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INSTALLATION INSTRUCTIONS
10/88
ViSTA
SECURITY SYSTEM
4130XT
No.
General Information
Remote Programming
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...4
and Control
Zone Types Available for Selection
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...5
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...7
Functional Description
Zone Expansion of Zone Types . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...8
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...12
4-Digit Security Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...,..............,12
Wiring Connections
Remote Keyswitch
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...16
Operation and Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...18
Optional Remote Keypad Connection
Optional Remote Console Connection installing the Digital Communication
(4131/4147)
(4137/4157)
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...18
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
Interface Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...20
installation of No. 4152LMand
Mounting the 4130XT Control.
Surface Mounting
Flush Wall Mounting
Wiring to No 4208 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...21
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...22
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . , . . . . . . . . . . . . . . . . . . . . . . . . . . . . . , . . . . ,. . . . . . . . . , 22
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...24
Programming the Security Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...28
Factory Preset Values . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...29
Specific Address Programming Instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...40
Testing the System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...70
Turning the System Overto the User . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...71
To the installer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...71
Recalling Alarm and Trouble Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...71
Replacing
Replacement
Fuses on 4130XT Circuit Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...72
Parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...73
Optional Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...73
FCC Statement
Specifications
4130XTSecurity
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...74
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
,. . . . . . . . . . . . . .
75
Control . . . . .
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75
4171XT Digital Communication Interface Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...75
4137 Remote Console . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75
4157 Remote Console . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...76
4131/4147RemoteKeypad...
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...76
4152LM Loop Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...76
42088-Zone Expander . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...77
Appendix A, Cabinet Mounting..
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...77
The Limitations ofthisAlarm System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 80
Limited Warranty . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82
Diagrams
Diagram l, Summary of Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ..I7
Diagram 2, 24-Pin Connector with Flying Leads
(4130XT Field Wiring interface) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...18
Diagram 3. Keyswitch Wiring...
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
Diagram 4. Installing the Digital Communication
Interface Board . . . . . . . . . . . . . . . . . . . . . . . . ,! . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
Diagram 5. 4152LMlnstallation and Wiring to 4208 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...21
Diagram 6.4130XT
Connector Interfacing
4171XT Wiring Connections and
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...23
Diagram 7.1nserting
Nameplate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Diagram 8. Wall Preparation for Flush Mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
Diagram 9. Flush Mounting the4130XT/4137/4147 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
Diagram 10. Removing Main Circuit Board for Fuse Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...72
Template for Mounting the4130XT/4137/41 47 (provided on separate sheet)
The VISTA 4130XT IS a microprocessor-based security control which provides up to 9 wired zones in the basic product, with expansion to an additional wired zones when connected toa2-wire zone expansion bus driven bytheoptional No.4152LM
Loop Module Thesecurity control is housed in a wall-mounled plastlc enclosure measurmg only 8.4” (21.3
cm) wide x 4.75
(12 cm) high x 1.1” (2.8 cm) deep, and is equipped with a multifunction 12-key digital keypad, a multipurpose LCD English language display and a built-in 85 db piezoelectric sounder that meets UL requirements as an alarm sounder (an external sounder IS therefore optional). ConnectIons to the security ,control are made via a 24-pm plugin connector equipped with flylng leads which interface to the wired loops, plug-in DC Power Pack, back-up battery, optional external alarm sounder, etc.
The security control is programmable from its own keypad or from a
4137 or 4157 remote console (optional), and can also be programmed locally from the 699 Programmer (using a 695-30XT cartridge).
Programmed options to eslablish specific alarm and reporting features are stored in electrically erasable, non-volatile EEPROM memory. This means that the unit can be reprogrammed many times (unlike umts equipped with PROMS) and that information which has been programmed will not be lost in the event of a complete loss of power. For installer convenience, the control is factory-programmed to a set of values that is designed to meet the needs of many installations.
However, these can be altered by the installer to suit the specific needs of a particular installation or installation company, following the instructions provided in the programming section of this manual (factory-programmed values are also shown in this section).
A plug-in Communication Interface board (4171 XT) is required with this system and provides communication capability (central station reporting, etc,) over existing telephone lines as well as zone expansion connections.
An optional, economical, remote keypad (4131 or 4147) can be used for arming, dmarmmg, etc., from a remote indoor location within the protected premises, This unit is a compact 12-button keypad with two sysiem status indicators (LEDs) and a built-in p!ezoelectric
sounder that provides warning and alarm sounds. Requires a 10-wire connecbon to the control.
An optional remote console (41 57) will provide system status indications and WIII perm[t virtually all system control functions from its keypad. The console will also provide visible and audible indications of troubles and alarms by means of LEDs and numeric (zone number) display and bullt-
In piezoelectric sounder. Requires only a 4-wire connection to the control
An optional remote console (41 37) is available which is identical to the
4130XT control in Its appearance, system operation, LCD displays, and loud piezoelectric alarm sounder. Requires only a 4-wire connection to the mam control.
A complete list of optional accessories will be found m a section toward the end of this manual under the heading “Optional Accessories” (see
Index).
Zone Characteristics
Zone 1:
zones 2-a
Zone 9
Programmable Zone, may be used as EOLR superwsed Fire
Zone (supports 2-wire Smoke Detectors), or may be used as a non-fire zone with N C contacts only, 350-500 msec response.
Programmable Zones, EOLR supervised, 350-500 msec response
Programmable Zone, NC. contacts only, fast 10-15 msec response.
Back-up 12V DC Battery
Mounted externally. A spectal backbox (4132) is available for mounting the battery in the wall behind the Control. Rechargeable 12-volt, 1.2 AH
Lead Acid.
DC Power Pack
Plug-in Power Pack (DC power converter). Plugs into unstitched 2-prong
110 volt AC outlet providing 24-hour serwce. Power Pack (1 350) supplies unregulated 18V DC output (700 mA max) for powering the Control.
The No. 4130XT allows the installer to call it using switched network phone lines so that the control/communicator can be remotely programmed and/or commanded from a No 699MD Intelligent
Programmer or an IBM compatible Personal Computer (PC). See Note 2 under Remote Capabilities in this section.
Accessing of the No. 4130XT from a remote location is protected against compromise by someone attempting to defeat the system, using 4 levels of security protection:
1 Security Code Handshake: An 8 digtt Central Station ID code must be matched between the No. 4130XT and the Central Station.
2 Hang-up and call back: Calling the No. 4130XT does not directly allow programming, as a successful handshake merely results in the
No. 4130XT breaking the phone line connection and then calling back the (internally stored) central station service phone number’.
3 Data Encrwtion: Data passed between the central station and the
No, 4130X~”is encrypted for security so that it is very difficult for a foreign device tapped into the phone line to take over communication and substitute system compromising Information.
*NOTE: In situations where a service person is on stte and the system is installed inside a PABX, it is possible to initiate a download from the protected premises by keying [installer or master security code] + [#] + [1].
4 Central Station Advisory Note: Any condition that causes the system to initiate a call back to a telephone number from which it can be reprogrammed or commanded (in fact, even for a local reprogramming of the EEPROM) causes a unique report to be sent to the central station’s alarm Ioggmg digital receiver.
Equipment Required
At the premises
The No. 4130XT must be used with its No. 4171 XT Communication Interface board if remote programming and/or control is desired.
At the central station (or the installer’s office/home):
●
A No. 699MD Intelligent Programmer that incorporates an internal modem and a No. 695-30XT Program Cartridge.
OR c An IBM PC compatible computer, a Modem (check with Ademco Factory
Technical Support for the specific brand and model to be used), No.4130PC
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 693 direct programming.
Commanding:
There are two types ot commands that can be issued to the system:
1. Control Commands —
- To Arm the System in the Away Mode* (’)
- To Disarm the System* (t)
- To Bypass a Zone
- To Force the System to Accept a New Program Download
- To Shut DowrI Communication (dialer) Functions (non-payment of monitormg fees m an owner’s system)
- To Shut Down all Security System Functions (non-payment for a leased system)
- To Inhibit Local Keypad Programming (prevents takeover of your accounts)
2. Status Commands —
- To Cause the System to Upload a Copy of its Resident Program to the central station
To Read System Status:
Arming Status
Ready Status and Current Faults
Presence of Alarms (pastor present)
Presence of Troubles (past or present)
AC Power Status
Bypass Status and Current Bypasses
*NOTES 1.
If the system is programmed for open/close reporting by user, User #7 will be reported.
2. After the4130XT and the 699 or PC have established valid communication, each 4157 console displays an ‘OC’ signifying that It IS busy (occupied).
Also, the 4130XT is not responding to faults in its zones. The 4130XT will resume the normal security tunctlons (mcludmg responding to faults that look place during the downloading) after it is commanded to hang up See the 4130PC or 695-30XT instructions for details.
The detailed operation of the functions described below IS covered m the
Installation Instructions for the No. 695-30XT Program Cartridge and for the 4130PC Download Software Diskette.
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 m Alarm
- To Read List of Sensors Currently in Trouble
Remote Communication Specifications:
.
Program Download Time — 1 minute for a complete program
. Typical Total Time Including Call Up/Call-Back — 3-4 minutes
Remote Command/Programming Advisory Notes:
●
Alarm and Trouble Reporiing are disabled during the time 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.
. Should an alarm transpire during the remote program/control interval, the system would not respond to the alarm condition untd the remote mode was ended. The local zones and the Nos. 4190WH, 4192,
4194WH, 4196, and 4208 all store their fault conditions until they are read by the Control, As such, alarm conditions from the local and expansion zones would not be missed, only delayed.
. A 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.
For each zone used, one of the following zone types must be selected:
1. Entry/Exit Burglary (Delay #1). Assigned to sensors on doors through which entry and exit WIII normally take place when the system E armed.
2. Entry/Exit Burglary (Delay #2). May be set for different delay than above. For use with sensors on overhead garage doors, etc., where longer delay w needed to reach the keypad in the main portion of the house or building, and more delay is needed to exit the premises.
3. Perimeter Burglary.
Normally assigned to all sensors on exterior doors and windows requiring mslant alarm.
4 lntetior, Follower.
Delay edalarm only ifthe Entry /Exit zone is faulted first otherwise, produces an instant alarm. Assigned to zone covering an area such as a foyer or lobby through which one must pass upon entry toreach thekeypad todisarm the system Designed to provide instant intrusion alarm in the event an intruder hides on the premrses prior to the system being armed or gatns access to the premises through an unprotected area.
5. Trouble by Day/Alarm by night. Can be assigned to a zone which contains a foil-protected door or window (such as in a store), or to a zone covering a “sensitwe” area such as a stock room, drug supply room, etc., or other controlled access area where immediate notification of an entry M desired. During the disarmed state (day), the system will prowde latched Control/Console annunciation (and central station report, if desired) of openings or troubles (such as sensor malfunctions or foil breaks), During the armed state (night), violations will initiate an alarm.
6. 24-hour Silent Alarm. This type generally assigned to a zone containing an Emergency button that is designed to initiate an alarm report to the Central Station, but which produces no local displays or alarm sounds.
7 24-hour Audible Alarm. This type also assigned to a zone containing an Emergency button, but which will initiate an audible alarm in addition to an alarm report to the Central Station.
B 24-hour Auxiliary Alarm (Control internal sounder only). This type assigned to a zone containing a button for use in personal emergencies, or to a zone containing monitoring devices such as water sensors, temperature sensors, etc Designed to initiate an alarm report to the Central Station and also provide Control/Console alarm sounds and alarm displays.
9
10
Supervised Fire (alarm on short/trouble on open).
Interior that always has Entry/Exit Delay #1 (except that Entry delay is suppressed in the INSTANT mode). This type Iypicaliy assigned to an interior zone containing a PIR that covers an area through which the user must pass to reach the Control for disarming purposes (whether inside or first entering). Ideal for an area such as an apartment entrance foyer in which a keypad is located.
The following is a description of the various zone types available which must be selected for each physical zone. You may w!sh to use Table A at the end of this description to record your selections.
Type 1. BURGLARY ENTRY/EXIT (DELAY #l): This zone type is not enabled after armmg untd termination of the (EEPROM defined)
Exit delay #l Upon entry, the Control WIII simply emit three short beeps as a warning th~l the system must be dtsarmed
(for added security, this system does not emit wammg s{gnals throughout the Entry delay period). If Code + OFF is not entered before term} nation of the (EEPROM defined) Entry delay #1, an alarm will be imtlaled at the buill-in sounder, if program enabled, and an external alarm and latched LCD dmplay. If a
Commurucatlon board is used, a system-wide EEPROM defined number of alarm reports for this zone will be allowed to be transmitted (swinger suppression) In one armed period.
Restorals will be sent when the zone is restored for a time greater than its physical response hme (less than 1 second).
Dur(ng the disarmed state, a faulted zone wdl result !n a NOT
READY display. Subsequent depression of the READY key wdl cause all the faulted zones to be sequentially displayed. No communicator reports will be imbaled.
2. BURGLARY ENTRY/EXIT (DELAY #2k This zone tvDe is not enabled after armmg until ter’minabon of \he (EEPROM’defined)
Exit delay #2 Upon entry, the Control will simply emit three short beeps as a warning that the system must be disarmed
(for added security, this system does not emit warning signals throughout the Entry delay period) If Code + OFF is not entered before termination of the (EEPROM defined) Entry delay #2, an alarm will be imtiated at the budt-rn sounder, if program enabled, and an external alarm and latched LCD display. If a
Communication board is used, a system-wide EEPROM defined number of alarm reports for this zone WN be allowed to be transmitted (swinger suppression) in one armed interval.
Restorals wtll be sent when the zone ts restored for a ttme greater than its physical response time (less than 1 second),
During the disarmed state, a faulted zone will result in a NOT
READY display Subsequent depression of the READY key WN cause all the faulted zones to be sequentially displayed No communicator reports WIII be initiated.
Type 3, BURGLARY PERIMETER: While the System is armed, a faulted zone w(II initiate an alarm at the built-in sounder, if program enabled, and an external alarm, a latched LCD dmplay, and a (EEPROM selected) communicator report.
Depression of any key will silence the Control’s local alarm sounder for 10 seconds. A system-wide EEPROM defmed number of alarm reports for this zone will be allowed to be transmitted (swinger suppression] by the commumcator m one armed period. The communicator will transmit a restoral message when the zone m restored for a time greater than ils physical response time (less than 1 second).
During the disarmed slate, a faulted zone will result in a NOT
READY display, Subsequent depression of the READY key will cause all the faulted zones to be sequentially displayed. No commurlicator reports will be initiated.
Type 4.
BURGLARY INTERIOR, FOLLOWER: This zone will always have Exit Delay #l The zone has an Entry Delay if preceded by a fault in an Entry/Exit zone (type #1 or #2) If not preceded by an Entry/Exit zone fault, an Immediate audible local (Control) and external alarm, latched display, and a (EEPROM selected) commumcator report are mltlated. Depressing any key at the Control will silence the Control sounder for 10
r-
seconds A system-wide EEPROM defined number of alarm reports for this zone will be allowed to retransmitted (swinger suppression) by the communicator in one armed period, The communicator will transmit a restoral message when the zone is restored for a time greater than its physical response time
(less than 1 second).
During the disarmed state, a faulted zone will result in a NOT
READY dwplay. Subsequent depression of the READY key will cause all the faylted zones to be sequentially displayed, No communicator reporls will be initiated,
Type 5. BURGLARY PERIMETER, TROUBLE BY DAY/ALARM BY
NIGHT: During the disarmed state (day), faulting the zone will initiate a “trouble” display and a latched sounder (beeping).
The Control will beep rapidly along with a latched display of the faulted zone and the word CHECK, Pressing any key will silence the beeping for 10 seconds. Code + OFF will silence the beeping but will only clear the display of a zone that had the fault condition removed.
If a Communication board is used, each trouble will result in a
“trouble” report (if programmed).
A trouble restoral message will be sent as each zone is restored to normal condition. The maximum number of trouble reports per armed period will be limited by the system-wide EEPROM number of alarm reports option (swinger suppression).
During the armed state (night), the local (Control) and external
(if used) alarm sounder will activate and the communicator will report alarms. A system-wide EEPROM defined number of alarm reports for this zone will be allowed to be transmitted in one armed period, Restorals will be sent when the zone is restored for a time greater than its physical response time (less than 1 second).
Type 6. 24-HOUR SILENT ZONE Sensors assigned to this zone, when faulted, will initiate a communicator report. There will be no local displays or alarm sounds. Upon keying Code plus OFF, there will be a memory indication of the faulted zone.
A system-wide EEPROM defined number of alarm reports for this zone will be allowed to be transmitted (swinger suppression) by the communicator until an OFF sequence is performed. The communicator will transmit a restoral message when the zone is restored for a time greater than its physical response time (less than 1 second).
