Omni OMNI-624, OMNI-624EU Installation And Setup Manual

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3/01

THANK YOU for your purchase of the

OMNI-624 Security System.

The purpose of this manual is to give you a brief overview of the OMNI-624 control panels, and provides instructions for installing a basic system. FBII is always available to serve YOU. Our SALES and TECHNICAL SUPPORT staff are available to assist you in any way possible.

World Wide Web Address .........................................................HTTP://WWW.FBII.COM

FAX ...............................................................................................................516-921-4327

Sales

Inside the United States.....................................................................800-645-5430

Outside the United States...................................................................516-921-8666

Technical Support: (8 a.m.-8 p.m. E.S.T.)

Inside the United States.....................................................................800-645-7492

Outside the United States...................................................................516-921-8666

Before you call Technical Support, PLEASE be sure you:

• Check the wiring diagra m and verify your connections.

• Check all fuses.

• Assure that the transformer and backup battery voltages are supplying the proper

voltage levels.

• Verify your programming information.

• Read this manual thoroughly.

• Consult the Troubleshooting Section of this manual.

• Note the proper model number of this product, and the version level (if known) along

with any documentation that came with the product.

• Have your company name and telephone number ready.

This information will allow us to service you more quickly and effectively. Please, remember to BE PATIENT while waiting on the telephone; your call will be answered as soon as possible.

FOR YOUR CONVENIENCE, a separate Programming Guide is included with this manual. It provides space for listing entries for each programming question.

Table of Contents

•••••••••••••••••••••••••••••••••••••••••••

SECTION 1 – INTRODUCTION............................................................................................................1-1

System Features...................................................................................................................................1-1

Special Notes.........................................................................................................................................1-2

SECTION 2 – SYSTEM WIRING AND HOOKUP...............................................................................2-1

System Wiring Diagram.......................................................................................................................2-1

Terminal Connections...........................................................................................................................2-2

Auxiliary Device Current Draw Worksheet ........................................................................................2-5

Wiring Information for Keypads & Other Devices..............................................................................2-6

SECTION 3 – PC BOARD AND KEYPAD MOUNTING ....................................................................3-1

Mounting the OMNI-624/OMNI-624EU PC Board.............................................................................3-1

Mounting the RF Expander Module....................................................................................................3-2

Mounting the Zone Expander Module.................................................................................................3-2

Keypad Mounting Instructions............................................................................................................3-2

SECTION 4 – SYSTEM CONFIGURATION........................................................................................4-1

Partitioning...........................................................................................................................................4-1

Hardwire Zones and Zone Expansion Module.....................................................................................4-1

Wireless Transmitters..........................................................................................................................4-2

Relay/Trigger Outputs..........................................................................................................................4-3

Paging Feature......................................................................................................................................4-4

SECTION 5 – SYSTEM OPERATION...................................................................................................5-1

Power Up/System Reset........................................................................................................................5-1

Keypads.................................................................................................................................................5-1

Keypad Sounder....................................................................................................................................5-4

Keypad Addressing...............................................................................................................................5-4

Arming the System...............................................................................................................................5-5

User Code Programming......................................................................................................................5-8

User Deletion......................................................................................................................................5-10

Keypad Emergency Conditions..........................................................................................................5-10

Quick Command Modes......................................................................................................................5-11

SECTION 6 – SYSTEM PROGRAMMING...........................................................................................6-1

Programming Methods.........................................................................................................................6-1

System Default......................................................................................................................................6-1

Keypad Programming...........................................................................................................................6-2

Installer Modes Summary....................................................................................................................6-5

Data Entry via Keypads.......................................................................................................................6-9

Summary of System Programming....................................................................................................6-11

Programming Submode 1: SYSTEM OPTIONS................................................................................6-11

Programming Submode 2: ZONE PROGRAMMING / REPORT CODES........................................6-44

Programming Submode 3: WIRELESS TRANSMITTER PROGRAMMING...................................6-50

iii

Programming Submode 4: DESCRIPTOR PROGRAMMING ..........................................................6-51

SECTION 7 – SUMMARY OF KEYPAD FUNCTIONS.......................................................................7-1

User Functions......................................................................................................................................7-1

Installer Modes.....................................................................................................................................7-2

SECTION 8 – CENTRAL STATION REPORTING FORMATS........................................................8-1

General Information.............................................................................................................................8-1

Standard (3x1 or 4x1)...........................................................................................................................8-1

Extended (3x1 Ext. or 4x1 Ext.)...........................................................................................................8-2

Partial Extended (3x1 Part. Ext. or 4x1 Part. Ext.)............................................................................8-2

3x2 or 4x2..............................................................................................................................................8-3

FBII Superfast (4x3x1).........................................................................................................................8-3

ADEMCO 4x1 Express .........................................................................................................................8-4

ADEMCO 4x2 Express .........................................................................................................................8-4

ADEMCO Point ID ...............................................................................................................................8-5

SECTION 9 – TROUBLESHOOTING...................................................................................................9-1

SECTION 10 – REGULATORY/LIMITATIONS STATEMENTS ....................................................10-1

Conventions Used in This Manual

•••••••••••••••••••••••••••••••••••••••••••

Before you begin using this manual, it is important that you understand the meaning of the following symbols (icons) and text note.

Note:

These notes include specific information that must be followed if you are installing this system

for a UL Listed application.

These notes include information that you sho uld be aware of before contin uing with the installation, and which, if not observed, could result in operational difficulties.

This symbol indicates a critical note that co uld ser iou sl y aff ect the oper atio n of the system , or

could cause damage to the system. Please read each warning carefully. This symbol also alerts the user to the possibility of physical harm if instructions are not followed as written

These text notes are provided throughout the manual to provide informative information and shortcut tips for the installer.

SECTION 1

Introduction

•••••••••••••••••••••••••••••••••••••••••••

System Features

The OMNI-624 and OMNI-624EU are state-of-the-art microprocessor-based control/communicators that provide 2 partitions and support both hardwire and wireless zones. Programming can be performed through any of the compatible keypads, or the system can be uploaded and downloaded remotely using the Compass Downloader Software. Additionally, the software can be programmed to control remote actions, such as arming, disarming, bypassing, etc. Programming options are stored in an Electrically Erasable Programmable Read Only Memory (EEPROM). The EEPROM i s nonvolatile, meaning that programmed instructions will not be lost in the event of a loss of power.

Features of the OMNI-624 and OMNI-624EU include:

• 2 independent partitions

• Up to 24 zones that may be comprised of a

combination of hardwire and wireless or wireless zones

• 6 hardwire zones (all fully programmable, including keyswitch), expandable to 8 additional hardwire zones using optional plugin OMNI-EXP8 Expansion module

• Hardwire zones can be co nfigured as standard or double-balanced, or can be set for zone doubling (providing up to 24 hardwire zones if zone expander is used)

• Up to 24 wireless protection zones plus up to 8 wireless keys

• Cross-zoning capability

• 32 User Codes (either 4-digit or 6-digit codes

can be used)

• Up to 12 keypads (OMNI-LCD, OMNI-KP, XK108L)

XK-108 keypads may also be used; however, the system can only have XK-108 type keypads attached and the system must be set up as having one partition.

• Keypad programming and remote programming via PC and modem

• 3 emergency keypad co nditions (Panic, Fire, & Auxiliary)

• 128 Event History Log (alarms, troubles, low battery, bypasses, central station (CS) test, openings & closings) and keypad events

• 20 programmable relay outputs (using optional XL4705 modules)

• 4 built-in programmable trigger outputs (2 triggers if relay module is used)

• Real-time clock (displays time & date via LCD keypad) with reminder when clock needs to be set

• CS test timer by event, time or both (1 hour, 1, 7, 27, 60, 90 Days)

• Customer control of Chime mode and Pager mode

• Quick Arming, Quick Bypass, and Quick Force Arming

• CS reporting by zone

• False alarm prevention features: Crossed

Zones, Exit Error, Recent Close, Swinger Shutdown

• Cancel Code & System Stabilization during power-up

• Arming by keyswitch in Away or Stay mode

• Keypad Tamper/Lockout with optional CS

reporting

• Restore transmission options: After Loop or After Bell

1-1

OMNI-624/OMNI-624EU Installation and Setup Guide

• Upload/download and remote commands

• 3 methods of u ploading/downloading: PC ,

operator-initiated, and unattended

• Paging (audio format) capabilities

• Auto-arming at a specific time of day with

capability to arm in either Away, Stay, or Instant modes

• Dual entry timers

• Fire zone reset through ke ypad

• Glassbreak reset through keypad

• Bell Test, Low Battery Test, AC loss and

communications failure

• Input power: 16.5VAC, 25VA; 12VDC, 4-7AH

• Output power: 12VDC, 500mA

• Bell output power: 12VDC, 1A

Special Notes

IMPORTANT - Failure to install and program this unit in accordance with the UL requirement is a violation of the listing mark. For more information on UL Listings, contact Underwriters Laboratories, Progress Department, 333 Pfingsten Road,

Northbrook, IL 60062.

UL Listings

The OMNI-624 is the Residential (Household) version of the control panel, and has been Listed by Underwriters Laboratories for the following applications:

• UL 1023 Household Burglary

• UL 985 Household Fire Warning

FCC Registration Number: 5GBUSA-44003-AL-E

References to Programming Questions

Programming questions are grouped into 4 installer programming submodes, as follows: 1 – System Options 2 – Zone and Report Code Programming 3 – Wireless Zone/Keyfob Programming 4 – Zone Descriptor Programmi ng

Throughout this manual, programming question references without a submode designation pertain to questions in submode 1 (system options). Programming questions for other submodes include the appropriate submode number.

1-2

SECTION 2

System Wiring and Hookup

•••••••••••••••••••••••••••••••••••••••••••

System Wiring Diagram

CONNECT GROUNDING LUGS TO LEFT-HAND TERMINALS

BLACK

RED

12V, 4-6AH

BATTERY

MODEL 467

(4AH)

JP4 JUMPER

PINS

1 & 2

2 & 3

APPLICATION

STANDARD BELL

SUPERVISION

EXTERNAL SIREN

DRIVER SUPERVISION

(USE TERM. 5 FOR

SVSN. INPUT)

TRANSFORMER

16.5 VAC , 25V A

(CONNECT TO

24 HR. SOURCE)

SELF-CONTAINED

SIREN

NOTES:

1. FOR UL INSTALLATIONS, USE TWO 4AH BATTERIES CONNECTED IN PARALLEL

ANTENNA 1

FOR MINIMUM STANDBY OF 24 HOURS. THE TWO BATTERY CABLE (P/N F344) IS OPTIONAL AND NOT INCLUDED WITH THE PANEL.

2. 180 mA MAX, AUX. POWER (INCLUDING KEYPADS CONNECTED TO TERMINALS 20-23) FOR UL INSTALLATIONS.

3. 650 mA MAX, ALARM OUTPUT FOR UL INSTALLATIONS.

4. FOR CE COMPLIANCE, WIRE THE OMNI EXP 8 HARDWIRE ZONE EXPANDER AS DESCRIBED IN THE OMNI-EXP 8 INSTAL LATION AND SETUP GUIDE N9953V1 OR HIGHER.

HARDWIRE ZONE EXPANDER

P2 P3

29 30 31 32 33 34 35 36 37 38 39 40

2.2k

ZONE

BELL SUPV

JP4

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 20 21 22 23 24 25 26 27 28

AUX PWR

(500mA MAX)

FIRE &

BURGLARY

ALARM

OUTPUT

(11.5 -

13.1VDC, 1A MAX)

TYPICAL CONNECTION

FOR ZONE DOUBLING

BELL

ZONE 1

ZONE 2

ZONE

EXT. SIREN SUPERVISION INPUT

2.2k

ZONE

3.3k

7.5k

DIRECT PLUG-IN

(Wireless Zones)

PROGRAMMING

DEFAULT JUMPERS

OMNI-EXP 8

(optional)

2.2k

ZONE

SMOKE POWER (6+) & (7-) 12VDC REG., 50mA MAX

2.2k

ZONE

STANDARD EOLR

TYPICAL DOUBLE

BALANCED ZONES

TAMPER

2.2k

CONTACTS

TAMPER

2.2k

CONTACTS

2.2k

JP1 JP2

2.2k

ZONE

2.2k

ZONE

2.2k

ANTENNA 2

ZR-401/ZR-402EU/OMNI-RF

RF RECEIVER

(optional)

WARNING

TO PREVENT RISK OF ELECTRICAL SHOCK, DE-ENERGIZE THE SYSTEM CONTROL UNIT AND DISCONNECT THE TELEPHONE LINES BEFORE SERVICING THIS UNIT.

GRAY

BROWN

MODEL 368 CORD

TO RJ31X OR

CA38A JACK

RED (+)

GREEN (DATA OUT)

BLACK ( )

YELLOW (DATA IN)

HOME

USE WITH XK108 OR OMNI-LCD,

OMNI-KP,

AND XK108L

GROUND LUG

TELCO

TRIGGERS

RED

GREEN

RECEIVER INTERNAL CONNECTIONS

OPTIONAL TRIGGER CABLE XL4612TC

+VBELL TRIGGER 1 TRIGGER 4 (OR DATA) TRIGGER 3 (OR CLOCK) TRIGGER 2 GROUND

IF XL4705 RELAY

MODULES USED.

TELCO CONNECTOR (APPLICABLE ONLY IN AUSTRALIA)

OMNI624-SOC-V1

2-1

OMNI-624/OMNI-624EU Installation and Setup Guide

SYSTEM STABILIZATION MODE: When powering up a system that was previously armed when power was removed, the system will enter a 2-minute stabilization period. This 2-minute interval is used to allow motion detectors to stabilize. “PLEASE STAND BY” and “POWER UP DELAY” are displayed on the OMNI-LCD keypad. “PL” is displayed on the OMNI-KP keypad, and the Armed LEDs on both keypads are lit. All LEDs on the XK108 and XK108L keypad are lit.

Terminal Connections

1 & 2 — TRANSFORMER: Connect the 16.5VAC 25VA transformer, utilizing 18AWG (1mm dia.) or

larger wire at a distance not to exceed 15 feet (4.5m) from the panel, to an

unswitched

AC mains power (120 or 220VAC). The system can supply up to 1.8 am ps of total current. Do not use any other rating transformer, as this may result in improper operation or damage to the

unit. The “AC/LOW BAT” keypad LED remains ON while AC power is present. If an AC loss occurs, the

“AC/LOW BAT” LED turns off immediatel y. If AC power remains OFF for 15 minutes, the system pulses the keypad buzzer and transmits a power-loss message to the central station, if programmed to do so. THE KEYPAD BUZZER CAN BE SILENCED by entry of any valid user code. When AC restores, the “AC/LOW BAT” LED lights immediately, and a Restore code is reported, if programmed.

3(+) & 4(–) — BELL OUTPUT: The total output power available for sounding devices is 1 amp (650 mA

for UL installations) at 11.5 - 13.1VDC. These terminals will deliver CONSTANT output on BURGLARY, AUDIBLE PANIC, and BELL TEST. On a FIRE condition, a PULSED or TEMPORAL output can be generated. There are se parate bell cutoff times programmable for burglary and fire conditions within the programming sequence. For UL Household Fire Warning System installations, the speaker must be mounted indoors for best audibility. Also, for UL installations, use only one speaker.

NOTE:

Before connecting soundi ng devices, please consult their specifications for proper current

draw. Otherwise, the bell fuse (F1) may be blown.

NFPA 72 REQUIREMENT:

interconnecting pathways (cable, wire, etc.) between the alarm system initiating device (control panel) and the signaling device (bell, speaker, siren, etc.) shall be monitored for an occurrence of an open circuit, which prevents the normal operation of the system. An occurrence of an open circuit s hall be indicated by a distinctive trouble signal.

All the

BELL SUPERVISION (Bell) - To meet the NFPA 72

requirement, program Question 12, Location 3, in Programming Submode 1 for bell supervision. The bell is then supervised for an open circuit (not a short circuit) across the bell output terminals; the keypad will indicate that a bell supervision condi t ion has occurred and fire trouble is reported to the CS if enabled. If the bell is already ringing, the supervision will no t take effect until after bell cutoff time. Refer to the following diagrams:

source of

2-2

3 (+)

Section 2. System Wiring and Hookup

BELL OUTPUT

4 (–)

SIREN SUPERVISION (Self-Contained Siren/Speaker) -

MECHANICAL

BELL

OMNI624-001-V0

(Not for use in UL installations.)

To meet the NFPA 72 requirement program Question 12, Location 3, in Programming Submode 1 for bell supervision. The siren is then supervised for an open circuit (not a short circuit) across the bell output terminals; the keypad will indicate that a supervision condition has occurred and bell supervision is reported to the CS, if enabled (Programming Submode 2, Question 43, Locations 1 and 2). If the siren is already sounding, the supervision will not take effect until after bell cutoff time.

NOTE:

Use FBII models ZR-815C, ZR-815EC, or ZR-830EC. See the following diagram:

3 (+)

BELL OUTPUT

4 (–)

SIREN/SPEAKER

OMNI624-002-V0

5 — SIREN SUPERVISION INPUT: The Bell output may be supervised when a conventional bell or a

self-contained siren is connected. When connecting a conventional bell or a self-contained siren to the bell output terminals (3 and 4), the jumper JP4 must be placed across pins 1 and 2. When connecting an external siren driver to the bell output terminals, the supervision wire is connected to the siren supervision terminal of the siren driver, and the jumper JP4 must be placed across pins 3 and 4. A supervisory condition will generate a pulsing keypad sounder. Also, the supervisory LED on the keypad will pulse. The sounder may be silenced by entering a valid user code while the system is disarmed. The LED will co ntinue to pulse until the supervision is fixed. If a bell, selfcontained siren, o r external siren driver is not connected to the bell output terminals, a 100-ohm resistor must be placed across the siren supervision input to prevent a bell supervision error or you must disable bell supervision (Programming Submode 1, Question 12, Location 3). Bell supervision will be reported to the CS if CS code is enabled.

6 (+) & 7 (–) — SMOKE DETECTOR POWER (B+): This system will accept 9.5–12VDC 4-wire smoke

detectors only. Approximately 50mA of current is available at these terminals for powering all detectors and/or an EOL relay (i.e., FBII Model 620). For UL installations, see wiring diagram for hookup.

These terminals adhere to the fire verification and reset logic, which is explained in the System Programming section of this manual. The smoke detector power may be manually reset by clearing the alarm memory and then entering a valid user code.

6 (+) & 4 (–) — REGULATED POWER (11.5 –13.1VDC B+): The total regulated output power for

motion detectors and other external devices is 500mA at 11.8 - 12.5V for residential applications, or

12.0 - 12.5V for commercial applications, with less than 100 mVPP ripple. The total regulated

2-3

OMNI-624/OMNI-624EU Installation and Setup Guide

output capacity of the control panel includes the power available from these terminals (6 and 4) as well as the power used by the keypads (23 [+] and 20 [–]) and smoke detectors (7 [–] and 6 [+]). Therefore, to determine the total power available from these terminals, subtract the power consumed by the keypads and smoke detectors.

NOTE:

For UL installations, total current cannot

exceed 180mA including the keypads connected to terminals 20 through 23.

ZONE INFORMATION (HARDWIRED ZONES):

8 (+) & 9 (–) Zone 1 [Default = DELAY] 13 (+) & 12 (–) Zone 4 [Default = INSTANT] 10 (+) & 9 (–) Zone 2 [Default = INTERIOR] 14 (+) & 15 (–) Zone 5 [Default = INSTANT] 11 (+) & 12 (–) Zone 3 [Default = INSTANT] 16 (+) & 15 (–) Zone 6 [Default = INSTANT]

Normally-closed devices may be wired in series; normally open devices may be wired in parallel. A

2.2k-ohm end-of-line resistor can be installed on all zones. (Refer to the wiring diagram.) The standard loop response time is 280mS on all zones. The factory default values for each zone are listed in the table above; however,

zone can be programmed for the following types: delay,

any

perimeter, interior, fire, 24-hr. alarm, or 24-hr. trouble. Further explanation of the zone types can be found in the System Programming section of this manual. See the “Hardwired and Zone Expansion Module” paragraph in Section 4: System Configurations for information on zone doubling (to increase the number of available hardwire zones) and the use of double-balanced zones.

NOTE:

Loop response is defined as the minimum time required for a fault to trip a zone.

RF RECEIVER — ZONE INFORMATION (WIRELESS ZONES): Up to 24 wireless zones can be used if

the ZR-401, ZR-402EU, or OMNI-RF Wireless Expansion Module is installed. The maximum number of zones (24) includes the 6 basic wired zones, wired zones using the expansion module, and the wireless zones. Compatible ADEMCO 5800 Series or FBII ZR-500 Series wireless devices must be used. See the “Wireless Zones” paragraph in Section 4: System Configuration for more information on using wireless zones and for a list of compatible transmitters.

20 (BLK), 21 (YEL), 22 (GREEN) & 23 (RED) — KEYPADS: Up to 12 keypads may be wire d to these

terminals. The connections are as follows: 20 (BLACK = negative), 21 (YELLOW = data in), 22 (GREEN = data out) and 23 (RED = positive power). Refer to the table in the “Auxiliary Device Current Draw Worksheet” paragraph of this section to obtain keypad current draw information.

NOTE:

In some installations, it may be necessary to use shielded wire to prevent radio frequency

interference.

24 — EARTH GROUND: Connect this grounding lug to a cold-water pipe utilizing 18AWG (1mm dia.)

wire at a distance of no greater than 15 feet (4.5m). Use a noncorrosive metal strap firmly secured to the pipe to which the lead is electrically connected and secured. If the premises pipes terminate in PVC, this terminal

be connected to a 6-foot (2m) grounding rod.

must

25 (BRN), 26 (GRAY), 27 (GREEN) & 28 (RED) — TELEPHONE LINE: Connect the RJ31X cord as

follows: 25 (BROWN = Home Tip), 26 (GRAY = Home Ring), 27 (GREEN = Telco Tip), 28 (RED = Telco Ring). Insert the plug into an USOCRJ31X Jack (or a CA31A Jack for Canadian installations).

The FCC registration number is 5GBUSA–44003–AL –E, and the ringer equivalence is 0.1B. The system should not be connected to party lines or coin-operated phones.

If this control panel will be used for uploading, downloading, or remote-command applications, the telephone line connected to the control panel

must not

be shared with a fax machine or modem.

2-4

Section 2. System Wiring and Hookup

Furthermore, this device should not be connected to a phone line that has Call Waiting, unless the Call Waiting Interrupt numbers are programmed into the panel dialing sequence.

BACKUP BATTERY: The RED (+) and BLACK (–) flying leads must be connected to a 12VDC 4–7AH

lead acid battery, to serve as backup power in the event of AC loss. A battery test occurs approximately every minute. Low-battery condition occurs at nominal 11VDC.

The keypad AC/LOW BAT LED and buzzer will pulse slowly when a low-battery condition is detected. The system reports this condition to the CS if programmed to do so. There is also an option that prevents the system from arming if a low battery has been detected (see Question 14, L2). Battery restoral will occur within 4 minutes, at the next battery test. The buzzer may be silenced by entry of any valid user code.

NOTE:

For UL installations, use two 4AH batteries connected in parallel.

TRIGGER/RELAY OUTPUTS: The control panel has four built-in programma bl e trigger outputs. In

addition, up to two XL4705 Relay Modules can be connected, providing 20 additional programmable relay outputs. If the Relay Modules are used (enable modules in Programming Submode 1, Question 12, L2), then built-in triggers 3 and 4 are no longer used as trigger outputs, but serve as clock and data inputs for the relay modules. See Programming Submode 1, Questions 32–43, for valid trigger/relay types and programming.

NOTE:

In order to connect devices to the triggers, use connector XL4612TC (trigger cable). Connect to terminal P1 VBELL to obtain a POSITIVE reference point. Triggers 1, 2, 3, and 4 (3 and 4 when not using XL4705) will go to a negative ground potential when active. For UL installations, the trigger outputs shall be connected to devices rated to operate over the range from 10.1–14.0VDC at 50mA.

Auxiliary Device Current Draw Worksheet

** If the system is using devices such as PIR's, smoke detectors, etc., refer to the specifications for that particular device's current draw. If the total current draw fo r all devices exceeds 500mA, use an additional power supply.

