is next disarmed armed is ins
54. e a No 620 Direct Connect cord 9 Handset 10 Incoming Line Tip BROWN Tip GREEN 11 Inccming Line 12 Handset Ring RED Ring GRAY DIALER ACTIVE output optional usage to light a remote LED goes low when active Console connections When using multiple consoles each console should be connected to these control terminals NOT DAISY CHAINED HOME RUN TO EACH CONSOLE 14 16 Power RED 15 Data IN GREEN 17 Data OUT YELLOW Ground BLACK HH u HI 17 Note Regarding UL Installations 1 Sounding devices must be listed per UL 464 and have a marked rating of 85 decibels or more 2 UL 609 Installations Sounding device must be listed Burglary Alarm Sounding Device For Use In Listed Housing and the bell must be listed Grade A 3 Maximum bell output power is 12V at 1 5A Refer to the following wire length max gauge min information when mounting the console away from the control 18 19 20 699 INTERFACE PLUG VOLTAGE TRIGGER INTERFACE TB2 1 2 panel DISTANCE GAUGE Up to 220 70m 22 0 64mm O D 350 110m 20 0 81mm 0 D 550 170m 18 1 02mmm 0 D Ground Start Output to No 675 Ground Start Module Not Used EARTH GROUND connection This connection is essential for protection against electrical transients Direct connection to the No 699 PROGRAMMER for control communicator programming This male socket used is in conjunction with a c
55. e maintenance This alarm system should be tested weekly to make sure all sensors are working properly Installing an alarm system may make one eligible for lower insurance rates but an alarm system is not a substitute for insurance Homeowners property owners and renters should continue to act prudently in protecting themselves and continue to insure their lives and property We continue to develop new and improved protection devices Users of alarm systems owe it to themselves and their loved ones to learn about these developments 61 ADEMCO LIMITED WARRANTY Alarm Device Manufacturing Company a Division of Pittway Corporation and its divisions subsidiaries and affiliates Seller 165 Eileen Way Syosset New York 11791 warrants its products to be in conformance with its own plans and specifications and to be free trom defects in materials and workmanship under normal use and service for 18 months from the date stamp control on the product or for products not having an Ademco date stamp for 12 months from date of original purchase unless the installation instructions or catalog sets forth a shorter period in which case the Shorter period shall apply Seller s obligation shall be limited to repairing or replacing at its option free of charge for materials or labor any part which is proved not in compliance with Seller s specifications or proves defective in materials or workmanship under normal use and service Seller shall have
56. eration including false alarms COMMENTS ALL BOXES MUST BE FILLED WITH 0 OR 1 1 if that sensor number is a right loop 0 otherwise When using a No 4208 all 8 LOOPS associated with the 4208 MUST BE DESIGNATED AS ZERO WHEN USING A No 4139WH 4191WH 4194WH RPM 4192 SERIES SMOKE DETECTOR OR A 4275 PIR IT MUST BE DESIGNATED AS A LEFT LOOP 0 LABEL ALL SENSORS AS THEY APPEAR ON THE POLLING LOOP EXAMPLE IF THE FIRST RPM USES BOTH LOOPS THEN THE FIRST TWO BOXES SHOULD BE LABELED O AND 1 IN EACH CASE LEFT LOOP MUST 29 ENTRY DELAY EXIT DELAY SOUNDER DURATION 09 10 11 COMMENTS COMMENTS COMMENTS 30 BE USED A RIGHT LOOP CANNOT BE USED ALONE IT CAN ONLY BE USED IN CONJUNCTION WITH A LEFT LOOP FACTORY PROGRAM 2 4 6 RIGHT 1 1 3 5 7 8 37 97 98 99 SET TO ZERO 0 DEFINES THE TIME PERIOD BETWEEN A ZONE 1 FAULT AND THE TIME WHEN THE ALARM IS SOUNDED ENTER 00 15 MULTIPLY BY 10 SECONDS TO DETERMINE TIME DELAY IN A LISTED UL 1023 HOUSEHOLD BURGLARY INSTALLATION A MAXIMUM OF 40 SECONDS MAY BE USED FOR AN ENTRY DELAY IN A LISTED UL609 COMMERCIAL BURGLARY INSTALLATION A MAXIMUM OF 60 SECONDS MAY BE USED FACTORY PROGRAM 30 SECS DEFINES THE TIME PERIOD AFTER THE SYSTEM ARMING CODE IS KEYED WHEN SENSORS ASSIGNED TO ZONES 1 AND 3 ARE ARMED ENTER 00 15 MULTIPLY BY 10 SECONDS TO DETERMINE TIME DELAY IN A LISTED UL 1023 HOUSEHOLD BURGLARY INSTALLA