During the disarmed state, NOT READY will be displayed if a sensor is faulted. The burglary portion of the system cannot be armed if this zone is faulted. An OFF sequence (code plus OFF) should be performed prior to arming the system or viewing the faulted zones via the *key,
Type 7. 24-HOUR AUDIBLE ZONE: Faulting a zone of this type will initiate a loud audible alarm externally and at the Control, an
LCD display, and a (EEPROM selected) communicator report.
Pressing any key will silence the Control sounder for 10 seconds. Keying Code plus OFF will permanently silence the alarm. A system-wide EEPROM defined number of alarm reports for this zone will be allowed to be transmitted (swinger suppression) by the communicator until an OFF sequence is performed The communicator will transmit a restoral message when the zone is restored for a time greater than its physical response time (less than 1 second).
Type 8. 24-HOUR AUXILIARY ZONE Faulting a zone of this type will initiate a steady alarm sound at the Control, an
ALARM display, and a (EEPROM selected) communicator report. Pressing any key will silence the Control sounder for 10 seconds. Keying Code plus OFF will permanently silence the
alarm. A system-wide EEPROM dehned number of alarm reports for this zone will be allowed 10 be transmitted (swinger suppression) by the communicator untd an OFF sequence is performed.
The communicator will transmit a restoral message when the zone is restored for a time greater than its physical response time (less than 1 second).
Type 9. FIRE ZONE: Opens in this zone will result in “troubles”.
Shorts will result in alarms. Note: Zone 1 will support 2-wire Smoke
Detectors (using the EOL resistor configuration): Zones 2 through 8 can be used for heat detectors and pull stations and for 4-wire Smoke Detectors with external (manual) power interrupt; Zone 9 cannot be used for Fire.
Fire zones may not be bypassed. A fire zone m trouble will not prevent the burglary system from being armed in any mode
A system-wide EEPROM defined number of alarm reports for this zone will be allowed to be transmitted (swinger suppression) by the communicator in one armed period. The communicator will transmit a restoral message when the zone is restored (less than 1 second).
Type 10. INTERIOR DELAY ZONE: This type of zone will always have an Entry delay #l and Exit delay HI. Thw zone IS not enabled after armmg until termination of the (EEPROM defined) Exit delay #1. If this zone E faulted, three beeps will be emitted by the Control. If Code + OFF E not entered before termination of the (EEPROM defined) Entry delay #1, an alarm will be mitlated.
A system-wide EEPROM defined number of alarm reports for this zone WIII be allowed 10 be transmitted (swinger suppression) by the communicator in one armed period. The communicator will transmit a restoral message when the zone IS restored for a time greater than its physical response time (less than 1 second).
During the disarmed state, a faulted contact WIII result m NOT
READY being displayed. Subsequent depression of the READY key will cause all the faulted zones to be sequentially displayed, but no commurucator reports will be initiated.
TABLE A. ZONE ASSIGNMENTS
A zone type must be assigned to each physical zone m use For convenience, the following chart has been provided for checking off selechons made
ZONE TYPE
1 ENTRY/EXIT, Delay #1 (Burglary}
2. ENTRY/EXIT, Delay #2 (Burglary)
3. PERIMETER (Burglary)
4. INTERIOR, FOLLOWER (Burglary)
5. TROUBLE BY DAYIALARM BY NIGHT
(Burglary)
6. 24-HOUR SILENT
7. 24-HOUR AUDIBLE
8. 24-HOUR AUXILIARY
9. FIRE ZONE”
10 INTERIOR. DELAY (Buralarv)
‘Physical Zone 9 cannot be used for Fire
1 2 3 415 67
PHYSICAL ZONES
8 9 10 11 12 13 14 15 16 17
I I I
Zone expansion to an additional 8 zones is achieved by first Installing the optional No. 41 52LM Loop Module onto the No. 4171 XT (after [t has been installed). The No. 4152LM can then be connected to a No. 4208 Eight
Zone &pander by a single pair of w!res providing both power and signaling. Path of the 8 zones on the No. 4208 can be programmed from the various types described in this manual that are available for use on the basic.9 zones, wdh one exception. There IS no ability to support 2 wire smoke detectors on any of the zones available in the No. 4208 Zone
Expander The No. 4208 Zone Expander may be located near the No.
4130XT or remotely from )t. The two wire run to it should utihze twisted pair wiring and should not be run in,close proximity to profected premises intercom wiring [at least a 3-inch (8 cm) separation]. For the maximum wiring run permissible to the zone expander for various wiring gauges, see the Specifications Section relatwe to the No. 4208 Zone
Expander later in this manual.
IMPORTANT In order to utilize the No 4208 to obtain zones 10-17, that product’s DIP switches must be set as follows:
No
4 5 2 3
ON ON ON OFF noun
(as If set for sensor numbers 113-120, as cited in the instructions for the
4208)
Installation instructions for the No 4152LM and wiring connections to the
No, 4208 are provided m a subsequent secllon entitled “INSTALLATION
OF
No.
4152LM AND WIRING TO
No.
4208”.
Installer Code:
The installer programs the Installer Code initially as part of the programming procedure (see “Programming the Security Control”) In this system, the installer is considered to be user #1 The installer code permits re-entry into the programming mode (unless *98 has been previously used to exit the programming mode or if user #1 was not enabled in Address *52) and also allows access to the normal functions of the system. During initial programming, the installer also programs the Master security code into the system
❑ ❑ ❑ ❑
Installer Code (User #l ), assigned during programming.
Installer exits programming mode with:
*99 (allows re-entry into programming mode with installer code).
or
X98 (does not allow re-entry to programming mode unless system is first powered down and then repowered). Installer code IS disabled whemthis exlf is used
Master Security Code
The Master security code can be used to assign up to thirteen secondary codes (to users #3-#1 5); it can also be used to remove all secondary codes from the system (individually). The person to whom the Master
code IS assigned IS considered to be user #2. In some apphcations
(commercial installations for example), user #2 (with Master code) WN be the main user of the system (see Application 1 on a following page)
In other applications [such as m an apartment complex, for example), user f12 (with Master code) may not be the aclual end user of the system
(see Application 2 on a following page).
Secondary security codes are assigned by user lf2 [with Master Code) as follows
Master Code + CODE key + User # (03-15) + Secondary Code
The system wdl emd a single beep when each secondary code has been successfully entered.
Note: When a secondary code is inadvertently repeated for different users, or one user’s code is another’s duress code, the lower user wdl take priority.
Indtwdual secondary security codes can be deleted by user M2 (with
Master Code) as follows.
Master Code + CODE key + User # (03-15) + Master Code
Note: All security codes, Master and secondary, permit access to the system for arming, disarming, etc.
Secondary (Temporary) Security Codes:
As stated prewously, up to thwteen secondary codes can be assigned — to users 3 through 15. The configuration in Application 1 shows that secondary (or temporary) codes may be assigned by the primary user
(user #2) to as many as thirteen employees, each with a unique code
Note that user #3 can also assign secondary codes to users 4-14 if required, but in the typical arrangement shown in Application 1, there may never be a practical need for this. If so, the primary user (#2) can elect to omit user #3 when assigning secondary codes
In the configuration shown in Application 2, user #3, who is the primary user, may need to assign secondary (temporary) codes to maids, cleaning persons, etc. Since the system allows user #3 to assign secondary or temporary codes to as many as eleven users (4-1 4), this need can be met User #3 cannot assign (or delete) user #1 5’s code, which IS strictly under the control of user #2, who may be the building manager or owner m the configuration shown in Application 2, See Table B, which illustrates the various levels of authority that exist for security codes,
User H3 can assign secondary (temporary) codes for users, 4-14 as follows’
User #3 Code + CODE key + User # (04-14) + Secondary Code
User #3 can delete secondary codes assigned to users 4-14 as follows:
User #3 code + CODE key+ User # (04-14) + User #3 Code
TABLE B. LEVELS OF AUTHORITY FOR SECURITY
CODES
User
No.
#1 (Installer)
#2
#3
#4Ff15
Can assign or delete
Sacondary Code of User:
NONE
#3 through #15
#4 through #14
NONE
APPLICATION 1
,
MAIN USER
I
CAN ASSIGN TEMPORARY CODES TO: I i
MASTER SECURITY CODE
“Clnclcl”,er,,
Note: All codes can Arm/Disarm the System
*User #3 can assign secondary codes to users 4-142
1 A secondary (temporary) code is assigned as follows.
User #2 (Master) Code + CODE key + User # (03-15) + Temporary
Code
2 User #3 can assign temporary codes as follows:
User #3 Code + CODE key+ User # (04-1 4) + Temporary Code
User #6
User //7
User #8
User #9
User #1 O
User #11
User #l 2
User #13
User #l 4
User #15
APPLICATION 2
MASTER SECURITY CODE
BUILDING MANAGER, ETC.
(User #2)
-0000
CAN ASSIGN SECOfiDARY CODES TO 1
1
r
1
SECONDARY
SECURITY CODE
❑
000
User #15
~
Note: All codes can Arm/Disarm the System
APARTMENT OWNER, ETC.
(User #3)
SECURITY CODE’
BUILDING EMPLOYEE, ETC.
(User #15)
CAN ASSIGN TEMPOiARY t,
CODES TO 2
MAID, CLEANING PERSON,
(User #4 #14)
ETC.
‘This code, although actually a secondary code, will serve as a master security code for the apartment owner, etc. since user #3 is the primary user of the system in this application.
1
<
<
--c
--c
“0000
c
*
TEMPORARY
SECURITY CODES
❑
on
❑
❑
❑
❑
❑
00
00
00 on
00 user,,
User #3
User #4”
User #5
User #6
User #7
User #8
User #9 i A secondary code is assigned as follows:
Master Code + CODE key + User # (03-15) + Secondary Code
2 A temporary code is assigned as follows:
User #3 Code + CODE key + User # (04-1 4) + Temporary Code
+000
❑
❑
❑ un on m
❑
clcl
User #10
User //1 1
User #12
User #13
User #14
@
(See Diagram 1, Summary of Connections)
A 24-pin plug-in connector with flying leads is provided to interface the
4130XT to the wired loops, the external alarm sounder, the back-up battery, to externally powered devices (auxiliary current), and to the plug-in
DC Power Pack,
The 24 flying leads, each 18 inches [46 cm) m length, are umquely color coded, as shown in Diagram 1 and also in Table C which indicates the color, usage and pin connection for each lead
Note: Optional 30-ft (9 m) and 15-ft (46 m) wiring harnesses with a 24pln connector at one end are ava;lable for interface wiring. Color coding
Wire Color
Blue
Whtte
Black
Violet
Gray
Tan
Whltel Red
Wh!te/Orange
Whte/ Brown
Orange
Pink
Green of wires used In these harnesses is identical to that used w’ the 24-pm connector with 18-inch leads. Refer to “Optional Accessories” for part numbers of available wiring harnesses
Grounding the System
A proper earth ground must be provided for the system. The While lead
(pin 11) on the 24-pin connector is the earth ground lead (see Table C).
Connect this lead to a suitable earth ground (a metalhc cold water pipe or electrical box may be used in some locations).
Usage
DC (-)
INPUT
(from plug-in
OC PQwer Pack)
EARTH GND
BATTERY (-) and
REMOTE CONSOLE
GROUND
AUX PWR (-)
DATA IN
(Remote Gonsote)
TABLE C. WIRE ASSIGNMENTS
ZONE RETURN
ZONE RETURN
ZONE 2(+)
ZONE 3(+)
ZONE 1 RETURN
ZONE t(+)-N C
LOOP
ZONE RETURN
Connector
(12) (24)
Pins
(11) (23)
(lo) (22)
(9) (21)
(8)
(20)
(7) (19)
(s)
(18)
(5) (17)
(4) (16)
(3) (15)
(2) (14)
(1) (13)
Usage
Dc(+) INPUT
(from plug-n
OC Power Pack)
BATTERY(+)
AUX/REMOTE
CONSOLE/EXT
ALARM SOUNDER
PWR (+)
ExT ALARM
SOUNDER(-)
ZONE 4(+)
ZONE 5(+)
ZONE 6(+)
ZONE 9(+)
ZONE 7[+)
ZONE 8(+)
ZONE l(+)
EOLR LOOP
DATA oUT
(Remote Console)
Wke Color
Red/Green
Red
Red/Black
Brown
Wh(te/Yellow
White/Green
Whtte/Blue
While /Black
Wh!lelvmlel
Whfte /Gray
RediYel[ow
Yellow
LJ
,...
,“
. .
,..,.
,X4,
.,,,
+—
.,”.
hii?
..,” ,“”,
. .
. .
!”..,,
,,0.
UN ,.!7
...7
. .
. . . .
,,.
”.,
%
“
I +%’” !=%.==kn.-
ii!
.
g
I
---------
----------
FUSE u, W*
[(0 ‘
*ONS:=Y +--~
II ,o-.a’”’”’!!?,~
‘—---Rm’”’””j
s,.,.
-“.,
,* w
7,.702
milov.mm
I
‘
,0..
Diagram 1. SUMMARY OF CONNECTIONS
-
Remote Keyswitch Operation & Wiring
An optional Remote Keyswitch may be used for remote arming and disarming (this is an installer-programmed option). A normally-open momentary switch is connected across Zone 7 (which must be given up as a protection zone). A momentary short of the zone will arm the System in the AWAY mode; it the key is held (short maintained) for over 3 seconds, the System WIII arm In the STAY mode. When a momentary short E applied subsequently, the System will disarm. A keyswitch tamper
(normally-closed) switch wired in series with zone 7 will disable keyswitch operation until the system is next disarmed via a keypad, if activated. Refer to Diagram 3 for Keyswitch wiring details
NOTE: Regardless whether End-of-Line superwslon IS selected or not (In
Address *4 I ), an end-of-line resistor must still be used for proper functioning of the keyswltch.
Optional Remote Keypad Connection (4131/4147)
An optional remote keypad (4131 /4147) may be used with the System.
Two 10-pin female connectors have been supplied for keypad interfacing to the 4130XT Control (see Diagram 1, Summary of Connections) The two connectors, which are identical, are equipped with color-coded flying leads that are 12 inches (30 cm) in length.
One of these connectors is attached directly to the mating 10-pin male connector on the 4131 /4147 remote kevDad (the connector can only be inserted one way, and will lock in place):”
The other connector is connected to the 4130XT Control wa a “straight” male-lo-male 10-~in ada~ter (suPrJlied).
Specific information regarding the use of the adapter and connection to the 4130XT Control is provided in the section entitled MOUNTING THE
4130XT.
TAB
RECORDING
INSTALLATION
DATA
When all interface wlrlng is completed, record w)nng usage
In the spaces provided on the Wire
Assignment tag attached to the wires on the 24-pin connector. This will provide a permanent record of the lnlerface wiring connections for future serwcing,
SEE
WIRING ASSIGNMt NT
TABLE IN TEXT
NOTE
TOREMOVE
AFTER
CONNECTOR
INSERTION.
TABANDPULL
M0710N
Diagram 2.
24-PIN CONNECTOR WITH FLYING LEADS
(4130XT WIRING INTERFACE)
----—
(READY)
. -------
IARMED1 r RED
GREEN 1
CONNECTS
REMOTE
ON
CONTROL
(SA4131-1O)
REMOTE
KEYPAD
CONNECTOR
3,— l-?=
bl-
GREEN
8L!JE
E
REO
To,LY\NG
LEADS
ON 10. PIN
KEYP4D
REMOTE BLUE
CONNECTOU ~R&EN
[
TAMPER
I
I
1
WHITEIVIO LET (PIN 16) 4
I r
I
No
4073.70H)(W SECURITVKEYLWK,SPWN13
I
I
C“’’’&e”-’
Diagram 3. KEYSWITCH WIRING
Optional Remote Console Connection (4137 or 4157)
An optional Remote Console (4137or4157) tem. Connections are as follows: can be used with the Sys-
413714157
Leads
RED
GREEN
YELLOW
24-pin Connector
Flying Leads to RED/BLACK (Pin 22) to GREEN (Pin 1) to YELLOW (Pin 13)
BLACK
BLUE (41 37 only) to BLACK (Pin 10) For 4137, connect also to (-) output of separate No. 1350 Power Pack.
to (+) output of separate
Refer also to Diagram 1, Summary of Connections.
No. 1350 Power Pack.
m
The optional Digital Communlcatlon Interface Board IS attached to the rear of the Control as follows (refer also to Diagram 4).
1 Remove the back cover on the Control. The securing screw at the left front of the Control must be removed to release the back cover (see
Diagram 6 for screw location). Discard the back cover, but retain the screw for use later.
2 Insert three small plastic standoffs (supplied) into the three holes on the Control board identified as “A”, “B” and “C” in Diagram 4 Press them in firmly until they “snap” into place.
3 Insert the 13-pin male-to-male adapter (supplled) into fhe interface socket pin holes on the underside of the Commumcation Interface board, as shown.
