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

S E C T I O N

Introduction

System Features

The OMNI-848 and OMNI-848EU are state-of-the-art microprocessor-based controls/ communicators that provide 3 partitions plus a common partition, 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 is nonvolatile, meaning that programmed instructions will not be lost in the event of a loss of power. Features of the OMNI-848 and OMNI-848EU include:
4 partitions: 3 independent partitions plus a common partition 8 hardwire zones (all fully programmable, including keyswitch), expandable to 8 additional hardwire zones using optional plugin OMNIEXP8 Expansion Module
128-event history log (alarms, troubles, low
battery, bypasses, control station (cs) test, openings, and closings) and keypad events 3 emergency keypad conditions (panic, fire, and auxiliary) 4 built-in programmable trigger outputs Real-time clock (displays time and 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) mode
Hardwire zones can be configured as standard
end of line (EOL), normally closed, or normally open
48 wireless protection zones plus up to 8

wireless keys

Cross zoning capability 64 user codes (either 4-digit or 6-digit codes

can be used)

Customer control of chime mode and pager Quick arming, quick bypass, and quick force

arming

Up to 12 keypads (OMNI-LCD, OMNI-LCDUS, XK7LC, OMNI-KP, OMNI-KP-US)
OMNI-LCD, OMNI-KP, and XK7LC keypads are not for sale in the USA. XK108 keypads may also be used; however, the system can only have XK108 type keypads attached and the system must be set up as having one partition.
CS reporting by zone False alarm prevention features: crossed
zones, exit error, recent close, swinger shutdown
Cancel code and system stabilization during

power-up

Keypad programming and remote
programming via PC and modem
Arming by keyswitch in Away or Stay mode Keypad tamper/lockout with optional CS

reporting

Upload/download and remote commands 3 methods of uploading/downloading: PC
operator-initiated, unattended downloading, and on-line downloading
Restore transmission options: after loop or

after bell

Paging (audio format) capabilities Auto Arming at a specific time of day with

6(+) & 7() SMOKE DETECTOR POWER:
This system accepts 9.5 - 12VDC 4-wire smoke detectors only. Approximately 50mA of current is available at these terminals for powering all detectors. These terminals adhere to the fire verification and reset logic, which is explained in the zone types section of this manual. For UL installations, use a UL Listed smoke detector.
REGULATED POWER (11.5 - 13.1VDC):

6(+) & 4(-)

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 output capacity of the OMNI-848 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. The maximum auxiliary output for UL installations is 180mA.
ZONE INFORMATION (HARDWIRED ZONES):
8(+) & 9(-) 10(+) & 9(-) 11(+) & 12(-) 13(+) & 12(-) 14(+) & 15(-) 16(+) & 15(-) 17(+) & 18(-) 19(+) & 18(-)
Zone 1 Zone 2 Zone 3 Zone 4 Zone 5 Zone 6 Zone 7 Zone 8
[Default = DELAY] [Default = INTERIOR] [Default = INSTANT] [Default = INSTANT] [Default = INSTANT] [Default = INSTANT] [Default = INSTANT] [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, any zone can be programmed for the following types: Delay, 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. NOTE: Loop response is defined as the minimum time required for a fault to trip a zone.
ZONE INFORMATION (WIRELESS ZONES): RF RECEIVER
Up to 48 wireless zones can be used if the ZR401, ZR402EU, or OMNI-RF Wireless Expansion Module is installed. The maximum number of zones (48) includes the 8 basic wired zones, wired zones using the expansion module, and the wireless zones. Compatible ADEMCO 5800 Series wireless devices must be used. See the Wireless Zones paragraph in the System Configuration section for more information on using wireless zones and for a list of compatible transmitters. The ZR402EU and OMNI-RF Wireless Expansion Modules have not been evaluated by UL.

KEYPADS:

20(BLK), 21(YEL) 22(GREEN) & 23(RED)
Up to 12 keypads (OMNI-KP, OMNI-KP-US, OMNI-LCD, OMNI-LCDUS, XK7LC, or XK108), but no more than eight of any one type, may be wired 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 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.

