Installation Manual

Document Number 21I00-1 Rev A October, 2000
Document Number 21I00-1 Rev A October, 2000 Copyright v 2000 HAI All Rights Reserved www.homeauto.com

CONTENTS

INSTALLER SETUP.. 31
SETUP CONTROL...31 X-10 HOUSE CODE..31 X-10 3-PHASE...31 OUTPUT TYPES..31 SETUP ZONES...32 WIRELESS RECEIVER..32 ZONE RESISTORS...32 ZONE RESPONSE TIME...33 ZONE TYPES..33 LATCHING ZONE TYPES..33 DESCRIPTION OF ZONE TYPES..33 SETUP DIGITAL COMMUNICATOR.36 FIRST PHONE NUMBER, FIRST ACCOUNT NUMBER...36 SECOND PHONE NUMBER, SECOND ACCOUNT NUMBER...36 COMMUNICATOR TYPE..37 TWO-WAY AUDIO..37 REPORT OPEN/CLOSE..37 AUTOMATIC TEST TIME..37 ALARM CODES (4/2 and 3/1 Formats)..37 SETUP TEMPERATURES..38 TEMPERATURE DISPLAY..38 THERMOSTAT TYPE...38 SETUP MISCELLANEOUS..39 INSTALLER CODE..39 ENABLE PC ACCESS...39 PC ACCESS CODE...39 CALL BACK PHONE NUMBER..39 OUTSIDE SIREN DELAY..39 DIAL OUT DELAY..40 ALARM RESET TIME..40 ARMING CONFIRMATION.40 FIRE ALARM VERIFICATION.40 SUPERVISE BELL...41 ENABLE EMERGENCY KEYS.41 TIME DISPLAY...41 DATE DISPLAY..41 AC POWER FREQUENCY..41 DEAD LINE DETECT...41 OFF HOOK DETECT..41 PICKUP AFTER HANGUP..41 CLOCK ADJUSTMENT..42 MODEL AND SOFTWARE VERSION.42 RESET SYSTEM EEPROM..42 RESET SYSTEM RAM..42 SETUP EXPANSION..42 MODULE 1 TYPE...42 MODULE 2 TYPE - MODULE 4 TYPE.43 SERIAL 1 RATE..43 SERIAL 2 RATE..43
INTRODUCTION... 5 INSTALLATION.. 5
CONTROLLER HOOKUP... 5 ABOUT SECURITY ZONES.. 7 BURGLAR ZONE HOOKUPS.. 7 ABOUT FIRE ZONES.. 9 TWO-WIRE SMOKE DETECTORS. 9 FOUR-WIRE SMOKE DETECTORS. 9 TELEPHONE CONNECTIONS. 12 LCD CONSOLE HOOKUP.. 14 CONSOLE SETUP... 14 CONSOLE ADDRESS... 14 SOUNDER... 14 KEY CLICK.. 14 KEY BACKLIGHT... 14 VIEWING ADJUSTMENT.. 14 LANGUAGE... 15 EXIT SETUP MODE.. 15 CONSOLE SELF TEST.. 15 BELL OUTPUT... 17 CONTROLLER OUTPUTS.. 18 GENERAL PURPOSE SWITCHING APPLICATIONS.. 18 SOUNDER TRIGGERING.. 18 COMMUNICATOR OUTPUTS. 18 "ARMED" AND "OK TO ARM".. 18 SWITCHED OUTPUT... 18 HOME CONTROL MODULES. 18 REMOTE ARM/DISARM SWITCH.. 19 HAI THERMOSTATS.. 20 PROGRAMMABLE ENERGY SAVER MODULES. 21 OUTDOOR TEMPERATURE, TEMPERATURE SENSORS... 22 BUILT-IN SERIAL INTERFACE.. 24
SYSTEM POWER UP PROCEDURE.. 25
CONSOLE CHECK OUT.. 25 TELEPHONE CHECK OUT... 25 BURGLAR ZONE CHECK OUT.. 26 FIRE ZONE CHECK OUT.. 26 HOME CONTROL CHECKOUT.. 26 CUSTOMER CHECKOUT.. 26 IN CASE OF TROUBLE.. 27 CONSOLES... 27 CONTROLLER.. 27 X-10 TROUBLESHOOTING TIPS. 28
DIGITAL COMMUNICATOR.. 29
DESCRIPTION OF CONTACT ID. 29 DESCRIPTION OF 4/2 FORMAT.. 29 3/1 FORMAT.. 30 OPENING AND CLOSING REPORTS. 30
OMNILT SPECIFICATIONS. 44 UNDERWRITER'S LABORATORIES (UL) INSTALLATION REQUIREMENTS. 45
SMOKE DETECTOR INSTALLATION GUIDELINES.. 46 APPENDIX A CONTACT ID REPORTING FORMAT... 47

FIGURES

FIGURE 1 CONTROLLER HOOKUP.....6 FIGURE 2 - OVERALL CONNECTIONS DIAGRAM....8 FIGURE 3 TWO-WIRE FIRE ZONE CONNECTIONS....10 FIGURE 4 FOUR-WIRE FIRE ZONE CONNECTIONS...11 FIGURE 5 - RJ31X JACK CONNECTIONS....13 FIGURE 6 - CONSOLE CONNECTIONS.....16 FIGURE 7 - BELL CONNECTIONS....17 FIGURE 8 - REMOTE KEYSWITCH CONNECTIONS....19 FIGURE 9 - HAI THERMOSTAT CONNECTIONS.....20 FIGURE 10 - PESM CONNECTIONS.....23 FIGURE 11 - RS-232 CONNECTIONS.....24 FIGURE 12 - RS-485 CONNECTIONS.....24

INTRODUCTION

This installation guide is intended as an aid to installing the OmniLT automation system. The installer should also have thoroughly reviewed and understood the OmniLT Owner's Manual, which has important information regarding final setup of the system. This manual assumes that the installer has a basic understanding of installing a security system. This guide applies to the Model 21A00 OmniLT controller. Refer to the Underwriters Laboratories Installation Requirements section for details in the application of each. Failure to install the OmniLT and its accessories in accordance with the UL Requirements in this manual and in the Owner's Manual, is a violation of the Listing Mark.

1. When using a normally open switch, a 1000-ohm end-of-line resistor must be in parallel with the zone being used. Maximum
loop resistance excluding end-of-line resistor should not exceed 150 ohms. ZONE RESISTORS must be set to "Yes". 2. When using a normally closed switch, a 1000-ohm end-of-line resistor must be put in series with the zone being used if ZONE RESISTORS are set to "Yes". If ZONE RESISTORS are set to "No", the 1000-ohm end-of-line resistor is not used. Maximum loop resistance excluding end-of-line resistor should not exceed 150 ohms. Power motion detectors from AUX 12V. Unused zones may be left open, and should be left at the default setting of AUXILIARY zone types. When Zone 8 is configured to anything other than a Supervised Fire or Gas zone, the Zone 8 Jumper (J9) should be set to the NRM (normal) position. See FIGURE 2 (OVERALL CONNECTIONS DIAGRAM) for configurations of burglary zones.

3. 4. 5.

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COM OUT2 SWITCH 12V (OUTPUT) J9

SMK NRM

(NO) (NC) 1K EOL
SWITCH 12V (OUTPUT) OUT2 ZN Z8 ZONE

WARNING

TO PREVENT RISK FROM ELECTRIC SHOCK, DE-ENERGIZE THIS UNIT AND DISCONNECT TELEPHONE LINES BEFORE SERVICING.
12V 4-WIRE SMOKE ZN ZONE Z8 1K EOL

12V ZN

1K EOL
12V 2-WIRE SMOKE 2-WIRE FIRE ZONE

BURGLARY ZONE

4-WIRE FIRE ZONE

NOTES:

1. ALL CIRCUITS EXCEPT FOR THE BATTERY ARE POWER-LIMITED (CLASS II) 2. AUXILIARY 12V, CONSOLE, AND OUTPUTS ARE INCLUDED IN THE TOTAL DEVICE LOAD, WHICH CANNOT EXCEED 0.5 AMP. IN UL INSTALLATIONS, THE TOTAL DEVICE LOAD CANNOT EXCEED 200mA. 3. SOUNDERS CANNOT EXCEED 1 AMP. IN UL INSTALLATIONS, SOUNDERS CANNOT EXCEED 350mA. CONNECT CABLE TO CONTROLLER, PLUG MODULAR END INTO RJ31X JACK

EARTH GROUND

OUTPUT OUTPUT
SOUNDER CONSOLE(S) TRANSFORMER 16.5VAC 40VA AUXILIARY 12VDC ZONE INPUT ZONE INPUT ZONE INPUT ZONE INPUT ZONE INPUT ZONE INPUT ZONE INPUT ZONE INPUT REMOTE CONTROL THERMOSTAT(S)
FIGURE 2 - OVERALL CONNECTIONS DIAGRAM

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ABOUT FIRE ZONES
The OmniLT system supports normally open (closed for alarm), two-wire or four-wire smoke detectors. Two-wire smoke detectors can only be connected to Zone 8. Four-wire smoke detectors can be connected to any zone (1-8). An external 1000ohm end-of-line resistor must be used for all fire (and gas) zones. When Zone 8 is used as a Supervised Fire (two-wire or fourwire) or Gas zone, the Zone 8 Jumper (J9) must be in the "SMK" (smoke) position. 1. 2. Smoke detectors must be powered from an Output configured as a SWITCHED POWER OUTPUT. End of line resistor: 1000 ohms. Maximum loop resistance EXCLUDING end of line resistor is a 150 ohms. Use HAI Model 1503A0011 End of Line Resistor Assembly in UL Listed Installations. Smoke detectors are reset when the security system is armed.
TWO-WIRE SMOKE DETECTORS OmniLT supports two-wire smoke detectors connected to Zone 8. 1. Use normally open (closed for alarm) two-wire "SYSTEM" type smoke detectors (System Sensor 2100TS or equivalent), rated 8 - 14 VDC. Smoke detectors must be connected to Zone 8 and configured as a Supervised Fire Zone. An external 1000-ohm end-of-line resistor must be used. Connect to the SWITCHED POWER OUTPUT as shown. The Zone 8 Jumper (J9) must be in the SMK (smoke) position. Refer to FIGURE 3 (TWO-WIRE FIRE ZONE CONNECTIONS) for this configuration.