4 Attach the Communication Interface Board to the Control board as follows. Guide the adapter pins (on the Communication board) into the interface pin holes on the Control board, simultaneously allowing the pointed ends of the standoffs to partially enter the holes in the Communication board (shown as “A”, “ B“ and “C” in the Diagram), Before proceeding, make sure the adapter pins are properly entering the pin holes on the Control board. Then press the Communication board down until the connector pins are fully seated and the standoffs
“snap” into place in the Communication board, thus holding the board securely to the Control.
This completes the installation of the Communication Interface board,
Wiring connections are not made at this time.
DO NOT CONNECT THE OUTPUT OF THE 4171XT
TO A FIRE OR POLICE HEADQUARTERS
[
DIG1T4L COMMUNICATION
INTERFACE BOARD
\
STANDOFFS
IN 3 PLACES
B AND C)
,3) u
(HOL t
13P1N INTERFACE
CONNECTOR (ADAPTER
/PINS INSERTED FROM
D FIRST)
Diagram
4.
INSTALLING
COMMUNICATION
THE DIGITAL
INTERFACE BOARD
RD
The optional No. 4152LM Loop Module is installed onto the No4171XT
Digital Communications Interface board as follows, referring to Diagram 5.
a Note the 8 square-shaped connector pins on the 4171 XT board. PosItlon the 4152LM board” over the 4171 XT board so that these pins engage the mating sockets (header) on the underside of the 4152LM.
Press the 4152LM down until the pins are fully seated.
b. Secure the No. 4152LM by means of 3 srews (supplied).
Connect two wires from the looD terminals (1 and 2) on the 4152LM to termnals 11 and 12 (respectively) on the “4208 Zone Expander. For information on wire usag”e, etc., ~efer to a prewous section entitled
“ZONE EXPANSION”.
Diagram 5. No. 4152LM INSTALLATION
AND WIRING TO No. 4208
‘=Q&y
w
CONNECTOR
PINS
‘CONTROL 130AR0
There are three methods that may be used for mounting the 4130XT
Control, as follows:
1, Surface Mounting: This type of mounting IS possible only when a battery backbox is not required (battery back-up power will be supplied from a remote location) and when the digital communication interface board is mounted to the unit using the No. 4143 Extender Ring to increase the depth of the unit.
2. Flush Mounting. This type of mounting is used when the battery backbox is required for support of the back-up battery In the wall behind the 4130XT, or when the No. 4143 Extender is not attached to the rear of the 4130XT Control. This mounting method is also applicable if a “rough-in” ring (41 33) has been installed in the wall in a new construction application.
3. Cabinet Mounting: In buildings using concrete, cinder block or brick wall constructions, the surface or flush mounting method above may not be practical, and a third method using a wall-mounting metal cabinet can be used (see “Optional Accessories”).
The 4130XT Control is mounted in a cut-out specially provided for this purpose in the door of the cabinet, and the back-up battery (if used) is installed within the cabinet. Also available for use within the cabinet are connector blocks which can be used to connect the 4130XT flying leads to the field wiring.
Instructions for this type of mounting are provided in Appendix A toward the end of this manual.
Proper selection of mounting location and height is important for optimum viewability of the LCD display on the control (or remote console). A location in which lighting is directly above the control should be avoided, since this can shadow the display. For optimum viewing, the control should also be mounted so that the display is below eye level to ensure that the system’s user will look down at the display.
Surface Mounting:
Notes:
1. This method of mounting is not applicable for UL installations.
2. This method of mounting cannot be used if a 4t52LM Loop
Module is used.
Use the template provided (on a separate sheet) to mark the positions on the wall for the screw mounting holes and the cut-out for the interface wlrlng. Use wall anchors for the screws and make the cut-out in the wall no larger than indicated,
Pull the interface wiring in the wall through the cut-out. Splice these wires to the 24-pin interface connector wires as indicated in Diagram 1 and in
Table C previously.
Insulated soiderless wire sphces (such as Ademco
No, 311 ) may be used for splicing. Check wire connections carefully before splicing.
Note If the optional 15-ft (4,6 m) or 30-ft (9 m) wiring harness has been used for interface wiring, splices will not be necessary behind the control since these harnesses are terminated with a 24-pin connector which can be connected directly to the 4130XT
If the 4131 /4147 Remote Keypad is being used, splice those wires to the wires on the 10-pin connector supplied for this purpose, being sure 10
match wire colors. Be sure to insulate all splices.
Remove the Control’s back cover. The securing screw at the front of the
Control must be removed to release the back cover (see Diagram 7 for screw location) Pass the interface connector(s) through the opening in the back cover and then mount the back cover to the wall surface with screws,
Install the No. 4143 Extender Ring onto the back cover (see the instructions accompanying the No. 4143).
Attach the interface connector(s) to the board at the rear of the Control as follows, referring to Diagram 6:
~,
DIGITAL COMMUNICATION
BOARD I INSTALLED) lBPIN
REMOTE KEYPAD
CONNECTOR
(IF USEOI
STRAIGHT
10 PIN
MA LE.T6MALE
ADAPTER
— —
L e
. .
II
@
12345
GROUND START
—PHONE
PHONE LINE (TIP)
LINE IRING)
1
INCOMING
(RING)
HANOSET
(TIP)
~1 no
@
~ o
+: :
REAR OF CONTRC
(BACK COVER
REMOVED)
L
‘~fi~~~” ti~ a. Aliachthe 24-pin connector tothemating the bottom of the board.
interlacing pins located at b. Attach the 10-pin connector (if used) to the Remote Keypad connector
(1 O-pin socket) at the top of the board via the “Straight” male-to-male adapter supplied important Eesureto orient the connector with
BLACK lead (pin 1) to the left (when viewing the4130XT from the rear).
c. On the Digital Communication interface board, attach the interconnecting wires to the terminal block as follows, referring also to Diagram 6:
Communication
1
4
5
2
3
Interface
Board Terminal
Wire
Assignment
Ground Start ‘
Incoming Phone Lme (Tip)
Incoming Phone Line (Ring)
Handset (Ring)
Handset (Tip)
‘Connect to BLUE lead on 675 Ground Start Module.
d. With a pair of wire-cutting pliers, snip off the 8 square-shaped connector pins that normally interface to the4152LM and then install the4171 XT
Digital Communication Interface board. Note On later production units, this procedure will not be necessary, Those units will be accompanied by a note to that effect.
Attach the main body of the Control tD the Extender Ring, which is attached to the wall-mounted back cover. The Control is properly attached when it “snaps” into place.
Use the securing screw (supplied with the No. 4143 Extender Ring) to secure the Control to the back cover (see Diagram 7 for location of screw hole), then insert the small VISTA XT nameplate supplied into the recessed opening to cover the screw head, as shown In Diagram 7.
Diagram 6. 4130XT CONNECTOR INTERFACING
AND 4171XT WIRING CONNECTIONS
“1
INSERT NAMEPLATE
INTO RECESSED
AREA (COVERS SCREW)
/
/
I
/
~—
\
SECURING
SCREW
Diagram 7. INSERTING NAMEPLATE
/
Flush Wall Mounting:
If a “rough-in” ring (41 33) has been previously installed in the wall (during new construction), disregard step 1 and proceed tostep2 since the required opemng for the Control IS already present, If a wall plate (41 36) is installed over therough-in ring, remove theplate to expose the opening,
1. Cut an opening measuring 4-5/16” (11 cm) high by 7-3L” (20 cm) wide between studs in the wall. Theopemngmust be no less than 1-Yz” (4 cm) from either stud. Avoid cutting the opening any larger than that specified, See Diagram 8.
Note: A special “trim ring” has been supplied for installation between the wall and the Control for those cases where the opening has inadvertently been made too large (over-cutting).
The Control fits into the recess in the trim ring which will extend M“ (1.3 cm) beyond the Control front panel, and thus cover any opening that might otherwise bevisible asa result of over-cutting,
2. Remove the back cover onthe Control. Thesecuring screw atthe front of the Control must be removed to release the back cover (see
Diagram 7for screw location) Discard the back cover, but retain the screw.
Note Make sure that the digital communication Interface board is mounted to the 4130XT (and the No. 4152LM Loop Module, if applicable), as indicated previously.
3. install the Battery Backbox (4132). (Disregard this step if battery backuppower issupplied from a remote location.) If battery back-up power is not supplied froma remote Location, the backbox supplied must be installed behind the wall opening to support the back-up battery that must be used. Install as shown in Diagram 8, with “lip’’ofthebackbox hooked over the bottom edge of the wall opening.
insert the battery into the box, and make connections to its terminals as follows, using the two 12-inch (30 cm) Red and Blackheads
(equipped with FAST-ON connectors at one end) that have been supplied. See Diagram 1.
a. Splice the wire end of the RED 12-inch lead to the Red lead (pin 23) coming from the 24-pin connector (an insulated solderless wire splice such as Ademco No. 311 may beused).
Connect the other end (FAST-ON connector) of the12-inch REDlead to the positive
(+) terminal on the battery.
b. Splice the wire end of the BLACK 12-inch lead to the Black lead
(pin 10) coming from the 24-pin connector (be sure to use an insulated wire splice). Connect the other end (FAST-ON connector) of the 12-inch BLACK lead to the negative (-) termmal on the battery
Note For ULListed usage, utilize the 4132-l (optional) battery box cover. Feed the two battery wires through the two openings in the cover and insulate their connection to the battery with the plastic insulators supplied with the 4132-1. Insert the battery into the 4132 backbox andplacethe top of the battery.
4132-1 cover over the
4, Pull all interface wiring in the wall through the opening previously made. Splice the appropriate wires to the 24-pin interface connector as indicated in Diagram 1 (Summary of Connections) and in Table C previously. Insulated solderless wire splices (such as Ademco
No. 311 ) may be used for splicing. Check all wire connections carefully before splicing.
Note If the optional 15-ft (4.6 m) or 30-ft (9 m) wrong harness has been used for interface wiring, splices at the Control will not be necessary since these wiring harnesses are terminated with a
24-pin connector which can be connected directly to the
4130 XT.
5. If a Remote Keypad is being used, splice the field wires in the wall to the wires on the 10-pin connector supplied for this purpose, being sure to match wire colors.
6. Attach the interface connector(s) to the Control board as follows, referring to Diagram 6: a. Attach the 24-pin connector to the mating interfacing pins located at the bottom of the Control board.
b. Attach the 10-pin connector (if a Remote keypad is being used) to the Remote Keypad connector (1 O-pin socket) at the top of the Control board via the “straight” male-to-male adapter supplied.
IMPORTANT Be sure to orient the connector with BLACK lead (pin
1) to the left (when viewing the 4t 30XT from the rear), as indicated in Diagram 1.
7. On the Digital Communication interface board, attach the interconnecting wires to its terminal block as follows, referring also to Diagram 6:
Communication
;
3
4
5
Interface
Board Terminal
Wire
Assignment
Ground Start
●
Incoming Phone Line (Tip)
Incoming Phone Line (Ring)
Handset (Ring)
Handset (Tip)
Refer to Diagram 9 for Steps 8,9 and 10
8. Mount the Control as follows. Insert securing screw (previously removed) in screw hole at front of Control (see Diagram 7) and attach metal clip (at the rear) as shown in Diagram 9. Turn the screw until the clip enters the guide point about % of an Inch (3 mm)
9, Insert the straight end of the flat spring into the slot at the other side of the Control, as shown.
10, With the metal clip in the vertical position, mount the Control by hooking the spring behind the right edge of the operwng so that It holds the Control against the inside of the wall, as shown at (A), Now turn the screw (from the front of the Control). The clip will turn until it hits the clip stop and will then draw the Control forward (B). Continue turning the screw until the Control is flush against the wall then, making sure that the Control is straight, tighten the screw further to secure the Control firmly in position. DO NOT OVERTIGHTENI
11 Insert the small VISTA XT nameplate supplied into the recessed opening to cover the screw head at the front of the Control, as previously shown in Diagram 7.
1
WALL
OPENING
BATTERY BACKBOX
NOTE :
A ROUGH-IN RING (4133) MAY BE
PRESENT IN NEW CONSTRUCTION
SIMPLY REMOVE
EXPOSE FRAMEo
COVER
OPENING
FOR FLUSH MOUNTING
PLATE TO
IF so,
SUITABLE
OF THE CONTROL,
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
II
1,
‘1
1,
II
II
II
~~,
‘+.
i
I
I
I
I
BACK’BOX
I
I
I
I
I
I wsT”Os
,,
‘“..
Diagram 8. WALL PREPARATION FOR FLUSH MOUNTING
I
METAL CLIP
A
SHEETROCK
SPRING (NOTE
END)
B
IF SHEETROCK IS TOO THICK,
BREAK OFF THE SCORED WING
NOTE :
4-5/16’’(11 cm)H X 7-3/4’’(2Ocm) W
WALL OPENING }S REQUIRED FOR
FLUSH MOUNTING.
Diagram 9. FLUSH MOUNTING THE 4130XT/4137/4147
Installer options are stored in non-removable, electrically erasable, nonvolatile EEPROM memory. These options must be programmed for the particular installation to establish its specific alarm and reporting feat ures.
The security control may be programmed from its own keypad (the most convenient method) or from an optional 4137 or 4157 remote console, or can be programmed locally from the 699 Programmer.
Information regarding the Programmer is included with the No. 695-30XT Programming Cartridge.
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 parhcular installation or installation company. The preset values are detatled (n the Factory Programming Table.
Nottz Programming mformatlon E stored In non-volatlle EEPROM memory in this Control (removal of power WIII not result in the loss of the information).
Consequently, it is possible to program the
Control at any time – even at the installer’s premises prior to the actual installation.
Simply apply DC power temporarily to the Control and then program the unit as desired.
When programming from the Control, note the following”
1, Enter the Programming mode by simultaneously depressing the * and
# keys within 30 seconds after power is applied to the Control, or subsequently by keying the code 4 + 1 + 3 + O followed by depression of
CODE + O + O keys. Once an Installer code is programmed, use it instead of 4130 (as 4130 is no longer present) to gain access to the programming mode.
2
3
When a data tleld has been completely programmed, the Control WIII
“beep” three times and then automatically proceed to, and display, the next data field address to be programmed.
If the number of dlglts that yob enter In the data field IS less than the maximum permitted (for example, phone number), then the Control wit display the last data entered. To proceed, the next data field address to be programmed must then be entered (for example, *OS).
4 If an address is lm~ro~erly entered, the Control will discday FC. If a program entry IS rnprope~ly entered (for example, a larger number than that which is permitted), the Control display WIII go blank. In either case, simply re-enter the number.
The followlng IS a description of commands necessary for programming,
FUNCTION
ENTER PROGRAM-
MING MODE:
PROCEDURE
1. POWER UP, then depress *and #simultaneouslywithln 30 seconds of powering up.
OR
2 Initially,
Key:4+l +3+ OPIUSCODE key+O+O.
OR
3 After Installer Code
IS programmed, key”
Installer Code + CODE key + O + O.
Notes: User #l (Installer) must be enabled (in
Address 52) if Type 3 method of entry Isto be used.
Type 3 method of re-entry to the programming mode is inhibited if the programming mode E, exited vla use of *98
Type 1 method of entry can always be used unless console programming has been locked out by the remote downloader.
EXIT PROGRAM-
MING MODE:
*99 (always allows re-entry to programming mode via Type 3 entry method above).
*98 (inhibits re-entry to programming mode via
Type 3 entry method),
Note When the programming mode is exited, a
1-minute set-up period must elapse before the system can properly function
ADVANCE TO FIELD:
PROGRAM FIELD:
ERASE FIELDS:
* + ADDRESS (e.g., 01, 10, 21, etc.).
* + ADDRESS, followed by data entries.
*+ ADDRESS+ * (only applies to Addresses 31 thru 34),
# + ADDRESS READ FIELD:
RESTORE FACTORY
PROGRAM SETTINGS *97 (see Factory Programming Table).
SPECIAL MESSAGES
OC = OPEN CIRCUIT
(no communication between the Keypad and the
Control, most relevant to4137 or4157 Remote Console).
FC = FIELD CODE ERROR (program entry mistake, re-enter the data).
After powering up, READY will be displayed after approximately 7 seconds. Enter the programming mode by simultaneously depressing * and # within 30 seconds. The System is factory-programmed with preset values (see Table D) that can be altered via the programming instructions that follow the table.
FACTORY PRESET VALUES
Factory preset values serve two purposes:
●
They can reduce programming time on the part of the installer if many of the preset values shown in the table are accepted.
●
They will permit an installer who is unfamiliar with this product to quickly set up the system for bench test so that familiarity with the operation of the system can be achieved in a shorter period of time.