EARTH GROUND:

Connect this grounding lug to a cold water pipe utilizing #18awg (1mm) wire at a distance of no greater than 15 ft. 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 must be connected to a 6-foot grounding rod.
25(BRN), 26(GRAY), TELEPHONE LINE: 27(GREEN) & Connect the RJ31X cord as follows: 25 (BROWN = Home Tip), 26 (GRAY 28(RED)
= 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 remotecommand applications, the telephone line connected to the control panel must not be shared with a fax machine or modem. 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 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 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 19, L2). Battery restore will occur within 4 minutes, at the next battery test. The buzzer may be silenced by entering any valid user code. NOTE: For UL installations, use two 4AH batteries connected in parallel.

TRIGGER OUTPUTS: The control panel has four built-in programmable trigger outputs. See
programming questions 47-48 for valid trigger 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 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
DEVICE Control Panel OMNI-LCD/OMNI-LCD-US (Standby/Alarm) XK7LC OMNI-KP/OMNI-KP-US (Standby/Alarm) XK108 PIR Smoke Detector Glass Break Detector CURRENT DRAW FOR EACH 65mA 40mA/180mA 65mA 40mA/70mA 30mA ** ** ** ** ** TOTAL CURRENT FOR ALL DEVICES = (500mA max.) NUMBER OF UNITS TOTAL CURRENT FOR EACH
** If you are using devices such as PIRs, smoke detectors, etc., refer to the specifications for that particular device's current draw. If the total current draw exceeds 500mA, use an additional power supply. NOTE: For UL installations, do not exceed 180mA. NFPA, UL, and the California State Fire Marshal require the backup battery to provide power for 24 hours. The maximum aux. power varies by the ampere/hour rating of the battery used: 5AH = 95mA; 7AH = 180mA; 8AH = 210mA.
Wiring Information for Keypads & Other Devices
If single or multiple devices are connected to a single 4-wire or 2-wire run ("daisy-chained") to the control terminals, determine the current drawn by the unit(s) connected to the single wire run, then refer to the Wiring Run Table below to determine the maximum wire length that can be safely used for 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 20 m (a length between 50 and 80 ft or 15 and 24 m). Other maximum wire lengths for values of current not shown in the table can be calculated in a similar manner.

Address 1 off ON off ON off ON off ON Switch 2 off off ON ON off off ON ON 3 off off off off ON ON ON ON
NOTE: The XK108 keypad may also be used on the system; however, when using the XK108, keypad addressing does not apply. Additionally, you can not use any other type of keypad if using XK108s on the system.

PC Board Mounting

Mounting the OMNI-848/OMNI-848EU PC Board
NOTE: The door of the metal cabinet may be removed to make it easier to install the control panel. Remove the door as follows: 1. With the cabinet lying 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. DO NOT ATTEMPT TO REMOVE THE KNOCKOUTS AFTER CIRCUIT BOARD HAS BEEN INSTALLED. Mount the circuit board as follows: 1. Hang three mounting clips on the raised cabinet tabs. Observe proper clip orientation to avoid damage to clip when mounting screws are tightened and to avoid problems with insertion and removal of PC board. 2. Insert top of circuit board into slots at top of cabinet. Make sure that circuit board rests in slots as indicated in the diagram shown below. 3. Swing base of circuit board onto mounting clips. 4. Secure PC board to middle mounting clip of enclosure using the screw provided. 5. Secure the remaining sides of the PC board to the enclosure using the screws provided.
ANTENNAS (INSERT IN RIGHT-HAND TERMINALS)
RF RECEIVER DETAILED SIDE VIEW OF BOARD INSERTED INTO SLOTS KNOCKOUT PC BOARD SCREW (2) GROUNDING LUG (2) CABINET A B 3rd CLIP REQUIRED

RF RCVR

ANTENNA (2)

CABINET

DETAILED SIDE VIEW OF CLIP AND BOARD INSTALLED DETAILED SIDE VIEW OF CLIP INSTALLION: A. CABINET TAB WITHOUT CLIP B. CABINET TAB WITH HANGING CLIP

PC BOARD

ANTENNA MOUNT (2 PLACES) ANTENNA AND GROUNDING LUG INSTALLATION

pc_mount-004-V1

Mounting the RF Expander Module
1. Mount the receiver board on top of the control PC board as shown in the diagram below. 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.