57. he cost of giving up remote control programming The No 4197 LINE EXTENDER MODULE doubles the length of the polling loop and is used to solve installation problems where polling loop communication is weak The No 4153 CONTROL COMMUNICATOR communication format is program selectable The installer may select from a 341 or 4 1 zone type reporting format 3 or 4 digit account number and a 1 digit event code or from a 4 2 format 4 digit account number and a 2 digit event code The 4 2 format may be programmed to report either by sensor or by zone type NOTE The No 4153 is part of the VECTOR 3000 Digital Point Annunciation Alarm Control System described in the System s User s Manual III PRINCIPLE OF OPERATION The No 4153 C COM is connected to as many as 37 protection points through RPMs which are connected by a single pair of wires The control constantly polls and receives a response from each RPM regarding its status Each contact motion detector RPM can monitor two separate points of protection identify them uniquely and report on their status The control will then take the appropriate action if any by displaying or sounding messages at the console by sounding external sounders or by sending messages to the central station by phone line or when equipped to do so by other means for example long range radio derived channel etc Each of the 37 protection points can be assigned to a reporting zone up to 7 can be used used by a bui
58. ide visible and audible system indications Up to 4 consoles can be supported as many as 6 if supplemental 12 volt power is supplied to operate these additional consoles No 4190WH DUAL POINT REMOTE POINT MODULE RPM This device permits the interface of any dry contact sensor for example magnetic contacts foil vibration sensors motion detectors smoke detectors etc and provides the identification and status of the protection points to the No 4153 C COM Each RPM supports two sensor loops referred to as a left loop and a right loop The left loop can support N O and N C contacts and the right loop supports N C contacts A trouble or a fault detected by the RPM will be indicated at the console along with the location of the alarm When smoke detectors motion detectors or other devices requiring power are used that are not matched components from the Vector series 2 additional wires must be run to power these devices No 4208 8 POINT REMOTE POINT MODULE RPM The No 4208 performs similarly to the No 4190 except that it interfaces 8 end of line resistor supervised protective loops to the control Communication path and power requirements are provided by the polling loop When smoke detectors motion detectors or other devices not of the Vector family are used then separate power lines must be used No 4192 SERIES OF SMOKE DETECTOR REMOTE POINT MODULES These smoke detectors 4192CP ionization 4192SD photoelectric
59. ing gas improper storage of flammable materials overloaded electrical circuits children playing with matches or arson Depending on the nature of the fire and or the location of the smoke detectors the detector even if it operates as anticipated may not provide sufficient warning to allow all occupants to escape in time to prevent injury or death Alarm warning devices such as sirens bells or horns may not alert people or wake up sleepers if they are located on the other side of closed or partly open doors If warning devices are located on a different level of the residence from the bedrooms then they are less likely to waken or alert people inside bedrooms Even persons who are awake may not hear the warning if the alarm is muffled by noise from a stereo radio air conditioner or other appliances or by passing traffic Finally alarm warning devices however loud may not warn hearing impaired people or waken deep sleepers Telephone lines needed to transmit alarm signals from a premises to a central monitoring station may be out of service or temporarily out of service Telephone lines are also subject to compromise by sophisticated intruders This equipment like other electrical devices is subject to component failure Even though this equipment is designed to last as long as 10 years the electronic components could fail at any time The most common cause of an alarm system not functioning when an intrusion or fire occurs is inadequat