2. 3. 4. 5. 4.

FOUR-WIRE SMOKE DETECTORS OmniLT supports four-wire smoke detectors connected to any zone (1-8). 1. Use normally open (closed for alarm) four-wire "SYSTEM" type smoke detectors (System Sensor 2112/24TR or equivalent), rated 8 - 14 VDC. An End of Line Power Supervision Relay Module (System Sensor A77-716B or equivalent) is required for UL installations. Install 1000-ohm end-of-line resistor as shown. Power the smoke detector from the SWITCHED POWER OUTPUT as shown. When connected to Zone 8, the Jumper (J9) must be in the SMK (smoke) position. Refer to FIGURE 4 (FOUR-WIRE FIRE ZONE CONNECTIONS) for this configuration.

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WHEN Z8 USED FOR SMOKE, J9 MUST BE IN THIS POSITION
SYSTEM SENSOR MODEL 2100TS
THIS OUTPUT MUST BE CONFIGURED AS A SWITCHED OUTPUT BOTTOM PLATE

ZONE ZONE

BOTTOM PLATE
HAI MODEL 1503A0011 1K OHM EOL RESISTOR
FIGURE 3 TWO-WIRE FIRE ZONE CONNECTIONS

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GREEN YELLOW

ZONE ZONE +12V GND

YELLOW
SYSTEM SENSOR MODEL A77-716B EOL POWER SUPERVISION RELAY ZONE POWER

VIOLET

SYSTEM SENSOR MODEL 2112/24TR
THIS OUTPUT MUST BE CONFIGURED AS A SWITCHED OUTPUT
HAI MODEL 1503A0011 1K OHM EOL RESISTOR SYSTEM SENSOR MODEL 2112/24TR

RED RED

FIGURE 4 FOUR-WIRE FIRE ZONE CONNECTIONS

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TELEPHONE CONNECTIONS
1. If an RJ31X jack has been supplied by the telephone company, it is probably wired correctly and the controller can be connected by plugging the supplied 8 conductor telephone cable into the RJ31X jack. The other end of the cable is spaded (remove the spade connectors from the wires used). The green, red, brown, and gray wires must be connected to the controller at the designated terminals under the section of the board marked 'PHONE'. If required, install the supplied RJ31X jack as shown in the following diagram. The polarity must be correct for proper operation of the phone access feature. IT IS IMPERATIVE THAT THE PHONE LINE COMING INTO THE HOUSE BE CONNECTED TO A GROUNDED SURGE ARRESTOR OUTSIDE THE PREMISES. IT IS THE RESPONSIBILITY OF THE TELEPHONE COMPANY TO PROVIDE THIS SURGE ARRESTOR. INSPECT THE INCOMING PHONE LINES. THE FIRST THING THAT THEY SHOULD GO TO IS A SMALL BOX ON THE OUTSIDE OF THE PREMISES. THERE SHOULD BE A HEAVY GROUND WIRE COMING FROM THIS BOX GOING TO A COLD WATER PIPE OR A SEPARATE GROUNDING ROD. IF THERE IS NO SURGE ARRESTOR OR IF THE GROUND WIRE IS MISSING, HAVE THE CUSTOMER INSIST THAT THE TELEPHONE COMPANY INSTALL ONE FOR THE SAFETY OF THE CUSTOMER. WHEN WIRING A RJ31X JACK, MAKE SURE THAT THE INCOMING PHONE LINES GO TO THE TELEPHONE COMPANY SURGE ARRESTOR BEFORE THEY GO TO THE RJ31X JACK. When the RJ31X is installed as shown, locate the green, red, brown, and gray wires from the 8 conductor phone cable and connect to the section on the OmniLT controller marked 'PHONE'. Plug the modular end of the cable into the RJ31X jack. If necessary, bend the tab up on the plug to ensure a tight fit that will not fall out. Verify the following if you have trouble during check out: With the system running, the RJ31X jack properly connected and all phones on-hook (hung up), the PHONE LED, located on the left side of the controller, should be OFF. If it is on, reverse the RED and GREEN wires to both the house phones and the telephone company wires at the RJ31X jack. When the receiver is picked up on any phone, the PHONE LED will come on. When the phone line rings, the PHONE LED will light. If the OmniLT is accessed on an in house telephone, the OmniLT will disconnect the phones from the phone company lines and supply its own talk voltage to the phones. The PHONE LED will be on in this case.

10. Refer to FIGURE 5 (RJ31X JACK CONNECTIONS) for this configuration.

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BEND TAB UP IF NECESSARY TO ENSURE TIGHT FIT

GREEN(+)

RED(-)
TELEPHONE NETWORK INTERFACE

CUSTOMER ACCESS

SURGE ARRESTOR

RJ11 HOUSE PHONE JACK(S)

TO ALL HOUSE TELEPHONES, KSU, AND COMPUTERS
TO TELCO INTERFACE AT SURGE ARRESTOR
FIGURE 5 - RJ31X JACK CONNECTIONS

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SURGE ARRESTOR MUST BE GROUNDED!

LCD CONSOLE HOOKUP

1. 2. 4 LCD Consoles (Models 11A00-1, 11A00-2, 11A00-9, and 15A00) MAXIMUM per system, subject to power availability. Use 4-conductor 22-gage wire, 1000 feet maximum length. Consoles can be homerun or daisy chained. This length shall be divided by the total number of consoles at the end of the run. For example, for 4 consoles, the maximum length reduces to 250 feet. All LCD Consoles are connected to the same 4 wires, RED (+12), BLK (Ground), YEL (A), GRN (B). The console should be mounted so that the LCD display is at or slightly above eye level. Consoles should be kept out of the reach of young children. A good height is approximately 58 inches from the floor to the bottom of the console enclosure. Remove console face from back plate (slots on bottom of console will release back plate, use a screwdriver). Mount the back plate to the wall. Mounting holes are designed to fit on a single or double gang box, or directly to the wall. Pull the wires from the wall through the opening in the back plate. Splice the wires to the supplied cable. Connect the cable to the connector on the console board (J1). Snap the console face on to the back plate. Remove protective film from the LCD lens. Refer to FIGURE 6 (CONSOLE CONNECTIONS) for this configuration.

CONSOLE SETUP

The console has different operating options that can be setup from the console to the user's preference. If more than one console is being used, it is required that you give each console a different address. You can change the address of a console through the console setup mode. To enter the console setup mode, simultaneously press and hold the 4 and up arrow (!) for approximately 1 second. The console will beep 5 times and enter the setup mode. The top line of the display will indicate what you are doing, followed by the current setting. The bottom line will show a menu of your options. To the lower right corner of the display is the direction arrow(s). Where possible, the up (), down (), and two-headed () arrow characters are shown on the console display to indicate which arrow keys may be pressed at that time. Press the down arrow (") key to advance to the next item. Press the up arrow (!) key to go back to the previous item. CONSOLE ADDRESS If you are installing more than one console, each console must be set to a different address. The default address setting is (1) this is adequate if only one console is being used. The choices at the bottom are 1-16; however, the OmniLT only supports 4 consoles. When making your choice, choose an address between 1-4, then press the # (pound) key. SOUNDER If you wish not to hear the beeper in the console for any reason, the sounder option can be turned off. Select (0) for OFF or (1) for ON, then press the # key. KEY CLICK The sounder makes a click every time a key is pressed. This option may also be turned off. Select (0) for OFF or (1) for ON, then press the # key. KEY BACKLIGHT The keys on the console keypad are lit. The keys can be never lit, always lit, or only lit when the LCD display is lit. Select (0) OFF, (1) for ON, or (2) TIMED, then press the # key. VIEWING ADJUSTMENT This option is an adjustment for the viewing angle of the LCD display. This has been set to its best value at the factory, however, you may wish to tweak it. The display has 20 levels of adjustment. Select (1) for a lower viewing angle, or (2) for a higher viewing angle.

NOTES ON HVAC SYSTEMS 1. Description of the PESM The PESM is a temperature sensor and control relay in a small enclosure that mounts near a central heating, ventilation, and air conditioning (HVAC) system thermostat. The PESM allows the automation system to read the temperature of the area that the HVAC system controls. The relay in the PESM is used to break the 24V RED wire between the thermostat and the HVAC system. When the automation system is in setback mode and the actual temperature is between the LO and HI setpoints, the relay energizes to break the 24V red wire; hence, the HVAC system will no longer operate. In heating season, when the actual temperature falls below the LOW setpoint, the automation system turns the relay in the PESM off, thus restoring power to the thermostat, allowing the thermostat to heat as it normally would under the control of the thermostat. The PESM will cycle the thermostat on and off to maintain the LOW setpoint. In cooling season, when the actual temperature rises above the HI setpoint, the automation system turns the relay in the PESM off and the thermostat will cool as it normally would under the control of the thermostat. The PESM will cycle the thermostat on and off to maintain the HI setpoint. The Red LED on the PESM will illuminate when the PESM is overriding the thermostat. The Red LED will be off when the thermostat is working normally. If the PESM is disconnected from the automation system, the relay will not energize and the HVAC system will operate normally, under the control of the thermostat. 2. Standard Heating and Cooling Systems The PESM is compatible with all mechanical thermostats. Recommended thermostats are simple, round Honeywell T-87 thermostats. For automatic switch-over from heat to cool, consider a Honeywell T-874 (mechanical) or an Enerstat DSL-300 (electronic) thermostat, although any other mechanical thermostat from White Rodgers, Robertshaw, etc. will work. 3. The PESM is also compatible with electronic thermostats that run totally on battery power. Some examples of battery powered thermostats are Maple Chase Saverstat (Mgf. #0960-1), White-Rodgers Digital Programmable Thermostat (Mfg. #1F80-51), and Honeywell Chronotherm Thermostat.