*** For UL installations, do not exceed 180mA.

DEVICE

CURRENT DRAW

FOR EACH

NUMBER

OF UNITS

TOTAL CURRENT

FOR ALL UNITS

Control Panel 65mA 1 65mA OMNI-LCD (Backlight Off/On) 35mA/81mA OMNI-KP (Backlight Off/On) 28mA/45mA XK-108L 42mA PIR ** Smoke Detector ** Glassbreak Detector **

** **

TOTAL CURRENT FOR ALL DEVICES =

(500mA max.)***

NFPA, UL, and the California State Fire Marshal require the backup battery to provide power for 24 hours. The maximum aux. power will vary by the ampere/hour rating of the battery used: 5AH = 95mA; 7AH = 180mA; 8AH = 210mA.

2-5

OMNI-624/OMNI-624EU Installation and Setup Guide

Wiring Information for Keypads & Other Devices

KEYPADS & OTHER DEVICES

If single or multiple devices are connected on a single 4-wire or 2-wire run ("daisy chained") to the control termina ls, do the following:

Determine the current drawn by the unit(s) connected to the single-wi re run, then refer to the Wiring Run Table below to determ ine the maximum wire length that can be safely used fo r each wire size.

In some cases, the total current drawn may result in a value not shown in the table. For example, if you plan to use #22 gauge (0.64mm) wire and the total current drawn is 400mA (a value between 300mA and 500mA), the maximum wire length you should use is approximately 65 ft. or 20m (a length between 50 and 80 ft or 15m and 24m). Other maximum wire lengths for values of current not shown in the table can be calculated in a similar manner.

Maximum wire lengths for a device that is "home run" to the control can also be determined from the table, based on the current draw of that device alone.

Wiring Run Table For Devices Drawing Power From Terminals 23 (+) & 20 (–)

WIRE SIZE

#22 (0.64mm) 500 ft. (152m) 250 ft. (76m) 80 ft. (24m) 50 ft. (15m) #20 (0.8mm) 750 ft. (229m) 380 ft. (116m) 130 ft. (40m) 80 ft. (24m) #18 (1mm) 1300 ft. (396m) 650 ft. (198m) 220 ft. (67m) 130 ft. (40m) #16 (1.3mm) 2000 ft. (610m) 1000 ft. (305m) 330 ft. (100m) 200 ft. (70m)

TOTAL CURRENT DRAWN BY ALL UNITS ON A SINGLE WIRE RUN

50mA or less 100mA 300mA 500mA

Examples:

1. What is the maximum distance from the control panel for one keypad drawing 30mA using #20 gauge (0.8mm dia.) wire?

Using the table above, the keypad can be placed no farther than 750 ft. (230m) away from the panel (50mA or less).

2. What is the maximum distance for 5 smoke detectors drawing 0.25mA (50µA each) using #22 gauge (0.64mm dia.) wire connected in a single-wire run?

Using the table above, the farthest smoke detector can be placed no more than 500 ft. (150m) away from the panel.

2-6

SECTION 3

PC Board and Keypad Mounting

•••••••••••••••••••••••••••••••••••••••••••

Mounting the OMNI-624/OMNI-624EU PC Board

NOTE:

Remove the door as follows:

1. With the cabinet laying on a flat surface, swing open the door to its full-open position.

2. Slide the door out of its retaining slots in the cabinet and store in a safe place.

BEFORE MOUNTING PRINTED CIRCUIT BOARD, BE CERTAIN THAT APPROPRIATE METAL KNOCKOUTS HAVE BEEN REMOVED FROM THE METAL CABINET.

THE KNOCKOUTS AFTER CIRCUIT BOARD HAS BEEN INSTALLED.

3. Insert top of circuit board into slots at top of cabinet. Make sure that circuit board rests in slots as

4. Swing base of circuit board onto the raised cabinet tabs.

5. Secure the sides of the PC board to the enclosure using the 2 screws provided.

The door of the metal cabinet may be removed to make it easier to install the control panel.

DO NOT ATTEMPT TO REMOVE

indicated in the diagram shown below.

CABINET

BOARD

SUPPORTING

SLOTS

ANTENNAS (INSERT IN

RIGHT-HAND

TERMINALS)

RECEIVER

CIRCUIT BOARD

SUPPORTING SLOTS

DETAIL A

SIDE VIEW

OF BOARD

SCREW

GROUNDING

CABINET

ANTENNA AND GROUNDING LUG INSTALLATION

(2)

LUG

(2)

RECEIVER

RCVR BRD

CONTROL CIRCUIT BOARD

DETAIL C

ANTENNA (2)

ANTENNA

MOUNT

(2 PLACES)

CONTROL CIRCUIT BOARD

DETAIL B

SIDE VIEW

OF MOUNTING

SCREW

pcb_mount-006-V0

3-1

OMNI-624/OMNI-624EU Installation and Setup Guide

Mounting the RF Expander Module

1. Mount the receiver board on top of the control PC board as shown in the diagram at right.

2. Insert grounding lugs (supplied) into the left-hand terminals of the antenna blocks and secure them to the cabinet with the screws provided.

3. Insert the receiver's antennas through the top of the cabinet into the blocks' right-hand terminals. Tighten screws.

ZR-401/ZR-402EU/OMNI-RF

RF RECEIVER

BOARD

OMNI624-004-V0

Mounting the Zone Expander Module

1. Mount the zone expander board onto the control PC board pins where shown in the diagram below.

2. Connect zone wiring as shown on the wiring diagram earlier in this manual.

OMNI-EXP 8

HARDWIRE ZONE EXPANDER

BOARD

Keypad Mounting Instructions

The security system is compatible with the following addressable keypads:

LCD (alpha) Keypad: OMNI-LCD

•

Fixed-Word Keypad: OMNI-KP

•

LED Keypad: XK-108L and XK-108

•

See the Installation Instructions provided with the keypads for mounting procedures.

3-2

OMNI624-005-V0

SECTION 4

System Configuration

•••••••••••••••••••••••••••••••••••••••••••

Partitioning

This system provides the ability to arm and disarm 2 different areas, known as partitions, each as if it had its own control. A partitioned system allows the user to disarm ce rtain areas while leaving other areas armed, or to limit access to certain areas to specific individuals. Each user of the system can be assigned to operate either or both partitions, and can be given a different authority level in each. Users with authority levels of 1 and 2 may view or program users in other partitions, using the [#] [0] or [#] [7] commands.

Partitions are defined when zone information is programmed (submode 2 Questions 1–24). Once the enabled zones have been established, the system will read each zone definition and, if the zone is enabled, will use the partition information from each of these zones to enable the system’s partitioning. Partitioning must start with partition 1 and must be used sequentially (i.e., you cannot have partition 3 without using partition 2).

Keypads:

and assigned to one partition (Installer Mode 1, Questions 44–45).

Zones:

to a partition are displayed on that partition's keypad(s).

Users:

partition (multiple access) can "log on" to one partition from another partition's keypad using the [#] [0] command.

Each keypad must be given an address that is unique (from other keypads of the same type)

Each zone must be assigned to one partition (submode 2, Questions 01–24). The zones assigned

Each user can be assigned to one or more partitions. A user with access to more than one

Hardwire Zones and Zone Expansion Module

Hardwired Zones

additional hardwired zones. System options allow for all hardwired zones to be configured as E.O.L., N.C., N.O., double-balanced, or configured for zone doubling.

Standard Mode:

Zones 5 and 6 can be set as fast zones (for normally closed loops only). Refer to the connection diagram for wiring connections.

Double-Balanced Zones:

loops. Tamper conditions will cause an alarm if armed and a fault if disarmed with visible tamper indication on the keypad. Up to nine 2.2K resistors are wired in series across normal shorted detectors, with one 2.2K end of line resistor. Any device that opens adds 2.2K to the loop causing an alarm. If the loop resistance exceeds 22K, the loop is considered tampered. If the system is set for double-balanced, this will override any individual zone settings.

Zone Doubling:

option is selected. The zones are consecutive on each physical loop. The low zone uses a 3.3K resistor and the next zone uses a 7.5K resistor. The loop is wired with normally shorted devices in parallel.

: Consist of 6 on-board hardwired zones with a plug-in expansion module to allow 8

Each zone may be programmed as EOL 2.2K, normally closed or normally open.

In this configuration, tampers may be detected for both shorted and opened

Up to 24 zones may be used as hardwired if an expander is also used when this zone

4-1

OMNI-624/OMNI-624EU Installation and Setup Guide

This means that Loop 1 uses the 3.3K resistor for Zone 1 and the 7.5K resistor for zone 2; Loop 2 contains zones 3 and 4, etc. In Zone programming (Programming Submode 2, Question 50, L3 and L4), the value of 00 disables zone doubling; otherwise, program the first odd numbered loop that zone doubling is to begin. For example, programming a “15” in the zone doubling question means that loop 15 on the zone expander will contain zones 15 and 16, and loop 16 will contain zones 17 and 18. Only odd numbers may be selected because the system scans 2 consecutive zones at one time.

Cross Zoning:

programmable (Question 53, L3 [timer 1] and L4 [timer 2] in Programming Submode 2: Zone Programming) in 15-second increments (15 Sec. to 4 min.) Cross-zone processing only occurs when controlled zones are armed or on 24-hour zones.

Cross zoning functions in either of 2 ways:

•

If the group contains 2 different zones, when the first zone in the group is tripped, the cross-zone timer loads and starts counting. An alarm will occur if:

The other zone in the same group trips before the timer reaches 0. This causes an alarm on the second zone to trip. The first zone to trip will only go into alarm if it is still violated at the time the second zone causes an alarm.

or The timer expires and the zone that started the timer is still violated and has not restored during

the entire timing cycle.

•

The zone is crossed to itself (e.g., Programming Submode 2, Question 51 is programmed as 0101 – Zone 1 crossed to itself) and the zone has tripped 3 times within the timing period (Pulse counter).

Zone Expander Module:

zones can be used. These zones can be configured as standard (EOL, NC, NO), double balanced, or set for zone doubling. Refer to Zone Expander Module.

Two groups of 2-zone crosses can be programmed. Two cross-zone timers are

Using the OMNI-EXP8 Zone Expander Module, up to 8 additional hardwire

Section 3: PC Board and Keypad Mounting

for information on installing the

Wireless Transmitters

Using the ZR-401, ZR-402EU, or OMNI-RF wireless Expander Module, up to 24 wireless zones plus up to 8 wireless keyfobs can be used. Each zone or keyfob must be programmed and its serial number entered in programming mode.

NOTES:

The ZR-401, ZR-402EU, and OMNI-RF features two antennas to provide diversity. One is located on the module and the other is located on the control’s PC board.

The 6 hardwired zones on board may be eliminated from the system to use an all-wireless system that supports up to 24 zones. The system can be programmed without skips in zone usage by assigning an offset to the first RF zone (Submode 2, Question 50, L1 and L2). For example, if 14 hardwired zones are used (6 on board and 8 on the hardwired expander), the offset may be set to 15 to start the usage of wireless points. The default value for the wireless offset is 07.

4-2

For 433.92MHz, use the ZR-402EU Expander Module. For 868MHz, use the OMNI-RF Expander Module When using the ZR-401, you

must use ZR-401 V1.1 or later

for proper system operation

Section 4. System Configuration

The following chart lists the most popular compatible wireless devices by market. Please consult your distributor for the availability of additional products.

North America

Device

2-Zone Transmitter 5816 5816EU ZR510 5816EUH Dual Element PIR 5890/5890PI 5888EU ZR530 5888EUH Panic Transmitter 5802MN 5802EU ZR520 5802EUH Smoke Detector 5808LST 5808EU N/A 5808EUH 4-Button Keyfob 5804 5804EU ZR590 5804EUH

(345MHz)

Western Europe (433.92MHz)

Outside Western Europe (433.92MHz)

Europe (868MHz)

NOTE:

This security system is not compatible with the ADEMCO bi–directional devices.

Relay/Trigger Outputs

The system allows up to 22 programmable outputs. It provides 4 built-in triggers with the option of adding up to four XL4705 Relay Modules (which provide up to 20 relay outputs). If the relay modules are used, they must be enabled during programming (Submode 1, Question 12, Location 2). When using relay modules, built-in triggers 3 and 4 no longer function as triggers but serve as clock and data inputs for the modules. The remaining 2 built-in triggers provide a total of up to 22 programmable outputs. See Programming Questions 32–43 in Submode 1 for individual trigger programming options.

Each XL4705 Relay Module provides five form C relays. Each module must be assigned a unique module address (0–3) using its DIP switches. The module addresses allow the system to identify the specific relay numbers being used according to the following table:

Module Number

1 0 1–5 Q32–34 2 1 6–10 Q34–36 3 2 11–15 Q37–Q39 4 3 16–20 Q39–Q41

Built-in triggers 1–4 are programmed in Questions 42–43.

NOTE:

If the system uses relay modules, only triggers 1 and 2 are available.

Module DIP Address

Relay Numbers

Program Question

4-3

OMNI-624/OMNI-624EU Installation and Setup Guide

Connect the Relay Modules as shown:

XL4705 RELAY MODULE

CONNECT TO EARTH GROUND

TO AUX POWER

TERMINALS

Modules may have to be powered from a separate 12V power source if the total current drawn by the relay modules exceeds the current available from the control panel’s Auxiliary Power output.

CONNECT TO TRIGGER 4

CONNECT TO TRIGGER 3

XL4705 Current Advisory:

(4)

12V

(7)

DAT A

CLOCK

Standby = 16mA Each active relay = 40mA Total current drain with all five relays active = 200mA If a separate power supply is used to power the module, you must connect the power supply ground to the control panel ground terminal.

SW1

1 2 3 4 5 6 7 8 9 1011121314151617181920

GND DATA CLK

12V

NO NC C NO NC C NO NC C NO NC C NO NC C

Relay 1 Relay 2 Relay 3 Relay 4 Relay 5

DIP SWITCH 1: In the ON position, inverts Relays 2 and 4, e.g.,

USE TWISTED PAIR FOR THESE WIRES

DIP SWITCHES

SHOWN IN “OFF”

DIP SWITCHES

REFER TO

“DIP SWITCH ADDRESSING”

TABLE FOR SETTINGS

if wired for normally closed (N.C.), relay will change to normally open (N.O.), and vice versa.

SW1

Trigger Address Switch 2 Switch 3 Switch 4

OFF

1 234

POSITION

DIP SWITCH ADDRESSING

1–5 OFF OFF OFF 6–10 ON OFF OFF 11–15 OFF ON OFF 16–20 ON ON OFF

OMNI624-006-V0

Paging Feature

Summary

end user or installer can reprogram, is entered in Submode 1, Question 4 (partition 1) and Question 5 (partition 2). The number of times the pager number is dialed is installer-programmable from 1–3 times. The installer also selects which events may cause a page. Four conditions may be selected: (1) zone alarms, (2) 24-hour zone troubles, (3) openings, and (4) closings. The conditions are programmed in Submode 1, Question 23, Location 1 for partition 1 and Location 2 for partition 2. Each user code may also be enabled/disabled from sending pages on opens and closes. Additionally, paging may be turned on or off for opening and closing.

NOTE:

4-4

: A 16-digit phone number to dial for paging by each partition (#58 user function), which the

Only one event is paged-based on the priority described next.

Section 4. System Configuration

Paging Alarms, Troubles, Open, and Close

Alarms will take priority over troubles, troubles take priority over Open, and Open takes priority over Close.

For pager opening or closing to occur, the following conditions must exist:

•

The system must not have an alarm or trouble condition.

•

The system must have the open or close enabled (Submode 1, Question 23, L1 for partition 1 and/or L2 for partition 2).

•

The system must have the open/close enable set by using the #8 command (see below).

•

The phone number for the partition must be enabled (Submode 1, Question 04 for partition 1 and Question 5 for partition 2).

•

The page attempts option must be set (Submode 1, Question 13, L3).

User Enables and Options [#] + [7] + Code + User Number + [4] –

This quick command allows a user with an authority level of 1 or 2 to enable users in multiple partitions and also enables a user’s open/close reporting to the pager number. The [4] toggles open/close reporting to the pager on and off.

– Allows the end user to turn on or off open and close pages for his partition. This will not affect

alarm and trouble pages if enabled. Also, the installer must have enabled opens and/or closes to page.

LCD

– Displays if open/close pages are on/off. Press [#] to toggle, press [✱] to exit.

LED/Fixed Word #58 [code]†

– Toggles if open/closes will send a page.

– End user function to change the pager number. This mode times out in 10 seconds

without saving the phone number if no key is pressed, or exists without saving if the [✱] key is pressed. † Entry of the user code is optional.

Key functions

Key

[✱]

[#] Key

– Saves new phone number and blanks digits from last digit entered to end

[Code] key

– Displays 16-digit phone number. Enter new phone number and press [#] to save, or press [✱] to

LCD

– Exits mode without saving

$C#

– Enters a

in the string, which gives an additional 2-second pause.

exit. For LCD pads, press another key after saving the number, and the #8 user pages enable is displayed.

LED/Fixed Word

– “ACK” sound heard. Enter the phone number using digits 0–9 and press [#] to

save, or press [✱] to exit.

Installer Pager Options

Submode 1, Question 23, L4: Contains the pager options and the open/close enable that may be overwritten by the #8 command.

4-5

OMNI-624/OMNI-624EU Installation and Setup Guide

Paging/Beeps Sequence:

The paging will not begin until the dialer is off and dialer delay is not active. The system checks if any event needs to be dialed. The page/beeps are dialed 1, 2, or 3 times. If pager attempts are 0, paging is disabled. The pager format is as follows:

Account Event Zone/User Terminator

1234 [0, 1, or 9] [000-255] [#]

where: Opening = 0

Closing = 1

Alarm or Trouble = 9

This data is transmitted 2 times with a 5-second pause between rounds.

4-6

SECTION 5

System Operation

•••••••••••••••••••••••••••••••••••••••••••

Power Up/System Reset

SYSTEM STABILIZATION MODE: Upon power-up of the system, if the system was previously armed,

all the lights on the LED keypad(s) will turn ON momentarily or, in the case of an LCD display installation, the keypad(s) will display “PLEASE STAND BY POWER UP DELAY”

HOWEVER, THE ZONES WILL NOT RESPOND TO ALARM CONDITIONS FOR APPROXIMATELY 2 MINUTES. The 2-minute interval is used to allow motion detectors (interior zones) to stabilize in order to prevent false alarms. This 2-minute delay can be disabled by shorting the yellow and black keypad wires (reduces the power-up reset time to approximately 5 seconds). Upon system power-up, if the system was previously disarmed, the power-up reset time will be approximately 5 seconds. If total system power is lost, upon power restoral the system will return to its previously armed state.

Keypads

The control panel supports the following keypads:

ARMED

READY

ARMED

READY

STAY

BYPASS

INSTANT

CODE

STAY

BYPASS

INSTANT

CODE

1 4 7

OMNI-LCD Alpha Keypad

STAY

TAMPER NO AC

PHONE

TEST NOT READY CHIME

BAT

CANCELED

OMNI-KP Fixed-Word Keypad

ALARM FIRE

TRBL

INSTANT

BYPASS

PAGE

SUPRVSN

5-1

OMNI-624/OMNI-624EU Installation and Setup Guide

1 3

ARM AC / LB READY

STAY

INST LO BATT SPRV.

ZONE STATUS LEDS (XK-108L/XK-108)

4 6

7 9

8 0

STAY

INSTANT

BYPASS

CODE

XK-108L/XK-108 LED Keypad

(Displays the state of up to 8 zones via LEDs)

These LEDs display the current zone status including alarms, bypasses, and faults. Each condition will cause these LEDs to operate differently as follows:

ALARMS TROUBLES BYPASSES

Fast Blink (approx. 150mS ON – 150mS OFF).

Slow Pulse (approx. 600mS ON – 600mS OFF).

Blink (100mS ON – 900mS OFF). Zone bypasses are displayed as a very slow blink

of the zone LED light.

FAULTED ZONES

Solid ON. Faulted zones are the lowest-priority indication. Faulted

burglary zones are displayed with the LED solidly ON while the system is disarmed.

NORMAL

OFF

Upon entry, the keypad sounder will annunciate to warn the user to disarm the system. In addition, the respective zone LED(s) will be ON to indicate zones which are violated (e.g., entry door and motion detector).

ARM/DISARM LED (ALL KEYPADS)

This LED/display indicates that the system is currently armed (ON) or disarmed (OFF).

Fast Blink Alarm mode (alarms have occu rred) Slow Blink Unable to communicate with central station

STAY LED

This LED/display indicates that the system has been armed in the STAY, STAY/INSTANT, or AUTO/STAY mode. STAY/INSTANT is enabled in programming Question 14, Location 1. The STAY LED indicates the following:

ON Stay/AutoStay zones are bypassed OFF Stay/AutoStay zones are normal

5-2

Section 5. System Operation

INSTANT LED

This LED/display indicates that the system has been armed in the INSTANT or STAY/INSTANT mode, meaning that the system is currently armed, all delay zones are instant (no delay time). See programming Question 14, Location 1.

ON Delay zones are currently instant OFF Delay zones are normal

AC/LOW BATTERY LED

This LED/display indicates the current power status of the panel as follows:

ON AC is present OFF No AC, running on battery backup Slow Blink Low-battery con dition detected

READY LED

This LED/display indicates that the system is ready for arming. The READY LED is common to all BURGLARY ZONES with the following indications:

ON System ready to be armed OFF System not ready to be armed Slow Blink Indicates Installer programming mode Fast Blink Alarm Memory mode

[STAY] BUTTON

The [STAY] button arms the system, excluding zones programmed as Stay/AutoStay zones. This provides exterior protection of the premises while allowing full access throughout the interior.

[BYPASS] BUTTON

The [BYPASS] button is used to temporarily exclude protection to a specific zone(s).

[INSTANT] BUTTON

If pressed, the [INSTANT] button allows arming the system in the INSTANT mode; with the [STAY] button, it enables arming the system in the STAY/INSTANT mode.

NOTE:

10)

[CODE] BUTTON

The [CODE] button is used to allow entry into the Installer programming mode and permits the entry of user codes.

11)

KEYPAD AUXILIARY KEYS

Pressing the auxiliary keys (XK-108L: two keys labeled P, A, or F at the same time; OMNILCD/OMNI-KP: 1/3, 7/9, ✱/#) initiates a CS transmission, if programmed, of programmed functions (e.g., PANIC, AUXILIARY, or FIRE), and causes annunciation of the keypad sounder and turns on the bell output. The programmed functions are defined in Programming Submode 1, Questions 26 and 27.

INSTANT mode is enabled in Question 14, Location 1.

See “Keypad Emergency Conditions” in this section for alternate auxiliary keys.

5-3

OMNI-624/OMNI-624EU Installation and Setup Guide

Keypad Sounder

The sounder (or loudspeaker) housed inside the keypad emits (annunciates) sounds according to the condition of the securi ty system.

Enabling keypad sounder:

XK-108L: The 4 OMNI-KP/OMNI-LCD: Press and hold the [Code] and [Bypass] keys to toggle the sounder on/off. The keypad sounder annunciates differently to indicate the following conditions:

Chirp Steady

Chime Acknowledge

Pulsing

Negative Acknowledgment

Sounder Ringback

Fast Pulsing Sounder

DIP switch in the keypad controls the sounder on/off.

Keypad sounds a short chirp to confirm each keystroke. The keypad makes a steady sound during entry time and/or during

burglary alarm. Steady 1-second tone (SYSTEM DISARMED ONLY). Upon successful entry

of certain commands, the system will sound for approximately half a second.

A pulsing sound (approximately half a second ON, then OFF) indicates a trouble condition such as AC loss, low battery, or fire trouble.

Upon entry of an illegal command, the keypad sounds four short beeps. For example, if during an attempt to define a new user the master user is not entered, four short beeps indicate that the command was unsucces sful.

Several short beeps to indicate success ful communication to the central station. This occurs for all signals, excluding ambush and silent zones.

Sound generated during entry time period AFTER an alarm condition has occurred and the system reached bell cutoff. A pulsing sounder follows the bell output on fire conditions. Trouble conditions also generate a pulsing sounder, and may be silenced through entry of a valid user code.

The keypad is keys are pressed. This is an indication that service is required. Consult the trouble shooting

section of this manual.

operational if none of the LED's are lit and the keypad does not beep when

NOT

Keypad Addressing

This address will identify the keypad number to the control panel. A maximum of 12 keypads (OMNIKP, OMNI-LCD or XK-108L) can be identified, but the total of 12 cannot be comprised of more than 8 LCD keypads or a combination of 8 LED/fixed-word keypads.