RF RECEIVER

OMNI848-004-V1
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 in Section 2.
OMNIEXP8 HARDWIRE ZONE EXPANDER

OMNI848-007-V0

System Configurations

Partitioning

This system provides the ability to arm and disarm up to 3 different areas, known as partitions, plus a common partition, each as if it had its own control. Partitions are used when the user desires to disarm certain 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 any or all 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] command. Partitions are defined when programming zone information (submode 2, Questions 1-48). Once the enabled zones have been established, each zone definition will be read and, if the zone is enabled, the partition information from each of these zones will be used to enable the systems partitioning. Partitioning must start with partition 1 and must be used sequentially (i.e., you cannot have partition 3 without using partition 2). Common Partition: When an installation consists of a partition shared by users of other partitions in a building, the shared partition may be assigned as the common partition for the system. An example of this might be in a medical building where there are two doctors offices and a common entrance area. For a common partition to be valid, partitions 1 and 2, at a minimum, must exist (i.e., the installer may not assign zones to partitions 1 and 3 without assigning zones to partition 2). The common partition operates as follows: When any partition is disarmed, the common partition will also be disarmed. The common partition cannot be armed unless all other partitions are armed. Arming the last partition automatically arms the common partition in the state of the last partition to arm (i.e., if the last partition arms in Stay mode, the common partition is armed in Stay mode). Keypads: Each keypad must be given an address that is unique (from other keypads of the same type) and must be assigned to one partition (Installer Mode 1, Questions 49-52). Keypads may be assigned to partitions 1, 2, 3, or a common keypad that views the status of all partitions. Keypads mapped to the fourth partition (common) show only the armed status of all partitions. The fourth partition, if alarmed, is displayed in the other 3 partitions and may be cleared by any partition. When the common alarm(s) are cleared, the other armed partitions do not display the common zone alarm. If a partition no longer has any alarm, that partition is taken out of alarm mode. NOTE: XK108 keypads may also be used; however, the system can only have XK108 type keypads attached and the system must be set up as having one partition. Zones: Each zone must be assigned to one partition (submode 2, Questions 01-48). The zones assigned to a partition are displayed on that partition's keypad(s). Users: Each user can be assigned to one or more partitions. A level 1 or level 2 user with access to more than one partition (multiple access) can "log on" to one partition from another partition's keypad using the [#] [0] command. UL Installation Requirements: All partitions must be owned and managed by the same person. All partitions must be part of one building at one street address. The audible alarm device(s) must be placed where it/they can be heard by all partitions.

Section 5: System Operations
Indicator LED Lit Display LCD Keypad Armed ON: AUTO STAY Fixed-Word Keypad Armed STAY LED Keypad Armed, Stay n/a
NOTE: The system will not Auto Stay arm if an Instant zone is faulted when the user code is entered. 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 excluded.
Indicator LED Lit Display LCD Keypad Armed ON: STAY Fixed-Word Keypad Armed STAY LED Keypad Armed, Stay n/a
Instant Arming TO ARM: Press the [INSTANT] key followed by a four-digit user code. The INSTANT and ARM LEDs will light continuously.
Indicator LED Lit Display LCD Keypad Armed ON: INSTANT Fixed-Word Keypad Armed INSTANT LED Keypad Armed, 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 Question 19. Stay/Instant Arming TO ARM: Press the [STAY] key; press the [INSTANT] key and enter a four-digit user code. The STAY/INSTANT mode will arm the system with the characteristics of both the STAY and INSTANT modes. The keypads will have the ARM, INSTANT, and STAY LEDs turned ON continuously.
Indicator LED Lit Display LCD Keypad Armed ON: STAY/INS Fixed-Word Keypad Armed INSTANT, STAY LED Keypad Armed, Instant, Stay n/a
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 19.