60. lt in communicator Alternatively each protection point can transmit its own unique reporting code via the built in communicator IV REMOTE PROGRAMMING AND CONTROL The No 4153 allows the insteller to call it using switched network phone lines so that the control communicator can be remotely programmed and or commanded from a No 699 Intelligent Programmer or an IBM compatible Personal Computer PC It is also possible to initiate remote access when the system is disarmed and no reports are being communicated by key entry at a console in the protected premises master code 1 useful when the system is connected to a telephone line inside a PABX that uses operators See Note 4 under Remote Capabilities in this section Accessing of the No 4153 from a remote location is protected against compromise by someone attempting to defeat the system using 3 levels of security protection 1 Security Code Handshake An 8 digit Central Station ID code must be matched betveen the No 4153 and the Central Station 2 Hang up and call back Calling the No 4153 does not directly allow programming as a successful handshake merely results in the No 4153 breaking the phone line connection and then calling back the internally Stored central station service phone number NOTE In situations where a service person is on site and the system is installed inside a PABX it is possible to initiate a download from the protected premises
61. m No 4191WH RECESS MOUNT REED CONTACI TRANSPONDER 1 PHYSICAL DIAMETER 50 13mm LENGTH 2 51mm TO THE INSTALLER Regular maintenance and inspection at least annually by the installer and frequent testing by the user are vital to continuous satisfactory operation of any alarm system The installer should assume the responsibility of developing and offering a regular maintenance program to the user as well as acquainting the user with the proper operation and limitations of the alarm system and its component parts Recommendations must be included for a specific program of frequent testing peration at all times 59 FEDERAL COMMUNICATIONS COMMISSION FCC STATEMENT This equipment has been tested to FCC requirements and has been found acceptable for use The FCC requires the following statement for your information This equipment generates and uses radio frequency energy and if not installed and used properly that is in strict accordance with the manufacturer s instructions may cause interference to radio and television reception It has been type tested and found to comply with the limits for a Class B computing device in accordance with the specifications in Subpart J of Part 15 of FCC Rules which are designed to provide reasonable protection against such interference in a residential installation However there is no guarantee that interference will not occur in a particular installation If this equipment does cause i
62. n consecutive hexadecimal groups Restores cannot be so treated if we desire to reserve B and C for openings and closing just to get English language printout of open close on the 685 s printer The latter arrangement will make it easier for non automated central station personnel to interpret the information An example of such an arrangement is given below his example is equally relevant for users of the Ademco MAS Automation System 47 E vr a fee Ne a zzz gt gt gt N _ 1 2 3 4 13 43 N A D3 FIRE 5 14 44 N A D4 6 15 45 N A D5 7 1 16 1 46 03 N A pe 1 8 17 47 N A D7 9 18 48 98 D8 10 19 49 99 D9 11 18 9B DB PANIC 12 1 9 pc 13 1D 4D 9D DD 14 1E 4E 9E DE 2 15 1 9F DF 2 16 1F pF 17 28 58 gg 18 21 51 1 1 19 22 52 g2 E2 20 23 53 93 E3 21 24 54 E4 22 25 55 5 ES 23 26 56 06 E6 24 27 57 g7 E7 25 28 58 s E8 26 29 59 g9 E9 27 25 5B B EE 28 2C 5 gc EC BURGLARY 29 2D 5D gD ED 30 2E 5E GE EE 2 31 2F 5F F EF 2 32 2F 5F OF EF 33 30 60 80 F 34 31 61 81 71 35 32 62 82 149 36 33 63 83 73 37 34 64 84 74 97 35 65 85 75 98 36 66 86 76 99 3 e 67 87 77 NOTES 1 Only used if downloading is not used 2 Either two sensors shouldn t be used 16 and 32 or they must have their reporting duplicated such as with sensors 15 and 31 respectively ALARM CODES 61 1st Digit SENSORS 1 8 The first digi