NOTE:

addressing does not apply. Additionally, you can not use any other type of keypad if using XK-108’s on the system.

Set the OMNI-KP and OMNI-LCD keypad addresses by doing the following (refer to the instructions provided with the keypads for additional in formation on setting the keypad addresses):

5-4

The XK-108 keypad may also be used on the system; however, when using the XK-108, keypad

Section 5. System Operation

1. Within 30 seconds of applying power to the unit, press the [CODE] and [STAY] keys at the s ame time and hold them for several seconds.

2. When the display shows a single digit pulsing, enter the address 1–8 for fixed-word and for LCD keypads.

3. To terminate the mode, press [✱].

Set the XK-108L keypad address by using its DIP switches . Refer to the instructions provided with the keypad for additional information on setting the keypad address.

Arming the System

The system can be armed only if all burglary zones are in ready state (not faulted):

OMNI-LCD OMNI-KP XK-108L/XK-108

Indicator LED Lit Ready Ready Ready Display SYSTEM READY N/A N/A

TO ARM: NOTE:

The through an exit/entry zone for the time period programmed as the exit delay.

LCD display keypads provide the following indications:

The system can be armed without the backup battery being connected; however, the light will flash depending on the keypad used.

Arm While Faulted:

system while a delay or interior zone is still faulted.

AUTO STAY ARMING

TO ARM:

If the user does not access an exit/entry zone during the exit time and auto stay zones are programmed, the panel arms Auto Stay and bypasses any zones programmed to do so.

NOTE:

Enter any programmed four-digit user code.

The factory default for user #1 is 1234.

ARMED

LED will light and the user may pass through interior zones (if necessary) and exit

OMNI-LCD OMNI-KP XK-108L/XK-108

Indicator LED Lit Armed Armed Armed Display ON: AWAY; EXIT NOW AWAY N/A

AC/LB

If programmed (Submode 1, Question 14, Location 2), the user can arm the

Enter any programmed four-digit user code.

OMNI-LCD OMNI-KP XK-108L/XK-108

Indicator LED Lit Armed Armed Armed, Stay Display ON:AUTO STAY STAY N/A

The system will not Auto Stay arm if an Instant zone is faulted when the user code is entered.

BAT

5-5

OMNI-624/OMNI-624EU Installation and Setup Guide

STAY ARMING

TO ARM:

Press the [

STAY

] key followed by a four-digit user code.

This will arm the system with all programmed interior zones bypassed.

OMNI-LCD OMNI-KP XK-108L/XK-108

Indicator LED Lit Armed Armed Armed, Stay Display ON: STAY STAY N/A

INSTANT ARMING

TO ARM:

Press the [

INSTANT

] key followed by a four-digit user code. The

INSTANT

and

ARM

will light continuously.

OMNI-LCD OMNI-KP XK-108L/XK-108

Indicator LED Lit Armed Armed Armed, Instant Display ON: INSTANT INSTANT N/A

The entire security system (interior and exterior) is armed at this time, eliminating the entry time delay(s) that have been programmed into the system.

NOTE:

The Instant mode can be enabled through programming Submode 1, Question 14, Location 1.

STAY/INSTANT ARMING

TO ARM:

The

INSTANT

Press the [

STAY/INSTANT

modes. The keypads will h ave the

STAY]

key; press the [

INSTANT

] key and enter a four-digit user code.

mode will arm the system with the characteristics o f both the

ARM, INSTANT

and

STAY

LEDs turned ON

STAY

and

continuously.

OMNI-LCD OMNI-KP XK-108L/XK-108

Indicator LED Lit Armed Armed Display ON: STAY/INS STAY

Armed, Instant, Stay

N/A

INSTANT

The system will be armed with the interior zones bypassed and the delay zones instant.

NOTE:

The STAY/INSTANT mode can be enabled through programming Question 14, Location 1.

LEDs

DISARMING

TO DISARM

: Enter any valid four-digit user code and the If an alarm condition exists or occurred while the system was armed, the respective zone LED will blink rapidly. This condition is classified as Alarm Memory, and can be cleared by entering a valid user code again. Note that a user with level 4 authority (limited user) can disarm the system only if it was armed by a lever 4 user.

5-6

ARM

LED will extinguish.

Section 5. System Operation

RESET

Reset is accomplished through the entry of any valid user code. This can be used to reset the smoke detectors attached to the system, silence any bells or sounders, or clear the keypad display.

BYPASS BY ZONE

Bypassing is enabled to temporarily exclude zones or points that are faulty or otherwise not ready for operation, from activating the security system.

TO BYPASS by ZONE:

the zone number (01–24) representing the respective zone to be bypassed. EXAMPLE: To bypass zone 6 (assume user code of 1234), press [BYPASS] + [1] + [2] + [3] + [4] + [0] +

[6]

QUICK BYPASS BY ZONE

Quick Bypassing is a programmable option (Question 14, Location 4) and allows the user to bypass zones and points without using a user code.

TO Quick BYPASS by ZONE:

representing the respective zone to be bypassed. EXAMPLE: To bypass zone 6, press [BYPASS] + [0] + [6]

In addition, note the following rules for bypass:

• FIRE zones cannot be bypassed.

• 24-hour zones can be bypassed; however, they CANNOT be unbypassed if they are violated.

• Zones can be bypassed only while the system is disarmed, at which time the bypassed zone is

displayed.

Bypass signals will be transmitted to the central station (CS) UPON ARMING if a bypass code has been programmed in Submode 2, Question 44, Location 1.

Press the [

BYPASS

] key followed by any valid 4-digit user code, followed by

BYPASS

] key followed by the zone number (01–24),

ZONES THAT ARE BYPASSED ARE NOT PROTECTED WHEN THE SYSTEM IS ARMED.

BYPASS LIMIT 3

The system can be programmed to allow a maximum of 3 zones to be manually bypassed in a partition. You can also program the system to display bypasses while armed. See Submode 1, Question 16, Location 1.

AUTO UNBYPASS

All burglary zones that are bypassed are automatically unbypassed upon system disarm. 24-hour zones that have been bypassed will be unbypassed only if they are not violated.

5-7

OMNI-624/OMNI-624EU Installation and Setup Guide

MANUAL UNBYPASS

UNBYPASS removes an existing bypass from a currently bypassed zone. The procedure is the same as four bypass.

KEYPAD TAMPER: Upon entry of 21 keystrokes in succession without entry of a valid command, the system will initiate a keypad tamper. If programmed (Submode 1, Question 13, Location 2), the tamper condition initiates a keypad lockout, in which keypad commands will not be accepted for approximately 20 minutes. The condition is annunciated by a pulsing sound from the keypad. In addition, a code can be programmed for transmission to the central station (see Submode 2, Question 41, L1, L2).

User Code Programming

User codes can be entered or modified directly through the keypad. The system supports up to 32 user codes (4 or 6 digits each) with the following applications:

USER

NUMBER APPLICATION

01 Master User (see note 2) 1234 02–19 Normal Users NULL 20–30 Door Strike (see note 3) NULL 31–32 Ambush (see note 4) NULL

NOTES:

1. Only the master users (authority levels 1 and 2) can program or modify other users.

User number 1 (cannot be deleted).

User numbers 20–30 (Door Strike).

as a door strike trigger. If any of the output triggers are defined as door strike, then entry of this user code will activate that trigger for a period that is defined in Submode 1, Question 66, Locations 1 and 2 (partition 1) or 3 and 4 (partition 2). In addition, there is an option to allow all user codes to act as a door strike code. If this option is selected (Submode 1, Question 13, L1), then all users can activate the door strike through the [#] + [5] + [7] command (See “Quick Command Modes”). If a door strike (or access) trigger is not defined, then this user code can be u tilized as a normal user code.

User numbers 31 and 32 (Duress; enabled in Submode 1, Question 13, L1)

system-wide Duress code if there is a Duress CS report code programmed into Submode 2, Question 37, L1, L2. If no CS code is defined in Question 37, then these user numbers will be normal user codes. In this mode, an entry of the user number code will ARM or DISARM the system and transmit the ambush code to the central station. Furthermore, if the CS transmission format contains the user number, the user number will be transmitted. If a Duress transmission code has been programmed and a user does not exist, it will not be possible to activate the Duress feature.

Programs all user codes (01–32); cannot be deleted.

Will be the system "door strike" code if any trigger is defined

DEFAULT

CODE

– Will activate a

AUTHORITY LEVELS

Each user is assigned one of 4 authority levels, which determines the system functions that user can perform.

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Section 5. System Operation

Level Functions Allowed

1 Primary Master can view log and set time, assign other user code s, all sy stem funct ion s 2 Secondary Master, same as primary Master except cannot change the primary Master’s code 3 User, can arm and disarm only 4 Limited user, same as level 3, except can disarm the system only if it was armed by another

user with level 4 authority (cannot disarm if armed with user of higher authority level).

4/6-DIGIT USER CODES

The system supports either 4- or 6-digit user codes. A bit option in Submode 1, Question 12, Location 3 selects if the user codes are to be 4 or 6 digits in length for the entire system. The default user code for the master is 1234 with an authority level of 1. The system is defaulted to 4-digit user/installer code. If the bit is set in installer mode, each currently programmed code will cha nge to six digits by adding a “00" before the known 4-digit code.

For example, if 4-digit codes are being changed to 6 digits and a user code was 1-2-3-4, it will become 00-1-2-3-4. Conversely, if the user code length was 6, and it is changed back to 4 digits, the code 1-2-3-45-6 will become 3-4-5-6.

Once “6-digit user codes” is selected, new codes entered can be any combination of 6 digits.

NOTE:

Selecting “6-digit user codes” also affects the installer code by adding “00” to the code (default

installer code 2468 becomes 002468). Use Question 00 to enter a new installer code.

TO ADD OR CHANGE USERS:

Press [CODE] + MASTER USER CODE + USER NO. + NEW USER CODE + AUTHORITY LEVEL

where:

[CODE] [CODE] button on keypad. MASTER USER 4- or 6-digit* Master User code (user with authority level 1 or 2) USER NO. Desired user number to be programmed (01–32). NEW USER CODE 4- or 6-digit* user code for the new user. Valid digits are 0–9. AUTHORITY LEVEL The desired authority level for the new user.

*(Depending on the whether the system is set for 4- or 6-digit security codes)

Example: Define user number 03 with a code of 7493 and authority level 3. (Assume Master code is

1234) = CODE 1234 03 7493 3 An acknowledgment (steady tone) verifies a successful user code programming. A negative acknowledgment

(4 short tones) indicates unsuccessful programming. If additional user programming is necessary, repeat the procedure listed above. If a dialing format is programmed that transmits opening/closing by user ID, each user will report thei r user number.

ASSIGNING PARTITIONS AND PAGER OPEN/CLOSE REPORTS TO USERS

Users are automatically enabled for the partition where their code was added. You can also allow users to access other partitions and/or enable open/close pager reports for a user by using the #7 command as follows:

[#] + [7] + MASTER USER CODE + USER NO. + [1], [2], or [4]

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OMNI-624/OMNI-624EU Installation and Setup Guide

where:

MASTER USER User with authority level 1 or 2. USER NO. The user that will be assigned access to other partitions.

1, 2, or 4

To exit this mode, press [✱].

User code programming can ONLY be performed while the system is DISARMED.

Select 1 or 2 to assign access to a partition to that user. Select 4 to enable open/close paging report for that user.

User Deletion

User codes (02–32) can be deleted from any keypad. Once deleted, their values are null.

TO DELETE USERS:

[CODE] + MASTER CODE + USER NO. + [#]

where:

[CODE] [CODE] button on keypad. MASTER CODE Master User code. USER NO. Desired user number being deleted (02–32). [#] [#] button.

Keypad Emergency Conditions

The system is capable of transmitting four keypad auxiliary conditions as follows:

CS REPORT

CONDITION KEYSTROKES PANIC

FIRE

AUXILIARY

DURESS

The keypads have additional keys dedicated for emergency conditions. These can be activated by pressing both keys at the same time (see “Keypads” in this section).

Audible Panic, Fire, and Audible Auxiliary can be RESET BY ENTERING ANY VALID USER CODE.

5-10

# & ✱ (at the same time)

7 & 9 (at the same time)

1 & 3 (at the same time)

User code #31 and 32

ENABLE

Submode 2, Question 38, L1, L2

Submode 2, Question 40, L1, L2

Submode 2, Question 40, L3, L4

Submode 2, Question 37, L1, L2

OPTIONS

(aud./silent; arm beeps; relays)

See Submode 1, Question 27, L1, L2 Immediate and unabortable.

See Submode 1, Question 26, L3, L4

See Submode 1, Question 26, L1, L2

See Submode 1, Question 13, L1

Section 5. System Operation

Quick Command Modes

The end user can perform the following commands (if programmed):

COMMAND KEYSTROKES DESCRIPTION

Change partition

Quick Arming # 1 Will arm the system, if it is ready to arm. Submode 1,

Quick Forced Arming # 2 Will bypass all currently faulted zones and arm system.

Set Time # 3

Display Zone Directory (LCD Keypad Only) Display Directory of

Quick Commands (LCD Keypad Only) Display Time (LCD Keypad Only)

Display auto-arm time (if auto-arm optioned ) (LCD Keypad Only)

View Event Log (LCD Keypad Only)

# 0 [code] [0, 1, 2, or 9]

# 4 Displays all zones enabled. Always enabled.

# 50 Allows the user to view the different quick comm and s.

# 51 Used to verify the real-time clock settings used for CS test,

# 52 Displays hour and minute of auto-arm time.

# 53 This option is enabled for users in Submode 1, Question 17,

Changes mapping of current keypad to the partition specified. This mode displays the current arm ed state of both partitions. Changing a keypad’s partition with this command directly changes the keypad/partition assignment programmed in Questions 44 and 45. Entering a “0” arms all partitions and a “9” disarms all partitions. The “arm all partitions” command (0) will only be valid if zones in the system are in a ready state.

Question 14, L4

Submode 1, Question 14, L4 Enter Hours, Minutes, Month, Day, and Year. This question

may require a user code with an authority level of 1, 2, or 3, to set the clock based on Installer program. (Submode 1, Question 16, L2)

auto-arm and logging events. Displays hour, minute, month, day, and year. The time is displayed in either 24 hour or 12 hour format and the date may be displayed with day or month first, based on programming options in Submode 1, Question 16, location 3.

L1. If enabled, the event log may be seen for the system. Additionally, the time and date display options are adhered to. This means the time may be in 24 hour or 12 hour format, and the date may have either the day or month displayed first. When the log is viewed through the quick command, the clear log function is blocked. Either the [STAY] or the [ key may be used to exit this mode. Pressing any other key advances to the next valid entry.

]

✱

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OMNI-624/OMNI-624EU Installation and Setup Guide

COMMAND KEYSTROKES DESCRIPTION

Set Auto-arm Time (LCD Keypad Only)

# 54

Enter Hour, Minutes. This question may require a user code with the appropriate authority level to set the clock. Submode

1, Questions 29 (partition 1) or 30 (partition 2). Display Version # 55 Displays the revision level of the system software. Test RF Keyfobs # 56 Mode to test keyfobs for low battery.

Door Strike # 57 Door strike trigger/relay activation. All Users. Change pager number # 58 Lets the user modify the current pager phone number.

Note: Once the number is changed, pager reports will go to

that number until the number is changed again using the #58

command. Display/Toggle Chime #6 The LCD keypad will display current state and pro vid e option

to toggle the current state. The LED pads will simply toggle

the chime state and beep once to indicate the state has

changed. Multi-partition

assignment

#7 [Code] [user

no.] [1, 2, or 4]

(4 = enable

paging)

Allows the assignment of user codes to multiple partitions.

User with authority of 1 or 2 is required to enter this mode.

This allows users to be enabled in both partitions (1 and 2)

and also enables the user for paging (4). Pager/Beeps enable #8 Toggle state of pager. Works same as chime. For user

open/close only. User On-line Download #9 Starts remote connect sequence with PC downloader.

Quick commands are valid for 10 seconds of no activity, unless otherwise stated.

CHANGE PARTITION: [#] [0] [#] [0] [CODE] [0], [1], [2], or [9]

OMNI-KP keypads display “EC” (enter code) after pressing #0, then display “CP” (change partition) after entering the user code.

QUICK ARMING: # 1

If programmed, Quick Arming will be permitted. Quick Arming allows arming the system without entry of a user code, and reports as user #01.

NOTE:

The system must be in Ready mode. A user code is required to disarm the system. Options

include:

[STAY] [#] [1] [INSTANT] [#] [1] [STAY][INSTANT] [#] [1]

Quick Arm the System in the STAY mode Quick Arm the System in the INSTANT mode Quick Arm the System in the STAY/INSTANT mode

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Section 5. System Operation

QUICK FORCED ARMING: # 2

If programmed, then Quick Forced Arming will be permitted. Quick Forced Arming allows arming the system without entry of a user code, and bypasses any bypassable zones that are not ready. It reports as user #01.

NOTE:

Bypassed zones will include all of the individual points assigned to the zone. A user code is

required to disarm.

SET TIME: # 3

Pressing [#] [3] sets the time of the system clock. If a user code is required to set the time, then enter:

[#] + [3] + USER + HOUR + MINUTE + MONTH + DAY + YEAR

where:

USER Valid 4- or 6-digit user code HOUR Two-digit hour of day in 24 hour format; e.g., 7AM = 07; 3PM = 15 MINUTE Two-digit minutes of hour; ex: 9 min = 09; 29 min. = 29 MONTH Two-digit month of year (01–12); e.g., Feb = 02; Oct = 10 DAY Two -digit day of month (01–31) YEAR Two-digit year 00–99; e.g., 2010 = 10; 2000 = 00

If a user code is

required to set the time, then enter:

not

[#] + [3] + HOUR + MINUTE + MONTH + DAY + YEAR

In either case, the LCD keypads will display a prompt for each entry. On LED keypads, the sounder will beep after each entry. The system will exit this mode either automatically (no keys are pressed) after the last entry (YEAR), or when the star [✱] key is pressed.

NOTE:

The system time clock is used for the system test transmission as well as for the auto-arming

function and event logging.

DISPLAY ZONE DIRECTORY (LCD KEYPAD ONLY): # 4

Pressing [#] [4] will scroll through the zone number and zone descriptors on the LCD keypad. The keypad will display:

DIRECTORY ZN # ZONE # DESCRIPTOR

The system will exit this mode either automatically (no keys pressed), or when the star [✱] key is pressed.

DISPLAY DIRECTORY OF QUICK COMMANDS: # 50 (LCD Keypads Only)

Pressing [#] [5] [0] displays the Quick Command Directory on the LCD keypads. Depress the [#] key to advance through the quick command listing. The system exits this mode when

the star [✱] key is pressed.

DISPLAY TIME: # 51 (LCD Keypads Only)

Pressing [#] [5] [1] displays the current system time on the LCD keypads. NOTE: The time is set by using [#] [3]. The keypad displays:

CURRENT TIME:

12:00AM

The system exits this mode either automatically (no keys pressed), or when the star [✱] key is pressed.

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OMNI-624/OMNI-624EU Installation and Setup Guide

DISPLAY AUTO-ARM TIME: # 52 (LCD Keypads Only)

If auto-arming is programme d , pressing [#] [5] [2] displays the current auto-arm time for the curren t area on the LCD keypads.

NOTE: Auto-arming is enabled in programming Submode 1, Question 28, L1 and the auto-arm time is set by using [#] [5] [4]. The keypad displays:

AUTO ARM TIME:

12:00AM

The system exits this mode either automatically (no keys pressed), or when the star [✱] key is pressed.

LOG VIEW: # 53 (LCD Keypads Only)

Pressing [#] [5] [3] + level 1 or 2 user code will enter the system log view with the most recent event displayed. The system retains history of the past 128 events (alarms, troubles, openings, closings, bypasses, etc.). Upon entry to the system log view, LCD-based keypads show the events for the entire system, based on the options programmed in Question 17, Locations 1–3. Additionally, the programmed time and date display options are followed. This means the time may be 24-hour or AM/PM format, and the date may have either the day or month displayed first.

LCD keypads display:

L 001 ALARM ZN 01 20 APR, 10:38 P1

where:

Line 1: event number (L001–L128), event display, zone no. (01–24), or user no. (01–32) Line 2: date, time, partition (1–4) if a partitioned system

Pressing either the [STAY] or the

key exits this mode.

[✱]

Pressing any other key advances to the next valid entry.

SET AUTO-ARM TIME: # 54

If auto-arming is enabled in programming Submode 1 Question 28, pressing [#] [5] [4] will set the autoarm time. If a user code is required to set the time, then enter:

[#] + [5] + [4] + USER + HOUR + MINUTE

where:

USER HOUR MINUTE

If a user code is

Valid 4- or 6-digit user code Two-digit hour of day in 24 hour format; e.g., 7AM = 07; 3PM = 15 Two-digit minutes of hour; e.g., 9 min = 09; 29 min. = 29

required to set the time, then enter:

not

[#] + [5] + [4] + HOUR + MINUTE

In either case, the LCD keypads will display a prompt for each entry. On LED keypads, the sounder will beep after each entry. The auto-arm time represents the time of day that the area will automatically arm if it is not already armed. In addition, it can be programmed to arm in the STAY or INSTANT mode and an audible warning can be generated at the keypad 2 minutes prior to arming, if programmed in Submode 1, Question 28, L1 (partition 1) and L2 (partition 2). This signal (four short

5-14

Section 5. System Operation

beeps every 15 seconds for 2 minutes prior to arming) warns the occupants that the system will autoarm in two minutes. If a user code is entered within this warning period and the system is disarmed, the auto-arm time for that day will be canceled. The system will generate an audible acknowledgment (1-second keypad sounder) and the lights on the LED display will scroll to show that the auto-arm time was suspended. LCD-based keypads will display “AUTO-ARM CANCELED.”

The system will exit this mode either automatically (no keys pressed) after the last entry (MINUTE), or when the star [✱] key is pressed.

NOTE:

recommended that bypasses should be reported to the CS if auto-arming is programmed. Auto-arming is not suitable for UL applications.

DISPLAY PANEL REVISION: # 55 (LCD Keypads Only)

Pressing [#] [5] [5] displays panel revision level on the LCD keypads. The system exits this mode when the star [✱] key is pressed.

KEYFOB LOW BATTERY TEST: # 56

The keyfob low battery test can be activated by pressing: [

When a keyfob button is pressed, the system will provide a display indicating if the keyfob has a lowbattery condition.

NOTE: The #56 command is available regardless of the programming entered for keyfob low battery display (Submode 1, Question 16, Location 2).

The system exits this mode when the star [✱] key is pressed.

DOOR STRIKE: # 57

The door strike trigger ca n be activated by pressing:

At least one of the triggers must be defined as a door strike trigger in order to use this feature. Note that the door strike can also be activated by users 20 through 30 if the door users 20–30 option is

set (Submode 1, Question 13, L1).

Auto-arming will arm the system and bypass any zones that are not ready. Therefore, it is

LOSS-OF-TIME WARNING: If auto-arming has been enabled and no time is defined, a warning will appear on the keypads. This can occur if time (#3 command) has not been entered or if the system has totally lost power (AC & DC) and the time is probably incorrect. The loss-of-time warning consists of the LEDs on the keypads scrolling in sequence or a text message on LCD keypads. This will occur every 30 seconds until the time is set.

#] + [5] + [6]

LCD keypads display: Fixed-word keypads display

Keyfob Bat. Test #56

#] + [5] + [7] + USER CODE

[

– OR– [#] + [5] + [7] if no code for strike is enabled (Submode 1, Question 13, L1)

=Exit

✱

TEST

DOOR STRIKE is not a permitted programming option for any UL installation.

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OMNI-624/OMNI-624EU Installation and Setup Guide

CHANGE/VIEW PAGER NUMBER: # 58

If enabled (Submode 1, Question 23, L4), the [#] [5] [8] command can be used to change the pager phone number. This mode times out in 10 seconds without saving the phone number if no key is pressed, or exists without saving if the [✱] key is pressed.

DISPLAY/TOGGLE CHIME: # 6

If the Chime option is programmed for any of the zones (Submode 2, Questions 01–24, L4), then pressing [#] [6] will display and toggle (turn OFF/ON) the system chime. The system will exit this mode

]

either automatically (no keys pressed), or when the star [

key is pressed.