Disarming the System

TO DISARM: Enter any valid four-digit user code and the ARM LED extinguishes. If an alarm condition exists or occurred while the system was armed, the respective zone LED blinks rapidly. This condition is classified as Alarm Memory and can be cleared by entering a valid user code again. 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: Press the [BYPASS] key followed by any valid 4-digit user code, followed by the zone number (01-48) 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].
OMNI-848/OMNI-848EU Installation and Setup Guide Quick Bypass By Zone Quick Bypassing is a programmable option (Question 19, L4) and allows the user to bypass zones and points without using a user code. TO QUICK BYPASS by ZONE: Press the [BYPASS] key followed by the zone number (0148) representing the respective zone to be bypassed. EXAMPLE: To quick bypass zone 06, press [BYPASS] [0][6].

BYPASS ZONE 1, 2

OMNI-848/OMNI-848EU Installation and Setup Guide show the events for the entire system, based on the options programmed in Question 22, Locations 13. 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 APR, 10:38 P1
where: Line 1: event number (L001L128), event display, zone no. (0124), or user no. (0132) Line 2: date, time, partition (14) 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 Question 33, L1-L3 (partitions 1-3), then pressing [#] + [5] + [4] sets the auto arm time of the current partition. If a user code is required to set the time, then enter: [#] + [5] + [4] + USER NO. + HOUR + MINUTE where: USER NO. = a valid 4-digit user code HOUR = two-digit hour of day in military time; e.g., 7AM = 07; 3PM = 15 MINUTE = two-digit minutes of hour; e.g., 9 min = 09; 29 min. = 29 If a user code is not required to set the time, then enter: [#] + [5] + [4] + HOUR + MINUTE In either case, the LCD keypads display a prompt for each entry. On LED keypads, the sounder beeps 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 modes. An audible warning can be programmed in Question 20, L2 to sound at the keypad 2 minutes prior to arming. This signal (4 short beeps every 15 seconds for 2 minutes prior to arming) warns the occupants that the system will auto-arm in two minutes. If a user code is entered within this warning period and the system is disarmed, then the auto-arm time for that day is canceled. The system then generates an audible acknowledgment (1-second keypad sounder) and the lights on the LED display scroll to show that the auto arm time was suspended. LCD-based keypads display AUTO ARM CANCELED. The system exits this mode either automatically (no keys pressed), after the last entry (MINUTE), or after the [] key is pressed. NOTE: Auto arming will arm the system and bypass any zones that are not ready. Therefore, it is recommended that bypasses should be reported to the CS if auto arming is programmed.

INSTALLER MODE 1 (INSTALLER KEYPAD PROGRAMMING) Enters the installer into keypad programming mode, which has 4 submodes (see below). To exit, simply press the [STAY] key and return to the prior panel status. To change between these submodes, press [] + [BYPASS] + Submode No. The LCD display for Installer Mode 1, Submodes 1-3 is as follows: Q:xx MX Edit L:yy Data dddd DDD where: Qxx = question number (00-99)
OMNI-848/OMNI-848EU Installation and Setup Guide MX Edit Lyy dddd programming submode (1-3) shows you are in edit mode, meaning that changes to values can be made location within the programming question 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 as follows: Q:xx DESC Z:zz 16-character descriptor where: Qxx = question number DESC = shows you are in descriptor mode (submode4) Zzz = zone number for which descriptor is being programmed 2nd line = up to 16-character descriptor Sub-Mode 1: System (Questions 1-86) Use this mode to program system options. Sub-Mode 2: Zone programming, zone enables, report codes (Questions 1-93) Use this mode to program zone information/attributes and all CS report codes, and to assign the first wireless zone. Sub Mode 3: Wireless Zone/Keyfob Programming (Questions 1-56) Use this mode to configure wireless transmitters and to enter transmitter/keyfob serial numbers. Sub Mode 4: Descriptor Programming (Questions 1-51) Use this mode to enter alpha descriptors for each zone and for each partition. NOTE: An option exists in the Compass Downloader Software to inhibit keypad programming. If selected, then 4 short beeps are heard after an attempt is made 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 beeps and annunciates with activation of each zone or point while in this mode. Pressing 1 toggles the external bell on and off. NOTE: Walk Test should only be used on one partition at a time. 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 either the events for the entire system, or only the current partition from which the installer code is entered, based on the option programmed in Question 22, L 1. The time may be displayed in 24-hour or AM/PM format, and the date may have either the day or month displayed first, depending on programming. When the log is viewed through the quick command, the Clear Log function is blocked. Pressing either the [STAY] or [] key exits this mode. Pressing any other key advances to the next valid entry.