The factory preset values are defined in the Table that follows:
00
01
02
Address Function Factory Programmed Value
INSTALLER CODE
MASTER SECURllY
CODE
ASSIGN
RESPONSE
TYPE FOR
ZONES 1-8
4 c
EIml
r
1
Z1 o
E
Z2 o
E
23 ()
E
24 ~
E
EIEIEI
❑
Fire
❑
Perimeter, Burglary
❑ anterior, Follower,
Burglary
❑
Trouble by Day/Alarm by Night, Burglary
‘n
~ anterior, Delay,
Burglary
❑
24-hour audtble
❑
24-hour Aux
❑
Entry /Exit (Delay #l),
Burglary
Address Function
03 ASSIGN
RESPONSE
TYPE FOR
ZONES 9-16
Factory Programmed Value
04 ASSIGN
RESPONSE
11’PE FOR
ZONE 17
dmzl
EIEI
Emil
Address Function Factory c o
%ogrammed Value
05
06
ASSIGN
RESPONSE lYPE FOR
VARIOUS
KEYPAD PANICS
AND ZONE
EXPANDER WIRING
SUPERVISION
DESIGNATE RIGHT
ZONE USAGE
10 r
20 c
3~
E
40
E
7
8
‘
‘rim
❑ n
❑
❑
D m
Short in Wiring to Zone
Expander (displays “97”)
1 and * Panic (displays
,,)
3#;’panic(disp’ays
* and # Panic (displays
,,)
❑
Hmmmmm
Zones 10-16 (none)
Address
07
13
14
15
16
17
18
19
20
08
09
10
11
12
Function Factory Programmed Value
DESIGNATE RIGHT
ZONE USAGE
NOT USED
ENTRY
DELAY #1
EXIT
DELAY #1
ENTRY
DELAY #2
EXIT
DELAY #2
ALARM SOUNDER
DURATION
ALARM SOUNDER
SELECTION
KEYSWITCH ARMI
DISARM ENABLE
CONFIRMATION
OF ARMING DING
AC POWER
LOSS SOUNDING
NOT USED
CONTROL ALARM
SOUNDER DISABLE
NOT USED
•1
Zone17 (none)
Elm (’oseconds)
EIEI
‘45sec0nds)
Em (’oseconds)
Em
“min”’es~
❑
(740/bell compatibility)
❑
(Disable)
❑
(Disable)
•1
(Disable)
❑
(Entry of zero mandatory)
•1
(Enable)
❑
(Entry of zero mandatory)
30
31
32
33
27
28
29
Address
23
24
21
22
25
26
Function
DISABLE FIRE
TIME-OUT
FIRE INDICATION
ON DISPLAY
MULTIPLE ALARMS
TAMPER DETECT-
ION DISABLE
(ZONES 10-1 7)
DURESS REPORT
DISABLE (ADEMCO
HIGH SPEED)
INTERNAL ALARM
SOUND
SELECTION
TEST REPORT
INTERVAL
POWER UP IN
PREVIOUS STATE
QUICK ARM
Factory Programmed Value
•1
(No)
El
(Enable)
❑
(Yes)
❑
(Enable)
❑
(Enable)
❑
(Loud steady sound, UL Listed usage)
❑
(24 hours)
•1
1 (Yes)
❑
(Enabled) n
I (Touch-Tone) TOUCH-TONE OR
ROTARY DIAL
PABX ACCESS
CODE
SUBSCRIBER
ACCT NO.
PRIMARY
PHONE “No.
No Entry
Address
34
35
36
37
Function
INHIBIT BYPASS
OF ZONE
Factory Programmed Value
SECONDARY
PHONE NO
CS DOWNLOAD
PHONE NO
CS ID NO
No Entry
No Entry
DOWNLOAD COM-
MAND ENABLES
❑
❑ mHHm
HmEmEmH
Hmm
1
❑
Dialer Shutdown enabled
2
❑
System Shutdown enabled
31
❑
Not Used
4
❑
Remote Bypass enabled
5 1 Remote Disarm enabled n
6
❑
Remote Arm enabled
7
•1
1 Upload Program enabled
8 ,
❑
Download Program enabled
❑ m ~:::;;;:)’ones
41
44
45
46
47
48
42
43
Address
39
40
49
Function
OPEN/CLOSE
REPORTING
ENABLE BY
USER CODE
REPROGRAM/
DOWNLOAD
ATTEMPT REPORT
EOLR DISABLE
(Zones 2-8)
Factory Programmed Vaiue
EIEZIEIEIEIIEIEI
(disabled for Users 9-1 5)
Em
(Nocoderepofled)
(End-of,-Line Resisto( superwslon not required)
DIAL TONE PAUSE (5 seconds)
DIAL TONE
DETECTION
RING DETECTION
COUNT
PRIMARY ACK
WAIT
PRIMARY TRANS-
MISSION FORMAT
SECONDARY ACK
WAIT
SECONDARY
TRANSMISSION
FORMAT
SINGLE MESSAGE
TRANSMISSION
WITH CHECKSUM
VERIFICATION
(Dial Tone Detection Enabled)
0 o
(Ring detection disabled)
❑
(30 seconds)
❑
(Ademco Low Speed)
❑
(30 seconds)
❑
(Ademco Low Speed)
❑
(No)
54
55
56
57
58
59
60
Address
50
51 ‘
52
53
Function
SESCOA/RADIO-
NICS SELECTION
DUAL REPORTING
Factory Programmed Value
❑
Radionics with B-F reporting n (No)
OPEN/CLOSE
REPORTING
ENABLE BY
USER CODE
4+2 ZONE
EXPANDED FOR-
MAT SELECTION
4+2 ZONE FOR-
MAT SELECTION
ALARM REPORT
IzElmmmmmm
(disabled for Users 2-8)
❑
(Not selected)
RESTORE REPORT
BYPASS REPORT
TROUBLE REPORT
OPEN/CLOSE
REPORT
LOW BATTERY,
AC LOSS AND
TEST REPORT
El
(Not selected)
El
(Standard report)
❑
(Expanded)
(Standard report)
❑
(Standard report)
❑
(Standard report)
❑
(Standard report)
Address
61
62
Function
CHANNEL
ASSIGNED TO
EACH ZONE
Factory Programmed Value
CHANNEL
ASSIGNED TO
EACH ZONE
(CONTINUED)
,mm
,EIEI
JIIEI
,EIEI
,EIEI
6~~
Sm
,Eilm
IDE
,mm
,Hm
JIIEI
,EIEI
Zeroes for zones code reported) l-8 (no
Zeroes for zones 9-16 (no code reported)
Address Function
63
Factory Programmed Value
fj~~
,EIEI
&ml
Address
64
65
Function Factory Programmed Value
CHANNELS
ASSIGNED TO
DURESS AND
VARIOUS KEYPAD
PANICS
Tim
‘Em
‘Em
All zeroes in 8 locations
(same as Address *61)
‘Em
Duress
‘Em
%ml
7mil
8~~1
Short on Wiring to Zone
Expander (displays 97)
1 and * Panic
(displays 95)
3 and # Pantc
(d!splays 96)
* and # Panic
(displays 99)
ALARM REPORT-
ING CODES
ASSIGNED TO
EACH CHANNEL
‘mm
‘mm
Zeroes for channels 1-8
(no code reported)
8mm
4EIEII
Address
66
Function Factory Programmed Vstue
‘Elm
6EIII!ZI
‘Em
8Em
ALARM REPORT-
ING CODES
ASSIGNED TO
EACH CHANNEL
(CONT’D)
‘IZIEI
Zeroes for channels 9-15
(no code reported)
l’EIEI
11 Em
‘21ZIEI
‘3 Em
“Eml
‘5EIEI
NOT USED
Em
Address
67
68
69
70
71
72
Factory Programmed Value Address
Function
NON-ALARM
CODES
All zeroes (no codes
,.,..,,,
73
NON-ALARM
CODES (CONT’D)
ZONE TYPES 1-4
RESTORE REPORT
ENABLE
ZONE TYPES 5-8
RESTORE REPORT
ENABLE
❑
H
❑
❑ m nnm
All zeroes (no codes repo,e,)
‘nab’e (a”) zoNETYPEs9&lo
RESTORE REPORT
ENABLE
4 + 2 EXPANDED
FORMAT ZONES
1-8 EVENT
DIGIT (Ist digit)
•~~~ ~~~~l~dall others dlaabled
❑
Enabled (all)
✎
1
❑
2~
❑
AL
❑
TR
3 ~~ ~[ BY
Zeroes for zones 1-8 (no codes reported)
74
Factory Programmed Value Function
4 + 2 EXPANDED
FORMAT ZONES
9-16 EVENT
DIGIT (lst digit)
1 •~AL
2 •~TR
3~~lBY
1
AL RE
Zeroes for zones 9-16 (m codes reported)
30
TR RE
30
BY RE
4 + 2 EXPANDED
FORMAT ZONE
17 EVENT
DIGIT (1
SI digit) la
2~
I
0 TR
30
❑
3 o B’i
40
El J
AL RE
Zeroes for zone 17 (no codes reported)
5~~TRRE
Address
75
Function Factory Programmed Value Address
4 + 2 EXPANDED
FORMAT KEYPAD
PANICS/ZONE
EXPANDER WIRING
SUPERVISORY
EVENT DIGIT
(1st digit) m—
3101101BY
4 •~ALRE
5 ~1 ~[TR RE
6 ~1 ~1 BY RE
Zeroes for keypad panics and for zone expander wiring supervisory (no codes reported)
77
Function Factory Programmed Value
4 + 2 EXPANDED
FORMAT ZONES
9-16 ID DIGIT
(2nd digit)
9 ~1 lomm
F[
11 ~F[
dml
76 4 + 2 E)(pANDED
FORMAT ZONES
1-8 ID DIGIT
(2nd digit)
14 ~ ~1
Zeroes for zones 9-16 (no codes reported) l@lE
16HH
Address
78
Function Factory Programmed Value
4 + 2 EXPANDED 17
•1
FORMAT ZONE
El
17 ID DIGIT
❑
(2nd digit)
Zeroes for zone 17 and the other seven locations (no codes reported)
Address
80
Function
4 + 2 EXpANDED
FORMAT NON-
ALARM CODES
Factory Programmed Valua
Short in wiring to zone expander
1 &* Panic
3&# Panic
* &# Panic
Zeroes (no codes reported) in all 10 Iocatlons
79 4 + 2 EXPANDED
FORMAT KEYPAD
PANICS/ZONE
EXPANDER WIRING
SUPERVISORY ID
Hn
❑ 1171
–
Em
‘Uress
Address Function
81 4 + 2 EXpANDED
FORMAT NON-
ALARM CODES
(CONTINUED)
Address
83
84
85
86
Function
TEST REPORT
INITIATION TIME
ADEMCO HIGH
SPEED REPORT-
ING ON 800/WATS
LINES
ENABLE 4130XT
FOR SUBZONING
ZONE EXPANDER
TYPE SELECTION
Factory Programmed Value
EIEI
‘12h0urs)
(No)
(Disabled)
(4208 type selected)
82 ALARM COUNT
MASTER SECURITY
CODE
ASSIGN RESPONSE
TYPES FOR ZONES
1-8
*OI
*O2
INSTRUCTIONS SPECIFIC ADDRESS PROGRAMMING
FUNCTION
INSTALLER CODE
ADDRESS
*OO
❑ nnn
COMMENTS: This 4-digit (O-9) code reserved for Installation company use. Only active if openings and closings are enabled for User #1 (in Address *52). This
IS the only code that can be used to enter the Program mode from the
Control. Cannot be used to enter secondary codes This code may not be used if programming mode is exited by a
❑
000
COMMENTS: Enter 4 digits, O-9 (entry of all 4 IS mandatory).
Use of a “9” In last position inhibits the Ambush feature.
❑
❑
❑
0 n n
‘one’
‘0ne2
‘one’
❑
❑
❑
❑ o
‘one’
o
‘0ne4
n
‘one’
o
‘one’
❑
l ‘one”
❑ o
‘one’
COMMENTS Enter 2 digits, 00-10 in each field
(use one of the response types below).
‘If Zone 7 is to be used for Keyswitch Arm/Disarm operation,
10 must be entered as its response type.
00 = Assign for unused zones
01 = ENTRY/EXIT (Delay #1), Burglary
02 = ENTRY/EXIT (Delay #2), Burglary
03 = PERIMETER, Burglary
04 = INTERIOR, FOLLOWER, Burglary
05 = TROUBLE BY DAY/ALARM BY NIGHT, Burglary
06= 24-HOUR SILENT
07 = 24-HOUR AUDIBLE
08= 24-HOUR AUXILIARY
09 = FIRE
10 = INTERIOR, DELAY, Burglary
FUNCTION
ASSIGN RESPONSE
TYPES FOR ZONES
9-16
ADDRESS
*O3
ASSIGN RESPONSE
TYPE FOR ZONE 17
*O4
ADDRESS FUNCTION lUUZone9
2UUZonelCl
4
3Cln
❑
0
5UUZcme13
Zonell
Zcme12 fjUUZcme14
7
❑
U Zone15
8UUZone16
COMMENTS: Enter 2-di@ response types
(see Address *O2 for types)
ASSIGN RESPONSE
TYPES FOR ZONE
EXPANDER WIRiNG
SUPERVISORY AND
FOR KEYPAD PANICS
*O6 lURZone17
2mm
JImI
4EIEI
Zeroes to be entered
5EIEI rmlr!zl
COMMENTS: Enter response type in field ,mm
8
❑ a ::t~a’t~:-~in
1
EEl dzlm
LID
Zeros to be entered
4EIEII
Short m Wiring to Zone
,cln
Expander (displays 97)
600 1 & * Panic (displays 95)
700 3 & # Panic (displays 96)
8CICI
* & # Panic (displays 99)
COMMENTS: Enter response types
(see Address *02 for types) in field locations 5-8 only
(enter 00 in fields 1-4).
FUNCTION ADDRESS
DESIGNATE
ZONE USAGE
RIGHT *06
*Q7
NOT USED
ENTRY DELAY #1
*o6
*Q9
EXIT DELAY #1 *1Q
10 11 12 13 14 15 16
❑ lnmlmlzoneslo-16
17
Zone 17
•1
COMMENTS: All spaces must be filled with O or 1 (1 if that zone is a right loop on a 4190WH transponder or on a
4196 Quad PIR transponder).
When the 4208 E used as a Zone Expander, set all zone number locations to O. Similarly, set the zone number Iocatlons for 4194WH contact/transponders, 4192 smoke detector base/transponders, and 4275 Dual PIR transponders to O, as well as left loops on 4190WHS and the PIR portion of the 4196.
❑ o
COMMENTS: Defines the time per!od between a fault occurring In a zone to which Entry Delay #1 has been assigned and the time when the alarm will sound (UL 1023 Household Burglary usage permits a maximum of 45 seconds. ) Applies to the Interior, Delay Zone type also
Enter 00-15.
Multiply by 15 seconds to determine time delay (O- 225 seconds available).
❑ o
COMMENTS: Defines the time delay period after the system arming code IS keyed when zone to which this delay has been assigned will arm (UL 1023 Household Burglary usage permits a maximum of 60 seconds). Is also the exit delay time allocated to the Interior zones (both Follower and Delay types).
Enter 00-15.
Multiply by 15 seconds to determine time delay (O-225 seconds available).
FUNCTION ADDRESS
ENTRY DELAY #2 *11
EXIT DELAY #2
ALARM SOUNDER
DURATION
“13
ALARM SOUNDER
SELECTION
KEYSWITCH ARMI
DISARM ENABLE
*12
❑ o
COMMENTS: Defines the time period between a fault occurring [n a zone to which Entry Delay #2 has been assigned and the time when the alarm will sound, (UL 1023 Household Burglary usage permits a maximum of 45 seconds,) Must be set for longer pariod than Entry Delay #1 (in Address *09).
Enter 00-15.
Multiply by 15 seconds to determine time delay (O-225 seconds available).
Em
COMMENTS: Defines the time delay period after the system arming code is keyed when zone to which this delay has been assigned will arm. (UL 1023 Household Burglary usage permits a maximum of 60 seconds).
Must be set for longer period than Exit Delay #1 (in Address *1 O).
Enter 00-15.
Multiply by 15 seconds to determine time delay (O-225 seconds available).
❑
l
COMMENTS: Defines the length of time an external or the control’s alarm sounder will sound on all audible alarms
(UL 1023 Household Burglary usage requires a minimum of 4 minutes).
Enter 01-15. Multiply by 2 minutes to determine sounder duration.
❑
COMMENTS: Enter O for use with Ademco 740 or BRK BK-PA400B piezoelectric sounder, or AMSECO MSB-1 OG or ABB-1 031 12V Motor Bell or for external relay activation. Do not enter “l”.
•1
COMMENTS: Requires the use of zone 7 wired loop (zone 7 no longer available as protection zone when used for keyswitch operation).