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Heat Pumps Programmable Energy Saver Modules are compatible with heat pumps, however, the savings gained by setting the heat pump back may be erased by the auxiliary heaters when the heat pump tries to recover from the setback. A PESM will work best with heat pumps that have one or more of the following features: a. An outdoor temperature switch that prevents the auxiliary heat from coming on unless it is very cold outside. This is sometimes called a "heat balance" switch. A thermostat that uses rate of rise to determine if auxiliary heat is necessary: The Enerstat Model DSL-450. When recovering from setback, the thermostat runs the heat pump first. It will run the auxiliary heat only if the rate of temperature rise is less than 6 degrees F. per hour. An alternative auxiliary heat source that is inexpensive (i.e. gas).

2. 3. 4. 5. 6. 7.

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Call your distributor with the serial number for a return authorization number. Write the RA# on the outside of the package. Return the controller to HAI. Include your return address, any special shipping instructions and daytime phone number so that we can reach you if we have any questions. Also include a brief description of the problem that you are having.
10. INSTALLATION: Follow the POWER UP and CHECK OUT procedures in this manual.
FOR HELP: Call HAI, between the hours of 9:00 AM and 5:30 PM Central time, at (800) 229-7256. X-10 TROUBLESHOOTING TIPS
1. 2. If any light does not work, check the HOUSE CODE on the module. It must be set to the same house code as the OmniLT. Operate the module locally to ensure that power is getting to it. You should be able to turn the light or appliance on using its switch (turn it on, then off, then on again for plug in modules, press the on/off switch for wall switch modules). Three-way wall mounted lamp switches must be installed using the exact procedure described in their instruction sheet. The key to success with three-way wall switches is to identify the wire that was connected to the COMMON terminal of the old manual switches and to following the instructions precisely. Modules that work intermittently from the OmniLT but reliably locally usually have a problem "hearing" the X-10 signal over the power lines. Some tips: # # # # # Make sure connections to the modules and to the TW523 interface are tight. Loose fuses, wirenuts, circuit breakers, terminal blocks, corrosion, etc. can sometimes inhibit the X-10 signal. Run a separate wire from the OmniLT controller directly to the fuse or breaker panel to ensure that the X-10 signal has a clear path to the panel where it can be distributed to the other circuits. Try changing the phase that the system is on. Items such as electric heaters (resistive loads) and power filters (capacitive loads) tend to absorb the X-10 signal. Try relocating them, if possible. Interference from neighboring systems can be solved by changing the house code to a different one from the neighboring system. Identify any devices that could be transmitting a continuous signal on the powerlines. Wireless intercoms locked in the transmit mode will prevent X-10 signals from getting out. These are not compatible with X-10.

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DIGITAL COMMUNICATOR
The OmniLT digital communicator can use Contact ID, or Standard 4/2 or 3/1, (20 pps, 1800 Hz data, 2300 Hz handshake), or (10 pps, 1900 Hz data, 1400 Hz handshake), dual round compared format. Any central station with modern equipment can receive these formats. Compatible receivers are Ademco, Radionics, Osborne-Hoffman, Linear, FBI, and Silent Knight. It is up to the installer to verify compatibility. If the digital dialer does not get a handshake signal from the central station 45 seconds after it begins dialing, it hangs up and tries again. The dialer will try the FIRST PHONE NUMBER 5 times, then go to the SECOND PHONE NUMBER and try that 5 times. After that, the system will indicate COMMUNICATIONS FAILURE on the console display and the digital communicator will not try again until another reportable event occurs. The digital communicator will not dial out until the DIAL OUT DELAY has expired. If the alarm is canceled prior to the expiration of the DIAL OUT DELAY, no transmission will take place. After the DIAL OUT DELAY has expired, though, all alarm trips will be transmitted followed by a CANCEL code. When the digital communicator is used, all voice dial outs will be delayed for five minutes after the expiration of the dial out delay to allow time for the central station to call the premises after an alarm code has been sent. If the digital communicator is unable to successfully communicate with the central station, the user will be alerted to the trouble condition. When the system status is requested using the voice, this condition is reported over the phone as "SECURITY PHONE MESSAGE" trouble.

DESCRIPTION OF CONTACT ID
Contact ID reporting allows very specific event codes to be sent to the central station. A complete report takes under three seconds. Contact ID reporting uses predefined event codes that allow the central station to quickly identify the condition being reported. The specific security zone or user code is identified as part of the report. For each event code transmitted, the report also includes an event qualifier that identifies whether the report is for a new event (such as a security zone trip), or a restoration of an event (such as a security zone no longer tripped). Trouble conditions are reported, as well as restoration of these trouble conditions. For security armings and disarmings, this event qualifier is also used to identify whether the report is for an arm or disarm. The reporting format for Contact ID is listed in Appendix A in this manual. When using Contact ID, the alarm codes and/or reporting format cannot be changed. All alarm trips, regardless of Zone Type (except Auxiliary Inputs), will be reported to the Central Station.
DESCRIPTION OF 4/2 FORMAT
The 4/2 format consists of a four-digit account code, from 0000 to FFFF and a two-digit alarm code from 00 to FF. When the digital communicator calls the central station receiver, the latter answers and sends a brief 2300 Hz tone or a 1400 Hz tone called a "Handshake" tone. The digital communicator then reports digits of the account and alarm codes as bursts of either (1800 Hz) or (1900 Hz) tone; the digit 8 is represented by eight bursts of tone. A message, or "round" consists of an account code and an alarm code. Two rounds are sent, and two consecutive rounds must match at the receiver. If they do, the central station receiver sends another brief 2300 Hz or 1400 Hz tone to acknowledge to the digital dialer that the message has been properly received. If the rounds don't match, the receiver does not send the second tone and the digital dialer tries again, up to 5 times. If the rounds are not acknowledged after 5 tries, the digital dialer hangs up and tries the entire call again. The digital communicator can report alarm zone trips, alarm cancels, low battery, and fire zone trouble. It may also be setup to generate an automatic test signal at periodic intervals. The communicator may be setup to call second phone number using a second account number in the event that it is unable to communicate successfully using the first phone number and account. The digital communicator is setup at the factory to transmit a code when the battery is low or trouble with the fire zone is detected. If these codes are set to 0 or 00, no code will be sent when the trouble condition is detected. Although the alarm codes can be changed, we recommend that the alarm codes setup at the factory be used to minimize the risk of installer error in programming the digital communicator. Simply enter the phone numbers and account codes, then verify the alarm codes.

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FIRE EMERGENCY This zone type activates the fire alarm for a normally closed (open for alarm) and open collector (short to ground for alarm) switches. It is not supervised as required for UL Listed Installations and shall NOT be used in such installations. GAS This GAS ZONE will generate an alarm, activate the sounder (on - off - on - long off), and make a dial out. This zone type requires an external 1000-ohm end-of-line resistor. When Zone 8 is configured as a GAS ZONE, the Zone 8 Jumper (J9) must be set to the SMK (smoke) position. AUXILIARY EMERGENCY This AUXILIARY EMERGENCY ZONE type will generate an alarm (console beeper - no sirens) and make an emergency dial out when the zone is violated. TROUBLE This zone type can be used to monitor the status of an external device, such as the battery status of a wireless security receiver. It can also used to record events in the event log (i.e. driveway activation, opening of a gate, etc.) without setting off the alarm. When the zone is open, the zone name will be displayed on the display as "NOT RDY". The alarm is not activated, regardless of the security mode. The trouble is logged in the event log. The digital communicator (if used) will report the alarm code for the zone. The voice dialer will not be activated. FREEZE This FREEZE ALARM ZONE type will generate an alarm (console beeper, no sirens) and make an emergency dial out. WATER This WATER ALARM ZONE type will generate an alarm (console beeper, no sirens) and make an emergency dial out. FIRE TAMPER This zone type is used to monitor the wiring to bells and sirens (other than those connected to the Bell Output). The zone will report trouble if an open, short, or other wiring problem is detected in the supervised bell circuit. This zone will make a digital dial out when violated. Connect a wire from the Fire Tamper zone to an output configured as a Sounder. AUXILIARY A zone defined as AUXILIARY is ignored for security. It is used to activate macros or to conditionalize programs. This is the default setting for all zones. Zones that are not in use should be configured as AUXILIARY. KEYSWITCH INPUT This zone is used to arm AWAY and disarm the OmniLT security system using a toggle (to ground) keyswitch or keypad. PROGRAMMABLE ENERGY SAVER MODULE This zone type is for use with the PESM. It converts the Zone and the corresponding Output to operate the PESM. Only Zones 716 can be programmed as PESMs. OUTDOOR TEMPERATURE Use this zone type for Outdoor Temperature Sensors.

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TEMPERATURE The general-purpose TEMPERATURE ZONE type is typically used to monitor indoor temperatures and control devices. It sets the zone secure/not ready for program conditionals and event button activation. If FREEZE ALARM is enabled, it reports a potential freeze condition if the temperature falls below 40o. TEMPERATURE ALARM The TEMPERATURE ALARM ZONE type will generate an alarm (console beeper, no sirens) and dial out if the temperature goes above the high setpoint or drops below the low setpoint. NOTE ON TEMPERATURE ZONE TYPES Outdoor temperature, temperature, and temperature alarm zone types all have HEAT and COOL setpoints. The zone is "not ready" if the temperature is above the high setpoint OR below the low setpoint. The zone is "secure" if the temperature is between the setpoints. Setting a setpoint to 0 disables the setpoint. Except for a type 83, the alarm is not activated. The zone "not ready" or "secure" status is used to activate button programs and program conditionals.
SETUP DIGITAL COMMUNICATOR
To setup the Digital Communicator, from the Installer Setup menu, select the 3 (DCM) key. FIRST PHONE NUMBER, FIRST ACCOUNT NUMBER The first item in the DIGITAL COMMUNICATOR category is the FIRST PHONE NUMBER. Enter the FIRST PHONE NUMBER on the keypad. This enables the Digital Communicator. You can cause a 2-second pause during dialing by pressing the DAY key. Press ' # ' when done. FIRST PHONE NUMBER:
To disable the digital communicator, enter a single "-" for the FIRST and SECOND PHONE NUMBER by pressing the OFF key, then ' # '. Phone number may be up to 24 digits long. Press the down arrow (") to advance to the FIRST ACCT NUMBER: FIRST ACCT NUMBER: 0-FFFF 0000
Enter the 4 digit account number (3 digits if using 3/1 format) and press ' # '. To enter the digits B-F, first press the OFF key, then press the 1-5 key respectively (i.e. 1B11 = 1 OFF 1 #). NOTE: You must enter 4 digits for the account number if you are using Contact ID or a 4/2 format (i.e. 0123), and 3 digits if using 3/1 (i.e. 123). SECOND PHONE NUMBER, SECOND ACCOUNT NUMBER Enter these if used. SECOND PHONE NUMBER:
SECOND ACCT NUMBER: 0000 0-9999