63. nterterence to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to correct the interterence by one or more of the following measures If using an indoor antenna have a quality outdoor antenna installed e Reorient the receiving antenna until interference is reduced or eliminated Move the receiver away from the control communicator e Plug the control communicator into a different outlet so that it and the receiver are on different branch circuits Move the antenna leads away from any wire runs for control communicator If necessary the user should consult the dealer or an experienced radio television technician for additional suggestions The user may find the following booklet prepared by the Federal Communications Commission helpful interference Handbook This booklet is available from the U S Government Printing Office Washington DC 20402 Stock No 004 000 00450 7 60 WARNING THE LIMITATIONS OF THIS ALARM SYSTEM While this system is an advanced design security system it does not offer guaranteed protection against burglary or fire or other emergency Any alarm system whether commercial or residential is subject to compromise or failure to warn for a variety of reasons For example intruders may gain access through unprotected openings or have the technical sophistication to bypass an alarm sensor or disconnect an alarm warning device e
64. oduct to quickly and easily set up a system for bench test so that familiarity can be achieved with the product and with some of the new aspects of operating a multi plexed polling loop system An installer can set up four dual point RPMs spanning a variety of all possible alarm responses available from the systen The preset values are defined below ADDRESS FUNCTION FACTORY PROGRAMMED VALUE 00 MASTER SECURITY CODE 4153 01 SENSOR ZONE ALARM RESPONSE 1 ENTRY EXIT BURGLARY 1 AS SIGNMENT 2 PERIMETER BURGLARY 2 3 INTERIOR BURGLARY 3 4 TROUBLE BY DAY ALARM BY NIGHT BURGLARY 4 5 24 HR SILENT PANIC 5 6 24 HR AUXILIARY 6 7 NOT USED 8 FIRE 7 9 10 NOT USED 0 02 SENSOR ZONE ALARM RESPONSE 11 20 NOT USED 0 AS SIGNMENT 24 03 04 05 SENSOR ZONE ALARM RESPONSE ASSIGNMENT SENSOR ZONE ALARM RESPONSE ASSIGNMENT SENSOR RIGHT LOOP ASSIGNMENT SENSOR LEFT LOOP RIGHT LOOP ASSIGNMENT SENSOR LEFT LOOP RIGHT LOOP ASSIGNMENT SENSOR LEFT LOOP RIGHT LOOP ASSIGNMENT ENTRY DELAY EXIT DELAY SOUNDER DURATION SENSORS ASSIGNED PULSE COUNT CONFIRMATION OF ARMING DING ENABLE AC LOSS SOUNDING LATCHED CONSOLE SOUNDER NO FIRE TIME OUT NOTE FIRE INDICATION BYPASS INDICATION MULTIPLE ALARMS PER SENSOR DISABLE TAMPER TEST REPORT ENABLE TEST REPORT INTERVAL ZONE 5 RESPONSE ZONE 6 RESPONSE POWER UP IN PREVIOUS ST QUICK ARM LOOP MODULE ENABLE NOT USED PABX ACCESS CODE SUBSCRIB
65. onnector supplied used for direct connection to other UL listed output media for example No 7620 Long Range Radio Transmitter No 698 Derived Channel Subscriber Terminal Unit etc The following list describes all the flying leads and their function Voltage levels are activated at 4 5V and are low at 1 2 volt YELLOW wire for OPENING CLOSING Low voltage equals disarmed and HI voltage equals armed RED Wire High voltage equals burglary Zones 1 2 3 4 activated GREEN Wire High voltage equals Fire Zone 7 activated WHITE Wire High voltage equals Emergency Zone 5 or Zone 8 Duress activated Deactivated by CODE OFF sequence BLACK Wire Ground Note Signal polarity can be reversed i e Low Activated under program control for supervised voltage triggers WIRING THE 4153RD RING DETECTOR Only if remote command or programming via telco lines is to be used Connect TB 2 Terminal 1 to TB 1 Terminal 10 Connect TB 2 Terminal 2 to TB 1 Terminal 11 18 WIRING THE OPTIONAL 4152LMB LOOP MODULE 1 2 Connections to the polling loop This polling loop may be 2 another wiring run or it may be used as a return for the main loop providing a Class A loop that is immune to a single open circuit NOTE Adding the Loop Module does not increase the number of contact loops supported by the system beyond 37 NOTE Either of the above cited modules can be used in a particular installation not both