Enter 1 for keyswitch enabl~ otherwise, enter O. NOTE: 10 must have been entered for Zone 7 in Address ’02.
Reports opening/closing by user #7 if reporting is enabled in Address ’52.
FUNCTION
CONFIRMATION
ARMING OING
ENABLE
OF
AC POWER LOSS
SOUNOING
ADDRESS
NOT USED
CONTROL ALARM
SOUNDER DISABLE
’18
● 19
NOT USED
DISABLE FIRE
TIME-OUT
*2O
● 2I
FIRE INDICATION
AT DISPLAY
● 22
❑
COMMENTS: Enter 1 to enable 1/2 second external alarm sounding at the end of exit delay #1 and O to disable the “ding”,
•1
COMMENTS: Enter 1 to enable this feature. Results in rapid beeping at Control when AC power is lost; otherwise, enter 0.
Em
MUST BE ZERO
❑
COMMENTS Enter 1 to drs.able the built-in sounder during a burglary, otherwise enter O.
❑
MUST BE ZERO
❑
COMMENTS: Disables the sounder time-out feature for any zone designated as a fire zone so that fire sounding continues until fhe system is reset (required for usage in accordance with UL985, Household Fire). Enter O (timeout) or 1 (no time-out).
•1
COMMENTS: Enables a display of FIRE (or FI at 41 57) whenever a fire alarm occurs When the alarm is silenced or times out, the FI display at the 4157 IS replaced by zone number. Enter 1 to enable;, otherwise enter O (only zone number displayed).
FUNCTION
MULTIPLE ALARMS
ADDRESS
DISABLE TAMPER
DETECTION IN
EXPANSION ZONES
10-17
*24
DISABLE DURESS
REPORTING IN
ADEMCO HIGH
SPEED FORMAT
INTERNAL ALARM
SOUND SELECTION
“26
TEST REPORT
INTERVAL
*27
❑
COMMENTS: Enables the system to permit mutiple audible alarms from a protection zone during one armed interval (as opposed to only one alarm).
Enter O (only one alarm) or 1 (multiple alarms, but not more frequently than allowed by alarm time-out) Selection has no impact on the number of communciation messages transmitted.
❑
COMMENTS: Only applicable if No, 4190WH RPMs are used to provide expansion zones. Enter 1 to disable tamper detection (disables tamper detection in 4190WH or tamper detection is not applicable because other devices are used to provide expansion zones), Enter O to enable tamper detection (opening of the 4190WH case).
❑
COMMENTS: Only applicable if Ademco High Speed Format is selected. Enter 1 to disable duress reporting or O to enable duress reporting.
•1
COMMENTS: Enter 1 to select a ‘(sweeping” sound (applicable only to non-UL usage) from the control’s internal alarm sounder, enter O for a louder, steady sound (required for UL Listed usage).
NOTE: Since remote Consoles can only produce a “steady” sound, program the control for steady tone (0) if they are used in the system.
❑
COMMENTS: Determines time period between test reports.
Enter O (no report), or 1 (12 hours), 2 (24 hours)or3(168 hours).
Must be used in conjunction with Data Fields *83 and *68 (location 5), Select a non-zero entrv if automatic low bat.
tery testing under load is desired.
-—-
FUNCTION
POWER UP IN
PREVIOUS STATE
ADDRESS
QUICK ARM
TOUCH-TONE
ROTARY DIAL
OR
● 29
PABX ACCESS CODE*31
❑
COMMENTS: If selected (YES), on power-up the system w(II assume system status prior to power down. If not selected (NO), the system w(II power up in disarmed state.
Enter O (NO) or 1 (YES),
When the system powers up armed, an alarm WIII occur 3 minutes after arming If a zone is faulted, When so armed, reports closing as User #7 if open/close reporting for User #7 was enabled in Address *52.
❑
COMMENTS: 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 MAXIMUM).
When armed AWAY or MAXIMUM, reports closing as User #7 (f open/close reporting for User #7 was enabled m Address *52,
Enter O (disabled) or 1 (enabled).
•1
COMMENTS: Permits selection of the type of dialing to be used.
Enter 1 for Touch-Tone, O for Rotary.
❑
0
❑
0
❑
0
❑
0
COMMENTS: If not required, enter nothing and proceed to next address; otherwise, enter prefix needed to obtain an outside Telco line. This field may be used alternatively to enter a prefix that can suppress the Telco’s call waiting feature from interfering with outgoing transmission.
This prefix is only useful if the Telco option to be able to suppress call waiting has been obtained by your customer. The prefix to be used is 1170 if pulse dialing is being used or *7O if TouchTone@ dialing is being used
Enter up to 4 digits, Each digit requires a 2-digit entrj so as to allow entry of hexadecimal digits (B-F) Use the following chart to determine the entry for each dlglt. Only enter digits required Do not fill unused spaces. Erase the field by entering *31*.
— —.
-.
FUNCTION
SUBSCRIBER
ACCT.
NO.
ADDRESS
*32
PRIMARY PHONE
No.
*33
SECONDARY
PHONE hJo.
CENTRAL
ID NUMBER
STATION
*34
CENTRAL STATION
DOWNLOAD PHONE
No.
*35
*36
ENTER NUMBER o
ENTER
00
NUMBER
8 08
❑
0
❑
0
❑
6
0
3
4
1
2
5
00
01
02
03
04
05
06
07
9
A
B c
D
E
F
(Do N% Use)
11
12
13
14
15
COMMENTS: Enter 3 or 4 digits. Each digit requries a 2-digit entry so as to allow entry of hexadecimal digits (B-F)
If entry consists of only 3 digits, enter data in the first 6 locations, leaving the last two unfilled. Use the chart in address *31 to determine the entry for each digit. Erase the field by entering *32*
❑
00000000000
COMMENTS: Enter up to 12 digits, O-9. Do not fill unused spaces. Erase the field by entering *33*. NOTE: Backup reporting (8 calls are made to the secondary phone number If no acknowledgment is received after 8 attempts to the primary number) is automatic only if there is a secondary phone number
❑ lclclclnnnnnnclcl
COMMENTS: Enter up to 12 digits, O-9. Do not fill unused spaces. Erase the field by entering *34*.
❑ nuclnclonnclcln
COMMENTS: Only applicable if downloading will be utilized. Enter up to 12 digits, O-9. Do not fill unused spaces.
Erase the field by entering *35*
❑
O
❑
0
❑ o
❑
0
❑ n
❑ n
❑ n
❑
0
COMMENTS: Only apphcable If downloading will be utilized. Enter all 8 hexadecimal digits. (O-9, A-F).
00=0
01=1
02’2
03=3
04=4
05=5
06=6
07=7
08=8
09=9
10=A ll=B
12=C
13=D
14=E
15=F
FUNCTION ADDRESS
DOWNLOAD
COMMAND ENABLES
*37
INHIBIT BYPASS
OF ZONE
1
2
❑
❑
Dialer Shutdown
System Shutdown
5
6
7
4
3 •10
❑
❑
❑
❑
Not Used
Remote Bypass
Remote Disarm
Remote Arm
Upload Program
8 •1 Download Program
COMMENTS: Each of the various remote (from the Central Station) functions can either be enabled or disabled, dependent upon what functions the Central Station desires to perform. Setting a function to be disabled means that the Central Station will not be able to perform this function in the system. Enter 1 to enable a function and O to disable a function.
❑ o
COMMENTS: Enables one zone to be selected as a priority zone which cannot be bypassed. Enter 2 digits (for zone number) 01-17. Enter 00 if all zones to be bypassable This section has no impact on fire zones, which are always non-by passable.
FUNCTION ADDRESS
OPE?i/CLOSE
REPORTING ENABLE
BY USER CODE
*39
REPORTING CODE
FOR ATTEMPT
(SUCCESSFUL OR UN-
SUCCESSFUL) BY A
REMOTE AGENCY TO
*4O
GET INTO A DOWN-
LOAD MODE WITH
THE SYSTEM OR FOR
SOMEONE TO
LOCALLY CHANGE
THE PROGRAM
DISABLE USAGE OF *41
END-OF-LINE
RESISTOR SUPER-
VISION ON WIRED
ZONES 2-8
DIAL TONE PAUSE *42
❑
9 10 11 12 13 14 15 nnnnnn
COMMENTS: Enter O (disable) or 1 (enable). Determines which user codes will send open/close reports
❑ o
LOCAL REPROGRAM/DOWNLOAD ATTEMPT REPORT (1st digit)
COMMENTS: Applicable if downloading will be utilized or not. Enter reporting code as double digits. Disable= 00
(no code reporting).
01=1
02=2
03=3
04=4
06=6
07=7
08=8
09=9
11=6
12=C
13=D
14=E
05=5 10=0 15=F
Note: If 4+2 by point reporting E being used, the second digit is the second digit of the power up code
❑
COMMENTS.
Enter 1 to change zones 2-8 to N.C. loops that detect only an “open” and do not require end-of-line resistors (EOLRS) Enter O to retain EOLR supervision of zones 2-8.
❑
COMMENTS: This feature determines the wait time for dial tone detection before diallng will commence If detec tion does not take place.
Enter single digit, O (5 seconds), 1 (11 seconds) or 2 (30 seconds.)
.——... —
FUNCTION
DIAL TONE
DETECTION
RING DETECTION
COUNT
PRIMARY ACK WAIT *45
PRIMARY
TRANSMISSION
FORMAT
ADDRESS
*43
*44
*46
SECONDARY ACK
WAIT
*47
❑
COMMENTS: Determines whether true dial tone detection is used, or whether just delay before dialing (same as programmed in Address *42) 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 1 (Dial Tone Detection) or O (Dial Tone Detection disable),
❑ n
COMMENTS: Only applicable if central station initiated downloading will be used. Enter 00 to disable ring detection. Enter 01-14 for ring counts of 1-14. Enter 15 to select mode that gets around telephone answenng machines connected to the same phone line. In the latter mode, the system upon hearing one ring followed by nothing, will not answer but will ready itself to pick up the next incoming call received within the next 30 seconds on the first ring (the downloader calling again).
❑
COMMENTS: Central Station receiver “Acknowledge” wait time for primary phone number.
Enter O (30 seconds) or 1 (60 seconds).
•1
COMMENTS: Permits selection between Ademco Low Speed format, SESCOA/Radlon!cs, or Ademco High Speed format.
Enter O (Ademco Low Speed) or 1 (SESCOA/Radionics), or 2 [Ademco High Speed - Traditional
20 if non-unique reporting is acceptable) zones plus duress and 4+2 DTMF for all 21 zones].
for up to t4 (all
Note If Traditional Ademco High Speed reporting is selected, the Non-Alarm reports desired must be selected in
Addresses *40, *67 and *68 and the alarm reports desired must be selected in Addresses *65 and *66
(Any non-zero code may be used).
❑
COMMENTS: Central Station receiver “Acknowledge” wait time for secondary phone number.
Enter O (30 seconds) or 1 (60 seconds).
FUNCTION ADDRESS
SECONDARY
TRANSMISSION
FORMAT
*48
SINGLE MESSAGE
TRANSMISSION WITH
CHECKSUM
VERIFICATION
*49
SESCOA/RADIONICS
SELECTION
*5O
DUAL REPORTING *51
OPEN/CLOSE
REPORTING ENABLE
BY USER CODE
*52
❑
COMMENTS: Same options as Address *46.
Enter O (Ademco Low Speed 1 (SESCOA/Radionics), or 2 (Ademco High Speed)
•1
COMMENTS: When selected, will send verification digit with the message to validate the message at the receiver without having to send two message rounds. Enter O (NO) or
NOTE: Selection applies to both primary and secondary phone numbers,
1 (YES).
❑
COMMENTS: Enter O if Radionics format is to be used with hexadecimal B-F reporting; enter 1 if SESCOA format is to be used with only numenc reporlmg (0-9),
NOTE: Selection applies to both primary and secondary phone numbers.
❑
COMMENTS: If selected, will send all reports to both primary and secondary phone numbers.
NOTE: If dual reporting is desired and Ademco High Speed format is to be used at all, it must be selected as both the primary and secondary transmission formats
Enter O (NO) or 1 (YES)
ilbttllxlnn
COMMENTS: Enter O (disable) or 1 (enable) Determines which user code will send open/close reports. User #7 must be enabled if open/close reporting is desired for keyswitch arming or close reporting is desired for “Quick
Arm” and “Power Up” arm.
NOTE: User #1 must be enabled to permit use of installer code to enter programming mode.
FUNCTION
4+2
ZONE (MAX.
17 WIRED ZONES)
OF
EXPANDED FORMAT
SELECTION
ADDRESS
*53
4+2 ZONE (MAX.
OF 9
WIRED ZONES)
FORMAT SELECTION
*54 n
COMMENTS: Enter 1 if 4+2 reporting by zone for a zone expanded system IS desired, enter O if a non expanded zone configuration is being used. If the expanded zone reporting format is selected, skip Addresses 55-71 and continue programming at Address #72.
IMPORTANT If Ademco High Speed format had been selected in Addresses *46 or *48 and this selection is made, a high speed 4+2 transmission using DTMF TouchTone@ communication can be obtained which is compatible with Ademco No, 685 Digital Receivers using Level 4.3 software or higher.
•1
COMMENTS: Enter 1 if 4+2 reporting is desired, enter O If 3+1 /4+1 or traditional Ademco High Speed reporting
is to be used. This selection is overriden by the selection of 4+2 reporting in Address *53. If the 4+2 format of address *54 is selected, Adresses 55-70 should be programmed, but Addresses 72 through 81 should be skipped.
The following reports (Addresses *55 - * 60) may be designated to raport aither in Standard or Expanded format. in aii cases, the Standard message reports to tha Central Station a subscriber ID number and a report [e.g., alarm (see Address *55), trouble, restore, open/ciose] code.
The Expanded message reports a subscriber iD number, the report code, foilowed by a second line where the report code is repeated three or four times and ia traiied by the chennel number (or user iD) reiated to that report. When 4+2 format is aeiected, no second iine is transmitted.
The channel number or User iD is sent as the last digit of the report.
Report
Alarm
Trouble
Bypass
AC LOSS
Low Battery
Open
Close
Cancel
Test
Power Up Reset
Program Tamper
Restore.
Alarm
3+1/4+1
Standard
SSS(S) A
SSS(S) T
SSS(S) B
SSS(S) E
SSS(S) L
Sss(s)
Sss(s)
Sss(s) x
SSS(S) Te
Sss(s) o c
P
SSS(S) M
SSS(S) R
3+1/4+1
Expanded
SSS(S) A
AAA(A) Ch
SSS(S) T
TTT(T) Ch
SSS(S) B
BBB(B) Ch
SSS(S) E
EEE(E) Ac
SSS(S) L
LLL(L) LB
Sss(s) o
000(0)
Sss(s) c u ccc(c) u
Sss(s) x
SSS(S) Te
Sss(s) P
SSS(S) M
Sss(s) R
RRR(R) Ch
4+2
SSSS ACh
SSSS TCh
SSSS Etch
SSSS EAc
SSSS LLB
Ssss Ou
Ssss Cu
Ssss Xo
SSSS TeO
Ssss Po
SSSS MO
SSSS Rch
Report
AC
LOSS
Low Battery
Trouble
Bypass
Where,
SSS or SSSS = Subscriber ID
A = Alarm Code
O = Zero
Ch = Channel Number
T = Trouble Code
B = Bypass Code
E = AC Loss Code (1st Digit)
AC = AC Loss Code (2nd digit)
X = Cancel Code
3+1/4+1
Standard
SSS(S) R
SSS(S) R
SSS(S) RT
SSS(S) RB
P = Power Up Reset Code
M = Program Tamper Code
3+1/4+1
Expanded
SSS(S) R
RRR(R) Ac
SSS(S) R
RRR(R) LB
SSS(S)RT
RTRTRT(RT)Ch
SSS(S)RB
RBRBRB(RB)Ch
4+2
SSSS RAC
SSSS RLB
SSSS RTCh
SSSS RBCh
L = Low Battery Code ( i st digit)
LB= Low Battery Code (2nd digit)
O = Open Code
C = Close Code
U = User Number
Te = Test Code
R = Restore Code (Alarm,
AC Loss, Low Battery)
RT = Restore Code (Trouble)
RB = Restore Code (Bypass)
Ademco High Speed Format
This format is the fastest format used in the alarm industry in that alarm information on 8 zones can be received at a Central StatIon in 5 seconds.