✱

MULTI-PARTITION ASSIGNMENT: # 7

This quick command allows a user with an authority level of 1 or 2 to enable users in multiple partitions and also enables a user’s open/close reporting to the pager number. The command is entered as [#] [7] + Code + User Number + [4] where [4] toggles open/close reporting to the pager on and off.

TOGGLE OPEN/CLOSE REPORTS: # 8

If the Toggle Open/Close Reports is enabled, then pressing [#] [8] toggles (turn OFF/ON) the open/close reports being sent to the pager. To toggle Open/Close Reports on, the following conditions must exist:

The system must not have an alarm or trouble condition.

•

The system must have the open or close enabled (Submode 1, Question 23, L1 for partition 1 and L2

•

for partition 2). A pager phone number must be programmed (Submode 1, Question 04 for partition 1 and Question 5

•

for partition 2). The page attempts option must be set (Submode 1, Question 13, L3).

•

USER ON-LINE DOWNLOAD: # 9

If programmed (Question 13, L1), pressing [#] [9] on the keypad enables the user to initiate a remote communications session with the CS downloading computer at the control station location. On-line downloading allows the user to call the office and discuss the action required, and allows the CS operator to complete the request while on-line with no additional telephone call needed. On-line connection is to be made as follows:

1. User dials the CS Downloading modem telephone line from the premises telephone. Connection is made with a person at the CS downloading computer and the account to be downloaded is verbally identified. The CS computer is placed into a mode in which it attempts to establish a connection with the site.

2. Next, the user will be instructed to enter #9 on the keypad, which causes the control panel to disconnect the (premises) customer side of the phone line, react as if it had received a request for a remote communications session, and look for the standard panel-to-CS protocol.

3. Once the standard connection is ma de, the remote communications session can take place (upload, download, remote commands).

5-16

SECTION 6

System Programming

•••••••••••••••••••••••••••••••••••••••••••

Programming Methods

The system can be programmed using either of two methods:

• Directly, using any supported keypad.

NOTES:

1. If there are no keypads connected to the system, keypad address 8 is automatically enabled. This allows an OMNI-LCD to be temporarily connected for programming the system.

2. If XK-108 keypads are the only keypads used in the system, but you want to program the system using an LCD keypad, you must power down the system, connect the LCD keypad, and then power up the system. When you press the Stay button to exit installer programming, immediately disconnect the LCD keypad, and the XK-108 keypads will re-initialize.

• Remotely, using the PC DOWNLOADING software (Compass Downloader).

System Default

The system is shipped from the factory with specific default values suitable for a typical installation. If the default values are suitable for your installation, then programming can be simplified. The default values are listed with each programming question.

To reset the system to the default values, do one of the following:

A. Press the [1] and [3] keys at the same time while in the Installer Mode 1 programming mode. B. Use Installer Mode 5 (press [CODE] + [✱] + installer code + [5] + [5]).

NOTE:

C. Remove power (AC and DC), short JP1 and JP2, then re-apply power (with JP1 and JP2 still

shorted). Wait at least 8 seconds, and then remove the short with power still applied.

When the system is defaulted, the system will revert to factory-programmed values and go through the reset and warm-up time sequence.

After the entry of the first 5:

LCD keypads display – Fixed-Word keypads display –

System Default <5> Yes <✱> No

A programming option can be selected through the Compass Downloader Software known as

Default Lockout

options with the exception of the CSID (a code used by the software to identify the panel during remote connections) and the installer code. This prevents hostile account takeovers.

. If selected, a system default reset will change all of the programmable

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OMNI-624/OMNI-624EU Installation and Setup Guide

Keypad Programming

The programming instructions and displays within this section of the manual apply to the use of an LCD keypad. If an LCD keypad is not available, programming may also be performed using an XK-108 or XK-108L LED or an OMNI-KP fixed-word keypad. When you are using an LED or fixed-word keypad, the displays are different and some programming procedures are different. Refer to the following “If an LED Keypad Is Used for Programming” and “If a Fixed-Word Keypad is Used for Programming” paragraphs for information about reading the keypad display and programming differences.

If an LED Keypad Is Used for Programming

A LED keypad may be used to accomplish system programming by summing the value of the keypad LEDs as described in the following paragraphs. If an LED keypad is used, the instructions are the same as for an LCD keypad e xcept where noted; however, you must sum the LED display to derive the programmed digits.

WHAT YOU SEE ON THE LED KEYPAD

Program Mode = READY LED Pulsing:

mode, the READY LED slowly pulses, and continues to pulse until you leave this mode. The remaining LEDs display the submode number, question number, and location contents (data) as indicated below:

As soon as you enter the Installer Keypad Programming

Submode Number

Question Number

Data

+16 +32

+1 +2

+1 +2 +4 +8

ARM AC/LB READY

1 2 3 4 5 6 7 8

STAY INST TX LB RF. SPVR

123

456

789

Stay Instant

Bypass Code

PAF

COVER

OPEN

OMNI624-007-V0

Submode Numbers = ARM and AC/LB LEDs

The ARM and AC/LB LEDs display the current submode number. In the figure above, the submode number is the total you get when you add the values of all LEDs that are lit.

Examples: ARM lit, AC/LB off = submode 1

ARM off, AC/LB lit = submode 2 ARM lit, AC/LB lit = submode 3

NOTE:

Submode 4 cannot be displayed on an LED keypad. Submode 4 contains descriptive information for display on an LCD keypad. Therefore, programming in submode 4 would be meaningless on an LED keypad.

6-2

Section 6. System Programming

Question Numbers = Zo ne LE Ds:

Zone LEDs 1 through 6 display the current question number (not the specific location within each question). In the above figure, the question number is the total you get when you add the values of all LEDs that are lit.

Examples: Zone 1 lit, Zones 2-6 off = question 01

Zone 1 lit, Zone 2 lit, Zones 3-6 off = question 03 Zone 2 lit, Zone 3 lit, Zone 4 lit, Zones 1, 5, and 6 off = question 14

Location Contents = System Status LEDs:

The remaining status LEDs (STAY, INST, TX LB, and RF SPRV) display data that resides in each location withi n the current question. As shown in the figure above, the value located next to each LED that is lit must be added to calculate the total data for each location. Examples: Stay lit, Inst, TX LB and RF Sprv off = 1

Stay and Inst lit, TX LB and RF Sprv off = 3 Inst and RF Sprv lit, Stay and TX LB off = A

The following chart shows binary values that you will see on these LEDs for the letters A-F that may be entered in some locations of the program sheet.

Digit

Binary Value Description

A 10 Inst and RF Sprv lit B 11 Stay, Inst, and RF Sprv lit C 12 TX LB and RF Sprv lit D 13 Stay, TX LB, and RF Sprv lit E 14 Inst, TX LB, and RF Sprv lit F 15 Stay, Inst, TX LB, and RF Sprv lit

If a Fixed-Word Keypad Is Used for Programming

You may use a fixed-word keypad to accomplish system programming by observing a combination of fixed indicators and the 2 LCD characters on the display. If a fixed-word keypad is used, the instructions are the same as for an LCD keypad except where noted; however, the displays that you see are different.

WHAT YOU SEE ON THE FIXED-WORD KEYPAD

Program Mode = READY LED Pulsing:

mode, the READY LED slowly pulses, and continues to pulse until you leave this mode. The Question Number Indicator, Fixed Digits, LCD Display, and Submode Indicators show the submode number, question number, and location contents (data) as indicated below:

As soon as you enter the Installer Keypad Programming

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OMNI-624/OMNI-624EU Installation and Setup Guide

FIXED DIGITS

LCD DISPLAY

STAY

QUESTION NUMBER INDICATOR

Submode Indicators = STAY, INSTANT, and BYPASS indicators:

BYPASS indicators provide the current submode number. The current submode n umber is as follows:

STAY lit, INSTANT and BYPASS off = submode 1 STAY and INSTANT lit, BYPASS off = submode 2 STAY, INSTANT, and BYPASS lit = submode 3

NOTE:

information for display on an LCD keypad. Therefore, programming in submode 4 would be meaningless on a fixe d-word keypad.

Question Numbers = ALARM indicator and LCD display:

displaying a question number. When a question number is entered on the keypad, ALARM will light and the LCD digits will display the question number for 2 seconds before automatically changing to a display of the Location and Location Content. ALARM extinguishes when the display switches to Location/Location Content.

Submode 4 cannot be displayed on a fixed-word keypad. Submode 4 contains descriptive

ALARM FIRE

INSTANT BYPASS

TRBL

PAGE

While ALARM is lit, the LCD digits are

SUBMODE INDICATORS

TAMPER NO AC

PHONE NOT READY CHIME

SUPRVSN

The STAY, INSTANT, and

TEST

BAT

CANCELED

OMNI624-008-V0

Location and Location Contents = Fixed Digits and LCD display:

normally be shown in the first-character position of the 2-character LCD display. However, when the question contains more than 9 locations, the fi xed digits will be used with the first LCD character to indicate locations 10 through 19 (fixed digit 1 and the LCD character) or 20 through 29 (fixed digit 2 and the LCD character). While the location number is being displayed, the content of the location is displayed in the second-character position of the 2-character LCD display.

KEY ENTRIES

The below listing provides the function of certain key sequences when a fixed-word keypad is used to program the system.

6-4

The location number will

KEY ENTRY FUNCTION

[#]

[✱] + 00–99 [CODE] + 1–6

[✱] + [BYPASS] + 1–3

[INSTANT] [STAY]

Advance to the next location within the current question; or advance to the next question if already displaying the last location in the current question.

Go to a specific question selected by 00 to 99. Enter A through F as data where:

[CODE] + [1] = A [CODE] + [4] = D [CODE] + [2] = B [CODE] + [5] = E [CODE] + [3] = C [CODE] + [6] = F

Change mode where:

[✱] + [BYPASS] + [1] = submode 1 [✱] + [BYPASS] + [2] = submode 2 [✱] + [BYPASS] + [3] = submode 3

Advance to the next question. Exit the programming mode.

Installer Modes Summary

There are 9 installer modes in this panel.

TO ENTER INSTALLER MODES,

where:

[CODE] CODE [✱] Installer Code X

Star (✱) button 4- or 6-digit Installer Code as programmed; default = 2468 Single digit indicating the instal ler mod e , as follows: 1 INSTALLER KEYPAD PROGRAMMING

4 submodes: 1- System Options

2 PROGRAMMING REVIEW MODE (no changes can be made)

4 submodes: 1- System Options

3 WALK TEST WITH REDUCED RF GAIN 4 SYSTEM LOG VIEW (LCD keypads only) 5 SYSTEM DEFAULT 6 CLEAR TAMPER FAULTS (if programmed) 8 UNATTENDED DOWNLOAD 9 ON-LINE DOWNLOADING

press

button

Section 6. System Programming

[CODE] + [✱] + Installer Code + X

2- Zone and Report Code Programming 3- Wireless Zone/Keyfob Programming 4- Zone Descriptor Programming (LCD keypads only)

6-5

OMNI-624/OMNI-624EU Installation and Setup Guide

INSTALLER MODE 1 (INSTALLER KEYPAD PROGRAMMING)

Enters the installer into keypad programming mode, which has 4 submodes (see below). To exit, simply press the [

] key and return to the prior panel status. To change between these submodes, press

STAY

[✱] + [BYPASS] + Submode No. The LCD display for Installer Mode 1, Submodes 1–3 is:

Q:xx MX Edit L:yy Data dddd DDD

where: Qxx = question number (00–99)

MX = programming submode (1–3) Edit = shows you are in edit mode, meaning that changes to values can be made Lyy = location within the programming question Data = cue to indicate next four digits as data dddd = 4 digits of the data entries (press [#] to display the next 4 digits for those questions

having more than 4 digit entries

DDD = Mode description (1-System, 2-Zn/Cde, 3-RF Prg,)

For submode 4, the display is:

Q:xx DESC Z:zz 16-character descriptor

where: Qxx = question number

DESC = shows you are in descriptor mode (Submode 4) Zzz = zone number for which descriptor is being programmed

line = up to 16-character descriptor

Submode 1: System (Questions 1–68)

Use this mode to program system options.

Submode 2: Zone programming, zone enables, report codes (Questions 1–53)

Use this mode to program zone information/attributes and all CS report codes, and to assign the first wireless zone and/or first zone-doubling zone.

Submode 3: Wireless Zone/Keyfob P rogra mmi ng (Questions 1–32)

Use this mode to configure wireless transmitte rs and to enter transmitter/keyfob serial numbers.

Submode 4: Descriptor Programming (Questions 1–26)

Use this mode to enter alpha descriptors for each zone. (LCD keypads only.)

NOTE:

An option in the Compass Downloader Software inhibits keypad programming. If you select it,

then the keypad will emit 4 short beeps after you attempt to enter this mode.

INSTALLER MODE 2 (PROGRAM REVIEW)

This mode is the same as Mode 1, except no changes to programming data can be made. It is intended as a way to review the settings of programming Submodes 1–4 without altering their values.

INSTALLER MODE 3 (WALK TEST with Reduced RF Gain)

Once the points are placed in their desired locations, open or short circuit each point. The keypad will beep and annunciate with activation of each zone or point while in this mode. Pressing 1 toggles the external bell on and off.

6-6

Section 6. System Programming

To exit, simply press the [✱] key and return to the prior panel status.

INSTALLER MODE 4 (SYSTEM LOG VIEW)

The system retains history of the past 128 events (alarms, troubles, openings, closings, bypasses, etc.). Upon entry to the system log view, LCD-based keypads show the events for the entire system, based on the options programmed in Question 17, Locations 1–3. Additionally, the programmed time and date display options are followed. This means the time may be 24-hour or AM/PM format, and the date may have either the day or month displayed first. When the log is viewed through the quick command, the clear log function is blocked. This mode is available only on LCD keypads.

Pressing either the [STAY] or the

key exits this mode.

[✱]

Pressing any other key advances to the next valid entry. LCD keypads display events as:

L 001 ALARM ZN 01 20 APR, 10:38 P1

where:

Line 1: event number (L001–L128), event display, zone no. (01–24), or user no. (01–32) Line 2: date, time, partition (1–4) if a partitioned system

Event Displays

Event Display Event Display System Troubles Special Arming

System AC Loss System Low Batt Comm. Fail CS Test System Download Phone Fail

Lnnn AC Loss Lnnn Batt. Fail Lnnn Comm. Fail Lnnn CS Test Lnnn Downloaded Lnnn Phone Fail

Quick Arm Quick Force Arm Stay Key Arm Remote Arm Auto-arm

Lnnn Quick Armed Lnnn Forced Arm Lnnn Keysw Armed Lnnn Remote Arm Lnnn Auto-armed

Special Alarms Other Events

Keypad ✱ & # Keypad 7 & 9 Keypad 1 & 3 Keypad Duress Keypad Tamper

Lnnn Keypad ✱ & # Lnnn Keypad 7 & 9 Lnnn Keypad 1 & 3 Lnnn Duress Lnnn Key Tamper

Alarms Troubles Zone Low Battery Zone Supervision Zone Bypass Zone Tamper Opening Closing

Lnnn Alarm Zn xx Lnnn Troub Zn xx Lnnn Lo Bat Zn xx Lnnn Super Zn xx Lnnn Bypas Zn xx Lnnn Tampr Zn xx Lnnn Opn User xx Lnnn Clo User xx

INSTALLER MODE 5 (SYSTEM DEFAULT)

This mode can initiate a system default. The system will then revert to factory-programmed values and go through the reset sequence and the warm-up time seq uence.

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OMNI-624/OMNI-624EU Installation and Setup Guide

INSTALLER MODE 6 (CLEAR TAMPER FAULTS)

This mode clears all tamper displays in all partitions for double balanced and RF zones that have restored, and is an Installe r reset function.

INSTALLER MODE 8 (INSTALLER UNATTENDED DOWNLOAD)

For UL installations, Installer Unattended Download may The control panel dials (up to 8 times) the telephone number of the CS Downloading Computer without the need to have the operator present. The CS Downloading computer telephone number (Question 01) and an unattended identification number (Question 02) in the Downloader Software will be programmed into dedicated memory locations.

Unattended download requires the following sequence: NOTE:

for each panel to be downloaded and modem phone number for the CS Downloading computer.

1. The PC operator must select UNATTENDED DOWNLOAD in the Downloader Software Main

2. Enter unattended download mode: [CODE] + [✱] + Installer Code + [8].

3. The system will now enter keypad programming, Question 01. Enter the telephone number of the

4. Press the [INSTANT] key to procee d to Question 02. Next, enter the desired unattended

5. Press the [

NOTE:

preprogrammed with the account information in order for the unattended download to be functional.

Prior to entering this mode, the PC operator must know the unattended identification number

Menu.

central station downloading computer (each digit followed by the [#] key; e.g., [1] [#] [2] [#] [3] [#] etc.) into this question (20 digits max). This phone number should be the same as the CS callback number (Question 03 from keypad programming if the panel is programmed for cal lback).

identification number (each digit followed by the [#] key). This will be used by the Compass software in the CS downloading computer to determine the proper account i nformation to download to this subscriber. The account number must be 12 digits in length. It is the unattended identification number (not the account number) that will be communicated to the Compass software in the CS downloading computer. For account numbers fewer than 12 digits, you must enter leading 0's to make the number 12 digits long.

Example: for account number 345, enter 0 # 0 # 0 # 0 # 0 # 0 # 0 # 0 # 0 # 3 # 4 # 5 #

] key to exit programming mode. The control panel will now dial the telephone

STAY

number entered into the callback number. The downloading computer must be placed into the Unattended Communications option from the main menu. Upon connection with the computer, the system will obtain the customer account number programmed in step 3 and perform the desired download operation.

The CS downloading computer must be waiting in the Unattended Communications mode and

NOT

be used.

6-8

The unattended download mode

CANNOT

be used in UL installations.

Section 6. System Programming

INSTALLER MODE 9 (ON-LINE DOWNLOAD)

In this mode, the installer can initiate a remote communications session with the CS Downloading computer at the control panel location. Typically, the CS initiates a remote communications session. On-line Downloading allows the installer to call the office (from the same telephone line as the panel), discuss the action required, and allow the CS operator to complete the request while on-line; no additional telephone call is needed. Note that the office number that is dialed should be the phone line that the downloading computer is attached to. On-line connection can be made as follows:

1. Installer completes installation and attaches a handset to telco terminals (tip & ring) or uses the

standard home telephone to dial the CS Downloading modem telephone line. Connection is made with a person at the CS Downloading computer and the account to be downloaded would be verbally identified. The downloading computer operator will select the On-line Remote Operations from the device menu.

2. The installer should enter the on-line download sequence: [CODE] + [✱] + Installer Code + [9] or use

the end-user command of # 9, if enabled (Question 13, L1). This will cause the control panel to react as if it received a request for a remote communications session, and to look for the s tandard panelto-CS protocol.

3. Once the standard connection is made, the necessary remote communications sessions can take

place (upload, download, remote commands).

4. Hang up the telephone or remove headset from the line to prevent interference that may affect

upload/download data. The downloader software will automatically terminate the connection after remote communications end.

Data Entry via Keypads

This section describes the physical keystrokes necessary to perform keypad programming and how to interpret the data displayed on the LED-based keypads and on the LCD keypads during programming operations.

NOTE:

sheet.

Actual keypad programming should be performed only after completion of the programming

How to Enter Programming Mode

The SYSTEM programming mode can be entered WHILE DISARMED ONLY as follows:

TO ENTER INSTALLER PROGRAMMING:

select the programming Submode 1–4 from the prompt (shown below).

1 = System 2 = Zones 3 = ZR401 4 = Descr

Where:

[CODE] =

[✱]=

Installer Code = [1] =

CODE button Star (✱) button

Enter the 4- or 6-digit† installer code (default = 2468)

[1] button. This indicates Installer Mode 1.

†

User/installer codes can be 4 or 6 digits, as set in Question 12, L3.

Press

[CODE] + [✱] + Installer Code + [1],

then

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OMNI-624/OMNI-624EU Installation and Setup Guide

Installer Mode 1 Submodes:

1 = System Options 2 = Zone and All Central Station Report Code Programming 3 = Wireless Zone/Keyfob Programming 4 = Zone Descriptor Pro gramming

What You See on the LCD Keypad

Upon entering the installer keypad programming mode, LCD keypads display:

Q#: 01 M1 Edit L:01 DATA: 1234 System

The display shows: Q# = the current question number M1 = the submode number L: = the location within the question DATA: = the current value within that location System: = the submode title

Movement Between and Within Questions

Random jumps to a specific question: Press the [✱] (star) button followed by the desired 2-digit

question number. Example: To jump to question 07, press

[✱] + [0] +[7]

Sequential to next question: Press the [INSTANT] button Accept data entry and move to

next data location in question: Press [#] Switch Submode: Press [✱] + [BYPASS], then select submode from prompt

Data Entry

To alter the value in any location, ente r the desired digit and press the [#] key.

The [#] key

be pressed after the entry of the desired digit. The system will not accept the

must

digit until the pound [#] key is pressed so that if a mistake was made, it can be changed.

Numeric values of 0–9 can be ente red by pressing the respective keypad button. Entries of A–F require 2 keystrokes as follows:

Press the [CODE] button followed by 1–6 for values A–F.

VALUE KEYSTROKES VALUE KEYSTROKES

A CODE 1 D CODE 4 B CODE 2 E CODE 5

C CODE 3 F CODE 6

Example: To enter an A, press [CODE] followed by [1].

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Section 6. System Programming

Exit System Program Mode

After all programming has been completed, press the [STAY] button to exit the system program mode.

Question Acknowledgment

The keypad will beep between keystrokes. In addition, a beep will be generated confirming advancement between question numbers. Four beeps will be generated if an invalid input is entered. Upon entry of an invalid input, you remain at the same question n umber and location as prior to the input error.

To Enter Programming: [CODE] + [✱] + 4- or 6-digit Installer Code + [1] +submode 1–4 To Skip a Question: [✱] + 2-digit Question Number To Move Within a Question: Press the [#] until the desired location is reached To Enter Data: single digit: 0–9, A–F + [#]

Hexadecimal Entries:

A = [CODE] [1] D = [CODE] [4] B = [CODE] [2] E = [CODE] [5] C = [CODE] [3] F = [CODE] [6]

To Exit Programming: Press the [STAY] button

Summary of System Programming

Installer Mode 1: Programming Questions

This section defines the programming questions and the values for each question. You should complete the SYSTEM PROGRAMMING WORKSHEET (insert) before entering data.

Programming Submode 1: SYSTEM OPTIONS

Enter Installer Programming mode, then press [1] at the submode prompt to enter System Options submode.

N/U N/U

QUESTION 00 INSTALLER CODE

NOTE:

display this question for review and/or modification of the Installer Code, you enter [✱] + [0] = [0]. Enter the 4- or 6-digit Installer Code in Question 00 locations L1–L4 for a 4-digit code or L1–L6 for a 6-

digit code. When using a 4-digit code, L4 and L5 may be left at the default value of “0”. IMPORTANT: When using a 6-digit code, enter the third through sixth digits of the code in L1–L4 respectively and the first and second digits in L5 and L6 respectively. For example:

When Programming Submode 1 is entered, the System automatically displays Question 01. To

L1 L2 L3 L4 L5 L6 L7 L8

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OMNI-624/OMNI-624EU Installation and Setup Guide

2 3 4

4-digit code of 1234 – enter

6-digit code of 123456 – enter

L1 L2 L3 L4 L5 L6

4 5 6 1 2

L1 L2 L3 L4 L5 L6

Note that if the system is set for 4-digit codes and you enter a 6-di git code, the first two digits of the code (L5 and L6) are stored into memory but will not become active until the system is set for 6-digit codes (Submode 1, Question 12, L3) and the programming mode ends.

QUESTIONS 01–05 TELEPHONE and PAGER NUMBERS

Enter the telephone number (including area code and/or dialing prefix IF NECESSARY) of the primary central station receiver in Question 01, L1–L20.

Example: If the primary telephone number to be entered is: 1-516-123-4567 You would enter (on Programming Worksheet): 15161234567. Enter the valid digits from the table that follows.