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COMMUNICATOR TYPE This item is used to select the transmitting parameters of the digital communicator. The OmniLT can transmit in FAST 2300 Hz (20 PPS) mode, in SLOW 1400 Hz (10 PPS) 3/1 format, and in Contact ID. COMMUNICATOR TYPE: 0=2300 1=1400 2=ID 2
The default setting is 2 = ID (Contact ID). If you need to transmit to a 4/2 or 3/1 receiver, select the proper handshaking frequency (2300 Hz or 1400 Hz) and press ' # '. TWO-WAY AUDIO If a Two-Way Audio Module is being used, this item enables hands free audio communication between your customer's premises and the central station. After the transmission of the alarm to the central station, the operator can talk and listen to people and sounds at the premises. TWO-WAY AUDIO: 0=NO 1=YES 0

If a Two-Way Audio Module is part of the system, select the 1 (YES) key to enable this feature. REPORT OPEN/CLOSE The communicator can be setup to send an opening and a closing report by user code. Whenever the system is disarmed the communicator will send an opening report to the central station. When the system is armed, the communicator will send a closing report to the central station. REPORT OPEN/CLOSE: 0=NO 1=YES 0
To enable the communicator to send opening and closing reports to the central station, select the 1 (YES) key. AUTOMATIC TEST TIME The communicator CAN be setup to automatically send a test code to the central station on a periodic basis. AUTOMATIC TEST TIME is used to set the time and days of the week of the test, and the TEST CODE specifies the code that will be transmitted for the test. AUTOMATIC TEST TIME: -NEVER #=CHNG To disable the automatic test, press the ' # ' key and then 0 for Never, and ' # '. If you are using PC Access, deselect all days under the heading "Test time". When using a 4/2 or 3/1 format, the digital communicator will send the designated Test Code. The default Test Code is 98. TEST CODE: 0-FF ALARM CODES (4/2 and 3/1 Formats) Press the down arrow (") to advance to the next ZONE ALARM CODE. Press the up arrow (!) to go to the previous ZONE ALARM CODE. To change an alarm code, enter two digits for 4/2 format, or one digit when using 3/1 format, then press ' # '. Enter the 2 digit alarm code (1 digits if using 3/1 format) and press ' # '. To enter the digits B-F, first press the OFF key, then press the 1-5 key respectively (i.e. B1 = OFF # and CB = OFF 2 OFF 1 #). The various alarm codes are sent when the indicated alarm zone is tripped. Each alarm code must be two digits long for 4/2 format (01-FF), 1 digit for 3/1 format (1-F). 98

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To disable the digital communicator for a specific zone, set the alarm code to 0 or 00. The digital dialer will not report when this zone is tripped. ZONE 1 ALARM CODE: 0-FF THROUGH USER 8 CLOSE CODE: 0-FF 68

SETUP TEMPERATURES

To configure temperatures from the Installer Setup Menu, press the 5 (Temp) key. TEMPERATURE DISPLAY This allows you to choose between Fahrenheit or Celsius temperature format. TEMPERATURE DISPLAY: 1 1=FAHRENHEIT 2=CELSIUS THERMOSTAT TYPE If thermostats are part of the system, this item specifies the thermostat type for each thermostat (this enables the thermostat). For thermostat types, the current setting is shown on the bottom line. THERMOSTAT 1 TYPE: 1 AUTO HEAT/COOL #=CHNG THERMOSTAT 2 TYPE: 0 NOT USED #=CHNG To change a thermostat type, use the arrow keys to scroll through the list of thermostat types, then press ' # ' to select a new type. TYPE AUTO HEAT/COOL HEAT/COOL HEAT ONLY COOL ONLY SETPOINT ONLY NUMBER 5 DESCRIPTION Automatic changeover heat and cool thermostat Manual changeover heat and cool thermostat Heating only thermostat Cooling only thermostat Setpoint only thermostat

To change the alarm reset time, enter a new time between 1-30 minutes, then press the ' # ' key. The default setting is 4 minutes. ARMING CONFIRMATION The Arming Confirmation is a quick pulse (squawk) given by the exterior siren when the alarm system is armed into a security mode and the EXIT DELAY is expired. ARMING CONFIRMATION: 0=NO 1=YES 0
To enable the arming confirmation feature, press the 1 (YES) key, then press the ' # ' key. The default setting is disabled. FIRE ALARM VERIFICATION This unit is equipped with a FIRE ALARM VERIFICATION feature. When a zone configured as a FIRE (Type 32) or a GAS (Type 34) is activated, the system will cycle the SWITCH 12V Output off for 10 seconds. The SWITCH 12V Output will then be restored, and 5 seconds later, the zones will be monitored again. If the zone is activated again within a 2-minute window, the fire alarm will be activated. If not, no fire alarm will be indicated. VERIFY FIRE ALARMS: 0=NO 1=YES NOTE: If VERIFY FIRE ALARMS is turned ON, any device (other than FIRE or GAS) connected to a SWITCH 12V Output (i.e. Glassbreak Detectors), must be connected to a zone configured as a LATCHING ZONE TYPE. This feature is designed to reduce false alarms and is turned ON by factory default. The following notice is required by UL: WARNING This unit includes an alarm verification feature that will result in a delay of the system fire alarm signal from the initiating circuit. The total delay (OmniLT controller plus detector delay) shall not exceed 60 seconds. No other initiating devices shall be connected to these circuits unless approved by the local authority having jurisdiction.
Zone Circuit Control Unit Delay Detector Model/Delay + ______________ + ______________ + ______________ + ______________ = = = = Total Delay __________________ __________________ __________________ __________________
________ : 10 seconds ________ : 10 seconds ________ : 10 seconds ________ : 10 seconds

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SUPERVISE BELL This enables or disables supervision of the Bell Output, which monitors the wiring to bells and sirens. Factory default is disabled. SUPERVISE BELL: 0=NO 1=YES ENABLE EMERGENCY KEYS This enables or disables the functionality of the emergency keys on the console keypad. Factory default is enabled. ENABLE EMERG KEYS: 0=NO 1=YES TIME DISPLAY This allows you to choose between AM/PM or 24 HOUR time format. TIME DISPLAY: 1=AM/PM 2=24HR DATE DISPLAY This allows you to choose between MONTH/DAY or DAY/MONTH date format. DATE DISPLAY: 1=MMDD 2=DDMM AC POWER FREQUENCY Set this to the appropriate AC Powerline Frequency. AC POWER FREQUENCY: 1=60HZ 2=50HZ DEAD LINE DETECT NOTE: To disable OmniLT from detecting a dead line, set this item to '0'; otherwise adjust only under direction of HAI. This item adjusts the threshold that is used to determine when the phone line goes dead. DEAD LINE DETECT: 0-15 0=DISABLE OFF HOOK DETECT NOTE: Adjust only under direction of HAI. This item adjusts the threshold that is used to determine when the phone line is going off hook. OFF HOOK DETECT: 20-250 PICKUP AFTER HANGUP This item is used to disable OmniLT from picking up the phone line after the called party hangs up the line. PICKUP AFTER HANGUP: 0=NO 1=YES

Currently, after the called party or the called party's answering machine hangs up the phone line, OmniLT picks up the line and make its "Beep". The default setting for Pickup After Hangup is Yes. Page 41
CLOCK ADJUSTMENT If the clock on an OmniLT is running faster or slower than the actual time, you can have the OmniLT automatically compensate up to 29 seconds per day. The OmniLT will add or subtract the selected amount of time daily. CLOCK ADJUSTMENT: 30 1-59=-29 TO +29 SEC/DAY Enter 1-29 to subtract 1-29 seconds. Enter 31-59 to add 1-29 seconds. Enter 30 for no adjustment to the clock. The default setting is 30. MODEL AND SOFTWARE VERSION The model number and software version for the system is displayed: HAI OMNI LT S/W VERSION 1.8 RESET SYSTEM EEPROM Select the 1 (YES) key to reset the EEPROM. All programs, names, and setup items will be reset. All system RAM will also be initialized and the system will restart. This option, if effect, allows the system to be restored to factory fresh configuration. RESET SYSTEM EEPROM? 0=NO 1=YES RESET SYSTEM RAM Select the 1 (YES) key to cause all of the system RAM to be reinitialized. The time, date, and event log will be cleared. Other volatile memory locations will also be reinitialized. The system RAM should only be reset if the system is acting strangely and memory corruption is suspected. Resetting the system RAM will not reset any setup items stored in EEPROM. RESET SYSTEM RAM? 0=NO 1=YES 0

SETUP EXPANSION

To configure each expansion module that is installed on the OmniLT, from the Installer Setup menu, press the 7 (EXP) key. MODULE 1 TYPE The Module Type defines the function of each expansion module on the controller. Module 1 is the module with the ADDR jumper set to 1. Set the module type from the list below. Press # to change the module type, then use the arrow keys to select the proper module type, then press # to enter. MODULE 1 TYPE NOT USED 1 #=CHNG
Select from the following for the module with jumper set to 1: MODULE TYPES NOT USED HARDWIRE EXPNDR ALC OMNI-LINK NUMBER DESCRIPTION No module is installed Model 22A00 Expansion Module installed ALC Interface Module installed Model 10A17 Serial Interface installed using Omni-Link protocol

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MODULE 2 TYPE - MODULE 4 TYPE Module 2 is the module with the jumper set to 2, and so on. Set each module type from the list above. SERIAL 1 RATE Serial 1 Rate is the baud rate used for the built-in serial interface (J5 Serial) on the OmniLT. Select the baud rate for the built-in serial interface from the list below. Use the arrow keys to select the baud rate then press #. BAUD RATE 75 baud 150 baud 300 baud 600 baud 1200 baud 2400 baud 4800 baud 9600 baud SERIAL 2 RATE Serial 2 Rate is the baud rate used when a Model 10A17 Serial Interface Module is added to the OmniLT. If a serial interface module is installed, select its baud rate as shown above. NUMBER 7 8