This format utilizes DTMF (Touchstone@) signaling and transmits at the rate of 10 hexadecimal characters per second. The tradlt(onal format of
Ademco High Speed transmission contains 13 digits, as follows: 4 digit
Subscriber ID number, 8 digits containing the status of each of 8 event reporting channels and 1 digit in a 9th channel that is primarily used to indicate what kind of event is being received in the other 8 channels,
For the eight event reporting channeis (digits 5-12 in the format), the channel status codes are as follows:
Code Meaning
5
6
1
2
3
4
NEW EVENT (previously unreported)
OPENING REPORT
RESTORE
CLOSING REPORT
NORMAL (no event since prewously reported RESTORE)
PREVIOUSLY REPORTED EVENT STILL PRESENT
For the ninth channel (digit 13), the following channel status codes are used:
1 DURESS REPORT in channel 1 and ZONE ALARM and ALARM RE-
STORES assigned to CHANNELS 9 through 15 (in Addresses *6 I through *64) will appear in channels 2 through 7 respectively Channel
8 is not usable.
2 OPENING REPORT in the previous 7 or 8 channels; 7 if expanded opening/closing reporting is selected, wherein User ID (1 -9, A-F) appears m Channel 1.
3 BYPASS and BYPASS RESTORE REPORTS for ZONES assigned to
CHANNELS 1 through 8 (in Addresses *61 through *64) will appear in
Channels 1 through 8.
4 CLOSING REPORT m the prewous 7 or 8 channels; 7 if expanded opening/closing reporting is selected, wherein User ID (1 -9, A-F) appears {n Channel 1
5 ZONE TROUBLE and TROUBLE RESTORE REPORTS for ZONES assigned to CHANNELS 1 through 8 (In Addresses *61 through *64) will appear in channels 1 through 8.
6 SYSTEM TROUBLE and TROUBLE RESTORE REPORTS are in the previous 8 channels; wherein
CH 1 =
LOSS
Of AC
CH 2 = Low Battery
CH 5 = Not Applicable
CH 6 = Not Applicable
CH 3 = Program Tamper+ CH 7 = Not Applicable
CH 4 = Power On Reset’ CH 8 = Not Applicable
‘No Restore report is prouided for these conditions.
7 ZONE ALARM and ALARM RESTORE REPORTS for ZONES assigned to CHANNELS 1 through 8 (In Addresses *61 through *64) will appear in channels 1 through 8.
9 TEST REPORT. All ‘5’s WIII appear in channels 1 through 8.
IMPORTANT NOTES:
1.
When the traditional Ademco High Speed format is used, zones assigned to channels 9 through 15 in Addresses *6 I through *64 cannot report trouble, trouble restore, bypass, and bypass restore As such, 24 hour type keypad panic zones are good candidates for the use of these reporting channels (e.g. * & #, 1 & *, 3 & # panics, etc...)
2. Only NEW events ALARM, OPENING, RESTORE, BYPASS, CLOSING or TROUBLE on any channel or TEST
WIII trigger transmission, at which time all 9 channels will report.
3. When the traditional Ademco High Speed format
IS used, non-zero codes must be entered in Addresses 61, 62, 63, 64 (for zones m use), 65, 66, 67, 68.
Examples (Ademco High Speed Zone format)
1. At subscriber #5890, channels 2 and 5 go into alarm (and initiate a call) and channel 6, which has previously reported an alarm is still triggered.
Message:
Subscriber
Identification
5890
Channel Number
1234 5678 9
5155 1655 7
Channel 2: NEW ALARM
Channel 5: NEW ALARM
Channel 6: PREVIOUSLY REPORTED ALARM
(still in effect)
2 Still at subscriber #5890, following the events of example 1 above, channel 2 restores (initiating the ~all) and channels 5 and 6 remain in alarm
Message”
Subscriber
Identification
5890
Channel
1234
5355
Number
5676
6655
9
7
Channel 2: NEW RESTORE
Channels 5,6: PREVIOUSLY REPORTED ALARMS
(still In effect)
3. Subscriber #0135 sends an opening:
Message:
Subscriber
Identification
0135
Channel Number
1234 5678
1222 2222
9
2
Channel 1.
USER ID — User #l opened
Channels 2-9: OPENING REPORT TRANSMITTED
4. After transmission of Example 3, subscriber #0135 sends a closing:
Message:
Subscriber
Identification
0135
Channel Number
1234
D444
5676
4444
9
4
Channel 1: USER ID - User#13 (= hex D) closed
Channels 2-9: CLOSING REPORT TRANSMITTED
5 Subscriber #01 35 sends a duress message:
Subscriber
Identification
0135
Channel
1234
1555
Number
5676
5555
9
1
Channel 1: DURESS REPORT
Channel 9: SUPPLEMENTAL ALARM ZONES
TRANSMITTED
6 Subscriber #01 35 User #7 bypasses faulted zone 2 (for the sake of this example, Zone 2 = Channel 3, not a requisite) and then arms the system.
Message:
Subscriber
Identification
0135
0135
Channel Number
1234
5515
7444
5676
5555
4444
9
3 (Bypass Report)
4 (Closing Report)
Bypass restorals are transmitted when the restoral takes place
0135 5535 5555 3
7. If a trouble condition occurs in Zone 4 for subscriber #5890 and Zone
4 was assigned 10 Channel 2, a trouble report is transmitted.
Subscriber
Identification
Channel
1234
Number
5676
Message: 5890 5155 5555
Trouble restoral is transmitted as soon as it occurs.
9
5
5890 5355 5555 5
8. If a system trouble condition occurs, a separate trouble message format exists.
Subscriber
Identification
For Loss olACReporting (Channell
Channel Number
1234 5678 is used)
1555 5555
9
Message:
For AC Restorai
0135
Message: 0135
8
3555 5555 6
ForLowBattery
Message:
Reporting
0135
(Channel 2 is used)”
5155 5555 6
*Low battery is not only determined when AC power is off and the battery is being discharged, It is also tested for byperiodically (at the interval selected in Address #27) removing ACpower briefly to check battery status.
FUNCTION
ALARM REPORT
ADDRESS
*55
For Low Battery Restorai
Message: 0135 5355
For Program Tamper (Channel 3 is used)
Message: 0135 5515
5555 6
5555 6
For Power Up Reset (Channel 4 is used)
Message: 0135 5551 5555 6
NOTE: Restorals are not applicable to Program Tamper and Power Up
Reset.
9. At Subscriber #5890, Zone 12 assigned to channel f 3 goes into alarm and Zonell assigned tochannel 11, which hasprevlously reported an alarm has restored.
Message:
Subscriber identification
5890
Channel Number
1234 5678 9
5553 5155
10, At Subscriber #0135 a test message is initiated.
1
Message:
Subscriber identification
0135
Channei Number
1234 5678 9
5555 5555 9
❑
COMMENTS: Enter O (Standard Report) or 1 (Expanded Report).
When Expanded is selected, the channel number is transmitted in the last position of the 2nd transmission line (or of the lsttransmission line if4+2 Format is used).
NOTE: Selection applies to both primary and secondary phone numbers.
FUNCTION
RESTORE REPORT
ADDRESS
*56
BYPASS REPORT *57
TROUBLE REPORT *58
OPEN/CLOSE REPORT *59
❑
COMMENTS: Enter O (Standard Report) or 1 (Expanded Report).
When a zone of protection alarm, bypass or trouble report is transmitted, a restore report for any of those conditions is not issued unless ALL like conditions within a zone are restored.
When Expanded is selected, the channel number is transmitted in the last position of the 2nd transmission line (of
the 1st transmission line if 4+2 Format is used). Restore reports for each zone type alarm are individually selectable (see Address numbers *69 through *7f ),
NOTE: Selection applies to both primary and secondary phone numbers,
❑
COMMENTS: Enter O (Standard Report) or 1 (Expanded Report).
Bypassing a zone results in a bypass report and in a restore report when all bypasses are removed.
Fire and priority zones cannot be bypassed, When Expanded is selected, the channel is transmitted in the last
position of the 2nd transmission line (or of the last transmission line if 4+2 Format is used). Zone ID is not transmitted.
NOTE: Selection applies to both primary and secondary phone numbers.
•1
COMMENTS: Enter O (Standard Report) or 1 (Expanded Report).
When Expanded is selected, the channel is transmitted in the last position of the 2nd transmission line (or of the
1st transmission line if 4+2 Format is used). Zone ID is not transmitted.
NOTE: Selection applies to both primary and secondary phone numbers.
❑
COMMENTS Enter O (Standard Report) or 1 (Expanded Report).
When Expanded is selected, user ID (1 -9, A-F) is transmitted in the last position of the 2nd transmission line (or of the Ist transmission line if 4+2 Format is used).
NOTE: Selection applies to both primary and secondary phone numbers.
FUNCTION
LOW BATTERY,
AC LOSS AND
TEST REPORT
CHANNEL ASSIGNED
TO EACH ZONE
ADDRESS
*6O
*61
NOTE: Channel 9 (09) is reserved for duress reporting when that function is enabled in Address *25.
ADDRESS FUNCTION
❑
COMMENTS: Enter O (Standard Report) or 1 (Expanded Report).
When Expanded is selected, an additional programmable code is transmitted in the last position of the 2nd transmission line (of the 1st transmission line if 4+2 Format is used).
NOTE: Selection applies to both primary and secondary phone numbers.
l130Zone9 CHANNEL ASSIGNED
TO EACH ZONE (CONT’D)
*62
2
3
4
5
6
7
8
❑
❑
❑
❑
U
Zone2
❑
U
.Zone3
❑
❑
0
U
Zone4
Zone5 m
0
O
Zone6
Zone7
Zone8
COMMENTS” Enter all channel
IDs as double digits.
Disable = 00 (no channel reporting)
01=1
02=2
03=3
04=4
05=5
06=6
07=7
08=8
09=9
10=0 il=B
12=C
13=D
14=E
15=F
2UDZone10
30
4
❑
UZonell
0 .Zone12
5uDZone13
6
❑ n Zone14
7UDZone15
8Dn Zone16
COMMENTS: Enter all channel IDs as double digits (same as Address
*61 ) Disable = 00 (no channel reporting).
NOTE: Channel 9 (09) s reserved for duress reporting when that funcllon IS enabled m Address *25
FUNCTION
CHANNEL ASSIGNED
TO EACH ZONE
(CONT’D)
ADDRESS
*63 100
2 •~
3 •~
5 •~
Zone17
Not”,,,
Not Used
Not used a
EIEI
N.tused
COMMENTS: Enter all channel IDs as double digits
(same as Address *61).
Disable =00 (no channel reporting).
NOTE: Channel 9 (09) is reserved for duress reporting when that function is enabled in Address *25
FUNCTION
CHANNEL ASSIGNED
TO EACH ZONE
(CONT’D)
ADDRtSs
*64
1 •~
2 ~~
Not used
Not.sed
4
5nn
❑ o
Dure.s
Short on Wlr!ng
to Zone Expander
60U
7UU3&#Panm
1 & * Pamc
COMMENTS: Enier all channel IDs as double dlglts
(same as Address *6 I )
Disable = 00 (no channel reporting),
Non-zero codes must be entered when Iradlllonal Ademco High
Speed format IS used.
NOTE: Channel 9 (09) is reserved for duress reporting when that function IS enabled in Address *25,
FUNCTION ADDRESS
ALARM REPORTING
CODES ASSIGNED
TO EACH CHANNEL
*65
ADDRESS FUNCTION
,00
200
3CICI
4CICI
5CICI
6CICI
S3n
8EIU
COMMENTS: Enter all alarm reporting codes as double digits.
Disable =00 (no code reporting).
Note Non-zero codes must be entered when traditional Ademco High
Speed format is used
01=1
02=2
03=3
04=4
05=5
06=6
07=7
08=8
09=9
10=0 ll=B
12=C
13=D
14=E
15=F
ALARM REPORTING
CODES ASSIGNED
TO EACH CHANNEL
(CONT’D)
*66
900
IOouo
,Slcl.
12 CICIC
Karl.
LID, lam
COMMENTS: Enter all alarm reporting codes as double digits
(same as Address *65).
Disable = 00 (no code reporting).
Note: Non-zero codes must be entered when traditional Ademco High S!
format IS used.
FUNCTION ADDRESS
NON-ALARM CODES
*67
NON-ALARM CODES *66
❑
❑
❑
❑
❑
❑
l
n ml-(x,
AC LOSS 2ND DIGIT
❑
0 TROUBLE n o
0
TROUBLE RESTORE
BYPASS
B~PASS RESTORE n RESTORE CODE FOR ALARM,
AC LOSS, LOW BATTERY
COMMENTS: Enter all codes as double digits (same as Address *65).
Disable =00 (no report).
Note: Non-zero codes must be entered when traditional Ademco High
Speed format IS used.
❑
❑ o
OPEN o CLOSE
FUNCTION ADDRESS
*68
(CONT’D)
❑
❑
❑
❑
❑
❑ n n o o
LOW BATTERY
LOW BATTERY 2ND DIGIT
TEST
0 ‘POWER UP 1 o
NOT USED
COMMENTS: Enter all codes as double digits (same as Address *65).
Disable =00 (no reporl).
Note: Non-zero codes must be entered when traditional Ademco High
Speed format is used.
*When 4+2 format is used, the 2nd digit of the event code is always “0”
NOTES:
] After a power reset, or after exiting the Program mode, this code will be sent.
Z If system is shut down by using a security code while a burglary alarm is sounding, this code will be sent. (Not sent for 24-hour zones).
A Cancel in traditional Ademco High Speed format is the same as an
Opening Report for user 15 and should not be used together.
FUNCTION ADDRESS
To disable Restore reports, program all locations in Addressee *69 -*71 as “O”.
ZONE TYPES 1-4
RESTORE REPORT
ENABLE
*,,
0000
(See Address *O2 for Response types)
COMMENTS: Enables Restore reporting for individual zone types. Enter 1 to select restore reporting for the zone type: enter O to inhibit restore reports.
ZONE TYPES 5-8
RESTORE REPORT
ENABLE
*,O Unl%l (See Address *O2 for Response types),
COMMENTS: Enables Restore reporting forlndividual zone types Enter ltoselect type; enter O to inhibit restore reports restore reporting forthe zone
ZONE TYPES 9 AND
10 RESTORE REPORT
ENABLE
*71
9
❑ n
10
(See Address *O2 for Response types).
COMMENTS.
Enables Restore reporting forindlvldual zone types. Enter ltoselect restore reportmgfor the zone type; enter O to inhibit restore reports,
INTRODUCTION TO FIELD ADDRESSES 72-81
In order to make it easier for an installer to understand expanded zone reporting, an explanation and an illustrative example are given first.
Bearing in mind that a 2-digit reporting code is utilized, let us discuss how zones 1-17, Duress, Zone Expander Supervisory, and the 3 keypad panics (1 & *, 3 &#, and * &#) can be coded. 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 zone within that type.
NOTES:
1, Two-digit entries are required because hexadecimal entries are allowed (O-9, B-F) = (00-15) for fields 72-81
2 Users of the Ademco CAPS Automation System are cautioned not to assign 78 or 8C for any report, as these codes are reserved.
3 If Ademco High Speed Format IS selected in either Addresses *46
or *48 and the 4+2 Expanded Zone Format is selected in Address
*53, a very fast 4+2 Format is created that uses DTMF (Touchstone@) signalllng instead of pulses. Actually, 9 digits are transmitted but only
10
11
12
13
8
9
6
7
4
5
2
3
14
15
16
17
Duress
Zone Expander
Supervisory
1 & * Panic
3 & # Panic
* & # Panic the 4+2 portion of the message is ever seen on the central station receiver’s display or printer. This High Speed 4+2 format is currently only compatible with Ademco No. 685 Digital Receiver operating with
EXAMPLE:
An example of code assignments IS given below:
Zone Alarm
25
26
27
28
;:
22
23
24
10
29
2B
11
12
13
14
15
16
17
2D
2E
2F
Trouble
31
32
33
41
42
43
44
::
36
37
39
45
46
47
48
30
49
4B
4D
4E
4F
Bypass
51
52
53
59
61
62
63
54
55
56
57
64
65
66
67
68
50
69
5B
5D
5E
5F
Revision 4.3 software or higher and has a message transmission of well under 5 seconds.