66. ors 17 24 alarm trouble bypass and restore reports The first digits of the 2 digit event codes used to report alarm trouble bypass and restore for sensors 25 32 49 SENSOR ID CODES 2nd digit Sensors 25 32 ALARM CODE TROUBLE CODE BYPASS CODE RESTORE CODE 1st digit Sensors 33 37 97 98 99 SENSOR ID CODES 2nd digit Sensors 33 37 97 98 99 OPEN REPORT 1st digit OPEN REPORT 2nd digit CLOSE REPORT 1st digit CLOSE REPORT 2nd digit 69 70 71 72 73 74 75 io i0 U ww WWUNNNNN 0 c4 0 QO O O O O GO HE H The second digit of the 2 digit event code used for each of sensors 25 32 alarm trouble bypass and restore reports The first digits of the 2 digit event codes used to report alarm trouble bypass and restore for sensors 33 37 97 98 99 The second digit of the 2 digit event code used for each of sensors 33 37 97 98 99 alarm trouble bypass and restore reports Sensor 98 reporting is irrelevant unless a 4152LMB Class A Polling Loop Module is used A polling loop open circuit cannot be detected otherwise The way to deal with this non event is to assign it the Same code as another event ex 97 polling loop short In order to disable the open report both Fields 72 and 73 must be programmed as 9g Must be a B hex 11 if English language printout of open is desired on 685 Receiver I
67. ous audible alarm a latched display of the sensor ID number on the console and a dialer report installer defined Either one alarm or multiple alarms per protection point per armed period is installer selectable as a Systemwide selection Dialer RESTORE messages can be reported See address 85 in Programming Section DISARMED STATE A faulted sensor results in the READY LED being extinguished Depressing the READY key causes the display of the ID number of all faulted sensors No dialer communication is initiated ZONE TYPE 3 INTERIOR FOLLOWER DELAY ARMED STATE All sensors assigned to the interior zone have exit delay These sensors have entry delay when a zone type 1 Entry Exit fault precedes this fault Otherwise any zone type 3 fault produces an immediate audible alarm a latched display and a dialer report installer defined Either one alarm or multiple alarms per protection point per armed period is installer selectable as a systemwide selection Dialer RESTORE messages can be reported for alarms Interior sensors may all be directly bypassed by use of the STAY arming feature See address 85 ir Frogremming Section DISARMED STATE A faulted sensor results in the READY LED being extinguished Depressing the READY key causes the display of the ID numbers of all faulted sensors No dialer communication is initiated ZONE TYPE 4 TROUBLE BY DAY ALARM BY NIGHT ARMED STATE A faulted sensor that has been designated as DAY NIG
68. p 4190WH will always result in a Trouble signal whether tamper is program enabled or not SUPERVISION Refers to non responding RPMs when there are no breaks in the polling loop However RPMs situated between multiple breaks in a Class polling loop or RPMs beyond a single break in an open ended polling loop will appear as supervision faults SUPERVISION FAULT will always result in a trouble signal if it occurs when the System is not armed and will display the ID number of the left loop If the system is armed and a supervision fault occurs when the left loop is utilized for burglary protection zones 1 4 a burglary alarm will result If the left loop is used for fire panic or auxiliary a supervision fault will result in a trouble signal even though the right loop is used for burglary detection and the system is armed VII INSTALLATION Installing a point protection system involves wiring the polling and sensor loops preparing and mounting the RPMs and programming mounting and wiring the control It is important that the installer completely read this section before attempting any of the installation procedures NOTE The following installation procedures involve the No 4190WH RPM only Please refer to the instructions included with the No 4208 for information regarding those products Both products will perform a similar function to that of the No 4190 and mey be more appropriate for portions or all of your installation W