When used in UL Listed Installations, the following items apply:
1. 2. 3. 4. 5. 6. 7. 8. 9. The "High Security Mode" must be ON. The "Enable Auto Bypass" must be OFF. The "Zone Resistors" must be YES. The "Supervise Bell" must be YES. The "Beep On Trouble" must be ON. The ENTRY DELAY SHALL NOT EXCEED 45 SECONDS for Residential Applications. The EXIT DELAY shall not exceed 60 seconds. Double Delay and Quad Delay zone types shall not be used. For Residential Applications, the sounding device may be mounted indoors. If, however, the sounding device is connected to a circuit configured as an "Exterior Sounder", the OUTSIDE SIREN DELAY shall be set to 0. NAME: __________________________________ NUMBER: _______________________________

10. Installer:

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SMOKE DETECTOR INSTALLATION GUIDELINES
1. Ceiling mounted smoke detectors should be located in the center of the room or hall, or not less than 4 inches from any wall. When the detector is mounted on a wall, the top of the detector should be 4 to 12 inches from the ceiling. Do not install smoke detectors where normal ambient temperatures are above 100 deg. F (37.8 deg. C) or below 40 deg. F (4 deg. C). Also, do not locate the detector in front of air conditioners, heating registers, or other locations where normal air circulation will keep smoke form entering the detector. Additional information on Household Fire Warning is available at nominal cost from: The National Fire Protection Association, Battery March Park, Quincy, MA. 02269. Request Standard No. NFPA 72. Contact your home Insurance Company for a possible reduction of your insurance premium. A smoke detector should be located between the sleeping area and the rest of the family living unit. In family living units with more than one sleeping area, a smoke detector should be provided to protect each sleeping area. A smoke detector should be located on each story (Refer to the diagrams below). For complete details on proper location and installation of smoke detectors, refer to the instructions supplied with the smoke detector.

4. 5. 6. 7.

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APPENDIX A CONTACT ID REPORTING FORMAT
ZONE TYPE Entry/exit (also Double & Quad) Perimeter (also Latching) Night Interior (also Latching) Away Interior (also Latching) Panic Police Emergency Silent Duress Tamper (also Latching) Fire Fire Emergency Gas Auxiliary Emergency Trouble Freeze Water Auxiliary Fire tamper Temperature Alarm EVENT Zone bypass/restore Fire zone bypass/restore Automatic communicator test Cancel User disarm/arm Programmed disarm/arm PC Access disarm/arm Quick arm Keyswitch disarm/arm SYSTEM TROUBLE Battery low Fuse AC power failure Phone line dead Digital communicator Fire tamper TRIP 154 none CODE 409 CODE TROUBLE 370 none DESCRIPTION Entry/exit burglary Perimeter burglary Interior burglary Interior burglary Panic alarm Panic alarm Silent panic Tamper burglary Fire alarm Fire alarm Gas alarm 24 hour non-burglary System peripheral trouble Low temperature alarm Water leakage none Bell/siren #1 trouble Refrigeration alarm

Bosch Security Systems

GE Security Inc.
2-Wire Smoke Detector Compatibility Chart
FOUR-WIRE SMOKE DETECTORS OmniLT supports four-wire smoke detectors connected to any zone (1-8). 1. 2. 3. 4. Use normally open (closed for alarm) four-wire "SYSTEM" type smoke detectors (System Sensor 2112/24TR or equivalent), rated 8 - 14 VDC. An End of Line Power Supervision Relay Module (System Sensor A77-716B or equivalent) is required for UL installations. Install 1000-ohm end-of-line resistor as shown. Power the smoke detector from SWITCH 12V or an Output configured as a SWITCHED POWER OUTPUT. When connected to Zone 8, the Jumper (J9) must be in the SMK (smoke) position.
NOTE: Smoke detectors connected to Zone 8 are wired differently from those connected to Zones 1-7. Refer to FIGURE 4 (FOUR-WIRE FIRE ZONE CONNECTIONS) for each configuration.

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WHEN Z8 USED FOR SMOKE, J9 MUST BE IN THIS POSITION
SYSTEM SENSOR MODEL 2100TS
THIS OUTPUT MUST BE CONFIGURED AS A SWITCHED OUTPUT BOTTOM PLATE

ZONE ZONE

BOTTOM PLATE
HAI MODEL 1503A0011 1K OHM EOL RESISTOR
FIGURE 3 TWO-WIRE FIRE ZONE CONNECTIONS

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THIS OUTPUT MUST BE CONFIGURED AS A SWITCHED OUTPUT

YELLOW

RED SYSTEM SENSOR MODEL 2112/24TR
SYSTEM SENSOR MODEL 2112/24TR

RED YELLOW GREEN BLACK

ZONE ZONE +12V GND
SYSTEM SENSOR MODEL A77-716B

BLACK RED VIOLET VIOLET

BLACK RED GREEN YELLOW EOL POWER SUPERVISION RELAY

BLACK RED GREEN YELLOW

EOL POWER SUPERVISION RELAY
MODEL 1503A0011 1K OHM EOL RESISTOR
FOUR-WIRE DETECTOR ON ZONES 1-7
FOUR-WIRE DETECTORS ON ZONE 8
FIGURE 4 FOUR-WIRE FIRE ZONE CONNECTIONS

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TELEPHONE CONNECTIONS
1. If an RJ31X jack has been supplied by the telephone company, it is probably wired correctly and the controller can be connected by plugging the supplied 8 conductor telephone cable into the RJ31X jack. The other end of the cable is spaded (remove the spade connectors from the wires used). The green, red, brown, and gray wires must be connected to the controller at the designated terminals under the section of the board marked 'PHONE'. If required, install the supplied RJ31X jack as shown in the following diagram. The polarity must be correct for proper operation of the phone access feature. IT IS IMPERATIVE THAT THE PHONE LINE COMING INTO THE HOUSE BE CONNECTED TO A GROUNDED SURGE ARRESTOR OUTSIDE THE PREMISES. IT IS THE RESPONSIBILITY OF THE TELEPHONE COMPANY TO PROVIDE THIS SURGE ARRESTOR. INSPECT THE INCOMING PHONE LINES. THE FIRST THING THAT THEY SHOULD GO TO IS A SMALL BOX ON THE OUTSIDE OF THE PREMISES. THERE SHOULD BE A HEAVY GROUND WIRE COMING FROM THIS BOX GOING TO A COLD WATER PIPE OR A SEPARATE GROUNDING ROD. IF THERE IS NO SURGE ARRESTOR OR IF THE GROUND WIRE IS MISSING, HAVE THE CUSTOMER INSIST THAT THE TELEPHONE COMPANY INSTALL ONE FOR THE SAFETY OF THE CUSTOMER. WHEN WIRING A RJ31X JACK, MAKE SURE THAT THE INCOMING PHONE LINES GO TO THE TELEPHONE COMPANY SURGE ARRESTOR BEFORE THEY GO TO THE RJ31X JACK. When the RJ31X is installed as shown, locate the green, red, brown, and gray wires from the 8 conductor phone cable and connect to the section on the OmniLT controller marked 'PHONE'. Plug the modular end of the cable into the RJ31X jack. If necessary, bend the tab up on the plug to ensure a tight fit that will not fall out. Verify the following if you have trouble during check out: With the system running, the RJ31X jack properly connected and all phones on-hook (hung up), the PHONE LED, located on the left side of the controller, should be OFF. If it is on, reverse the RED and GREEN wires to both the house phones and the telephone company wires at the RJ31X jack. When the receiver is picked up on any phone, the PHONE LED will come on. When the phone line rings, the PHONE LED will light. If the OmniLT is accessed on an in house telephone, the OmniLT will disconnect the phones from the phone company lines and supply its own talk voltage to the phones. The PHONE LED will be on in this case.

5. 6. 7.

10. Refer to FIGURE 5 (RJ31X JACK CONNECTIONS) for this configuration. DIGITAL SUBSCRIBER LINE (DSL) CONNECTIONS When the OmniLT is connected to a Digital Subscriber Line (DSL), a DSL Splitter must be used to provide separate outputs for filtered voice (phone) and DSL (data). Splitting the voice and data is necessary because: 1. 2. The higher frequencies of the DSL signal must not pass through the OmniLT controller. It can cause problems with the DTMF detection and the digital dialer. Whenever the OmniLT is accessed on an in house telephone, the OmniLT will disconnect the phones from the phone company lines (in this case the DSL line). When that occurs, the DLS connection is temporarily lost.
Refer to FIGURE 6 (DSL SPLITTER CONNECTIONS) for this configuration.

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BEND TAB UP IF NECESSARY TO ENSURE TIGHT FIT

GREEN(+)

RED(-)
TELEPHONE NETWORK INTERFACE
CUSTOMER ACCESS SURGE ARRESTOR
SURGE ARRESTOR MUST BE GROUNDED!
RJ11 HOUSE PHONE JACK(S) TO ALL HOUSE TELEPHONES OR PBX
TO TELCO INTERFACE AT SURGE ARRESTOR
FIGURE 5 - RJ31X JACK CONNECTIONS

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RED(-) DSL SPLITTER VOICE LINE IN TO ALL HOUSE TELEPHONES DATA

RJ11 HOUSE PHONE JACK(S)

DSL MODEM

COMPUTER

FIGURE 6 - RJ31X JACK CONNECTIONS

LCD CONSOLE HOOKUP

1. 2. 4 LCD Consoles (Models 33A00-1, 33A00-4, 11A00-1, 11A00-2, 11A00-9, and 15A00) MAXIMUM per system, subject to power availability. Use 4-conductor 22-gage wire, 1000 feet maximum length. Consoles can be homerun or daisy chained. This length shall be divided by the total number of consoles at the end of the run. For example, for 4 consoles, the maximum length reduces to 250 feet. All LCD Consoles are connected to the same 4 wires, RED (+12), BLK (Ground), YEL (A), GRN (B). The console should be mounted so that the LCD display is at or slightly above eye level. Consoles should be kept out of the reach of young children. A good height is approximately 58 inches from the floor to the bottom of the console enclosure. Remove console face from back plate (slots on bottom of console will release back plate, use a screwdriver). Mount the back plate to the wall. Mounting holes are designed to fit on a single or double gang box, or directly to the wall. Pull the wires from the wall through the opening in the back plate. Splice the wires to the supplied cable. Connect the cable to the connector on the console board (J1). Snap the console face on to the back plate. Remove protective film from the LCD lens. Refer to FIGURE 7 (CONSOLE CONNECTIONS) for this configuration.