Alarm
Restore
71
72
73
79
81
82
83
74
75
76
77
84
85
86
87
88
70
89
8B
8D
8E
8F
Trouble
Restore
01
02
03
04
05
06
95
96
97
99
91
92
93
94
07
08
90
09
OB
OD
OE
OF
Bypass
Restore
El
E2
E3
E4
E5
D5
D6
D7
D9
DI
D2
D3
D4
E6
E7
E8
DO
E9
EB
ED
EE
EF time
NOTES:
4. English language on the Ademco 685 Digital Receiver should not be used for most of these reports
5. Note that B and C are not used for leading digts m the above table. 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 so that an au!omat~on system can be given the appropriate information
FUNCTION ADDRESS FUNCTION ADDRESS
4+2 ExpANDED
FORMAT ZONES
1-8 EVENT DIGIT
(Ist digjt of reporting code)
*72
❑
❑
❑
❑
❑
CIALARM n m n n
TROUBLE
BYPASS
ALARM RESTORE
TROUBLE RESTORE
❑ n BYPASS RESTORE
COMMENTS: The firs! digit of the 2 digit event code used to report alarm, trouble, bypass and their restores for zones 1-8. Enter all reporf ing codes asdoubledigits (see
Address *65). Disable =00 (no code reporting)
4+2 ExpANDED
FORMAT ZONES
9-16 EVENT DIGIT
(lst digit of reporting code)
*73
❑
❑
❑
❑
❑
UALARM
0
0 n n
TROUBLE
,,,,,s
ALARM RESTORE
TROUBLE RESTORE
❑ n BYPASS RESTORE
COMMENTS:The firstdigitofthe2 digit event code used to report alarm, trouble, bypass and their restores for zones 9-16. Enter all repotiing codes asdoubledigits (see
Address *65) Disable =OO(no code reporting)
FUNCTION
4+2 EXPANDED
FORMAT ZONE
EVENT DIGIT
(Ist digit of reporting code)
17
ADDRESS
*74
4+2 EXPANDED
FORMAT KEYPAD
PANICS/ZONE
EXPANDER WIRING
SUPERVISORY EVENT
DIGIT (Ist digit of reporting code)
*75
❑
❑
❑
❑
❑ n lcl n n n
ALARM
TROUBLE
BYPASS
ALARM RESTORE
TROUBLE RESTORE
❑ n BYPASS RESTORE
❑
❑
❑
COMMENTS: The first digit of the 2 digit event code used to report alarm, trouble, bypass and their restores for zone 17. Enter all reporting codes as double digits (see Address
*65). Disable = 00 (no code reporting)
❑
❑ o n
ALARM
TROUBLE n n n
BYPASS
ALARM RESTORE
TROUBLE RESTORE
FUNCTION
*75
(CONT’D)
4+2 Ej(pANDED
FORMAT ZONES
1-8 ID DIGIT
(2nd digit of reporting code)
ADDRESS
*76
Z6
Z1
Z2
Z3
Z4
Z5
Z7
Z8
❑
❑ n
0
❑ n
❑
❑
❑
l
n o
❑
❑ n u
❑ o
BYPASS RESTORE
COMMENTS: The first digit of the 2 digit event code used to report alarm, trouble, bypass and their restores for various keypad panics
(duress, * &#, 1 &*, and 3 & #) and for supervision of the wiring (for short circuits) to the zone expander.
Enter all reporting codes as double digits (see Address *65). Disable =
00 (no code reporting).
COMMENTS The second dtglt of the 2 dlglt event code used to report alarm, trouble, bypass and their restores for zones 1-8
Enter all reporting codes as double dlglts (see Address
*65). Disable = 00 (no code reporting)
FUNCTION
4+2 EXPANDED
FORMAT ZONES
9-16 ID DIGIT
(2nd digit of reporting code)
ADDRESS
*77
Z9
❑ n
*II
Zloncl
❑ u
Z1213cl
moo
Z14UU z15nn z16ncl
COMMENTS: The second dig!t of the 2 digit event code used to report alarm, trouble, bypass and their restores for zones 9-16. Enter all reporting codes as double digits
(see Address *65). Disable =00 (no code reporting)
FUNCTION
4+2 EXPANDED
FORMAT ZONE
17 ID DIGIT
(2nd digit of reporting code)
ADDRESS
*78 mnn
Eim
ImII
•~ Zeroes to reentered
Elm
EIEI
Em
Em
COMMENTS: The second digit of the 2 digit event code used to report alarm, trouble, bypass and their restores for zone 17. Enter the reporting code as a double digit (see
Address *65) in the first field
Iocallon (enter 00 in the other seven fields) Disable = 00 (no code reporting)
FUNCTION
4+2 EXPANDED
FORMAT KEYPAD
PANICS/ZONE
EXPANDER WIRING
SUPERVISORY
DIGIT (2nd digit
ID of reporting code
ADDRESS
*79
FUNCTION
EIEI
EIEI
Zeroes to be entered
ImI
❑
U
❑
Duress o
Short in Wiring to
Zone Expander
❑ o 1 & * Panic
❑ o
3 & # Panic cm*
& # p~ni~
COMMENTS: The second digit of the 2 digit event code used to report alarm, trouble, bypass and their restores for various keypad panics (duress, * &#, 1 &*, and 3
&#) and for supervision of the wiring (for short circuits) to the zone expander.
Enter all reporting codes as double digits (see
Address *65). Disable = 00 (no code reporting).
4+2 EXPANDED
FORMAT NON-ALARM
CODES
ADDRESS
*8CI
❑
❑
D n
CLOSE REPORT (1st digit)
CLOSE REPORT (2nd digit)
❑
❑ n
0
OPEN REPORT (1st digit)
OPEN REPORT (2nd digit)
❑
❑
0 n
LOW BATT REPORT (1 S1digit)
LOW BATT REPORT
(2nd digit)
❑
❑
l
ln
LOW BATT RESTORE
REPORT (1 St dlait)
‘ “
REPORT (2nd digit)
❑
0 TEST REPORT (1st d!git)
❑ o
COMMENTS:
TEST REPORT (2nd digit)
●
●
Enter all reporting codes as double digits (see Address *65).
Disable =00 (no code reporting)7T both Ist and 2nd digits are so programmed
1st digit of Close Report must be C
(hex 12) if English printout of
ADDRESS FUNCTION
4+2 EXPANDED
FORMAT NON-ALARM
CODES (CONT’D)
*81
●
●
“close” E desired on Ademco No. 685 Recewer or if closlng by user is to be processed on an Ademco AutomatIon System
1st digit of Open Report must be B (hex 11 ) if English printout of
“open” is desired on Ademco No. 685 Receiver or if opemng by user is to be processed on an Ademco Automation System.
The 2nd digit of both the Close and Open Reports represents the user ID for the Installation Company Security Code. User
No. 2 is automatically assigned an ID one higher than this code
(e.g., if 01 is keyed, User 2 reports as 2, User 3 as 3, etc...)
❑
❑ o o
POWER UP REPORT (1 st digit)
POWER UP/DOWNLOAD
ATTEMPT REPORT CODES (2nd digit)
Izn
❑
ln
❑ o cm
AC LOSS REPORT (1 St dglt)
AC LOSS REPORT (2nd digit)
AC RESTORE REPORT (1st digit)
AC RESTORE REPORT
(2nd digit)
Em
Em
❑
0
❑
0
Not used -
Zeroes to be Entered
Not used -
Zeroes to be Entered
CANCEL REPORT (1st dig[t)
CANCEL REPORT (2nd digit)
COMMENTS:
●
Power Up E transmitted after a power reset or after exiting the
Program Mode.
o Cancel is transmitted if system is shut down while a burglary alarm is sounding.
. Enter all reporting codes as double digits (see Address *65).
Disable = 00 (no code reporting) if both 1st and 2nd digits are so programmed
FUNCTION
ALARM COUNT
ADDRESS
*82
TEST REPORT
INITIATION TIME
ADEMCO HIGH SPEED
FORMAT USED ON
WATS LINES
DO NOT USE
ZONE EXPANDER
TYPE SELECTION
*83
’85
*86
❑ o
COMMENTS: Enter 01-15.
This option limits the number of messages Alarms or Troubles) sent for a specific channel in an armed period (Swinger Suppression) before additional reports from that channel are inhibited. This selection is system-wide.
❑ n
COMMENTS: Enter the time in hours from the time that the programming mode is exited that the first test report shall be transmitted.
00 entry signifies immediately upon exiting. 01-31 represents the range in hours that can be selected,
❑
COMMENTS: Enter 1 if Ademco High Speed Format (either traditional or 4+2 versions) will be transmitted on 800/WATS lines where satellite links may be used. Enter O if other formats are selected or if local telco lines are being used.
•10 MUST BE ZERO
COMMENTS: This field is otherwise used for subzone control enable. It is recommended that a
4130NI be used to perform that function instead, for monetary savings.
❑
COMMENTS: Enter 1 if No. 4208 Eight Zone Expander is being used. Enter O if other VECTOR type
RPMs are being used to expand the number of zones. Imporianti See the section on an earlier page entftled “Zone Expansion” for proper configuration of the No. 4208.
After installation is completed, the Security System should be carefully tested.
1. With the System in the disarmed state, check that all zones are intact.
If NOT READY is displayed, press READY key to display the faulted zone(s). Restore faulted zone (s) if necessary, so that READY is displayed.
2. Enter the security code and press the TEST key The external sounder (if used) should sound for 3 seconds and then turn off (the system is operating on the back-up battery only at this time).
Note 1. The system will not enter the TEST mode, (f the battery voltage is too low, if Ihe battery is not connected, or if any communication messages are pending their transmission.
Note 2. As a reminder that the system is in the TEST mode, the Control will sound a single beep at 15-second intervals if no protection zones are violated.
Note 3. In the TEST mode, no reports will be sent to the central station.
Note 4. In TEST mode, the external sounder (if used) will not activate
3. Doors and windows: Open and close each protected door and window in turn. Each action should produce three beeps from the
Control. The identification numbers for each protection zone WIII aPPear on the Control display,
4. Motion detector= Walk in front of any interior motion detectors (if used). Lislen for three beeps when the detector senses movement
While it is activated, its identification number will remain displayed on the Control.
5, Smoke detectors: Follow the test procedure provided by the manufacturer of each smoke detector to ensure that all detectors are operational and are functioning properly. Note: A Zone 1 2-wire smoke detector display will not clear until the Test mode is exited.
6. To turn off the TEST mode, enter the security code and press the
OFF key.
A message WIII be sent to the central station during the following tests.
No(lfy the central station that a lest will be in progress
NOTE: A display of “FC mdlcates a failure to communicate (no Kissoff by the receiver at the central sta~ion after the maximum number of transmleslon attempts is tried).
7 Arm the system and fault one or more zones.”Silence alarm sounder(s) each time by entering the code and pressing OFF. Check Entry/Exit delay zones
8 Check the keypad-initiated alarms by simultaneously pressing the
Panic keys (* and #, land *, and/or 3 and #). If the system has been programmed for audible emergency, the Control will emit a loud, steady alarm sound, and ALARM and “99” will be displayed for * and
# (if 1 and * are pressed, “95” wdl be displayed; If 3 and # are pressed, “96” will be dmplayed). Silence the alarm by entering the security code and pressing OFF.
If the system has been programmed for silent emergency, there will be no audible alarms or displays, but a report will be sent to the central station.
Notify the central station that all tests are finished, and verify results with them.
1. Fully explain the operation of the System to the user by going over each of its functions as well as the User’s Manual supplied.
2. In particular, explain the operalion of each zone (entry/exit, perimeter, interior, fire, etc.). Be sure the user understands how to operate any
Emergency feature(s) programmed into the System. Important In the spaces provided m the User’s Manual, record the Entry and Exil Delay times, and those functions that have been programmed into the available pairs of “Emergency” keys (* and #, 1 and *, 3 and #).
3. Make sure the user understands the importance of testing the system at least weekly, following the procedure provided in the User’s Manual,
Regular maintenance are vital to continuous
The installer should and inspection
TO THE INSTALLER
(at least annually) satisfactory assume the operation responsibility by the installer and frequent of any alarm system.
of developing and offering testing bytheuser a regular maintenance program to the user as well as acquainting alarm system and its component parts.
the user
Recommendations with the proper must operation be included and limitations for a specific of the program of frequent testing (at least weekly) to insure the system’s proper operation at all times.
The system will store up to 10 days worth of alarm and trouble messages for display to service personnel w!th the following procedure:
Enter” Security Code plus O
The system’s alarm memory retains all events for a period of 10 days,
starting with the iirst event that occurs. Upon expiration of the 10-day period, all history IS automatically erased and the alarm memory wdl reset, However, the 10-day cycle will start again only when the next event occwa.
Recall by service personnel (using the entry indicated above) w(II display all events that have occurred from the start of the 10-day cycle to the time of recall (recall always terminates a 10-day cycle). The LCD display on the Control will indicate the number of the zone in which the event occurred (e.g., 01, 02, etc,), accompanied by the appearance of the word
CHECK (trouble), ALARM and, if applicable, FIRE, to describe the type of event that occurred in the displayed zone. If more than one event had occurred, the events wtll be displayed in zone sequence Each dtsplay will appear for 1-2 seconds, then disappear.
When all information has been displayed and noted, the recall mode is exited by entering:
Security Code plus OFF
At this point, ail exsting memory is erased and the alarm memory is reset. The 10-day cycle will start again only when the next event occurs.
Two fuses (Battery fuse and Auxiliary Power fuse) are located on Ihe underside of the mam circuit board in the 4130 XT, To replace either of these fuses, proceed as follows”
1. Remove the4130XT from ltsback cover (lf present) The4130XTls released by removing the screw under the namepiate on the front panel (see Diag 7)
2. If installed, temporarily remove the optional No. 4152LM Laop Module
(Diagram 5 shows assembly details). Removal of the Comrnunlcations Interface board is not necessary.
3. Remove the 24-pin interface connector (f[eld wlnng) To facilitate removal, squeeze the tab at top of connector and pull outward wlfh a side-to-side “rocking” motion.
4. Remove the 10-pin Remote Keypad connector (if used)
5 To remove the 4130XT’S main circuit board, first remove the single securing screw shown in Diagram 10 (adjacent to the Remote Keypad mlerface). Then pull each of the two flexible plastlc “clasps” away from the board to release their hold on one side of the board, and ease the board out, away from the three small plastic clasps on the other s!de.
6 The two fuses are located on the underside of the main clrcwt board in the posftions shown I!) Diagram 10. Make sure that the fuses are
Inserted tn their correct Iocat]ons Use exact replacements only.
7 To re-install the board, insert one edge of the board into the notches
In the three smaller plast!c clasps f{rst, then push the other side of the board down so that the two larger clasps snap mto place over the edge of the board, holdlng it In place. Make sure that all keys clear the openings in the front panel and can operate freely.
8. Insert the screw (prewously removed) to secure the board lmpor- tank It is essential that this screw be replaced.
9. Re-install the No. 4152LM Loop Module (if removed previously)
10. Reconnect the 10-ptn Remote Keypad connector (If used), the 24-pin interface connector, and attach the 4130XT 10 Its back cover
(If used).
VIEW A FUSES LOCATED
BATTERY FUSE
2A ,SLO% LO\
,mx,
AUK
OSA
&
FUSE
t’
SOUNDER
,w>s,
P’
VIEW A I
Note: Fuse types used (5 x 20mm European style) are not readily available from electrical supply house and should be Inventoried by the installer by pre-ordering from Ademco.
Alternatively, these fuses are available at Radio Shack stores.
\
FLEX, ELE PLA$T, C
CLASPS (2 THIS S! DE,
Diagram 10. REMOVING THE MAIN CIRCUIT BOARD FOR FUSE REPLACEMENT
BOARO
,\
Description
DC Power Pack -11 OV AC Input, 18V DC
Output (700 mA max output)
Aux Power Fuse (k
Plastic Standoffs
Amp)
Battery Fuse (2 Amp, slo-blo)’
Trim Ring (for covering overcut walls)
(for mounting 4171 XT)
Part No.
No, 1350
No. 90-25
No.
90-24
N3724
N4062-1
10-Pin Male-to-Male Adapter-straight (for4131 /41 47) N3707-I O
24-Pin Connector [with 18“ (46 cm) leads] SA41 30-10
Digital Communication Interface Board
1O-Pm Connector (for 4131 /41 47)
[with 12“ (30 cm) flying leads]
13-Pin Male-to-Male Adapter
(41 71XT to 4130XT interface)
Battery (12V, 1.2 AH)
12“ (30 cm) Battery
Front Panel Inserl
Leads, Red & Black
[VISTA XT Logo)
No,
4171XT
SA4131 -10
N3322-I 3
No. 484
(YUASA NPI212)
SA41 30-4
N3043-3
No. 4137
No. 4157
No. 4131
No. 4132
No.
4132-1
No. 4133
No.
4134-8
No. 4134-15
No. 4136
No. 4141-30
Remote VISTA Console
Remote VECTOR Console.
Remote Keypad.
Battery Backbox,
Cover for Battery Backbox, required for
UL Listed installations,
Rough-in Ring.
8“ x 8“ x 2“ (20 cm x 20 cm x 5 cm) Metal Cabinet
12” x 12” X 3“ (30 cm x 30 cm x 7.5 cm)
Metal Cabinet
Cover Plate for Rough-In Ring, Stainless Steel.
24-Pin Connector with 30’ (9 m) wiring harness.
No. 4141-15
No. 4~43
No. 4147
No. 740
No. 4148
No.
4152LM
No.
4208
BRK PA400B
No. 90-28
Same as above, but with 15’ (4.6 m) wiring harness.
Extender Ring for surface mounting 4130XT control with No. 4171 XT Communication Interface board.