69. quently inhibited if the programming mode is exited via use of 98 instead of 99 23 1 method of entry can always be used EXIT PROGRAMMING MODE 99 allows reentry to programming mode via Type 2 and 3 entry methods shown above 98 inhibits reentry to Programming mode via Type 2 and 3 entry method NOTE When the programming mode is exited a one minute set up period must be allowed before the system can properly function ADVANCE TO FIELD ADDRESS e g 01 10 21 etc PROGRAM FIELD ADDRESS followed by data entries ERASE FIELDS ADDRESS READ FIELD ADDRESS RESTORE FACTORY PROGRAM SETTINGS 90 See Factory Programming Table SPECIAL MESSAGES OC OPEN CIRCUIT no communication to console FC FIELD CODE ERROR during programming and Failure to Communicate to the Central Station during system operation AFTER POWERING UP THE READY LED LIGHTS AFTER 7 SECONDS ENTER THE PROGRAMMING MODE BY SIMJLTANEOUSLY DEPRESSING WITHIN 30 SECONDS THE SYSTEM IS FACTORY PROGRAMMED WITH PRESET VALUES SEE TABLE THAT CAN BE ALTERED VIA THE PROGRAMMING INSTRUCTIONS THAT FOLLOW THE TABLE FACTORY PROGRAMMING TABLE Factory predefined values serve two purposes INSTALLER FAMILIARIZATION upon initial acquisition of the system PROGRAMMING EFFORT REDUCTION if the installer accepts many of the preset values shown in the Table Installer familiarization usage permits a new customer for this pr
70. re installed with the circuit board cover intact to protect the components from damage Do not remove the upper cover Make certain that all power to the system has been removed from the system before work begins Re install the board by reversing the following procedure Remove lower cover and circuit board mounting screws 53 Lift and disconnect the circuit board from the square post connectors Take care not to bend any of the connectors CLX AALALA LLAS PTT PTT LE av Remove the board by sliding it away from the slotted mounts Installing a 4152LMB Remove the lower circuit board Cover after removing the holding screws Remove the No 4153RD mounting screw Carefully remove the 4153RD module from the square post connectors 54 Install the 4152LMB by carefully inserting the square post connectors into the header Take care not to insert the posts too far Replace the lower circuit board cover After installing all equipment you must thoroughly Test the system After powering up wait one minute before checking the contact loops If the system is connected to a central station notify them of a test in progress Power up the system console will beep rapidly for approximately 10 seconds and stop WAIT FOR 1 MINUTE Arm the system With the external sounder disconnected for this test go to each protection point and fault the contact Check windov foil by momen tarily removing
71. rior sensors and then through the entry exit door and one interior sensor remains faulted the system will go into alarm at the end of the exit delay plus entry delay as it should However the console will not only display the sensor that remained faulted but also every other sensor that the user faulted on his way out which had been restored If an ALARM occurs during the AWAY mode and the user returns and directly transits from the AWAY mode to the STAY mode then user alarm memory is lost Subsequent disarming results in a blank numeric display and the READY LED remains out requiring CODE OFF to restore it IX SPECIFICATIONS e 32 F 0 C 120 F 50 C 90 RH non condensing No 4153 C COM 1 PHYSICAL WIDTH 12 25 306 mm HEIGHT 17 432 mm DEPTH 4 102 mm 2 ELECTRICAL VOLTAGE INPUT 18 VAC from ADEMCO No 1349 PLUG IN TRANSFORMER 40 VA CONTINUOUS OUTPUT 12VDC 750 mA combined output available from the Auxiliary and Console Power Output Terminals POLLING LOOP CURRENT AVAILABLE 60 mA e 11V max Cannot be used as a D C supply ALARM SOUNDER OUTPUT 1 5 AMPS 12V ALARM TRIGGER OUTPUTS ON 5V e 1 5 mA OFF OV 4152LMB DRAIN 64 mA 11V max STANDBY BATTERY 12 VDC 2 7 AH No 465 627 2 EACH or 5 4AH No 465 654 2 each 56 MAXIMUM STANDBY TIMES IN HOURS UNDER CONTINUOUS LOAD IN MILLIAMPS CURRENT REQUIREMENT EQUALS 120 mA PER CONSOLE PLUS AUXILIARY POWER BATTERY 200 465 627