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CONSOLE SETUP
The console has different operating options that can be setup from the console to the user's preference. If more than one console is being used, it is required that you give each console a different address. You can change the address of a console through the console setup mode. To enter the console setup mode, simultaneously press and hold the 4 and up arrow ( ) for approximately 1 second. The console will beep 5 times and enter the setup mode. The top line of the display will indicate what you are doing, followed by the current setting. The bottom line will show a menu of your options. To the lower right corner of the display is the direction arrow(s). Where possible, the up (), down (), and two-headed ( ) arrow characters are shown on the console display to indicate which arrow keys may be pressed at that time. Press the down arrow ( ) key to advance to the next item. Press the up arrow ( ) key to go back to the previous item. CONSOLE ADDRESS If you are installing more than one console, each console must be set to a different address. The default address setting is (1) this is adequate if only one console is being used. The choices at the bottom are 1-16; however, the OmniLT only supports 4 consoles. When making your choice, choose an address between 1-4, then press the # (pound) key. SOUNDER If you wish not to hear the beeper in the console for any reason, the sounder option can be turned off. Select (0) for OFF or (1) for ON, then press the # key. KEY CLICK The sounder makes a click every time a key is pressed. This option may also be turned off. Select (0) for OFF or (1) for ON, then press the # key. KEY BACKLIGHT The keys on the console keypad are lit. The keys can be never lit, always lit, or only lit when the LCD display is lit. Select (0) OFF, (1) for ON, or (2) TIMED, then press the # key. VIEWING ADJUSTMENT This option is an adjustment for the viewing angle of the LCD display. This has been set to its best value at the factory, however, you may wish to tweak it. The display has 20 levels of adjustment. Select (1) for a lower viewing angle, or (2) for a higher viewing angle. LANGUAGE This option is to display the 'console setup' text on the LCD display in English, French, Italian, or Spanish. Select one of the languages, then press the # key. EXIT SETUP MODE To exit Setup Mode, press and hold the 4 and up arrow ( ) keys simultaneously for about 1 second. The console will return to normal operation. You may need to press (*) to restore the display.

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FOR MODEL NUMBERS SEE NOTE 1 UNDER "LCD CONSOLE HOOKUP"

CONSOLE FACE

(SNAPS ON TO BOTTOM PLATE)

CONTROL

SECURITY

BUTTONS

STATUS

EVENTS MESSAGE SETUP AUX

CANCEL

CONSOLE PC BOARD

(MOUNTED TO CONSOLE FACE)
SUPPLIED CABLE (PLUGS INTO J1) YELLOW GREEN RED BLACK CONNECT ENDS OF SUPPLIED CABLE TO CORRESPONDING ENDS OF 4 - WIRE CABLE FROM CONTROLLER
FIGURE 7 - CONSOLE CONNECTIONS

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BELL OUTPUT
The Bell Output provides 12VDC to power bells, piezo sirens, self-contained sirens, and siren drivers (do not connect speakers to the Bell Output). Sounders can draw up to 1 amp MAXIMUM - (See Specifications for UL Ratings). 1. 2. 3. 4. Locate interior sounders in a central location. The sounder is very loud. Do not install it in a room where small children or animals could be trapped if the alarm is activated. Note that the Bell Output defaults to an Interior Sounder Output Type. The Bell Output monitors the wiring to bells and sirens. It will report trouble if an open, short, or other wiring problem is detected in the supervised bell circuit. It will also make a digital dial out when violated. For UL Listed residential fire alarm applications, the UL Listed Wheelock Model MT-12/24-R Multitone Signal or equivalent must be used, and the "SUPERVISE BELL" feature must be set to "ON". Refer to FIGURE 8 (BELL CONNECTION) for connections.
FIGURE 8 - BELL CONNECTIONS

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CONTROLLER OUTPUTS
The OmniLT provides 2 programmable hardwired voltage outputs on the controller and 8 voltage outputs on the Expansion Module. These outputs are programmable for the following output types:
General Purpose low voltage switching applications (12 VDC) Sounder triggering (interior and exterior sounders and voice drivers for BURG and FIRE) Communicator outputs (radio, cellular, or any other type of auxiliary communicator) 'ARMED' and 'OK TO ARM' outputs Switched Output (to power smoke detectors and cycle power to latching devices)
Outputs 1 and 2 can supply a maximum of 100 mA each. GENERAL PURPOSE SWITCHING APPLICATIONS This output will supply 12 VDC to the output terminal when its corresponding unit is ON. SOUNDER TRIGGERING This output can be used as a trigger for siren and voice drivers. When a driver requires a separate input for burglary and fire, you can configure this output to give a voltage trigger to the driver. COMMUNICATOR OUTPUTS This output can be used for radio communications or any other type of auxiliary communications to augment the built-in digital and voice dialers. Any communications device can be used with the OmniLT, provided that it is powered by 12 VDC, has 12 VDC triggered inputs, and has 2 (or more) channels. The 'Communicator' outputs are activated 3 seconds before the OmniLT dialer begins to dial, either using its built-in digital dialer or voice dialer. The following events will activate the BURG output: Burglar alarms (including panic zones), Auxiliary emergencies, Police emergencies, and Duress alarms. Fire alarms and the fire emergencies will activate the FIRE output. Note: The Interior and Exterior Fire Sounder generates 12VDC in a 3 pulse temporal pattern. "ARMED" AND "OK TO ARM" ARMED: When the system is armed in any of the security modes (AWAY, NIGHT, or DAY), this output will be active. It is typically used to activate a red LED to indicate that the system is 'armed'. OK TO ARM: When all security zones are secure, no zones are bypassed, and the system is in the 'OFF' mode, this output will be active. It is typically used to activate a green LED to indicate that the system is 'ok to arm'. SWITCHED OUTPUT This output is used to cycle power to latching devices when the system is armed. Use this output whenever smoke detectors are connected to the system. This output will reset the smoke detectors when the system is armed after an alarm.

NOTES ON HVAC SYSTEMS 1. Description of the PESM The PESM is a temperature sensor and control relay in a small enclosure that mounts near a central heating, ventilation, and air conditioning (HVAC) system thermostat. The PESM allows the automation system to read the temperature of the area that the HVAC system controls. The relay in the PESM is used to break the 24V RED wire between the thermostat and the HVAC system. When the automation system is in setback mode and the actual temperature is between the LO and HI setpoints, the relay energizes to break the 24V red wire; hence, the HVAC system will no longer operate. In heating season, when the actual temperature falls below the LOW setpoint, the automation system turns the relay in the PESM off, thus restoring power to the thermostat, allowing the thermostat to heat as it normally would under the control of the thermostat. The PESM will cycle the thermostat on and off to maintain the LOW setpoint. In cooling season, when the actual temperature rises above the HI setpoint, the automation system turns the relay in the PESM off and the thermostat will cool as it normally would under the control of the thermostat. The PESM will cycle the thermostat on and off to maintain the HI setpoint. The Red LED on the PESM will illuminate when the PESM is overriding the thermostat. The Red LED will be off when the thermostat is working normally. If the PESM is disconnected from the automation system, the relay will not energize and the HVAC system will operate normally, under the control of the thermostat. 2. 3. 4. Standard Heating and Cooling Systems: The PESM is compatible with all mechanical thermostats. The PESM is also compatible with electronic thermostats that run totally on battery power. The PESM is also compatible with electronic thermostats that run totally on battery power. Some examples of battery powered thermostats are Maple Chase Saverstat (Mgf. #0960-1), White-Rodgers Digital Programmable Thermostat (Mfg. #1F80-51), and Honeywell Chronotherm Thermostat. Heat Pumps Programmable Energy Saver Modules are compatible with heat pumps, however, the savings gained by setting the heat pump back may be erased by the auxiliary heaters when the heat pump tries to recover from the setback. A PESM will work best with heat pumps that have one or more of the following features:

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An outdoor temperature switch that prevents the auxiliary heat from coming on unless it is very cold outside. This is sometimes called a "heat balance" switch. A thermostat that uses rate of rise to determine if auxiliary heat is necessary: The Enerstat Model DSL-450. When recovering from setback, the thermostat runs the heat pump first. It will run the auxiliary heat only if the rate of temperature rise is less than 6 degrees F. per hour. An alternative auxiliary heat source that is inexpensive (i.e. gas).

These features will avoid the use of auxiliary heat (usually an electric strip heater) which is more expensive than using the heat pump when recovering from setback. In general, heat pumps take a longer time to recover from setback, so it may be advantageous to program a setback only for extended periods, such as a vacation.
TEMPERATURE, OUTDOOR TEMPERATURE, AND HUMIDITY
When connected to the controller, the Model 31A00-1 (31A00-7 Extended Range) Indoor/Outdoor Temperature and Model 31A00-2 (31A00-8 Extended Range) Indoor/Outdoor Temperature and Humidity Sensor is used for sensing indoor temperature and/or reporting the relative humidity from 0 to 100 percent or for sensing the outdoor temperature and/or reporting the outdoor relative humidity. The outdoor temperature can be displayed on the console, spoken over the telephone, or displayed on an HAI Communicating Thermostat. 1. Each Temperature Sensor requires one zone input. Each Humidity Sensor requires one zone input. 2. Program the zone type as an Outdoor Temperature (Type 81), Temperature (Type 82), Temperature Alarm (Type 83), for temperatures between 0o F - 120o F Humidity (Type 84), for humidity between 0% 100% Extended Range Outdoor Temperature (Type 85), Extended Range Temperature (Type 86), and Extended Range Temperature Alarm (Type 87), for temperatures between -40o F - 120o F
When mounting outdoors, plan to mount under an overhang or to the underside of an eave, otherwise known as the soffet, to protect it from direct sunlight and rain. Run a 4-conductor wire from the Omni II controller to the selected location.