Remote Keypad, VISTA look alike
High Intensity Alarm Sounder (for outdoor use, mount in No. 742BE Box).
Relay Module.
28 amp rated SPDT contacts
Zone Expander Interface.
8-Zone Expander.
Piezoelectric Sounder, 90dB output, mounts m single-gang box.
3A SLO-BLO No. 4148 Relay Module fuse
“FEDERAL COMMUNICATIONS COMMISSION (FCC) STATEMENT”
This equipment statement for has been tested to FCC requirements your information: and has been found acceptable for use. The FCC requires the following
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 interference 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 interference by one or more of the following measures:
●
●
If using an indoor antenna, have a quality outdoor antenna installed.
Reorient the receiving antenna until interference is reduced or eliminated
●
●
●
Move the receiver away from the control/communicator.
Move the antenna leads away from any wire runs to the control/communicator.
plug the Control/Communicator into a different outlet so that it and the receiver are on different branch circuits.
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:
“HOW to Identify and Resolve Radio-TV Interference
This booklet is available from the U.S. Government
Problems.”
Printing Office, Washington, DC 20402 Stock No. 004-000-00345-4.
IN THE EVENT OF TELEPHONE
In the event of terephone operational problems, disconnect the control/communicator by removing the plug from the RJ31X/RJ32X jack.
We recommend that the installer demonstrate disconnecting the phones on Installation of the system.
Do not disconnect the phone connection inside the control/communicator.
Doing so will result in the loss of the phone fines. If the regular phone works correctly after the control/communicator has been disconnected from the phone
OPERATIONAL PROBLEMS
Iines, the control/communicator returned for repair.
has a problem and should be
If upon disconnection of the control/communicator, there is still a
“problem on your line, notify the telephone company that they have a problem and request prompt repair service. The user may not under any circumstances (in or out of warranty) attempt any service or repairs on the system. It must be returned to the factory or an authorized service agency for all repairs.
4130XT SECURITY CONTROL:
1. Physical: Width:
Height:
Depth
2. Electrical
VOLTAGE INPUT:
8.4 inches (21.3 cm)
4.75 inches (12.l
cm)
1.1 inches (2.8 cm)
18 VDC (from plug-in Power Pack,
Ademco No. 1350), 700 mA max
RECHARGEABLE
BACK-UP BATTERY:
ALARM SOUNDER”
12 VDC, 1.2 AH (Yuasa NP1212 or Ademco
No. 484) (alternatively, a 4 AH Ademco No
486 may be used).
Built-in piezoelectric sounder; 85 db at 10 feet. Sound produced is selectable as
“steady” (in compliance with UL 85db output requirement) or “sweeping” (for non-
UL usage).
Optional external 12V Piezo-electric alarm sounder (100 mA max). (Ademco No.
740 or BRK PA400B).
Optional 12V motor-driven Bell
(100ma max.)
(AMSECO MSB1O-G or ABB-1031 ).
Optional dry contact relay (2.8 A max. contact rahng @ 28V DC), Ademco No. 4148. Can drive No. 719 or No. 702 siren.
AUXILIARY
POWER OUTPUT:
STANDBY:
FUSES:
10.4 -13.8 VDC (200 mA MAX., 280 mA for non-UL usage)
2.5 Hours with 200 mA standby current load. 5 Hours with no external current load.
Battery Fuse: 2 A, SIO-BIO (Ademco No.
90-24)
Auxiliary Power: 0.5 A (Ademco No. 90-25)
4171XT DIGITAL COMMUNICATION
1. Physical:
INTERFACE BOARD:
5-?4” (1 4,8 cm) x
3-%” (8,25 cm) x 7/8”
(2,2 cm) (approx.)
2. Functional:
Line Seize:
Ringer Equivalence:
FCC Registration No.:
FORMATS SUPPORTED:
Ademco High Spead, 10 characters/see,
DTMF (Touchstone@)
Data Tones, 1400/2300 Hz ACK, 1400 Hz
KISSOFF
Ademco Low Speed, 10 pulses/see,
1900Hz Data Tone, 1400 Hz ACK/
KISSOFF.
SESCOA, 20 puises/see, 1800Hz Data
Tone, 2300 Hz ACK/KISSOFF, Variable
Interdigit Timing (Use for code reports O-9)
RADIONICS, 20 puises/see, 1800 Hz
Data Tone, 2300 Hz ACK/ KISSOFF. Fixed
Interdigit Timing (Use for code reports
O-9, B-F).
Double Pole
0.7B
AC 398 U-681 92-AL-E
4137 REMOTE CONSOLE
1. Physical:
2. Electrical:
Width:
Height:
Depth
Voltage Input:
Current Drain:
8.4 inches (21.3 cm)
4.75 inches (12 1 cm)
1.1 inches (2,8 cm)
12V DC (and optionally
100 mA
18VDC)
3. Intertace W\ring: RED:
BLUE:
GREEN:
YELLOW:
BLACK:
4157 REMOTE CONSOLE:
1. Physicel: Width:
Height:
Depth:
2. Electrical
3. Interface Wiring
Voltage input:
Current Drain:
RED:
GREEN:
YELLOW:
BLACK:
WHITE:
12 VDC input (+) —auxiliary power or for battery backup power if No. 1350 is used to separately power the
Console(s).
18V DC input (+) —
Optional, power from (+) output of separate No. 1350 Power
Pack.
Data in
Data Out
Ground (aiso connects to (-) output of optional
No 1350
Power Pack above)
6-%” (16.5
Cm)
4“ (10.2 cm)
1“ (2.5 cm)
12V DC
120 rmA
12V DC input power
Data In
Data Out
Ground
Auxiliary Sounder (No 706-1 2)
(optional)
(+) connection
4131/4147 REMOTE KEYPAD:
1. Physical: Width:
Height:
Depth:
4131
2-%” (73 cm)
4-Shi’(11 7 cm)
1” (,2.5 cm)
2. Electrical:
3. Interface Wiring
4147
84” [21.3 cm)
475” (12.1 cm)
1,1” (2.8 cm)
Voltage Input 5VDC
Current Dram: 20 mA
Note Maximum of fwe 4131 can be supported.
4147 keypads
1 (BLACK):
2 (wHITE):
3 (RED):
4 (GRAY):
5 (GREEN):
6 (BLUE):
7 (YELLOW):
8 (BROWN)’
9 (VIOLET):
10 (ORANGE):
Keypad OL
Keypad Ot
>Ut
YJt
Keypad O\
Keypad 0[ out
Keypad Ot
Arming status
2ut yut, RED LED
Keypad Output, GREEN LED
Ready status
Keypad Output
+5VDC @20 mA Input Power
Piezoelectric Sounder Input
Ground
4152LM LOOP MODULE
1. Physicak
(Overall)
2. Electrical
3. Intertace Wiring:
Width:
Hetght’
Depth:
3-K” (8 cm)
5/6” (1.6 cm)
2-5/8” (6.7 cm} voltage Output: 7-11 volts [w/l KHz
Modulation)
Current Output: 65 mA
Terminal 1:
Terminal 2:
:.; ;;
4. Wiring Run Permitted to No. 4208 Zone Expander (or other
VECTOR RPMS):
Wire Gauge
22 (0.64 mm O.D.)
20 (0.81 mm O.D,)
18 (1.0 mm O.D.)
16 (1 3 mm O.D.)
Max. Wire Run
650 ft (200 m)
950 ft (290 m)
1500 ft (460 m)
2400 ft (730 m)
4208 ZONE EXPANDER
1.
Physical:
2. Electrical:
Width
Height:
Depth:
Voltage Input
Current Drain:
3-7/8” (9.8 cm)
7“(178 cm)
1-3/8” (3.5 m)
8-11 Volts
(w/l
KHz
Modulation)
16 mA
CABINET MOUNTING THE 4130XT
In buildings using concrete, cinder block or brick wall construction, the
4130XT Security Control can be installed in a wall-mounted metal cabinet. This cabinet, which measures 8“ (20. 3 cm) W x 8“ (20.3 cm) H x 2“ (5 cm) D, is available under part No, 4134-8. The 4130XT Control is mounted in a cut-out in the door of the cabinet, with the function keys,
LEDs and display accessible.
The back-up battery is installed within the cabinet Also available for use within the cabinet are connector blocks with which the 4130XT’S flying leads can be tied to the interface wiring
(from protection zones, etc.). See Diagram B.
Mounting the 4130XT in the Cabinet
Note that there is a mounting flange on each side of the opening m the cabinet door.The Control is secured to these flanges with the two selftappmg screws supphed. Positton the Control (wtlh back cover removed) in the opening and secure as follows, referring to Diagram A.
On the left-hand side, insert the No. 6 x 1” self-tapping screw through the front of the Control into the left flange as shown, and secure. Do not fully t!ghten yet.
To secure the right-hand .wde, mserf the No, 4 x %“ self-tapping screw into the other flange from the rear. and screw into the slot in the plastic at the rear of the Control, as shown, Making sure the Control is straight, tighten this screw fully,
Fully tighten the screw on the other side, then insert the VISTA XT nameplate into the recess to cover the screw, as shown in Diagram A.
Mounting Cabinet on Wall:
Four holes have been prowded m the back of the cabinet for mounting purposes -2 keyhole slots at the top and 2 holes at the bottom. Knockouts are prowded at the sides [% “(2.2cm) diameter], plus one at the rear
[1 -%” (4.5 cm) diameter].
1. If the interface wiring is being brought through the wall, make the required opening In the wall for the wmrig.
2. Remove the desired knockout m the cabinet to allow entry of the interface wiring.
3. Place the cabinet on the wall m the desired position and mark the locations of the mounting holes.
Note The cabinet may be mounted with only 2 screws at the keyhole slots, if desired.
4. Drill mounting holes in the wall and insert anchors. Mounl the cabinet securely to the wall with four (or 2) screws.
—
Wiring Connections:
When the Security Control is cabinet-mounted, the flylng leads from the
24-pin connector are connected to the interface wires via the terminal blocks provided, as shown in Diagram B. The 12-volt back-up battery is also installed in the cabinet, and connected to the appropriate terminals on TB3, using the two 12-inch (30.5 cm) leads supplied (Red and Black), as shown. The wiring connections are essentially the same as mdlcaled in Diagram 1 (Summary of Connections diagram) except for the termmal blocks shown in Diagram B which are used in place of splices.
instructions for connection of the optional Remole Keypad and installationand wiring of the digital communication interface board, 4152LM
Loop Module and 4208 Zone Expander are provided in a previous section of this manual (see Index),
After all wiring connections are completed, plug the 24-pw interface connector into the rear of the Control.
INSERT NAMEPLATE
INTO REcESSED
AREA ICOVERS SCREW) r---+ I
II
~
NO. 6x tSELF-
TAPPING 5CREW
{INSERT FROM FRONT)
Vl}~ A
CONTROL
~
DOOR OF CABINET [2) i
No. ‘1 X l/~~ELF-
TAPPING SCREW
IINSERT FROM REAR)
Diagram A. MOUNTING THE 4130XT
IN CABINET
No.
4134-8
~
GO:?ROL
a
o
CABINET (No. 4134-8)
—TB1—
— TB2 —
0
24. PIN CONNECTOR
(SEE DIAGRAM 1)
~
1 W
, TB3 ,
000
REAR OF
CONTROL
]
?
—~
\
COVER SHOWN HINGED OOWNWARD
‘=ill
ORANGE
WHT/BROWN
WHTIRED
PINK
WHTIORANGE
WHT/YELLOW
TAN
WHTIGREEN
WHTIBLUE
WI+ TIVIOLET
=iil!l
GRAY
WHT)GRAY
WHT/BLACK
REDIYELLOW
BROWN
RED/BIACK
YELLOW
GREEN
VIOLET
WHITE
BLUE
RED/GREEN
BLACK
RED
T81
1
7
TB2
ZONE 1 + (WHEN NC SENSORS ARE USED)
ZONE 1 RETURN
ZONE2 +
ZONE RETURN
ZONE3 +
ZONE4 +
ZONE RETURN
ZONE5
ZONE6
ZONE7
+
+
+
ZONE RETURN
ZONE6 +
ZONE9
ZONE1
+
+iWHEN2.WIRE
SMOKE OETECTORSAREUSED)
EXT. ALARM SQUNDER I –)
AUXJREMOTE CONSOLE/EXT ALARM SOUNDER PWR ( + I
DATA OUT (YELLOW REMOTE CONSOLEI
DATA IN (GREEN REMOTE CONSOLE)
GROUNDIAUX PVVR ( - )
EARTH GROUND
TB31234
F==iil===c
1
‘m
I
12” BAITERY LEAOSISUPPLIEO)
+-
TO NO 1350
POWER PACK
Diagram B. INTERFACE WIRING WHEN THE CONTROL IS CABINET MOUNTED
THE LIMITATIONS
WARNING
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 disconnect an alarm warning device.
openings or have the technical sophistication to bypass an alarm sensor or
● 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 s5°/0 of 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 where 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, escaping gas, improper storage of flammable materials, overloaded electrical circuits, children cJavina with matches, or arson. DerIendino on the nature of the fire and/or the locations of the smoke detectors, the detector: evbn ;f it operates as anticipated, may no; prowde sufficient warning to allow all occupants to escape in time to prevent injury or death,
●
●
●
Passive Infrared Motion Detectors can only detect intrusion within the designed ranges as diagramed in their installation manual. Passive Infrared Detectors do not provide volumetric area protection, They do create multiple beams of protection, and intrusion can only be detected in unobstructed areas covered by those beams, They cannot detect motion or intrusion that takes place behind walls, ceilings, floors, closed doors, glass partitions, glass doors, or windows, Mechanical tampering, masking, painting or spraying of any material on the mirrors, windows or any part of the optical system can reduce their detection ability. Passive Infrared Detectors sense changes in temperature; however, as the ambient temperature of the protected area approaches the temperature range of 90° to 150° F, the detection performance can decrease.
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 sound on a different level of the residence from the bedrooms, then they are less likely to waken or alert people inside the bedrooms. Even persons who are awake may not hear the warning if the alarm is muffled from a stereo, radio, air conditioner or other appliance, 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,
● Even if the system responds to the emergency as intended, however, occupants may have insufficient time to protect themselves from the emergency situation. In the case of a monitored alarm system, authorities may not respond appropriately.
.
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 inadequate maintenance.
This alarm system should be tested weekly to make sure all sensors are working properly.
Installing an alarm system may make one eliglble 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,
ADEMCO
ONE YEAR LIMITED WARRANTY
Alarm Device Manufacturing Company, a Division of Pittway Corporation (“Seller”), 165 Eileen Way, Syosset, New York 11791, warrants its security equipment (the “product”) to be free from defects in materials and workmanship for one year from date of original purchase, under normal use and service. Seller' sobligation islimited torepairing orreplacing, atitsoption, free ofcharge forparts, labor, ortransportation, anypartproven to be defective in materials or workmanship under normal use and service. Seller shall have no obligation under this warranty or otherwise if the product is altered orimproperly repaired orserviced byanyone other than the Selier lncaseof defect, contact thesecutity professional who installed and maintains your security system or the Seller for product repair.
This one year Limited Warra’nty is in lieu of all other express warranties, obligations or liabilities. THERE ARE NO EXPRESS WARRANTIES WHICH
EXTEND BEYOND THE FACE HEREOF. ALL IMPLIED WARRANTIES, OBLIGATIONS OR LIABILITIES MADE BY SELLER IN CONNECTION WITH
THIS PRODUCT, INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, OR FITNESS FOR A PARTICULAR PURPOSE OR OTHER-
WISE, ARE LIMITED IN DURATION TO A PERIOD OF ONE YEAR FROM THE DATE OF ORIGINAL PURCHASE, ANY ACTiON FOR BREACH OF
ANY WARRANTY INCLUDING BUT NOT LIMITED TO ANY IMPLIED WARRANTY OF MERCHANTABILITY, MUST BE BROUGHT WITHIN 18
MONTHS FROM DATE OF ORIGINAL PURCHASE.
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. Some states do not allow limitations on how long an implied warranty lasts or the exclusion or limitation of incidental or consequential damages, sotheabove limitation or exclusion may not apply to you.
Seller does not represent that the 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 occurring without providing an alarm, but it is not insurance or a guarantee that such will not occur or that 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 directly or indirectly, for any loss or damage arising under this Limited Warranty or otherwise, regardless of cause or origin, Seller’s maximum liability shall be the complete and exclusive remedy against Seller. This warranty gives you specific legal rights, and you may also have other rights which vary from slate to state. No increase or alteration, written or verbal, to this warranty is authorized.
N31 22.1
10/88
ALARM DEVICE MANUFACTURING
A DIVISION oF PITTwAY cORpoRAT,~~
CO.
165
Eileen Way, Syosset, New York 11791
Copyright ~ 1988 PITTWAY CORPORATION
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