72. rm Company Status Commands To Cause the System to Upload Copy of its Resident Program to the central station To Read System Status Arming Status Ready Status Presence of Alarms past or present Presence of Troubles past or present AC Power Status NOTES 1 2 If the system is programmed for open close reporting by user User 1 will be reported After the 4153 and the 699 or PC have established valid communication each console displays an OC and emits a trouble sound This indicates that the 4153 is not polling the consoles or the RPMs The 4153 will resume the normal security functions after it is commanded to hang up See the 4153PC or 695 53 instructions for details The detailed operation of the functions described below is covered in the Installation Instructions for the No 695 53 Program Cartridge and for the 4153PC Download Software Diskette v To Read List of Faulted Sensors To Read List of Bypassed Sensors To Read 10 Day Alarm History Log To Read 10 Day Trouble History Log To Read List of Sensors Currently in Alarm To Read List of Sensors Currently in Trouble Remote Communication Specifications Transmission Rate 75 baud half duplex Program Download Time 2 minutes for a complete program n Typical Total Time Including Call Up Call Back 5 7 minutes Remote Command Programming Advisories Alarm and Trouble Reporting are disabled during the time
73. rotection point is assigned a zone type by the installer for alarm response and for central station reporting when point reporting is not used When the control receives a reply from an RPM the microprocessor determines the zone type of the protection point and responds in a predefined manner The following information describes the zone types and their associated responses ZONE TYPE 1 ENTRY EXIT ARMED STATE In response to a burglary sensor fault from a point that has been designated entry exit alarms are activated at the end of the timeout of the entry exit timer Separate entry and exit delay times are installer selected from 0 seconds to 150 seconde in 10 second increments Upon entry a slowly beeping console warning signal is initiated If Code OFF is not keyed before the end of the timing cycle an alarm is then initiated and the point in alarm is identified on the console Either one alarm or multiple alarms per Protection point per armed period is installer selectable as a systemwide selection This zone type is capable of reporting dialer RESTORE messages See address 85 in Programming Section DISARMED STATE A faulted sensor designated as entry exit will result in the READY LED being extinguished Depressing the READY key will cause the display of all faulted contacts No dialer communication is initiated ZONE TYPE 2 PERIMETER ARMED STATE A faulted sensor that has been designated PERIMETER causes an instantane
74. t forget to run a pair from the auxiliary power output and ground if you are not using PIRs or smoke detectors of the 4190 series 11 Diagram 2 describes several methods of installing a polling loop OPEN POLLING LOOP STAR OPEN POLLING LOOP eg CLASS A POLLING LOOP SINGLE MULTIPLE DIAGRAM 2 No 4190WH RPM PREPARATION Preparing the RPM for installation involves 1 configuring the RPM for operation and 2 properly assigning an identification number to each RPM CONFIGURING THE RPM Each 4190WH RPM can accommodate up to two sensor loops a left loop and a right loop The left loop may be configured to monitor N O and or N C contacts The right loop monitors N C contacts only The left loop must always be used in order to