BLACK RED

YELLOW GREEN

12V GND H T

RED BLACK GREEN YELLOW
INDOOR / OUTDOOR TEMPERATURE AND HUMIDITY SENSOR
FIGURE 11 - TEMPERATURE / HUMIDITY SENSOR CONNECTIONS

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EXISTING LOW VOLTAGE THERMOSTAT
PROGRAMMABLE ENERGY SAVER MODULE

GREEN YELLOW RED BLACK

RED LED ON - ENERGY SAVER IS OVERRIDING THERMOSTAT OFF - THERMOSTAT IS WORKING NORMALLY

HEAT /AIR SYSTEM

FIGURE 12 - PESM CONNECTIONS

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BUILT-IN SERIAL INTERFACE
OmniLT has a serial interface built onto the controller (designated as J5 SERIAL). The interface is a modular connector located in the upper left corner of the controller. It uses the Omni-Link Protocol for connections to the Internet via HAI Web-Link, personal computers, and other optional interfaces like touchscreens, voice recognition, and home theater controls. The serial interface supports both RS-232 and RS-485 connections. RS-232 is the standard for connections to most personal computers and related systems. RS-485 can support greater wiring distances. The default setting is RS-232. To select RS-485, move the (J8) interface jumper (below the J5 SERIAL modular connector) from the 232 to the 485 position. To access the serial interface, use the HAI Model 21A05-2 OmniLT Serial Cable Kit. Plug one end of the cable into the "J5 Serial" modular connector on the OmniLT controller. Plug the other end into the Model 21A05-1 Communication Cable Adaptor (modular to DB-9 RS-232), which connects the OmniLT serial port to computer DB-9 RS-232 port. To make you own serial cable, follow the diagrams below. When making connections, be sure to correctly orient the cable as shown (with the tab on the modular cable facing up, make sure that the Yellow wire is at the top). Connect the Yellow, Green, Red, and Black wires to the DB-9 connector as shown. Also, connect Pins 1, 4, and 6 together and Pins 7 and 8 together.

4 POSITION MODULAR PHONE CABLE - YELLOW WIRE ON TOP - TAB UP -

DB9-FEMALE BOTTOM VIEW

7 RTS 8 CTS 3 TX
2 RX 1 DCD 5 GND 4 DTR 6 DSR

YELLOW GREEN RED BLACK

FIGURE 13 - RS-232 CONNECTIONS
FIGURE 14 - RS-485 CONNECTIONS

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SYSTEM POWER UP PROCEDURE
1. 2. 3. 4. Carefully review connections to the zones, grounds, sounders, and consoles. Disconnect the sounders. The positive lead to the battery should be disconnected. Make sure that the red battery wire is not touching anything. Plug in the power transformer (transformer must be 16.5VAC): 5. 6. 7. 8. The AC ON LED should illuminate. The STATUS LED should begin blinking at a rate of 1 blink per second. This indicates that the OmniLT processor and software are working. The PHONE LINE LED should be OFF (if all telephones are on hook and the RJ31X jack is properly connected.
Unplug the power transformer to kill the system. Connect the red battery wire to the + (positive) battery terminal. The system should not start. Plug in the transformer. The system should start. Unplug the transformer. The system should continue to run on the battery (as evidenced by the flashing STATUS LED) Plug the transformer back in and secure it to the outlet.

CONSOLE CHECK OUT

1. The console(s) should be operating. Press ' * ' to silence the trouble beeper if it is beeping. Press OFF, 1, 1, 1, 1 (or the current code) if the alarm is tripped. If the consoles are not operating properly, make sure that consoles do not have the same address, and check the wiring. With all doors and windows closed and all motion detectors normal, the bottom line of the display should read SYSTEM OK. If there are any trouble indications that occurred during installation, press ' * ' to acknowledge them and silence the beeper. Set the time and date by pressing 9, enter the Master Code, then the 2 key. Enter the time on the keypad, then the DATE (enter date as 6 characters: January 1, 00 as 010100). The console should now show the time and date on the top line, "SYSTEM OK" on the bottom line.

2. 3. 4.

TELEPHONE CHECK OUT
1. 2. 3. 4. Verify that the Telephone Company surge arrestor is properly grounded. Verify that the incoming telephone lines are run to the surge arrestor first, then from the surge arrestor to the RJ31X jack, then from the RJ31X jack to the house phones. The PHONE LINE LED, on the controller, should be off when the phones are hung up. Pick up an in-house phone, wait about 1 second, then press the ' # ' key. You should hear the voice menu on the phone. If not, check to see that the RJ31X jack is properly wired and connected to the controller. There should be no interference from the Telephone Company while the menu is being read over the phone.

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IN CASE OF TROUBLE
CONSOLES If you experience trouble that seems to be with a console, try disconnecting the console and running the console self test as described under CONSOLE HOOKUPS in this manual. If the console does not run the self-test properly, it should be returned to HAI for repair. "NO CONTROLLER DATA" or erratic operation of the LCD display could be a result of: A and B terminals connected backwards, poorly, or 2 or more consoles have the same address. CONSOLE SELF TEST Use the self test mode to verify the proper operation of the console. 1. Disconnect the console from the controller. Connect +12 and GND terminals to a 12-volt source (or a fresh 9-volt transistor battery.) The console beeper will beep twice per second, the LCD backlight and the keypad key will be lit, and the LCD will display "NO CONTROLLER DATA". Simultaneously press and hold the 7 and the down arrow ( ) keys for approximately 3 seconds. The beeper will beep 5 times, the LCD backlight and keypad backlight will turn off, and the display will clear. The LED at the top right corner of the console will start to cycle through its different colors (red, green, yellow, then turns off). At the end of each cycle the beeper will beep once. Press any key. The LCD backlight and the keypad key backlight will turn on. Press the keys in the following order and verify that the appropriate character fills the screen. 0 - 9, *, #, AWAY (A), NIGHT (B), DAY (C), OFF (D), (filled blocks), and (blanks).
If this is successful, the console is good. Simultaneously press and hold the 7 and down arrow ( ) keys to exit the self test mode or disconnect power.
CONTROLLER Check the AC ON (bottom) LED. If it is not lit, check for 16.5 VAC at the transformer connections. Check the STATUS (middle) LED on the controller board. It should be blinking once per second, indicating the proper operation of the microprocessor and memory. If not, try powering the system down: Disconnect the power transformer and battery, then reconnect both. The status light should begin blinking. If the AC ON LED is on and the STATUS light is still not blinking, check the AUX 12V with a DC voltmeter. It should be 13.7 volts. If not, make sure that there isn't too much load on the system. Disconnect all loads. If the STATUS LED still won't blink, there is a problem with the controller board and it must be returned to HAI for repair. Phone line problems, or problems with the OmniLT voice are usually the result of the RJ31X jack being improperly wired. Check RJ31X jack wiring and polarity carefully, as described in TELEPHONE CONNECTIONS. In the event that the controller is found defective, the controller board should be removed and returned for repair.

Digital Communicator in Controller

Phone Line

Central Station
Single Line Transmission Signal System Configuration

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DESCRIPTION OF CONTACT ID
Contact ID reporting allows very specific event codes to be sent to the central station. A complete report takes under three seconds. Contact ID reporting uses predefined event codes that allow the central station to quickly identify the condition being reported. The specific security zone or user code is identified as part of the report. For each event code transmitted, the report also includes an event qualifier that identifies whether the report is for a new event (such as a security zone trip), or a restoration of an event (such as a security zone no longer tripped). Trouble conditions are reported, as well as restoration of these trouble conditions. For security armings and disarmings, this event qualifier is also used to identify whether the report is for an arm or disarm. The reporting format for Contact ID is listed in Appendix A in this manual. When using Contact ID, the alarm codes and/or reporting format cannot be changed. All alarm trips, regardless of Zone Type (except Auxiliary Inputs), will be reported to the Central Station. When using Contact ID, the alarm codes and/or reporting format cannot be changed. However, if the DCM code (under the 4/2 and 3/1 Alarm Code Formats) is set to 0 or 00, then Omni II will not make a call to the central station to report that code when using Contact ID.
DESCRIPTION OF 4/2 FORMAT
The 4/2 format consists of a four-digit account code, from 0000 to FFFF and a two-digit alarm code from 00 to FF. When the digital communicator calls the central station receiver, the latter answers and sends a brief 2300 Hz tone or a 1400 Hz tone called a "Handshake" tone. The digital communicator then reports digits of the account and alarm codes as bursts of either (1800 Hz) or (1900 Hz) tone; the digit 8 is represented by eight bursts of tone. A message, or "round" consists of an account code and an alarm code. Two rounds are sent, and two consecutive rounds must match at the receiver. If they do, the central station receiver sends another brief 2300 Hz or 1400 Hz tone to acknowledge to the digital dialer that the message has been properly received. If the rounds don't match, the receiver does not send the second tone and the digital dialer tries again, up to 5 times. If the rounds are not acknowledged after 5 tries, the digital dialer hangs up and tries the entire call again. The digital communicator can report alarm zone trips, alarm cancels, low battery, and fire zone trouble. It may also be setup to generate an automatic test signal at periodic intervals. The communicator may be setup to call second phone number using a second account number in the event that it is unable to communicate successfully using the first phone number and account. The digital communicator is setup at the factory to transmit a code when the battery is low or trouble with the fire zone is detected. If these codes are set to 0 or 00, no code will be sent when the trouble condition is detected. Although the alarm codes can be changed, we recommend that the alarm codes setup at the factory be used to minimize the risk of installer error in programming the digital communicator. Simply enter the phone numbers and account codes, then verify the alarm codes.

3/1 FORMAT

Older central stations may require a 3/1 format. To use 3/1 format, both account numbers must be changed to 3 digit codes and EVERY alarm code must be changed to a 1-digit code. Do not mix code lengths!