Entry Function Comments

0–90–9

A Signifies end of the phone number Enter after last digit of phone number B

Star (✱)

Enter whenever the star is used

C 3-Second pause Provides delay to wait for dial tone D Pound (#) Enter whenever the pound is used

70C (TouchTone) ✱ 1170C (Rotary)

✱

Enter to disable Call Waiting

F 800 Enter to dial 800

REPORTING ROUTE:

The system can report to 1 or 2 central station phone numbers. If you select split reporting, then OPENING and CLOSING signals will be directed to the secondary phone number, while all other signals will be transmitted to the primary phone number. If you selected backup reporting, the panel will alternate between the primary and secondary receivers (if the second phone number is programmed) for a programmable number of attempts (Question 11, L3) to each phone number in the event the signal has not been acknowledged. If you selected dual reporting, then signals are sent to both primary and secondary phone numbers. If neither split nor backup reporting is necessary, then this question may be left as factory defaulted and all conditions will be routed to the Primary number only.

Enter the telephone number (including area code or dialing prefix, IF NECESSARY) of the secondary central station receiver in Question 02, L1–L20. An entry of the digit A causes the system to s ki p that digit and examine the next digit.

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Section 6. System Programming

Q 01 PRIMARY TELEPHONE NUMBER

Q 02 SECONDARY TELEPHONE NUMBER

Q 03 CALLBACK TELEPHONE NUMBER

Enter the telephone number (including area code or dialing prefix, if necess ary) for this control panel to reach the callback number location. The callback number is the optional location of the Downloading Software where the control panel will call during a remote commu ni cations (upload/download etc.) session. During remote communications, the programming device and the control panel will first confirm the CS security code. If valid, communications can begin. If a callback number is defined, the control panel will hang up and dial the callback number. For no callback capability, enter “A” in L1– L20.

Q 04 PAGER PARTITION 1 TELEPHONE NUMBER

Enter the pager number for reports from partition 1, up to 16 digits (including area code or dialing prefix, if necessary). For no partition 1 pager report, enter “A” in L1–L16.

Q 05 PAGER PARTITION 2 TELEPHONE NUMBER

Enter the pager number for reports from partition 2, up to 16 digits (including area code or dialing prefix, if necessary). For no partition 2 pager report, enter “A” in L1–L16.

QUESTIONS 06–09 ACCOUNT NUMBERS

Primary account:

Enter the 3- or 4-digit subscriber account numbers for central station phone number 1 in Questions 06 (partition 1) and 08 (partition 2) locations L1–L4. If a 3-digit number is used, then enter an “A” in location L4. Valid entries are 0–9, and B–F.

Secondary account:

Enter the 3- or 4-digit subs criber account numbers for Central Station phone number 2 in Questions 07 (partition 1) and 09 (partition 2) locations L1–L4. If the second phone number is not used, this question can be left at the factory default of all “A’s.”

THIS ACCOUNT NUMBER

BE ENTERED IF YOU HAVE PROGRAMMED A SECOND

MUST

RECEIVER PHONE NUMBER FOR BACKUP/SPLIT REPORTING AND DU AL REPORTING.

6-13

OMNI-624/OMNI-624EU Installation and Setup Guide

Q 06 PRIMARY ACCOUNT NUMBER PARTITION 1

Q 07 SECONDARY ACCOUNT NUMBER PARTITION 1

Q 08 PRIMARY ACCOUNT NUMBER PARTITION 2

Q 09 SECONDARY ACCOUNT NUMBER PARTITION 2

QUESTION 10 CS DIALER FORMAT AND RECEIVER TYPE

L1 L2 L3 L4

CS1 CS2

L1 L2 L3 L4

This question defines the dialer format and receiver type for primary (CS1) and secondary (CS2) reporting. Enter the digits as follows:

Q 10: L1/L3 CS1 and CS2 Dialer Format – Enter the L1 and L3 digits for the desired dialer format from the table below.

L1/L3

ENTRY TYPE

0 1 2 3 4 5 6 7 8 9 A C E

CS REPORTING

FORMAT

3x1 Standard PULSE 4x1 Standard PULSE 3x1 Extended PULSE 4x1 Extended PULSE 3x1 Partial Extended PULSE 4x1 Partial Extended PULSE 3x2 PULSE 4x2 PULSE FBII Superfast DTMF ADEMCO 4x1 Express * DTMF ADEMCO 4x2 Express * DTMF BEEPS** DTMF ADEMCO Point ID * DTMF

FORMAT

TRANSMISSION

NOTE:

For more information on CS reporting formats, refer to Appendix A at the back of this manual.

* These formats require a high/low

handshake frequency from the CS receiver.

** See “Paging Feature” paragraph in

Section 4 for explanation of Beeps format.

6-14

Section 6. System Programming

Q 10: L2/L4 CS Receiver Type – Enter the L2 and L4 digits for the desired receiver type from the

table below (checkmark indicates the option is selected).

L2/L4

FORMAT PULSE SPEED HANDSHAKE FREQUENCY

Entry Digit* 10 PPS 20 PPS 40 PPS 1400 HZ 2300 HZ PARITY TYPICAL CS RECEIVE R

✔✔

1 2 4

✔✔

5 6 8

✔✔✔

9 A C

✔✔✔

D E

✔✔

✔✔ ✔

✔✔✔

FBII, ADEMCO, SILENT KNIGHT FBII, ADEMCO, RADIONICS FBII FBII, SILENT K NIGHT FBII, RADIONICS FBII, RADIONICS FBII FBII FBII FBII FBII, RADIONICS FBII, RADIONICS

* NOTE: The system will ignore the value placed in this digit if it is transmitting in one of the DTMF

formats (FBII Superfast, ADEMCO PID, ADEMCO Express). For UL installations, the acceptable receivers are FBII CP220, ADEMCO 685 (all formats without parity and not FBII Superfast), Silent Knight 9000 (10PPS, No Parity, 1400 or 2300Hz).

QUESTION 11 REPORTING OPTIONS

L1 L2 L3 L4

This question defines the reporting options. Enter the digits as follows:

Q 11: L1 – Enter the L1 digit for the desired reporting options from the table below.

Entry Backup Dual Split Disabled

0 1 2 3 4 5 6 8 9 A C D E

✔

✔✔

✔✔✔

Report Type

✔

✔✔

✔✔✔

Report Stay

Bypass

First to Open Last to Close

Backup: The system first dials central station 1. If dialing fails, the system will dial central station 2 (if programmed). If dialing fails again, the system will begin alternating dialing between central station

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OMNI-624/OMNI-624EU Installation and Setup Guide

1 and central station 2 until contact is established or the maximum number of dialing attempts (see Question 11, Location 3) expires.

Dual: Events will be sent to both central station phone numbers. Split Reporting: If split reporting is enabled, then all reports other than openings and closings will be

sent to CS#1. Openings/closings will be transmitted to CS#2.

Dialer Disab le : This option will turn OFF the digital dialer, making the control a local panel. The

Dialer Disable selection shall not be selected for UL installations. Report Stay Bypass: This option specifies that bypasses will be transmitted upon Stay or Auto Stay

arming. If this option is selected, then bypasses will be transmitted for each Stay/Auto Stay zone that has been bypassed with STAY or Auto Stay arming.

NOTE:

Bypasses will be transmitted only if there is a bypass code defined (see Submode 2, Question

44, L1).

First to Open/Last to Close:

If selected, open/close reports are only sent after all partitions are armed/disarmed. The open report will indicate only the partition that first di sarmed the system. The close report will indicate only the partition that was the last to arm the system (thus causing all partitions to be armed).

Q 11, L2 Restore Reporting

–

Enter the digit for the type of Restore reports to be sent. Program the

actual Restore report codes in Submode 2, Question 47.

Entry

0 1 2 3 4 5 6 7

Supervision

Restore

✔

✔✔

✔✔✔

Tamper

Restore

✔

✔✔

RF Low Bat.

Restore

✔

Q 11, L3 CS Dialer Attempts – This option selects the number of times the communicator will attempt

to dial both CS receivers. If CS #2 is not programmed, then this option determines the dialer attempts to CS #1. Enter the number of attempts, 1–15.

NOTE: This is valid for all CS receiver formats. Enter a digit from the table that follows.

Entry

0 1 2 3 4 5 6 7

Dialer

Attempts

1 1 2 3 4 5 6 7

Entry

8 9 A B C D E F

Dialer

Attempts

9 10 11 12 13 14 15

For UL installations you must select a

value between 5 and 10.

6-16

Section 6. System Programming

Q 11, L4 Restore Reporting – Enter the digit for the type of Restore reports to be sent. Program the actual trouble Restore report code in Submode 2, Question 47, Location 4.

0 1 2 3 4 5 6 7

C D E F

Send AC

Restore

✔

✔✔

✔✔ ✔

✔✔✔

✔✔ ✔ ✔

Entry

QUESTION 12 SYSTEM OPTIONS

Send Low

Bat. Restore

✔

✔✔

✔✔ ✔

Send Zone

Restore

✔

✔✔

Restore

Follows Loop

Send Zone Restore & Restore Follows

Normally, zone restores are sent at

Loop:

bell cutoff, when the panel is disarmed, and when the panel is reset. If you select Restore Follows Loop, zone Restore reports will be sent as soon as the zone restores.

L1 L2 L3 L4

This question defines various system-wide options.

Q 12, L1 – Enter the L1 digit for the desired options from the table that follows.

Entry

0 1 2 3 4 5 6 7 8 9 A B C D E F

No Bell

if Dial Delay

Fast

Zones

✔

✔✔

✔✔ ✔

✔✔

✔✔ ✔

✔✔✔

✔✔ ✔ ✔

5/6

Double-

Balanced

Zones

LED 16/8

Keypads

No Bell if Dial Delay:

occur until the dialer is activated (bell is delayed by the same amount of time as the dial delay setting). See Question 19, Location 4 for setting the dial delay (15–

✔

✔✔

255 seconds) and Submode 2, Questions 1–24, Location 4 to enable the dial delay for each zone.

Fast Zones 5/6:

(10mS). If set, these zones must be wired as NC loops (cannot be double-balanced zones or part of zone doubling).

✔

Double-Balanced Zones:

✔✔

balanced zones. This option allows hardwired zones to be wired such that a tamper will be detected on an open or a shorted loop.

LED 16/8 Keypads:

✔✔ ✔

This option informs the system if you are using 16 LED keypads (L1 entry between 8 and F). If not using LED

Sets zones 5 and 6 to fast response

If selected, bell sounding will not

Select if using double-

Select if using 16 LED keypads.

keypads or if using 8 LED keypads, this location is set to off (L1 entry between 0 and 7).

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OMNI-624/OMNI-624EU Installation and Setup Guide

Q 12, L2 – Enter the digit for the desired options from the table be lo w.

Entry

0 1 2 3 4 5 6 7 8 9 A B C D E F

XL4705 Relay

Enable

✔✔ ✔✔

✔✔ ✔ ✔✔ ✔

✔✔✔ ✔✔✔

AC Freq.

60Hz 50Hz

✔ ✔

✔✔ ✔✔

RF Receiver

Enable

✔ ✔

✔✔ ✔✔

4705 Relay Enable:

Module. If used, the system’s built-in triggers 3 and 4 will no longer be available as triggers. Instead, they will serve as clock and data lines, respectively, for the relay module.

AC Frequency:

50Hz or 60Hz.

ZR-401/ZR-402EU/OMNI-RF RF Enable:

Enables the RF expander module, if used.

Enables the Relay

Select the AC line frequency,

Q 12, L3 – Enter the digit for the desired options from the table be lo w.

Entry

0 1 2 4 5 6 8 9 A C D E

Euro Pulse

Dialing (66:33)

✔✔

✔✔✔

TouchTone

Dialing

✔✔

✔✔✔

U.S. Pulse

Dialing (60:40)

✔✔

✔✔ ✔

✔✔✔

User Codes

4-Digit 6-Digit

Bell/Siren

Supervision

Dialing Method: Select the type of dialing desired. User Codes 4/6 digits:

The system supports either 4-digit or 6-digit user codes. If this option is selected, the system is set to use 6-digit codes. Existing 4-digit user codes will be automatically changed to include “00” before the existing code (e.g., 1234 becomes 001234). If the system is set to 6-digit codes and is changed to 4-digit codes, the first two digits of existing 6-digit user codes will be automatically deleted (e.g., 123456 becomes 3456).

6-18

Section 6. System Programming

Bell/Siren Supervision –

Select this option to comply with NFPA 72 requirements. If selected, the bell/siren will be supervised for an open circuit across the alarm sounder output terminals. If a fault is detected, the keypad will display a bell supervision condition.

Q 12, L4 –

Entry Disable Every Hour 1 Day 7 Days 27 Days 60 Days 90 Days 180 Days

Enter the digit for the desired options from the table below.

0 1 2 3 4 5 6 7

9 A B C D E

✔

Test Interval by Time

✔

Test Interval Reset by Event

✔

Test Interval by Time:

Test reports will be sent at the time interval selected. The time of day that the

report is sent is defined in Question 22, Locations 1–4.

Test Interval Reset by Event:

Test reports will be sent at the time interval selected unless an event that caused a dialer report occurred before the time interval expired. In this cas e, no test report is sent. This cuts down the communication traffic to the central station.

QUESTION 13 OTHER SYSTEM OPTIONS

L1 L2 L3 L4

This question defines other system options. Enter the digits as follows:

6-19

OMNI-624/OMNI-624EU Installation and Setup Guide

Q 13, L1 – Enter the L1 digit for the desired user options from the table below.

Entry

0 1 2 3 4 5 6 7 8 9 A B C D E F

User

On-line

Users 31,

32 Duress

No Code for

Door Strike

Door Users

20–30

User On-line:

Allows Quick Command downloading (#9) while on the telephone with the central station.

✔

✔✔

✔

✔✔

✔✔ ✔

✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔✔✔

Users 31, 32 Duress:

codes to be assigned. A duress code must be programmed in Submode 2, Question 37, L1– L2. If duress is not selected, then users 31 and 32 may be used as standard user codes.

No Code for Door Strike:

Command for door strike as #57 only.

Door Users 20–30:

assigned that, when used, will activate the door strike trigger (trigger/relay type 1E). See Questions 42, 43 for programming the trigger types and Questions 32–41 for programming relay types. If this option is not selected, then

Allows up to 2 duress

Allows up to 11 codes to be

Allows Quick

users 20–30 may be used as standard user codes.

Q 13, L2 – Enter the L2 digit for the tamper options from the table below.

Entry

0 1 2 3 8 9 A B

Keypad Tamper Lockout:

Keypad Tamper

Lockout

✔

✔✔

✔✔✔

Installer Reset

Tamper Tone Burst

✔

✔✔

If selected, 21 key presses at a keypad without a valid sequence (arm, disarm, etc.) will disable all keypads for 20 minutes. Additionally, a tamper message will be sent if programmed in Programming Submode 2, Question 41, L1–L2.

Installer Reset Tamper:

If selected, only the installer can reset zone tamper conditions by using

installer mode 6.

Tone Burst:

Upon the control answering on a ring count (programmable or 2-call method) of a remote download

•

If selected, the control emits a tone burst when the following conditions occur:

connection. After the control performs a callback to the download PC and the downloader answers in both the

•

attended and unattended download modes.

This feature is required when using a modem that requires a tone to operate.

6-20

Section 6. System Programming

Q 13, L3 –

Entry123261824

Q 13, L4

Entry0123

Enter the L3 digit from the table below.

Pager Attempts

0 1 2 3 4 5 6 7 8 9 A B C D E F

disabled

✔✔

disabled

✔✔

disabled

✔✔

disabled

✔✔

Supervision

Time (Hours)

✔

– Enter the L4 digit from the table below.

Swinger Count

0 1 2 3

disabled

✔

Swinger Count:

zone alarms or troubles) sent during an armed period.

✔

Pager attempts:

This sets the number of times the

system will send a report to a pager.

Supervision Time:

This sets the time interval within which the RF Receiver must hear from transmitters, otherwise an RF trouble report will be sent. 24 hours is recommended for 5800 and ZR-500 RF devices. When 5800EU RF devices are used where compliance to EN50131-5-3 is required, use a supervision time of 2 hours.

✔

Sets the maximum number of messages (controlled

QUESTION 14 ARMING OPTIONS

This question defines arming options. Enter the digits as follows:

L1 L2 L3 L4

6-21

OMNI-624/OMNI-624EU Installation and Setup Guide

Q 14, L1 – Enter the L1 digit from the table below.

Entry

0 1 2 3 4 5 6 7 8 9 A B

Q 14, L2

Entry

0 1 2 3 4 5 6 7 8 9 A B C D E F

Stay-

Arms

Stay

No FOB

Auto-

Stay

Instant

Arms Away

Instant

Enabled

Stay Arms Stay:

STAY mode by simply pressing the [STAY] key (user code not required). Otherwise, the user must press the [STAY]

If enabled, the system will arm in the

key followed by the user code to arm in STAY mode. When

✔

✔✔

✔

✔✔

✔✔ ✔

✔✔

✔✔ ✔

you are using the ADEMCO Point ID reporting fo rmat and Stay Arms Stay is enabled, a PID code of 408 with a user number of 128 is sent to the central station when the system is armed using the STAY key.

No Fob Auto-Stay:

If selected, the auto-stay feature will be disabled when arming from an RF keyfob (system will arm the system in the mode selected).

Instant Arms Away:

the AWAY mode by pressing the [INSTANT] key. When you are using the ADEMCO Point ID reporting fo rmat and

✔

Instant Arms Away is enabled, a PID code of 408 with a user number of 128 is sent to the central station when the system is armed using the INSTANT key.

Instant Enabled:

If selected, allows the end user to arm instant mode. Not available if INSTANT ARMS AWAY is selected.

– Enter the L2 digit from the table below.

Arm With

Fault

✔✔

✔✔✔

✔✔ ✔

✔✔✔✔

✔✔ ✔ ✔

Bypass

Error

Exit

Error

✔

No PC if

Armed

No Arm if

Low Battery

Arm With Fault:

arm even if a delay or interior zone is faulted. However, faulted zones restored

✔

✔✔

alarm will result if the bypass error is not enabled.

Bypass Error/Exit Error:

faulted zones after arming will be bypassed and no exit error report will be sent. Otherwise, the normal exit error report will be sent if there are faulted

✔✔

zones after arming.

No PC if Armed:

✔✔

the control will not communicate with downloading computer.

✔✔ ✔

No Arm if Low Battery

system will not arm if a system low

✔✔✔

battery exists.

If enabled, the system will arm in

Allows the system to

must

before

exit time expires, or an

If selected,

If system is armed,

: If selected,

6-22

Section 6. System Programming

Q 14, L3 –

Entry

0 1 2 3 5 6 7 8 9 A B C D E F

Q 14, L4

Entry

0 1 2 3 4 5 6 7 8 9 A B C D E F

Enter the L3 digit from the table below.

Disable Arm

Partition 1

✔

✔✔ ✔

✔✔

✔✔✔

✔✔

✔✔✔

Disable Arm

Partition 2

✔

✔✔

Exit

Extends

✔

Disable Arming:

cannot be armed. See Submode 2, Question 48, L1/L2 for entering the report code (must be “DD”) that is sent if a user attempts to arm the system after this option has been set.

Exit Extends: If selected, re-entering the premises

during the exit delay time will restart the exit delay timer, allowing someone to exit again without having to disarm, then rearm the syst em. This can only occur once during an armed period. See Question 14, L4 for related Quick Exit feature

– Enter the L4 digit from the table below.

Quick

Arm

Force

Arm

Quick

Exit

Quick

Bypass

Quick Arm:

If selected, Quick Command #1 will arm if the system is ready. When you are using the ADEMCO Point ID reporting format and Quick Arm is enabled, a

✔

✔✔

✔

✔✔

✔✔✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔ ✔

✔✔✔ ✔

PID code of 408 with a user number of 128 is sent to the central station when the system is armed using the Quick Arm feature.

Force Arm:

If selected, Quick Command #2 will arm the system and bypass any faulted zones. When you are using the ADEMCO Point ID reporting format and Force Arm is enabled, a PID code of 408 with a user number of 127 is sent to the central station when the system is armed using

✔

the Force Arm feature.

Quick Exit:

Allows the user to leave the premises while the system is armed by pressing the [STAY] key, which restarts the exit delay timer. This way the user does not have to first disarm the system, then re-arm it again to leave.

Quick Bypass:

first using the user code.

If selected, the respective partition

Allows the user to bypass zones without

6-23

OMNI-624/OMNI-624EU Installation and Setup Guide

QUESTION 15 SOUND OPTIONS

L1 L2 L3 L4

This question defines sounder and bell options. Enter the digits as follows:

Q 15, L1 – Enter the L1 digit from the table below.

Entry

0 2 3 4 5 6 7 8 A B C D E F

Q 15, L2

Entry

0 1 2 3 4 5 6 7 8 9 A B C D E F

Fob/Key

Ding

✔✔

✔✔✔

✔✔ ✔

✔✔✔

✔✔✔✔

– Enter the L2 digit from the table below.

Threshold

Sounder

Arm Bell

Ding

✔

Disarm

Ding

Fast

Ding

Fob/Keyswitch Ding :

If selected, arming from an RF keyfob or a wired keyswitch will cause the alarm sounder to ding twice; disarming dings once,

✔

provided that arm/disarm bell ding options (see below) are selected.

✔✔

Arm Bell Ding:

If selected, the alarm sounder will

ding twice upon arming.

✔

✔✔

✔✔✔

Threshold

Bell

✔

✔✔

✔✔✔

✔✔

✔✔ ✔

✔✔✔

✔✔✔✔

CS Test

Ringback

✔

✔✔

Disarm Ding:

ding once upon disarming.

Fast Ding:

shorter tones.

Invert Bell

Output

Threshold Sounder:

end of exit time by sounding 4 rapid beeps 30, 20, 10, and 5 seconds before exit time expires. When exit time expires, the keypad will sound an acknowledgement tone.

Threshold Bell:

sounder option, except the alarm sounder will sound 1 second at 30, 20, 10, and 5 seconds before the end of exit time.

✔

CS Test Ringback:

will beep after the central station has received the system test code.

Inverted Bell Output:

alarm sounder output signal is inverted. This is useful when using self-activating alarm sounders.

If selected, the alarm sounder will

If selected, the arming dings will be

Similar to threshold

If selected, keypads

Alerts the user to the

If selected, the

6-24

Section 6. System Programming

Q 15, L3

Entry

Q 15, L4

– Enter the L3 digit from the table below.

0 1 3 5 7 9 B D F

Phone Fail

Enable

✔ ✔✔ ✔✔ ✔✔✔ ✔✔ ✔✔ ✔ ✔✔✔ ✔✔✔✔

Phone Fail

Sounder

Phone Fail

Bell

– Selects whether you want the system to sound upon the listed conditions. This option does

not affect keypad display of these events. Enter the L4 digit from the table below.

Entry

0 1 2 3 4 5 6 7 8 9 A B C D E F

RF Supervision

Fault

✔

✔✔

✔✔✔

✔✔

✔✔ ✔

✔✔✔

✔✔✔✔

RF Low

Battery

✔

✔✔

✔✔ ✔

Low Battery

Sounder

Bell Ring

Cancel

Phone Fail Enable:

line is monitored. If the phone line is not detected for approximately 4 minutes, a phone fail message will be displayed, and, if the phone fail sounder and/or phone fail bell options (L3) are enabled, a sound will occur. The phone fail is automatically cleared approximately 4 minutes after the phone line has been restored.

Bell Ring Cancel:

sounder will ding upon receiving the “cancel” code.

AC Loss Sounder

RF Supervision Fault Sounder:

Setting this option starts a pulsing keypad trouble sounder. Valid user code silences sounder.

RF Low Battery Sounder:

✔

this option starts a pulsing keypad troubl e sounder. Valid user code silences sounder.

System Low Battery Sounder:

Setting this option starts a pulsing

✔

keypad trouble sounder. Valid user code silences sounder. May be enabled to send system low battery.

AC Loss Sounder:

✔✔

starts a pulsing keypad trouble sounder. Valid user code silences sounder. May be enabled to send AC loss to the CS (Submode 2, Question 37, L3, L4).

If selected, the phone

If selected, the alarm

Setting

Setting this option

Any time the sounder is on, it must be acknowledged with a user code before arming is allowed. If the system is armed and a trouble sounder starts, the system will disarm and silence the sounder for the affected partition. Thus, if the system is partitioned, each partition’s sounder requires an individual acknowledgement with a user code.

6-25

OMNI-624/OMNI-624EU Installation and Setup Guide

QUESTION 16 DISPLAY OPTIONS

L1 L2 L3 L4

This question defines display options. Enter the digits as follows:

Q 16, L1 – Enter the L1 digit from the table below.