have proper polling loop operation The use of the right loop is optional The following suggestions sre helpful when configuring the left loop When cutting an option jumper be certain that BOTH SIDES of the jumper are cut to avoid accidental contact n Use the high current mode only when using mechanical contacts e g No 39 or other non reed contacts Leave the WHITE jumper intact when using the high current mode Cut the WHITE jumper when using the low current mode for reed contacts Tbe current consumption of the entire polling loop cannot exceed 60 mA Complete the worksheet in this section by describing each protection point and entering the current drain
75. t of the 2 digit event code used for each of sensors 1 8 alarm reports Sensor 7 is only used if downloading is not used See Introduction to this field and subsequent fields above Un Q amp 8 SENSOR ID CODES 2nd digit SENSORS 1 8 62 TROUBLE CODE BYPASS CODE RESTORE CODE 1st digit SENSORS 1 8 63 ALARM CODE TROUBLE CODE BYPASS CODE RESTORE CODE 1st digit Sensors 9 16 64 SENSOR ID CODES 2nd digit Sensors 9 16 65 ALARM CODE TROUBLE CODE BYPASS RESTORE 1st digit Sensors 17 24 66 SENSOR ID CODE 2nd digit Sensors 17 24 67 ALARM CODE TROUBLE CODE BYPASS CODE RESTORE CODE 1st digit Sensors 25 32 68 Ov Un SF Q to The second digit used for each of trouble bypass Sensor 7 is only pot used of the 2 digit event code sensors 1 8 alarm and restore reports used if downloading is The first digits of the 2 digit event codes used co report trouble bypass and restore for sensors 1 8 The first digits of the 2 digit codes used to report alarm trouble bypass and restore for sensors 9 16 The second digit of the 2 digit event codes used for each of sensors 9 16 alarm trouble bypass and restore reports The first digits of the 2 digit event codes used to report alarm trouble bypass card restore for sensors 9 16 The second digit of the 2 digit event code used for each of sens
76. taller selectable as system vide selection Contacts which have been subsequently faulted will be displayed at the console See address 85 in Programming Section ZONE TYPE 8 DURESS AMBUSH This is a zone only in the sense that it reports a message to the Central Station To activate the DURESS feature enter the first three numbers of the SECURITY CODE and increase the fourth digit by 1 IMPORTANTI If the last SECURITY CODE digit is 9 or if no report code is assigned the duress feature is disabled The DURESS feature does not initiate any audible or visual signals but reports a silent alarm It does not cause a dialer RESTORE message to be transmitted 9 RPM TAMPER AND SUPERVISION TAMPER Refers to the removal of a 4190WH RPM cover TAMPER detection will always result in a trouble signal if Program enabled if it occurs when the system is not armed and will display the ID number of the left loop of the affected RPM If the system is armed and a tamper detection occurs when the left loop is utilized for burglary protection zones 1 4 a burglary alarm will result If the left loop is used for fire panic or auxiliary a tamper detection will result in a trouble signal The implication of the latter is that a tamper fault during the armed mode will only result in a trouble if the left loop is used for non burglary response even though the right loop is used for burglary detection Removal of a cover of a fire programmed left loo
77. y or indirectly for any loss or damage arising under this Limited Warranty or otherwise regardless of cause or origin Seller s maximum liability shall not in any case exceed the purchase price of the product which shall be the complete and exclusive remedy against Seller This warranty replaces any previous warranties and is the only warranty made by Seller on this product No increase or alteration written or verbal of the obligation ot this Limited Warranty is authorized e ALARM DEVICE MANUFACTURING CO A DIVISION OF PITTWAY CORPORAT A D MI e 165 Eileen Way Syosset New York 11791 N2759V3 1 90 Copyright 1987 PITTWAY CORPORATION

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