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OPENING AND CLOSING REPORTS
The OmniLT system can send opening and closing reports by user to the central station. When the system is disarmed by user code 1-8, the communicator can call the central station and report that the system was disarmed (opened) with the user code that was used. When the system is armed by user code 1-8, the communicator can call the central station and report that the system was armed (closed) with the user code that was used. If the system is disarmed by any other method other than one that requires a user code (i.e. Keyswitch or Scheduled Program), the communicator will send a generic OPEN report to the central station. The code that is sent is defined as OTHER OPEN. If the system is armed by any other method other than one that requires a code (i.e. Quick Arm, Keyswitch, or Scheduled Program), the communicator will send a generic CLOSE report to the central station. The code that is sent is defined as OTHER CLOSE.
DEFAULT REPORTING CODES FOR 4/2 FORMAT CODE
TEST CODE ZONE 1 ZONE 2 ZONE 3 ZONE 4 ZONE 5 ZONE 6 ZONE 7 ZONE 8 ZONE 9 ZONE 10 ZONE 11 ZONE 12 ZONE 13 ZONE 14 ZONE 15 ZONE 16 ZONE 17 ZONE 18 ZONE 19 ZONE 20 ZONE 21 ZONE 22 ZONE 23 ZONE 24 ZONE 25
FREEZE ALARM FIRE EMERG POLICE EMERG AUX EMERG DURESS ALARM BATTERY LOW FIRE ZN TRBL CANCEL OTHER OPEN USER 1 OPEN USER 2 OPEN USER 3 OPEN USER 4 OPEN USER 5 OPEN USER 6 OPEN USER 7 OPEN USER 8 OPEN OTHER CLOSE USER 1 CLOSE USER 2 CLOSE USER 3 CLOSE USER 4 CLOSE USER 5 CLOSE USER 6 CLOSE USER 7 CLOSE USER 8 CLOSE

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INSTALLER SETUP
This section describes the items that the installer must setup as part of system installation. The Installer Setup mode is used to configure the general operation of the system, the Outputs, the Zone Types, and the Digital Communicator. This information is covered only in this manual. All other SETUP items, including delay times, zone and unit names, voice dialer, and codes are covered in the Owner's Manual, Document No. 21R00-1. SETUP items are stored permanently in the system, even if the battery and AC power are disconnected. The "default" settings are the ones that have been set at the factory. You can review or change the setup items easily, as shown below. Note: The default Installer Code is 1111. To enter the Installer SETUP menu, press 9, and the installer code to get the Setup Menu, then press the # (INST) key. INSTALLER SETUP MENU: 1=CTRL 2=ZONE 3=DCM 5=TEMP 6=MISC 7=EXP

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POLICE EMERGENCY This zone type activates the burglar alarm and sounder. An emergency dial out is activated after the DIAL OUT DELAY. DURESS EMERGENCY (SILENT DIAL OUT) If you wish to have a button in your home that activates a SILENT dial out, (no lights flashing and no sounder) it should be connected to a zone that is configured as a DURESS EMERGENCY. If this zone is accidentally tripped, you will not know that the OmniLT is making a silent dial out, and hence won't know to stop it. To stop a silent dial out once it has started, you must go to the console and press OFF then enter your code. SUPERVISED FIRE Any zone in the OmniLT can be programmed as a SUPERVISED FIRE ZONE, however, only Zone 8 can be configured as a UL Supervised Fire Zone. In UL Listed Installations, all fire detectors must be configured as a SUPERVISED FIRE ZONE and connected to Zone 8 as shown in this manual. When Zone 8 is configured as a SUPERVISED FIRE ZONE, the Zone 8 Jumper (J9) must be set to the SMK (smoke) position. FIRE EMERGENCY This zone type activates the fire alarm for a normally closed (open for alarm) and open collector (short to ground for alarm) switches. It is not supervised as required for UL Listed Installations and shall NOT be used in such installations. GAS This GAS ZONE will generate an alarm, activate the sounder (on - off - on - long off), and make a dial out. This zone type requires an external 1000-ohm end-of-line resistor. When Zone 8 is configured as a GAS ZONE, the Zone 8 Jumper (J9) must be set to the SMK (smoke) position. AUXILIARY EMERGENCY This AUXILIARY EMERGENCY ZONE type will generate an alarm (console beeper - no sirens) and make an emergency dial out when the zone is violated. TROUBLE This zone type can be used to monitor the status of an external device, such as the battery status of a wireless security receiver. It can also used to record events in the event log (i.e. driveway activation, opening of a gate, etc.) without setting off the alarm. When the zone is tripped, the zone name will be displayed on the display as "NOT RDY". The alarm is not activated, regardless of the security mode. The trouble is logged in the event log. The digital communicator (if used) will report the alarm code for the zone. The voice dialer will not be activated. FREEZE This FREEZE ALARM ZONE type will generate an alarm (console beeper, no sirens) and make an emergency dial out. WATER This WATER ALARM ZONE type will generate an alarm (console beeper, no sirens) and make an emergency dial out. FIRE TAMPER This zone type is used to monitor the wiring to bells and sirens (other than those connected to the Bell Output). The zone will report trouble if an open, short, or other wiring problem is detected in the supervised bell circuit. This zone will make a digital dial out when violated. Connect a wire from the Fire Tamper zone to an output configured as a Sounder.

To configure temperatures from the Installer Setup Menu, press the 5 (Temp) key. TEMPERATURE DISPLAY This allows you to choose between Fahrenheit or Celsius temperature format. TEMPERATURE DISPLAY: 1 1=FAHRENHEIT 2=CELSIUS THERMOSTAT TYPE If thermostats are part of the system, this item specifies the thermostat type for each thermostat (this enables the thermostat). For thermostat types, the current setting is shown on the bottom line. THERMOSTAT 1 TYPE: 1 AUTO HEAT/COOL #=CHNG THERMOSTAT 2 TYPE: 0 NOT USED #=CHNG To change a thermostat type, use the arrow keys to scroll through the list of thermostat types, then press ' # ' to select a new type. TYPE AUTO HEAT/COOL HEAT/COOL HEAT ONLY COOL ONLY SETPOINT ONLY NUMBER 5 DESCRIPTION Automatic changeover heat and cool thermostat Manual changeover heat and cool thermostat Heating only thermostat Cooling only thermostat Setpoint only thermostat

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Z-WAVE THERMOSTAT NODE ID If Z-Wave Thermostats are part of the system, the Node ID for the thermostat must be associated (mapped) with the specified thermostat address in the OmniLT controller. TSTAT 1 NODE ID: 0-232 THROUGH TSTAT 2 NODE ID: 0-0
Enter the Node ID (0-232) for each Z-Wave thermostat followed by the ' # ' key. Enter 0 if there is no node associated to the specified thermostat.

SETUP MISCELLANEOUS

To configure the miscellaneous installer setup items, from the Installer Setup menu, press the 6 (MISC) key. INSTALLER CODE The Installer code allows the installer access to the Installer Setup menu. The Installer code should be changed and not given to the customer. The Installer code can not be used for remote phone access. INSTALLER CODE: 0000-9999 0000=DISABLE The default setting for the Installer code is 1 1. NOTE: Remember this Installer code and do not disable. There is no way to reset or retrieve the code! If the code is forgotten or disabled, the OmniLT controller must be sent back to the factory. Call for an RA#. ENABLE PC ACCESS This enables or disables the PC ACCESS feature. Factory default is enabled. ENABLE PC ACCESS: 0=NO 1=YES PC ACCESS CODE This code allows dealers to put an access code in the system that is separate from the customer's Master code and the Installer code. Dealers can use the PC Access code to access the system by PC. The PC Access code cannot arm and disarm the system. The PC Access code is NOT programmed from the factory. To use it, set it to any code other than 0000. To disable the PC Access code, enter 0000 for the code. PC ACCESS CODE: 0000-9999 0000=DISABLE CALL BACK PHONE NUMBER In response to a request for remote PC ACCESS using the PC ACCESS code, the system will hang up and dial this number back immediately. To program the CALLBACK PHONE NUMBER, enter the number then press ' # '. To remove the CALLBACK PHONE NUMBER, press the OFF key to enter a single "-", then press ' # '. CALL BACK PHONE NUMBER: 1

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SETUP ZONE OPTIONS
Zone options are parameters that define the way that a zone functions. There are global zone options that affect all zones and there are individual zone options that affect how each individual zone functions. To configure zone options, from the Installer Setup menu, press the 8 (ZOPT) key. SWINGER SHUTDOWN NUMBER Swinger Shutdown is a false alarm prevention feature that counts the number of alarms caused by a specific zone. After a certain number of alarms caused by the same zone within the same arming period, the controller will then shutdown that zone for the remainder of that arming period. The "Swinger Shutdown Number" is the number of times that a zone may cause an alarm during the same arming period before it is shutdown. SWINGER SHUTDOWN NUM: 1-2 1
When enabled, if the Swinger Shutdown zone is violated (causes an alarm) 1 or 2 times (according to the Swinger Shutdown Number) within the same arming period, the controller will then shutdown and ignore that zone for the remainder of that arming period. The default setting is 1. CROSS ZONE WINDOW Cross Zoning is a feature that enforces redundant detection of devices such that two or more zones must trip within a defined period to cause an alarm. This feature is typically used when multiple devices are used to cover the same general area. The "Cross Zone Number" is the number of seconds in which a second zone must trip after a zone configured as Cross Zoning has been tripped in order to cause an alarm. CROSS ZONE NUMBER: 15-240 SECONDS The default setting is 60 seconds. ZONE 1 OPTIONS ZONE 25 OPTIONS Each zone has individual zone options that may be configured for Cross Zoning, Swinger Shutdown, and Dial Out Delay. ZONE 1 OPTIONS: 0-7 THROUGH ZONE 25 0-7 OPTIONS: 4
Enter a single value to configure the individual zone options for each zone according to the table below:

Zone Options Table

Zone Options Value Cross Zoning Swinger Shutdown Dial Out Delay 0 No No No 1 Yes No No 2 No Yes No 3 Yes Yes No 4 No No Yes 5 Yes No Yes 6 No Yes Yes 7 Yes Yes Yes
The default value for Zone 1 Options Zone 176 Options is 4. See the highlighted area of Zone Options Table.

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SIA CP-01 COMPLIANCE
This control complies with the SIA CP-01 Control Panel Standard - Features for False Alarm Reduction. CP-01 is a standard sponsored by the Security Industry Association (SIA) designed with features for security systems and associated arming and disarming devices intended to reduce the incidence of false alarms.