Entry

0 1 2 3 4 5 6 7 8 9 A B C D E F

Q 16, L2

Entry

0 1 2 3 4 5 6 7 8 9 A B C D E F

Armed Bypass

Display

✔

✔✔

✔✔✔

✔✔

✔✔ ✔

✔✔✔

✔✔✔✔

– Enter the L2 digit from the table below.

Code

Set

Time

✔

✔✔

✔✔ ✔

✔✔

✔✔ ✔

✔✔✔

✔✔ ✔✔

Display Fault

Daylight

Saving

(Summer)

Time

On Entry

✔

✔✔

✔✔ ✔

Extinguish

Keypad

No AC Loss

Display

✔

✔✔

Keyfob

Low

Bat.

Display

Manual

Bypass Limit 3

✔

No Code Set Time:

Command #3 to set time. Intended for low-security installations.

Daylight Saving (Summer) Time:

the system will automatically adjust for daylight

✔

saving (summer) time (U.S. standard: First Sunday in April at 2:00 AM, the clock goes ahead 1 hour; last Sunday in October at 2:00 AM, the clock goes back 1 hour to standard time).

✔✔

Keypad Extinguish:

display and LEDs will turn off after 1 minute of no

✔

key presses.

✔✔

✔✔✔

Keyfob Low-Battery Display:

determines whether low-battery messages from keyfobs will be displayed. If selected, display is enabled. Note that even if this display is disabled, keyfob low-battery conditions can be checked by using the #56 Quick Command.

Armed Bypass Display:

selected, pressing the [BYPASS] key will scroll bypassed zones while the system is armed.

Display Fault on Entry:

faults (open zones) during entry delay time.

No AC Loss Display:

the AC loss message will not be displayed on OMNI-LCD keypads.

Manual Bypass Limit 3:

selected, no more than 3 zones can be manually bypassed.

If selected, allows Quick

If selected, the keypad

Display

If selected,

This option

6-26

Section 6. System Programming

Q 16, L3

Entry

– This location selects the type of clock displays. Enter the L3 digit from the table below.

0 1 2 3 4 5 6 7 8 9 A B C D E F

Clock Day/Month

AM/PM 24hr mm/dd dd/mm

✔✔

✔✔ ✔

✔✔✔

✔✔ ✔

✔✔✔

✔✔ ✔

✔✔ ✔✔

✔✔ ✔ ✔

✔✔✔✔

Q 16, L4 – Language Select:

0 = English 3 = French 1 = Italian 4 = Dutch 2 = Spanish 5 = Portuguese

Display

Time

Display

Clock Fail

Clock:

Shows time in 24-hour format, 00–23 hours. Otherwise, 1–12 hours with A or P.

Day/Month:

Time displayed as day, then month (23, Feb. 1990); otherwise, as U.S. standard (Feb. 23, 1999).

NOTE:

Clock set is always entered as 24-hour time, with order the same (in case LED.) See quick command #3.

Display Time:

LCD only. Displays ti me (last six digits) during status scroll on line 2.

NOTE:

The descriptor should be limited to 10 characters when time is displayed or it will be overwritten by the time.

Display Clock Fail:

LCD only. If the system goes through a hardware reset (loss of all power or watchdog reset), the clock will not be correct and a message will be displayed indicating this.

This location selects the language for the keypad display as follows:

QUESTION 17 LOG OPTIONS

This question defines event log options. Enter the digits as follows:

N/U

L1 L2 L3 L4

6-27

OMNI-624/OMNI-624EU Installation and Setup Guide

Q 17, L1 – Enter the L1 digit from the table below.

Entry

0 1 2 3 4 5 6 7 8 9 A B C D E F

Event Log

by Part. / All

✔

✔✔

✔✔✔

✔✔

✔✔ ✔

✔✔✔

✔✔✔✔

Enable #53 Log

Command

✔

✔✔

✔✔ ✔

✔✔

✔✔ ✔

✔✔✔

✔✔ ✔✔

Log Zone

Alarms

Log Zone

Troubles

By Part. / All:

If selected, only the events having occurred in the partition in which the keypad is mapped are displayed. Otherwise, all system events are displayed.

Enable #53 Log Command:

If selected, users will be able to view the log using the #53 command.

Log Zone Alarms/Troubles:

If selected, alarms and troubles will be included in the event log.

Q17, L2

Entry

0 1 2 3 4 5 6 7 8 9 A B C D E F

6-28

– Enter the L2 digit for the desired events to be recorded in event log.

Log

Open

✔

✔✔

✔✔ ✔

✔✔

✔✔ ✔

✔✔✔

✔✔✔✔

Log

✔

✔✔

✔✔✔

Log System

Events

✔

✔✔

Log Key

Events

✔

Section 6. System Programming

Q17, L3 –

L3 Entry Log RF Battery Log RF Supervision Log Tamper Log Bypass

Enter the L3 digit for the desired events to be recorded i n event log

0 1 2 3 4 5 6 7 8

9 A B C D E

✔

✔✔

✔

✔✔

✔✔✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔✔✔

QUESTION 18 BELL TIMEOUT/AC DELAY/RING COUNT

Q 18, L1/L2 – Burglary Bell/Fire Bell Timeout

✔

L1 L2 L3 L4

Burg bell Fire bell AC dial Ring

timeout timeout delay count

Enter the L1 and L2 digits for the desired burglary and fire bell/siren timeouts, respectivel y, from the table below.

Entry

1 2 3 4 5 6 7 8

BURGLARY &

FIRE BELL TIMEOUTS

3 minutes 6 minutes

9 minutes 12 minutes 15 minutes 18 minutes 21 minutes 24 minutes

Entry

9 A B C D

BURGLARY &

FIRE BELL TIMEOUTS

27 minutes 30 minutes 33 minutes 36 minutes 39 minutes 42 minutes

Infinite

6-29

OMNI-624/OMNI-624EU Installation and Setup Guide

Q 18, L3 – AC Dial Delay

AC loss reporting time may be delayed in 15-minute increments for values 1–F. Zero selects random delay, which can be anywhere between 10 and 225 minutes. Enter AC loss dial delay from the table below.

L3 Entry AC Dial Delay (min) L3 En try AC Dial Delay (min)

0 1 2 3 4 5 6 7

random 10–225

15 30 45 60 75 90

105

8 9 A B C D E F

120 135 150 165 180 195 210 225

Q 18, L4 – Ring Count

Enter the digit for the desi red ri ng count (number of rings before the system picks up the phone line when downloading) from the table below.

Entry

0 1 2 3 4 5 6 7

Ring

Count

Disabled *

1 2 3 4 5 6 7

Entry

9 A B C D E

Ring

Count

9 10 11 12 13 14 15

QUESTION 19 EXIT DELAYS/DIALER DELAY

6-30

* If ring count is disabled, the control cannot be

accessed remotely (downloading).

N/U

L1 L2 L3 L4

Part. 1 P art. 2 Abort Dial

Delay time

Section 6. System Programming

Q 19, L1, L2 – Exit Delay

This question defines exit delay and dialer delay values. Enter the digit for the desired exit delay for partition 1 in location 1 and partition 2 in location 2 as follows.

L1-L2 Entry

0 1 2 3 4 5 6 7

4 MINUTES, 30 SECONDS

1 MINUTE, 10 SECONDS

Exit

Timeouts

10 SECONDS 20 SECONDS 30 SECONDS 40 SECONDS 50 SECONDS

1 MINUTE

L1-L2 Entry

A B C D

Exit

Timeouts

1 MINUTE, 20 SECONDS 1 MINUTE, 30 SECONDS 1 MINUTE, 40 SECONDS 1 MINUTE, 50 SECONDS

2 MINUTES 2 MINUTES, 10 SECONDS 2 MINUTES, 20 SECONDS 2 MINUTES, 30 SECONDS

NOTE:

Entry delay timeouts are selected for each partition in questions 20–

21.

Q 19, L4 – Dialer Delay

Enter the L4 digit for the desired dialer delay from the following table.

Entry

0 1 2 3 4 5 6 7

Dialer Delay

(Seconds)

15 20 25 30 40 50 60 75

Entry

9 A B C D

Dialer Delay

(Seconds)

90 105 120 150 180 210 240 255

NOTE:

Dialer Delay is system-wide. It is not partition specific.

N/U N/U

Q 20/21 ENTRY DELAYS 1 and 2

L1 L2 L3 L4

Part. 1 P art. 2

These questions define entry delays 1 and 2 for each partition. Location 1 is for partition 1 and Location 2 is for partition 2 in each question. Enter the digits from the following table.

L1-L4 Entry

0 1 2 3 4 5 6 7

Entry Delay

Seconds

5 10 15 20 30 45 60

L1-L4

Entry

9 A B C D

Entry Delay

Seconds

90 105 120 150 180 210 240

Q 20 – ENTRY DELAY 1 Q 21 – ENTRY DELAY 2

6-31

OMNI-624/OMNI-624EU Installation and Setup Guide

Q 22 TEST REPORT TIME

Hours (00-23) Minutes (00-

L1 L2 L3 L4

This question sets the central station t est time.

L1/L2:

Enter hour 00–23 by entering the first digit of the hour (0–2) in L1 and the second digit (0–3) of

the hour in L2. (00 = 12 midnight)

L3/L4:

Enter minute 00–59 by entering the first digit of the minute (0-5) in L3 and the second digit (0-

9) of the minute in L4. For example, to set a central station test time of 11:35pm, enter 2 in L1 and 3 in L2, then enter 3 in L3

and 5 in L4.

N/U

Q 23 PAGER OPTIONS

This question defines the events that will cause reports to be sent to a pager (L1–L2) by partition, and enables pager open/clo se reporting for each partition (L4).

Q 23, L1–L2 –

L1-L2 Entry

0 1 2 3 4 5 6 7 8 9 A B C D E F

Enter the L1–L2 digits as follows:

Zone

Alarm

✔

✔✔

✔✔✔

✔✔

✔✔ ✔

✔✔✔

✔✔✔✔

Zone

Trouble

✔

User

Open

User

Zone Alarm/Zone Trouble:

✔

trouble, a message is sent to the partition’s pager number. Only one event is reported at a time.

✔✔

User Open/User Close:

open and/or close pager reports. See L4 to enable

✔

each partition’s open/close pager report. Use the #7 command to enable/disable a particular user’s

✔✔

✔✔✔

open/close pager report.

L1 L2 L3 L4

Part 1 Part. 2 enables

Upon an alarm or

This enables system-wide

59)

6-32

Section 6. System Programming

Q 23, L4 – Pager Enables for Partitions and Follow Me

0 1 2 3 8 9 A B

Enable User Page Part. 1

✔

✔✔

✔✔✔

Entry

QUESTION 24 RF JAMMING

Enable User Page Part. 2

✔

✔✔

Enable #58

Follow Me

✔

Enable User Page Part. 1–2:

If selected, the open and/or close events selected in L1–L2 above will be reported to a pager for users in a particular partition. This setting can be toggled by using the #8 command.

Enable #58 Follow Me:

If selected, enables the #58 Quick Command. The #58 Quick command is used to modify the pager telephone number from the keypad.

N/U N/U

N/U

L1 L2 L3 L4

This question defines if the system should detect a jam signal from the RF receiver, and if detected, determines the type of jamming to be recognized and the action to be performed (sounder or bell).

NOTE:

RF Jamming detection will only function if the system uses a ZR-402EU or OMNI-RF Receiver

that has jam output capability.

Q 24, L4 – Jam Enable, Jam Type, Jam Detection Action

Entry

0 1 3 5 7 9 B D F

Jam Enable:

Jam

Enable

✔✔ ✔ ✔✔✔ ✔✔ ✔ ✔✔✔ ✔✔ ✔ ✔✔ ✔ ✔✔ ✔✔ ✔✔✔✔

The system will monitor the Jam signal from the receiver and when received, check the

Jam Type Jam Detection Action

Euro US Silent Sounder Bell

jam signal for the criteria set in the Jam Type definition.

Jam Type:

The jam type defines the criteria that the jam signal must meet to be co nsi d ered a valid

jamming signal. The types are as follows:

EUROPEAN (Euro): If a jam signal is detected for a total of 30 seconds in a 60-second period (not necessarily in one continuous stretch), then qualify it as a jam condition and report it.

DOMESTIC (US): If a jam signal is detected for a period of 20 consecutive seconds, then qualify it as a jam condition and report it.

6-33

OMNI-624/OMNI-624EU Installation and Setup Guide

Jam Detection Action:

The actions that can be taken by the system when a valid jam signal is detected is to report the jam, report the jam and sound the keypad sounder or alarm sounder, or report the jam and sound both the keypad sounder and alarm sounder.

Q 25 NOT USED

QUESTION 26 SOFT KEY FUNCTIONS (1 & 3/7 & 9)

For L1 and L3,

L1/L3 Entry Silent Keypad

0 1 2 3 4 5 6 7 8 9 A B C D E F

make selections from the table below (L1 = 1 & 3 keys; L3 = 7 & 9 keys).

Sounder Options Relay Options

Burg.

Bell TemporalNoRelay

✔✔

✔ ✔

✔✔

Mom.

Seconds

Mom.

Minutes Toggle

L1 L2 L3 L4

1 & 3 Keys 7 & 9 Keys

Sounder Options:

Selects the sounding that will occur when the designated soft keys are pressed.

Relay Options:

Selects the type of relay action when the designated soft keys are pressed. See Questions 32–43 to program relays.

For L2 and L4,

L2/L4 Entry

0 1 2 3 4 5 6 7

make selections from the table below (L2 = 1 & 3 keys; L4 = 7 & 9 keys).

Arm

Away

✔

✔✔

✔✔ ✔

Arm Stay

✔

✔✔

6-34

Pager

Alert/Trouble

✔

Arm Away/Stay:

Selects the arming mode that the

designated soft key wil l activate.

Pager/Beeps Alert/Trouble:

If selected, a message will be sent to the pager when the designated soft key is pressed. This can be used to send a “help me” message.

QUESTION 27 SOFT KEY FUNCTIONS FOR ✱ & #

For L1,

make selections from the table below.

Sounder Options Relay Options

L1/L3 Entry Silent Keypad

0 1 2 3 4 5 6 7 8

9 A B C D

✔✔

✔ ✔

Burg.

Bell TemporalNoRelay

✔✔

Mom.

Seconds

Section 6. System Programming

N/U N/U

L1 L2 L3 L4

✱

& # Keys

Mom.

Minutes Toggle

For L2,

Entry

0 1 2 3 4 5 6 7

make a selection from the table below.

Arm

Away

✔

✔✔

✔✔ ✔

Arm

Stay

✔

✔✔

Pager

Alert/Trouble

✔

Arm Away/Stay:

designated soft key wil l activate.

Pager/Beeps Alert/Trouble:

be sent to the pager when the designated soft ke y is pressed. This can be used to send a “help me” message.

Selects the arming mode that the

If selected, a message will

6-35

OMNI-624/OMNI-624EU Installation and Setup Guide

QUESTION 28 AUTO-ARM ENABLES

Q 28, L1–L2

Part 1 Part. 2 Up/About

N/U

L1 L2 L3 L4

This question enables auto-arming. See Question 29 (partition 1) and 30 (partition 2) for setting the auto-arm times for each partition. Enter the L1–L2 digits as follows:

L1-L2 Entry

Auto-

arm 0 1 3 5 7 9 B D F

Audible Arm

Warning

✔ ✔✔ ✔✔ ✔✔✔ ✔✔ ✔✔ ✔ ✔✔✔ ✔✔✔✔

Instant Arming

Stay

Arming

Auto-arm:

Arms the system in AWAY mode at time specified in Programming Submode 1, Questions 29 and 30 for partitions 1 and 2, respectively.

Audible Arm Warning:

keypad sound and/or bell/siren to warn of autoarming. See Programming Submode 1, Question 15, L1, L2 for more information.

Instant Auto-arming:

delay disabled.

Stay Auto-arming:

Arms the system in STAY mode.

If enabled, allows an audible

Arms the system with entry

NOTE:

All auto-arm modes will force-arm the system. This means any open zones at the time of autoarming will be bypassed. To report these bypassed zones, program a bypass code in Programming Submode 2, Question 44, L1.

Q 28, L4 Up and About Enables

Entry

0 1 2 3 4

Up and About

Part. 1

✔

✔✔

Up and About

Part. 2

✔

Up and About:

If no controlled zone is violated within a 24hour period (beginning at midnight), a signal is sent to the central station. This can serve as a safety feature for elderly, infirm, or disabled persons.

QUESTIONS 29–30 AUTO-ARM TIMES

These questions set the auto-arming time for e ach partition.

Enter hour 00–23 by entering the first digit of the hour (0–2) in L1 and the second digit (0–3) of

L1/L2:

the hour in L2. (00 = 12 midnight)

Enter minute 00–59 by entering the first digit of the minute (0–5) in L3 and the second digit (0–

L3/L4:

9) of the minute in L4. For example, to set an auto-arm time of 11:35pm, enter 2 in L1 and 3 in L2, then enter 3 in L3 and 5 in

L4.

QUESTION 29 AUTO-ARM TIME PARTITION 1

L1 L2 L3 L4

Hours (00-23) Minutes (00-59)

6-36

Section 6. System Programming

QUESTION 30 AUTO-ARM TIME PARTITION 2

Hours (00-23) Minutes (00-59)

L1 L2 L3 L4

QUESTION 31 NOT USED

QUESTIONS 32–43 TRIGGER/RELAY TYPES

These questions set relay and trigger types. Momentary trigger times in seconds or minutes for each partition are set in Questions 65 and 66.

Each trigger definition requires 2 locations to define its operation. L1 defines the partition in addition to the type that the trigger is to respond to. L2 completes the type definition entry. Some triggers type s are not partition-independent functions, such as loss of AC. Triggers that are momentary can follow either a second timer or a minute timer as described for that trigger type. Each partition has both a minute and second programmable time. Note that all momentary triggers for a partition will follow the momentary time (seconds or minutes) pro gram med for that partition. Each timer may be programmed for 1-15.

NOTE:

Triggers 3 and 4 (Question 43) may not be programmed if the 4705 Relay Module is enabled

(Submode 1, Question 17, Location 2). Enter a relay type from the following table for each relay used.

P1 P2 Relay Type Description

00 00 Disabled 01 41 Burg Bell no Bell Test Turns on with the burg bell and turns off when the bell times out or is shut

02 42 Fire Bell no Bell Test Follows the same temporal pattern as the fire bell. Turns off when the fire 03 43 Partition Armed I s on when the selected partition is armed; otherwise is off.

04 44 Partition Ready Is on when the selected partition is disarmed; otherwise is off. 05 45 In Entry Delay Is on if the selected partition is in entry delay; otherwis e is off. 06 46 In Exit Delay Is on if the selected partition is in exit delay; otherwise is off. 07 47 Armed Instant Is on if the select ed partition is armed in the instant mode; otherwise is off. 08 48 Armed Stay Is on if the selected partition is armed in the stay mode; otherwise is off.

09 49 Sounder on/pulsing Follows either a pulsing sounder or st eady sounder for the selected 0A 4A Chime Is activated for 1 second if a chime zone is activated for the programmed 0B n/a Line Seize (System) System trigger is on if the home phones are disconnected.

0C n/a Phone Fail (System) System trigger is on if the phone line monitor has detected the phone line 0D n/a AC Loss (System) System trigger is on when no AC loss is detected.

0E n/a Low Battery (System) System trigger is on when the battery volt age falls bel ow 10.2 volts.

0F 4F 24 Hr Zone in Trouble On if any 24-hour trouble in the selected partition is active.

10 50 24 Hr Zone Alarmed On if any 24-hour alarm zone in the selected partition is active.

11 51 Instant Zone Faulted On if any instant zone in the selected partition is faulted.

12 52 Delay Zone Faulted On if any delay zone is faulted in the selected partition.

off. bell times out or is turned off.

partition. partition.

has been cut.

6-37

OMNI-624/OMNI-624EU Installation and Setup Guide

P1 P2 Relay Type Description

13 53 Interior Zone Faulted On if any interior zone is faulted in the selected partition.

14 54 Zone Tamper On if any Tamper has occurred on a zone. Includes RF and hardwired (if

15 55 RF Low Battery On if any low battery has been detect ed on an RF zone for that partition.

16 56 RF Supervision On if any RF zone has not been received for the programmed supervision

17 n/a Comm. Fail (System) On when comm fails occurs, off after code is entered, by partition.

18 58 Key Tamper, mom. Sec By partition, if 21 keys are entered without a valid code, keypad tamper

19 59 Duress Code, mom. Sec By partition, mome ntary output based on Seconds. Acti vated when user 1A 5A Bell Strobe - Internal, No

dings

1B 5B Bell Strobe - External, with

dings 1C 5C Trigger Zone, mom Minutes Fol lows the zone type - trigger. Momentary based on minutes. 1D 5D Trigger Zone, mom. Seconds Follows the zone type - trigger. Momentary based on seconds. 1E 5E Door Strike, mom. Seconds Activates for seconds upon valid user code or user code 20–30 as

1F 5F Shock Reset (*) Seconds Momentary trigger for seconds when the “*” key is pressed. 20 60 CS Test Momentary Secs. Mom entary second trigger, when CS test transmits to CS. 21 61 Alarm/Restore by partition By partition, goes on with alarm and off when all zones for the partition

22 62 2-way voice, on after seize

rel.

23 63 Momentary by Seconds

(fob, soft)

24 64 Momentary by Minutes

(fob, soft)

25 65 Toggle (Keyfob, softkeys) May be activated by keyfobs or soft keys. 26 66 Follows Zn Loop, Trig=Zn 1–20For the first 20 zones only. The trigger offset is equal to the zone number.

27 67 Follows Zn Loop, Trig=Zn 21–24Same as type 26, but for zones/triggers 21–24

double balanced).

interval.

activates momentarily for the number of seconds programmed for that partition.

codes 31–32 are enabled for duress (ambush). On with either fire or burg, off with code.

With arm/disarm dings. Latches on with either a fire or burg bell, off with code.

enabled in installer programming.

have met their restore requirements. Works in conjunction with a two way voice module. The trigger activates after the dialer is done for the minutes programmed for partition 1. The keypad sounders are silenced until either bell cut-off or a valid user code is entered. May be activated by any soft key if programmed.

May be activated by any soft key if programmed.

Example trigger 2 follows the normal/off normal state of zone 2.

28 68 Zone alarm - zones 1–20 Zones 1–20 = triggers 1–20. On with zone alarm, off when zone is

29 69 Zone alarm - zones 21–24 Zones 21–24 = triggers 1–4. On with zone alarm, off when zone is 2A 6A Zone alarm restore - zones 1–20Zones 1–20 = triggers 1–20. On with zone alarm, off when restore for 2B 6B Zone alarm restore - zones

21–24 2C 6C Sys Bell, Internal (no Dings ) Follows bell output but does not respond to bell test. 2D 6D Sys Bell, External (wi th Dings) Follows bell output , but res ponds t o bell test.

6-38

cleared. cleared. zone occurs. This is based on Restore Follows Loop option.

Zones 21–24 = triggers 1–4. On with zone alarm, off when restore for zone occurs. This is based on Restore Follows Loop option.

Section 6. System Programming

: In the above table, P1 types 26 through 2B and P2 types 66 through 6B may only be assigned

NOTE

for relays and cannot be assigned for triggers. Additionally, the relay number to which you assign the type correlates to a corresponding zone number. For example:

a. If type 28 is assigned to relay 1, relay 1 is energized by an alarm condition on zone 1. b. If type 28 is assigned to relay 3, relay 3 is energized by an alarm condition on zone 3. c. If type 29 is assigned to relay 1, relay 1 is energized by an alarm condition on zone 21.

Q 32 RELAY 1 and 2 TYPES Q 33 RELAY 3 and 4 TYPES

Relay 1 Relay 2 Relay 3 Relay 4

Q 34 RELAY 5 and 6 TYPES Q 35 RELAY 7 and 8 TYPES

Relay 5 Relay 6 Relay 7 Relay 8

Q 36 RELAY 9 and 10 TYPES Q 37 RELAY 11 and 12 TYPES

Relay 9 Relay 10 Relay 11 Relay 12

Q 38 RELAY 13 and 14 TYPES Q 39 RELAY 15 and 16 TYPES

Relay 13 Relay 14 Relay 15 Rel ay 16

Q 40 RELAY 17 and 18 TYPES Q 41 RELAY 19 and 20 TYPES

Relay 17 Relay 18 Relay 19 Rel ay 20

Q 42 TRIGGER 1 and 2 TYPES Q 43 TRIGGER 3 and 4 TYPES

Trigger 1 Trigger 2 Trigger 3 T ri gger 4

QUESTIONS 44–45 KEYPAD MAPPING

During initial installation, the system reads the addresses of the connected keypads and automatically maps those keypads to partition 1, therefore, programming of Questions 44–45 is unnecessary. Simply use the #0 quick command to assign each keypad to the appropriate partition.

IMPORTANT:

Make sure keypads of the same type have been set to unique addresses. See Keypad

Addressing paragraph in section 5 for details on setting the keypad addresses.

Once a keypad’s partition assignment has been changed (using the #0 command), the following questions can be used to enable/disable keypad addresses.

NOTE:

LCD = OMNI-LCD*; Non-LCD = OMNI-KP* or XK-108L**

* addressable via keypad programming; ** addressable via DIP switches

6-39

OMNI-624/OMNI-624EU Installation and Setup Guide

Q44–45 L1 Enable LCD keypad addresses 5–8. Q44–45 L2 Enable LCD keypad addresses 1–4.

Entry

00 1 2 3 4 5 6 7 8 9 A B C D E F

LCD Keypad Address LCD Keypad AddressL1

5 6 7 8

✔

✔✔

✔

✔✔

✔✔✔

✔

✔✔9✔✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔✔✔

Entry

1 2 3 4 5 6 7 8

A B C D

E F

1 2 3 4

✔

✔✔

✔

✔✔

✔✔✔

✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔✔✔

Q44–45 L3 Enable Non-LCD Q44–45 L4 Enable Non-LCD

keypad addresses 5–8. keypad addresses 1–4.

Entry

00 1 2 3 4 5 6 7 8 9 A B C D E F

Non-LCD Keypad Address Non-LCD Keypad Address

5 6 7 8

✔

✔✔

✔

✔✔

✔✔✔

✔

✔✔9✔✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔✔✔

Entry

1 2 3 4 5 6 7 8

A B C D

E F

1 2 3 4

✔

✔✔

✔

✔✔

✔✔✔

✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔✔✔

6-40

Section 6. System Programming

Q44 KEYPAD MAPPING for PARTITION 1 Q45 KEYPAD MAPPING for PARTITION 2

L1 L2 L3 L4 L1 L2 L3 L4

LCD Keypads Non-LCD keypads LCD Keypad Non-LCD keypad

This question assigns keypads to ptn. 1. This question assigns keypads to ptn. 2. Enter the digits from the tables above. Enter the digits from the tables above.

QUESTIONS 46–48 NOT USED

QUESTIONS 49–64 KEYFOB BUTTON FUNCTIONS and USERS

The following odd-numbered questions set the RF keyfob button functions. The even-numbered questions assign the partition in which the keyfob functions and the associated users for open/close reporting. See Insta ller Mode 3, Que stions 25–32 to a ssign the number of buttons used by ea ch keyfob and to store their serial numbers.

For odd numbered questions,

L1-L4 Entry Keyfob Function

0 1 2 3 4 5

Disabled

Disarm

Arm Away

Arm Stay

Arm Instant

Arm Stay/Instant

For even-numbered questions,

enter the digits in each location as follows:

L1-L4

Entry Keyfob Function

6 7 8

Relay Type 23 (mom. seconds)

Relay Type 24 (mom. minutes)

A B

Keypad Fire

Keypad Panic

Keypad Aux.

Relay Type 25 (toggle)

enter the digits as follows (L1: not used):

YOU MUST PROGRAM

THIS BUTTON

LOOP 4

5804 Wireless Key

LOOP 3

LOOP 2 LOOP 1

L2: Enter the partition number (P1=1; P2=2) for arming/disarming for this keyfob. This defines the partition in which the keyfob is located.

L3/L4: Enter the user number (01–32) associated with this keyfob. Enter the first digit of the user number in L3 and enter the second digit in L4.

Q 49 KEYFOB 1 FUNCTIONS Q 50 KEYFOB 1 USER

Button 1 Button2 Button 3 Button 4 Arm Part. User number

N/A

L1 L2 L3 L4 L1 L2 L3 L4

Q 51 KEYFOB 2 FUNCTIONS Q 52 KEYFOB 2 USER

Button 1 Button2 Button 3 Button 4 Arm Part. User number

N/A

L1 L2 L3 L4 L1 L2 L3 L4

Q 53 KEYFOB 3 FUNCTIONS Q 54 KEYFOB 3 USER

Button 1 Button2 Button 3 Button 4 Arm Part. User number

N/A

L1 L2 L3 L4 L1 L2 L3 L4

6-41

OMNI-624/OMNI-624EU Installation and Setup Guide

Q 55 KEYFOB 4 FUNCTIONS Q 56 KEYFOB 4 USER

Button 1 Button2 Button 3 Button 4 Arm Part. User number

N/A

L1 L2 L3 L4 L1 L2 L3 L4

Q 57 KEYFOB 5 FUNCTIONS Q 58 KEYFOB 5 USER

Button 1 Button2 Button 3 Button 4 Arm Part. User number

N/A

L1 L2 L3 L4 L1 L2 L3 L4

Q 59 KEYFOB 6 FUNCTIONS Q 60 KEYFOB 6 USER

Button 1 Button2 Button 3 Button 4 Arm Part. User number

N/A

L1 L2 L3 L4 L1 L2 L3 L4

Q 61 KEYFOB 7 FUNCTIONS Q 62 KEYFOB 7 USER

Button 1 Button2 Button 3 Button 4 Arm Part. User number

N/A

L1 L2 L3 L4 L1 L2 L3 L4

Q 63 KEYFOB 8 FUNCTIONS Q 64 KEYFOB 8 USER

N/A

L1 L2 L3 L4 L1 L2 L3 L4

Button 1 Button2 Button 3 Button 4 Arm Part. User number

QUESTIONS 65–66 RELAY/TRIGGER TIME for MOMENTARY OUTPUTS

These questions set the relay/trigger time for each partition. The time set applies to all triggers within that partition. From the following table, enter the desired time the relay/triggers should remain activated (for Question 65, the times are in minutes, for Ques tio n 66 the times are in seconds):

L1-L4 Entry

0 1 2 3 4 5

RELAY TIME

(Q65=min/Q66=sec) same as entering “1”

1 2 3 4 5

L1-L4 Entry

6 7 8 9 A

RELAY TIME

(Q65=min/Q66=sec)

6 7 8 9

L1-L4 Entry

B C D E F

RELAY TIME

(Q65=min/Q66=sec)

11 12 13 14 15

Q 65 RELAY/TRIGGER TIME MINUTES

Q 66 RELAY/TRIGGER TIME SECONDS

6-42

N/U N/U

L1 L2 L3 L4

Part.1 Part. 2

N/U N/U

L1 L2 L3 L4

Part.1 Part. 2

Section 6. System Programming

QUESTIONS 67–68 OPEN/CLOSE CENTRAL STATION REPORT DISABLES

These questions set the open/close report to central station option for each user. Users are normally enabled for open/close reporting. Selecting the option for a user disables the open/close central station report for that user. See Question 23, L1–L2 for enabling user open/close message to pagers.

Q 67 OPEN/CLOSE REPORT DISABLES FOR USERS 1–16

NOTE:

Checkmark means report is disabled

L1 L2 L3 L4

1-4 5-8 9-12 13-16

Q 67, L1 Users 1–4 Open/Close Report Disable Q 67, L2 Users 5–8 Open/Close Report Disable

Entry

User1User2User3User

00 1 2 3 4 5 6 7 8 9 A B C D E F

✔

✔✔

✔

✔✔

✔✔✔

✔✔9✔✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔✔✔

✔

Entry

1 2 3 4 5 6 7 8

A B C D E F

User5User6User7User

✔

✔✔

✔

✔✔

✔✔✔

✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔✔✔

Q 67, L3 Users 9–12 Open/Close Report Disable Q 67, L4 Users 13–16 Open/Close Report Disable

Entry

User9User10User11User

00 1 2 3 4 5 6 7 8 9 A B C D E F

✔

✔✔

✔

✔✔

✔✔✔

✔✔9✔✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔✔✔

✔

Entry

1 2 3 4 5 6 7 8

A B C D E F

User13User14User15User

✔

✔✔

✔

✔✔

✔✔✔

✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔✔✔

6-43

OMNI-624/OMNI-624EU Installation and Setup Guide

Q 68 OPEN/CLOSE REPORT DISABLES FOR USERS 17–32

17-20 21-24 25-28 29-32

L1 L2 L3 L4

Q 68, L1 Users 17–20 Open/Close Report Disable Q 68, L2 Users 21–24 Open/Close Report Disable

Entry

User17User18User19User

00 1 2 3 4 5 6 7 8 9 A B C D E F

✔

✔✔

✔

✔✔

✔✔✔

✔✔9✔✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔✔✔

✔

Entry

1 2 3 4 5 6 7 8

A B C D E F

User21User22User23User

✔

✔✔

✔

✔✔

✔✔✔

✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔✔✔

Q 68, L3 Users 25–28 Open/Close Report Disable Q 68, L4 Users 29–32 Open/Close Report Disable

Entry

User25User26User27User

00 1 2 3 4 5 6 7 8 9 A B C D E F

✔

✔✔

✔

✔✔

✔✔✔

✔✔9✔✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔✔✔

✔

Entry

1 2 3 4 5 6 7 8

A B C D E F

User29User30User31User

✔

✔✔

✔

✔✔

✔✔✔

✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔✔✔

Programming Submode 2: ZONE PROGRAMMING / REPORT CODES

Press [✱] + [BYPASS] while in Installer Mode 1, then press [2] to enter Zone Programming submode.

6-44

Section 6. System Programming

QUESTIONS 01–24 ZONE TYPES AND ATTRIBUTES

Zone Part./ silent/ stay/chime Type config swing dial delay

L1 L2 L3 L4

These questions are used to program zone information. Use the separate Programming Form to enter the actual values for each zone. For each of the following questions, enter the digits as follows:

L1: – Zone Types

Zone Type

Entry

Controlled

Disabled Will not affect the system in any way.

0 1

3 4

Instant An instant zone shows “not ready” when disarmed and goes immediately into alarm when

faulted while armed.

Delay A controlled zone that is bypassed during entry and exit. Starts entry time 1 if vi olated while

the system is armed. If the system is not disarmed before the end of entry time, an alarm is generated.

Delay 2 Same as Type 2 except uses the entry 2 time.

Interior Upon arming, this zone begins system exit delay and will cause an alarm if faulted when exit

delay ends. With system armed, faulting an entry delay zone causes “interior” zones to begin the respective entry delay (depending on the entry zone faulted), during which time the zone can be faulted. Interior zones cause immediate alarms if faulted without an entry zone being activated first (while the system is armed).

Day Zone When faulted, causes trouble when disarmed and an alarm while armed.

Description

24-Hour

Keyswitch Used to arm/disarm the control by momentary, non-latching switch.

Trigger/Relay

A B

Zone

Trouble Zone Produces a trouble condition on zone with an option for a pulsing keypad sounder.

Alarm Zone Activat es burg bell on any faulted conditi on. If zone is off (normal after alarm memory is

Alarm/Trouble 24-hour zone that causes an alarm with the burg bell on a short and a trouble condition on an

Fire, No

Verification

Fire, With

Verification

Zone’s status (fault/normal) determines activation of associated trigger/relay. See trigger/relay programming in Submode 1, Questions 23–29 to enable appropriate trigger or relay.

cleared), the alarm is converted to a trouble display. open. Must be EOL to derive trouble condition. Dialer sends zone alarm code for short and

trouble code for open. Fire zone that works like a 24-hour alarm zone but uses the fire bell. This zone type is usually used for a switched input such as a pull station. Intended for a 4-wire smoke detector connected to the smoke power terminals. A short produces a temporal fire bell and an open produces a zone trouble. Must be E.O.L. to derive the trouble condition.

Verification process: Verification wil l not occur if any fire zone i n the syst em is already i n alarm. Upon detection of a short, power is removed from the smoke detector power terminals for 8 seconds. After restoring power, the system waits another 4 seconds, then tests the zone again. If a short still exists, an alarm occurs.

Fire Trouble: Fire trouble occurs in 2 different ways. The first way is for the loop to open. The second way is if the loop is still shorted after a fire alarm has been silenced and the user clears alarm memory. The alarm is changed to a trouble. No trouble is reported to the CS at this time (serves as a reminder to let the end user know the zone is not active). On clearing alarm memory, if a fire verification zone is still shorted the verific ati on process is repeated about every 4 minutes to try to reset the smoke detector. A tamper on a fire zone results in a trouble, not an alarm.

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OMNI-624/OMNI-624EU Installation and Setup Guide

L2: – Partition, zone configuration, supervision options

Partition Hardwire Loop Type Wireless Supervision

Entry

1 2 EOL N/C N/O Supervise Tamper

✔✔ ✔✔

1 4 5 8 9

✔✔ ✔ ✔

✔✔ ✔

✔✔✔

L3 Entry:

Entry

0 1 2 3

Silent

Zone Swinger*

✔

✔✔

Silent –

If selected, alarms will be sent to the central station but no

sounding (bell, keypad sounder) will occur.

Swinger –

If selected, this zone will stop reporting alarms during a single armed period if the number of alarms within that armed period exceeds the number set in Submode 1, Question 10, Location 4.

* Erratic or unstable sensor

L4 Entry:

Entry Stay

0 1 2 3 4 5 6 7 8 9 A B C D E F

Auto-

Stay Chime

✔

✔✔

✔

✔✔

✔✔✔

✔✔

✔✔ ✔

✔✔

✔✔✔

✔✔✔✔

Dial

Delay

✔

Stay –

If selected, zone will be bypassed if the system is

armed in STAY mode.

Auto-Stay –

bypassed if a delay zone (e.g. entry/exit door) is not faulted during exit delay.

Chime –

If selected, a fault on this zone while the system is disarmed allows the keypad to emit a 1-second beep. When this feature is selected, the beep may be turned on or off by the user entering the #6 command.

Dial Delay –

zone will be delayed by the time selected in Question 19, Location 4.

Partition:

Select the partition in which

the zone is located.

Hardwire Loop Type –

If this is a hardwire zone, select the type of loop. This selection is

not

applicable for double-balanced, fast, or zone doubling zones. For EOL, use a 2.2k loop resistor.

Wireless Supervision –

If this is a wireless zone, select whether it will be supervised and/or have tamper protection active.

If selected, zone will be automatically

If selected, transmissi on of alar ms on thi s

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Section 6. System Programming

Typical Question 01–24 Layout

Zone Part./ silent/ stay/chime Type config swing dial delay

L1 L2 L3 L4

Q 01 ZONE 1 (type/attributes) Q 13 ZONE 13 (type/attributes) Q 02 ZONE 2 (type/attributes) Q 14 ZONE 14 (type/attributes) Q 03 ZONE 3 (type/attributes) Q 15 ZONE 15 (type/attributes) Q 04 ZONE 4 (type/attributes) Q 16 ZONE 16 (type/attributes) Q 05 ZONE 5 (type/attributes) Q 17 ZONE 17 (type/attributes) Q 06 ZONE 6 (type/attributes) Q 18 ZONE 18 (type/attributes) Q 07 ZONE 7 (type/attributes) Q 19 ZONE 19 (type/attributes) Q 08 ZONE 8 (type/attributes) Q 20 ZONE 20 (type/attributes) Q 09 ZONE 9 (type/attributes) Q 21 ZONE 21 (type/attributes) Q 10 ZONE 10 (type/attributes) Q 22 ZONE 22 (type/attributes) Q 11 ZONE 11 (type/attributes) Q 23 ZONE 23 (type/attributes) Q 12 ZONE 12 (type/attributes) Q 24 ZONE 24 (type/attributes)

QUESTIONS 25–36 ZONE REPORT CODES

Questions 25–36.

Any zone with a reporting code other than AA will report to the CS. The first digit

L1 L2 L3 L4

1st digit 2nd digit 1st digit 2nd digit

zone “a” zone “b”

is used for single-digit formats. For two-digit formats, both digits are used. For CID, the first digit is used for the event code and the zone is the actual zone number. Refer to Section 8: Central Station Reporting Formats for details on Contact ID reporting codes.

Use the separate Programming Form to enter the actual values for each zone’s report. For each of the following questions, enter the digits as follows:

L1 and L2: L3 and L4:

Enter the first and second digits of the report code for the first zone listed in the question. Enter the first and second digits of th e report code for the next zone listed in the question.

L1 and L2 L3 and L4

L1 and L2 L3 and L4 Q 25 Zone 1 Zone 2 Q 31 Zone 13 Zone 14 Q 26 Zone 3 Zone 4 Q 32 Zone 15 Zone 16 Q 27 Zone 5 Zone 6 Q 33 Zone 17 Zone 18 Q 28 Zone 7 Zone 8 Q 34 Zone 19 Zone 20 Q 29 Zone 9 Zone 10 Q 35 Zone 21 Zone 22 Q 30 Zone 11 Zone 12 Q 36 Zone 23 Zone 24

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OMNI-624/OMNI-624EU Installation and Setup Guide

QUESTIONS 37–49 SYSTEM REPORT CODES

1st digit 2nd digit 1st digit 2nd digit

L1 L2 L3 L4

event “a” event “b”

These questions enable the reporting of the event indicated on the EEPROM map if the value is not “A” for single-digit events or “AA” for double-digit events. Selections can be 0–9, A–F. Refer to

Central Station Reporting Formats

for details on Contact ID reporting codes. Use the separate

Section 8:

Programming Form to enter the actual values for each zone.

For each of the following questions, enter the digits as follows (except as noted): L1 and L2: L3 and L4:

Enter the first and second digits of th e report code for the listed event. Enter the first and second digits of th e report code for the listed event.

L1 and L2

L3 and L4 Q 37 DURESS AC LOSS Q 38

KEYPAD ✱ & #

Q 39* OPEN (L1) CLOSE (L2)

LOW BAT

N/A

Q 40 KEYPAD 7 & 9 PANIC KEYPAD 1 & 3 PANIC Q 41 KEY TAMPER CS TEST Q 42* FALSE ALARM

(exit error - L1, recent close - L2)

Q 43 BELL/SIREN SUPERVISION Q 44* BYPASS

(bypass - L1, bypass restore - L2)

FALSE ALARM

(lockout - L3, cancel - L4)

N/A

TROUBLE

(fire trouble - L3, zone trouble -L4)

Q 45 DOWNLOAD WALK TEST Q 46 EVENT LOG 90% FULL EVENT LOG 100% FULL Q 47* RF SUPERVISION

(supervision - L1, tamper - L2)

Q 48 ARM DISABLE

(must be “DD” if disable arming is set in Q 11, L3)

RF SUPERVISION

(low battery - L3, trouble restore - L4)

CLOCK SET

Q 49 UP-ABOUT CLOCK FAIL

* These questions have single-digit report code entries for each location. See Programming Form for

details.

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Section 6. System Programming

QUESTION 50 FIRST RF ZONE/FIRST DOUBLED ZONE

First RF Zone First Doubled Zone

L1 L2 L3 L4

This question sets the first RF zone and the first hardwire doubled zone. Enter digits as follows:

L1:

Enter the first digit of first RF zone number (wireless zone numbers must start after the last hardwire zone). All zones starting with this number and higher will respond only to inputs from the RF receiver. The RF receiver is enabled in Submode 1, Question 12, L2.

L2:

Enter the second digit of first RF zone number.

L3:

Enter the first digit of first doubled zone number (use only zones 01, 03, 05, 07, 09, 11, 13, 15 as first doubled zone). This option doubles the number of hardwired zones from the first zone entered here upward. That is, loop 1 becomes zones 1 and 2, loop 2 becomes zones 3 and 4, etc.

doubling must begin on an odd numbered zone only

. This can provide up to 16 hardwire

Zone

zones. If this is selected, there will be 16 zones available as wireless zones.

L4:

Enter the second digit of first doubled zone number.

QUESTIONS 51–53 CROSSED ZONES

These questions assign up to 2 pairs of cross zones (Questions 51/52) and set the cross zone timing (Question 53) for each pa ir.

Q 51 CROSSED ZONES GROUP 1 Q 52 CROSSED ZONES GROUP 2

Enter the digits as follows: Enter the digits as follows:

L1 L2 L3 L4 L1 L2 L3 L4

First zone Second zone First zone Second zone

Two cross-zone timers are programmable (Question 53, L3 [timer 1] and L4 [timer 2] in Programming Submode 2: Zone Programming) in 15-second increments (15 Sec. to 4 min.) Cross-zone processing only occurs when controlled zones are armed or on 24-hour zones.

Cross zoning functions in either of 2 ways:

•

If the group contains 2 different zones, when the first zone in the group is tripped, the cross-zone timer loads and starts counting. An alarm will occur if:

or The timer expires and the zone that started the timer is still violated and has not restored during

the entire timing cycle.

•

The zone is crossed to itself (e.g., Question 51 is programmed as 0101 – Zone 1 crossed to itself) and the zone has tripped 3 times within the timing period (Pulse counter).

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OMNI-624/OMNI-624EU Installation and Setup Guide

L1/L2:

First and second digit, respectively, of first zone of crossed zone group 1

L3/L4:

Example:

First and second digit, respectively, of second zone of crossed zone group 1

Locations 1, 2 = 11; Locations 3, 4 = 23. This results in a cross between zones 11 and 23.

Q 53 CROSSED ZONES TIME

This option sets the time period (number of seconds) in which both zones in a cross zone group must be faulted for an alarm to be sent. The timer begins when either of the zones in a cross zone group is faulted. Enter the digits as follows:

N/U

L1 L2 L3 L4

not used Group 1 Group 2

L3/L4 Entry

Cross Zone Time

0 1 2 3 4 5 6 7

(secs.)

15 30 45 60 75

90 105 120

L3:

Enter the cross zone time for group 1.

L4:

Enter the cross zone time for group 2.

L3/L4 Entry

Cross Zone Time

9 A B C D E

(secs.)

135 150 165 180 195 210 225 240

Programming Submode 3: WIRELESS TRANSMITTER PROGRAMMING

Press [✱] + [BYPASS] while in Installer Mode 1, then press [3] to enter Wireless Programming submode.

QUESTIONS 01–24 WIRELESS ZONE CONFIGURATION/SERIAL NUMBER

L1 L2 L3 L4 L5 L6 L7 L8 L9

No. of zones enable RF –––––––––––Transmitter 7-digit serial number –––––––––––––––

These questions assign the number of zones used by each transmitter and store the transmitter serial numbers. See Installer Submode 2, Question 50, for assigning the first wireless zone number. Use the separate Programming Form to enter the actual values for each zone.

L1:

Number of zones used on the transmitter (1–4).

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Section 6. System Programming

L2:

Should always be “1,” unless you want to swap the order of zone numbering for the transmitter’s loops 1 and 2, in which case enter “9.” For example, if you are using a 2-loop transmitter such as the ZR510 or 5816 and only want to use the magnetic reed switch (loop 2) you would enter 9 so that loop 2 would be treated as loop 1.

L3–L9:

Q 01 WIRELESS ZONE 1 Q 09 WIRELESS ZONE 9 Q 17 WIRELESS ZONE 17 Q 02 WIRELESS ZONE 2 Q 10 WIRELESS ZONE 10 Q 18 WIRELESS ZONE 18 Q 03 WIRELESS ZONE 3 Q 11 WIRELESS ZONE 11 Q 19 WIRELESS ZONE 19 Q 04 WIRELESS ZONE 4 Q 12 WIRELESS ZONE 12 Q 20 WIRELESS ZONE 20 Q 05 WIRELESS ZONE 5 Q 13 WIRELESS ZONE 13 Q 21 WIRELESS ZONE 21 Q 06 WIRELESS ZONE 6 Q 14 WIRELESS ZONE 14 Q 22 WIRELESS ZONE 22 Q 07 WIRELESS ZONE 7 Q 15 WIRELESS ZONE 15 Q 23 WIRELESS ZONE 23 Q 08 WIRELESS ZONE 8 Q 16 WIRELESS ZONE 16 Q 24 WIRELESS ZONE 24

QUESTION 25–32 KEYFOB CONFIGURATION/SERIAL NUMBER

These questions assign the number of buttons used by each keyfob and store the keyfob’s serial numbers. See Installer Submode 1, Questions 49–64 to assign the keyfob button functions. Use the separate Programming Form to enter the actual values for each keyfob.

L1: L2: L3–L9:

Q 25 KEYFOB 1 CONFIGURATION/SERIAL NUMBER Q 26 KEYFOB 2 CONFIGURATION/SERIAL NUMBER Q 27 KEYFOB 3 CONFIGURATION/SERIAL NUMBER Q 28 KEYFOB 4 CONFIGURATION/SERIAL NUMBER Q 29 KEYFOB 5 CONFIGURATION/SERIAL NUMBER Q 30 KEYFOB 6 CONFIGURATION/SERIAL NUMBER Q 31 KEYFOB 7 CONFIGURATION/SERIAL NUMBER Q 32 KEYFOB 8 CONFIGURATION/SERIAL NUMBER

Enter the transmitter’s 7-digit serial number

L1 L2 L3 L4 L5 L6 L7 L8 L9

No. of buttons enabl e RF –––––––––––––Keyfob 7-di gi t serial number –––––––––––––––––

Number of buttons used on the transmitter (1–4).

Should always be “1.”

Enter the keyfob’s 7-digit serial number.

Programming Submode 4: DESCRIPTOR PROGRAMMING

Press [✱] [BYPASS] while in Installer Mode 1, then press [4] to enter Descriptor Programming submode.

To create a descriptor:

1. Press [✱] then the Question number representing the zone number desired.

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OMNI-624/OMNI-624EU Installation and Setup Guide

2. Press the INSTANT key to move the cursor to the desired location wi thin that Question.

3. Press one of the character display keys (see table below) to display the character set.

4. When the desired character appears, press INSTANT. The character is accepted and the cursor

moves to the next location. To move to a previous location to change a character, if needed, press

CODE.

5. When the descriptor is complete, accept the entry by pressing [✱] then the next Question number. Refer to the following chart when entering descriptors:

Key Function

INSTANT Accepts displayed character and moves cursor forward one

position. CODE Moves cursor backward one position. [7] Displays next character in character set. [9] Displays previous character in character set. [#] [7] Automatically scrolls character set display forward. [#] [9] Automatically scrolls character set display backward. [8] Stops auto scrolling. [0] Inserts a blank character.

QUESTIONS 01–24 ZONE DESCRIPTORS FOR ZONES 01–24

L1 L2 L3 L4 L5 L6 L7 L8 L9 L10 L11 L12 L13 L14 L15 L16

These questions allow you to enter up to 16-digit descriptors for each zone. Each digit corresponds to a single descriptor character. Use the separate Programming Form to enter the actual descriptors for each zone.

Descriptor For: Descriptor For: Descriptor For: Descriptor For: Q 01 ZONE 1 Q 07 ZONE 7 Q 13 ZONE 13 Q 19 ZONE 19 Q 02 ZONE 2 Q 08 ZONE 8 Q 14 ZONE 14 Q 20 ZONE 20 Q 03 ZONE 3 Q 09 ZONE 9 Q 15 ZONE 15 Q 21 ZONE 21 Q 04 ZONE 4 Q 10 ZONE 10 Q 16 ZONE 16 Q 22 ZONE 22 Q 05 ZONE 5 Q 11 ZONE 11 Q 17 ZONE 17 Q 23 ZONE 23 Q 06 ZONE 6 Q 12 ZONE 12 Q 18 ZONE 18 Q 24 ZONE 24

QUESTIONS 25–26 PARTITION DESCRIPTORS

L1 L2 L3 L4 L5 L6 L7 L8 L9 L10 L11 L12 L13 L14 L15 L16

This question allows you to enter up to 16 digits for partitions 1 and 2. Each digit corresponds to a single character in the descriptor.

Q 25 DESCRIPTOR FOR PARTITION 1 Q 26 DESCRIPTOR FOR PARTITION 2

6-52

SECTION 7

Summary of Keypad Functions

•••••••••••••••••••••••••••••••••••••••••••

User Functions

ARMING/DISARMING........................... user code

STAY ARMING...................................... [STAY] + user code

INSTANT ARMING................................ [INSTANT] + user code

STAY/ INSTANT ARMING

BYPASS/UNBYPASS ........................... [BYPASS] + user code + zone number or [BYPASS] + zone

MULTIPLE BYPASS

QUICK BYPASS....................................[BYPASS] + zone number

USER CODE PROGRAMMING

USER CODE DELETION....................... [CODE] + master user code + user number + [#]

CHANGE PARTITION

QUICK ARM .......................................... [#] + [1]

QUICK FORCED ARM .......................... [#] + [2]

SET TIME .............................................. [#] + [3] + user code + Hour + Minute + Day + Year

DISPLAY ZONE DIR.: ........................... [#] + [4] (LCD Keypads only)

DISPLAY/TOGGLE TIME...................... [#] + [6]

USER PART/PAGER ASSIGN.............. [#] + [7] + master code + user number + [1], [2], or [4] (pager)

TOGGLE OPEN/CLOSE REPORTS ..... [#] + [8]

USER ON-LINE DOWNLOAD

DISPLAY QUICK COMMANDS............. [#] + [5] + [0] (LCD Keypads only)

DISPLAY TIME...................................... [#] + [5] + [1] (LCD Keypads only)

DISPLAY AUTO-ARM TIME.................. [#] + [5] + [2] (LCD Keypads only)

VIEW EVENT LOG................................ [#] + [5] + [3] + level 1 or 2 user code (LCD Keypads only)

SET AUTO-ARM TIME

DISPLAY PANEL REVISION ................ [#] + [5] + [5] (LCD Keypads only)

KEYFOB LOW BATTERY TEST........... [#] + [5] + [6] + user code or [#] + [5] + [6] (LCD Keypads only)

DOOR STRIKE...................................... [#] + [5] + [7], [#] + [5] + [7] + user code, or user codes 20 – 30

CHANGE/VIEW PAGER NUMBER....... [#] + [5] + [8] + pager phone number + [#] or [#] + [5] + [8] + user

PANIC....................................................[#] and [✱] at the same time

FIRE.......................................................[7] and [9] at the same time

AUXILIARY............................................ [1] and [3] at the same time

DURESS (AMBUSH)............................. user code 31 or 32, if programmed

NOTES:

• User codes can be 4 or 6 digits, depending on system programming (Submode 1, Question 12, L3).

• Zone numbers hour/minute, day/year, and trigger numbers require 2-digit entries.

.....................

.............................

.............

........................... [

...............

..........................

[STAY] + [INSTANT] + user code number

[BYPASS] + user code + zone number + [BYPASS] + zone number, etc.

[CODE] + master user code + user number + new user code + auth. Lev.

#] + [0] + user code + [0], [1], [2], or [9]

[#] + [9]

[#] + [5] + [4] + user code + Hour + Minute

code + pager phone number + [#]

7-1

OMNI-624/OMNI-624EU Installation and Setup Guide

Installer Modes

KEYPAD PROGRAMMING................... [CODE] + [✱] + installer code + [1] + 1–4 submode

DEFAULT USER CODES

PROGRAM REVIEW MODE WALK TEST

SYSTEM LOG VIEW ............................. [CODE] + [✱] + installer code + [4]

SYSTEM DEFAULT

CLEAR TAMPERS ................................ [CODE] + [✱] + installer code + [6]

UNATTENDED DOWNLOAD................ [CODE] + [✱] + installer code + [8]

ON-LINE DOWNLOAD..........................[CODE] + [✱] + installer code + [9]

..........................................

NOTES:

• Installer code can be 4 or 6 digits, depending on system programming (Installer Mode 1, Submode 1, Question 12, L3).

• Pressing [✱] exits installer mode. Installer mode will also automatically exit if no keys are pressed for a period of time.

......................

..................

...............................

[CODE] + [✱] + installer code + [1] + 1–4 submode; then press [7] and [9] at the same time

[CODE] + [✱] + installer code + [2] [CODE] + [✱] + installer code + [3]

[CODE] + [✱] + installer code + [5] + [5] or [CODE] + [✱] + installer code + [1] + 1–4 submode; then press [1] and [3] at the same time

7-2

SECTION 8

Central Station Reporting Formats

•••••••••••••••••••••••••••••••••••••••••••

General Information

This security system is designed to transmit data to a central station receiver when an alarm, system trouble, or an opening/closing occurs. Due to the many different types of CS receivers in the market, this system can transmit data in various formats. Each installing company determines which format best suits its needs based on many factors. Of these, the CS receiver type is a major factor.

In transmitting data to the CS receiver, first the system's digital communicator seizes the home phone lines. Then it dials the CS#1 telephone number. When the CS receiver picks up the ringing phone line, it transmits a “Handshake” frequency (1400Hz, 2300Hz or HiLo) back to the digital communicator. After receiving the “Handshake” frequency, the digital communicator transmits the data in the format programmed in Submode 1, Question 10, L1–L4. Assuming the CS receiver verifies the data transmission as valid (after 2 successful rounds of data or 1 valid parity round), it transmits a “Kissoff” frequency back to the digital communicator. This causes the communicator to stop transmitting, unless more data is available, in which case additional data transmissions and “Kissoffs” occur. After the final “Kissoff,” the CS receiver releases the phone line and processes the data to its display and associated peripherals (computer and printer). If for any reason the digital communicator does not receive the “Kissoff,” it proceeds to dial the CS#2 telephone number or re-dials the CS#1 telephone number (if CS#2 is not used). It will continue to dial for a programmed number of times until a “Kissoff” is received. If after all programmed dialing attempts to each CS Telephone number, a “Kissoff” is not received, the system will display “Communication Failure” at the keypad. This message is cleared after the next successful transmission or by the user at the keypad.

The following is a general description of the various formats transmitted by this system.

Standard (3x1 or 4x1)

The Standard Reporting Format: AAA E or AAAA E where:

AAAA = Three- or four-digit account number

E = Single-digit event code; it is the first of the 2 programmable reporting code digits

Standard format is transmitted in Pulse, and involves a 3- or 4-digit account number followed by a single-digit event code. It can be transmitted with parity (1 round of data) or without parity (2 rounds of data). A disadvantage of this format is that it can transmit a total of only 15 event codes (0–9, B–F) without identifying zones or users. Examples:

3x1 w/o PARITY 3x1 w/PARITY

123 3 (1st round) 123 3 6 (single round) 123 3 (2nd round) 123 3 (resulting data) 123 3 (resulting data)

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OMNI-624/OMNI-624EU Installation and Setup Guide

4x1 w/o PARITY 4x1 w/PARITY

1234 3 (1st round) 1234 3 2 (single round) 1234 3 (2nd round) 1234 3 (resulting data) 1234 3 (resulting data)

Parity is a number derived automatically by the dialer utilizing a mathematical formula (modulo

15). For example, 123 3 adds up to 9. This is subtracted from the next-highest multiple of 15; in this case, 15 – 9 = 6. If the CS receiver accepts a valid parity digit, it considers the data transmission valid, deliver s a “Kissoff,” and processes the data. The parity digit is not displayed. Its only purpose is for validation of data transmitted. It is not a programmable digit; it is generated automatically by the dialer when the parity option is selected in programming Submode 1, Question 10, Location 2/4. The obvious advantage of using parity is speed. The transmission time between dialer and receiver is shorter because fewer digits are transmitted with it as opposed to without it.

Extended (3x1 Ext. or 4x1 Ext.)

The Extended Reporting Format: AAA EZ or AAAA EZ, where:

AAAA = Three- or four-digit account number (Submode 1, Questions 06–09)

E = Single-digit event code; it is the first of the 2 programmable reporting code digits Z = Zone or user identifier; it is the second of the 2 programmable reporting code digits

Extended format is transmitted in Pulse and involves a 3- or 4-digit account number followed by a double-digit reporting code. The only purpose for using the Extended format (sometimes known as Universal or Expanded format) is to be able to transmit more than 15 codes to the CS receiver. The system does this by extending the event code from the previous round of data, resulting in a 2-digit reporting code. It can be transmitted with pari ty (2 rounds of data) or without parity (4 rounds of data). There are 15 possible event codes, each of which can have up to 15 different zone or user identifiers. Examples:

3x1 Ext. W/O PARITY 3x1 Ext. W/PARITY

123 3 (1st round) 123 3 (2nd round) 123 3 6 (1st round) 333 1 (3rd round) 333 1 (4th round) 333 1 5 (2nd round) 123 31 (resulting data) Burglary Zone 1 123 31 (resulting data) Burglary Zone 1

4x1 Ext. W/O PARITY 4x1 Ext. W/PARITY

1234 3 (1st round) 1234 3 (2nd round) 1234 3 2 (1st round) 3333 1 (3rd round) 3333 1 (4th round) 3333 1 2 (2nd round) 1234 31 (resulting data) Burglary Zone 1 1234 31 (resulting data) Burglary Zone 1

Partial Extended (3x1 Part. Ext. or 4x1 Part. Ext.)

The Partial Extended Reporting Format: AAA EZ or AAAA EZ where:

AAAA = Three- or four-digit account number (Submode 1, Questions 06–09)

E = Single-digit event code; it is the first of the 2 programmable reporting code digits Z = Zone or user identifier; it is the second of the 2 programmable reporting code digits.

8-2

Section 8. Central Station Reporting Formats

The Partial Extended format is a combination of both the Standard and Extended formats. It transmits in Pulse a standard message for alarm conditions and an extended message for restores and other system conditions. To report a standard message, enter a numerical digit (0 - 9) in the first of the 2digit reporting code; for an extended message, enter a hexadecimal digit (B - F) in the first of the 2-digit reporting code. The extended messages are used whenever a zone or user identification is needed (bypasses, restores, openings/closings, etc.). It can also transmit with and without parity. Examples follow.

3x1 Stand. W/O PARITY (Alarm) 3x1 Part. Ext. W/O PARITY (Restore)

123 3 (1st round) 123 E (1st round) 123 E (2nd round) 123 3 (2nd round) EEE 1 (3rd round) EEE 1 (4th round) 123 3 (resulting data) Burglary 123 E1 (resulting data) Burglary

3x2 or 4x2

The 3x2 or 4x2 Reporting Format: AAA EZ or AAAA EZ, where:

AAAA = Three- or four-digit account number (Submode 1, Questions 06–09)

E = Single-digit event code; it is the first of the 2 programmable reporting code digits Z = Zone or user identifier; it is the second of the 2 programmable reporting code digits

This format is also in Pulse and is an alternative to the Extended format; it also transmits a 2-digit reporting code. Its specific meaning is a 3- or 4-digit account number followed by a 2-digit alarm code. It can be transmitted with parity (1 round of data) or withou t parity (2 rounds of data).

There are 15 possible event codes, each of which can have up to 15 different zone identifiers. It is different from the extended format in the way it transmits. This is illustrated in the examples below:

3x2 w/o PARITY 3x2 w/PARITY

123 31 (1st round) 123 31 5 (1st round) 123 31 (2nd round) 123 31 (resulting data) Burglary Zone 1 123 31 (resulting data) Burglary Zone 1

4x2 w/o PARITY 4x2 w/PARITY

1234 31 (1st round) 1234 31 1 (1st round) 1234 31 (2nd round) 1234 31 (resulting data) Burglary Zone 1 1234 31 (resulting data) Burglary Zone 1

FBII Superfast (4x3x1)

The FBII Superfast Reporting Format: AAAA AZZ S, where:

AAAA = Four-digit account number (Submode 1, Questions 06–09)

A = Alarm type; it is the first of the 2 programmable reporting code digits

ZZ = Zone or user identifier; it is the second of the 2 programmable reporting code digits

S = Signal Type; it is the first of the 2 programmable reporting code digits

This format is commonly known as 4x3x1. A total of 9 digits (including the parity digit) are sent in DTMF. It enables reporting of up to 256 (00–FF) unique zone or user identifiers instead of the 15 possible identifiers of most other pulse formats. In addition, it transmits at a much greater speed than

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OMNI-624/OMNI-624EU Installation and Setup Guide

the conventional pulse formats, since it uses DTMF (touch-tones) instead of pulses to transmit the data and it always sends a parity digit.

For alarms, openings and closings, the Alarm Type digit will be the same as the Signal Type. This indicates the type of activity or condition that has occurred. However, on bypasses, restores and troubles, the Alarm Type will not be the same as the Signal Type. Instead, the Signal Type will change, indicating the current con d ition of the zone.

NOTE:

occurring in the system . For instance, the following unique messages can be transmitted:

This is a unique feature of this format that allows more intelligent reporting of the activity

1234 1 01 1 Fire Zone 001 1234 1 01 E Restore Fire Zone 001 1234 1 01 F Trouble Fire Zone 001

ADEMCO 4x1 Express

The 4x1 Express Reporting Format: AAAA 17 E, where:

AAAA = Three- or four-digit account number (Submode 1, Questions 06–09)

17 = Uniquely identifies this format to the receiver and to an automation system, but is

not displayed or printed.

E = Single-digit event code; it is the first of the 2 programmable reporting code digits

This format transmits in DTMF a total of 6 digits (including the parity digit). It is simil ar to the Standard format in that it can transmit a total of only 15 reporting codes. However, its advantage is speed because it transmits touch-tones instead of pulses and it always sends a parity digit. Examples:

123 3 6 (1st round) 123 3 (resulting data) Burglary

ADEMCO 4x2 Express

The 4x2 Express Reporting Format: AAAA 27 EZ, where:

AAAA = Three- or four-digit account number (Submode 1, Questions 06–09)

27 = Uniquely identifies this format to the receiver and to an automation system but is

not displayed or printed

E = Single-digit event code; it is the first of the 2 programmable reporting code digits Z = Zone or user identifier; it is the second of the 2 programmable reporting code digits

This format transmits in DTMF a total of 7 digits (including the parity digi t). This form at is similar to the 4x1 Extended and 4x2 formats in that the output sends a 4-digit account and 2-digit event code. However, its advantage is speed because it transmits touch-tones instead of pulses and it always sends a parity digit. Examples:

1234 31 1 (1st round) 1234 31 (resulting data) Burglary Zone 1

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Section 8. Central Station Reporting Formats

ADEMCO Point ID

The Point ID Reporting Format:

AAAA

= Four-digit account number (Submode 1, Questions 06–09)

= Uniquely identifies this format to the receiver and to an automation system but is

not displayed or printed

= Event qualifier, which gives specific event information

1 = New Event or Opening 3 = New Restore or Closing

= Group number; this represents the partition number (01 or 02).

XYZ

= Event Code: The event code is a 3-digit code (3 decimal digits). For zone alarms and

some conditions, this can be specified; other conditions are dedicated, see the tables that follow.

ZZZ

= Zone, sensor or user identifier (3 decimal digits). For user initiated actions such as

openings/closings, this will be the actual user number (01–15).

This format is also known as ADEMCO Contact ID. A total of 16 digits (including the parity digi t) are sent in DTMF. This format enables reporting of 999 (001–999) unique zone or user identifiers instead of the 15 possible identifiers of most other pulse formats. This feature allows the full reporting capability of this system (24 zones and 32 users). In addition, it transmits at a much greater speed than the conventional pulse formats, since it uses DTMF (touch-tones) instead of pulses to transmit the data and it always sends a parity digit. Its main advantage over all the other formats is its large number of event codes (see tables below) with the ability to pinpoint an event (alarm, trouble, bypass, restore, etc.) to a specific zone (up to 24 zones in this system) and to report openings/closings for many users.

For some reporting codes, the first of the two programmable digits determines the PID Event code to be transmitted. Other reporting codes transmit a dedicated PID Event code regardless of the digit programmed in the first location. In both cases, i f transmissions are not desired, then program AA in locations 1 and 2. Refer to the following tab le s to select the PID Event codes to be transmitted.

AAA 18 QXYZ GG ZZZ

where:

DIGIT

0 1 2 3 4 5 6

EVENT

CODE

122 123 130 131 132 133 134

BURGLARY ZONE TYPES

ENGLISH OUTPUT AT

CS RECEIVER

Silent Panic Audible Panic Burglary Perimeter Interior 24-Hour Alarm Entry/Exit

DIGIT

7 8 9 A B C D

EVENT

CODE

135 136 137 140 144 155 156

ENGLISH OUTPUT AT

CS RECEIVER

Day/Night Outdoor Tamper General Alarm Sensor Tamper Foil Break Day Trouble

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OMNI-624/OMNI-624EU Installation and Setup Guide

FIRE ZONE TYPES

DIGIT

0 1 2 3 4 5

6 7

DIGIT

0 1 2 3 4 5 6 7

EVENT

CODE

110 111 112 113 114 115

116 117

EVENT

CODE

100 Medical 101 Pendant Transmitter 120 Panic Alarm 122 Silent Panic 123 Audible Panic 130 Burglary 133 24-Hour Alarm 135 Day/Night

ENGLISH OUTPUT AT

CS RECEIVER

Fire Alarm Smoke Combustion Water Flow Heat Pull Station

Duct Flame

24-HOUR ALARM TYPES

ENGLISH OUTPUT AT

CS RECEIVER DIGIT

DIGIT

8 9 A B C D

E F

8 9 A B C D E F

EVENT

CODE

140 150 158 159 200 201

202 203

EVENT

CODE

137 Tamper 140 General Alarm 150 24-Hour Non-Burg 151 Gas Detected 152 Refrigeration 153 Loss of Heat 154 Water Leakage 155 Foil Break

ENGLISH OUTPUT AT

CS RECEIVER

General Alarm 24-Hour Non-Burg High Temperature Low Temperature Fire Supervisory Low H2O Pressure Low CO

Gate Valve Sensor

ENGLISH OUTPUT AT

CS RECEIVER

8-6

DIGIT

0 1 2 3 4 5 6 7

EVENT

CODE

100 Medical 122 Silent Panic 123 Audible Panic 137 Tamper 150 24-Hour Non-Burg 153 Loss of Heat 155 Foil Break 156 Day Trouble

ENGLISH OUTPUT AT

CS RECEIVER DIGIT

24-HOUR TROUBLE TYPES

EVENT

8 9 A B C D E F

CODE

158 High Temperature 159 Low Temperature 300 System Trouble 301 AC Loss 302 Low System Battery 310 Ground Fault 373 Fire Trouble 380 Sensor Trouble

ENGLISH OUTPUT AT

CS RECEIVER

Section 8. Central Station Reporting Formats

KEYPAD ZONES

(Fire*, Panic*, Aux.*, Ambush)

EVENT

DIGIT

* These codes have no Zone/User code associated with them; they will report 000 for these

DIGIT

CODE 0 1 2 3 4 5 6 7

0 1 2

EVENT

100 Medical 101 Pendant Transmitter 110 Fire Alarm 111 Smoke 112 Combustion 117 Flame 120 Panic Alarm 121 Duress (Ambush)

digits.

EVENT

CODE

570 Zone Bypassed 571 Fire Zone Bypassed 572 24-Hour Zone Bypassed

CODE

137 Keypad Tamper 408 Quick Arm

156 Day Trouble 409 Keyswitch Zone 301* AC Loss 412* Download Good 309* Battery Test Fail 457 Exit Error

321 Trouble Bell 1 459 Recent Close

373 Fire Trouble 551* Dialer Disable (Arm Disable)

380 Sensor Trouble 575 Swi nger By pass (Lockout)

381 Loss of RF Supervision 602* Test - Periodic

383 Sensor Tamper 607* Walk Test Mode

384 RF Low Battery 623* Log 90% Full

401 O/C by User 624* Log 100% Full

403 Auto-arm 626* Clock not Set

406 Cancel

407 Remote Arm

ENGLISH OUTPUT AT

CS RECEIVER

BYPASS TYPES

ENGLISH OUTPUT AT

CS RECEIVER

DEDICATED CODES

ENGLISH OUTPUT AT CS

RECEIVER

EVENT

DIGIT

CODE 8 9 A B C D E

3 4

EVENT

CODE

122 Silent Panic 123 Audible Panic 130 Burglary 133 24-Hour Alarm 140 General Alarm 150 24-Hour Non-Burg 115 Fire Pull Station

EVENT

CODE

573 Burg. Zone Bypassed 574 Group Bypass

641* Senior Watch Trouble (Up &

ENGLISH OUTPUT AT

CS RECEIVER

ENGLISH OUTPUT AT

CS RECEIVER

ENGLISH OUTPUT AT CS

RECEIVER

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OMNI-624/OMNI-624EU Installation and Setup Guide

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Omni OMNI-624, OMNI-624EU Installation And Setup Manual

Specifications and Main Features

Frequently Asked Questions

User Manual