L1 L2 L3

This question defines event log options. Q 22, L1 Enter the L1 digit from the table below.
L1 Entry 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 can view the log using the #53 command. Log Zone Alarms/ Troubles: If selected, alarms and troubles are included in the event log.

Q22, L2

Enter the L2 digit for the desired events to be recorded in event log.
L2 Entry A B C D E F Log Open Log Close Log System Events Log Key Events
OMNI-848/OMNI-848EU Installation and Setup Guide Q22, L3 Enter the L3 digit for the desired events to be recorded in event log.
L3 Entry A B C D E F Log RF Battery Log RF and Keypad* Supervision Log Tamper Log Bypass/ Unbypass
* Keypad Supervision will not be logged for keypad address 8.

BELL TIMEOUTS

L1 burg timeout L2 Fire timeout L3 AC dial delay L4 ring count
Q 23, L1/L2 Burglary Bell/Fire Bell Time-Out Enter the L1 and L2 digits for the desired burglary and fire bell timeouts, respectively, from the table below.
Entry Burglary & Fire Bell Timeouts 3 minutes 6 minutes 9 minutes 12 minutes 15 minutes 18 minutes 21minutes 24 minutes Entry 9 A B C D E F Burglary & Fire Bell Timeouts 27 minutes 30 minutes 33 minutes 36 minutes 39 minutes 42 minutes infinite

Q23, L3

Must be programmed as 2 for UL installations. 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) random 10-L3 Entry A B C D E F AC Dial Delay (min) 210 255
Section 6: System Programming Q23, L4 Ring Count Enter the digit for the desired ring count (number of rings before the system picks up the phone line when downloading) from the table below.
L4 Entry Ring Count disabled* 7 L4 Entry A B C D E F Ring Count 14 15
* If ring count is disabled, the control cannot be accessed remotely (downloading).

L4 Entry A B C D E F Enable User Page Part. 1 Enable User Page Part. 2 Enable User Page Part. 3 Enable #58 Follow Me
Enable User Page Part. 1-3: If selected, the open and/or close events selected in L1-L3 above are 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.
KEYPAD TAMPER, ARMING, AND RF JAMMING
L1 L2 Tamper L3 No Arm L4 Jam
This question defines keypad tamper, arming, and jamming options. Q 29, L2 Enter the L2 digit for the keypad tamper options from the table below.
L2 Entry 7 Keypad Tamper Enable Keypad Tamper Sounder Keypad Tamper Bell
Keypad Tamper Enable: If enabled, the system will monitor the keypads for a keypad tamper report. If a keypad tamper is reported by a keypad, a report will be sent to the central station if enabled in Submode 2, Question 77, Locations 3 and 4. Keypad Tamper Sounder: If enabled, the keypad sounder will sound on a keypad tamper condition. Keypad Tamper Bell: If enabled, the bell will sound on a keypad tamper condition.

Q 29, L3

NOTE: Keypad tamper is only available on some OMNI-LCD, OMNI-LCD-US, OMNI-KP, and OMNI-KP-US keypads. Refer to your keypad instructions to see if your keypad has keypad tamper reporting capabilities Enter the L3 digit for the jamming, supervision and no AC arming options from the table below.
L3 Entry 7 No Arm if Jam No Arm if Super No AC/2X
No Arm if Jam: If selected, when the user tries to arm the system when in a jam condition, the system will provide a negative acknowledgement and will not arm. No Arm if Super: If selected, when the user tries to arm the system and a supervised RF zone has a fault condition, the system will provide a negative acknowledgement and will not arm. No AC/2X: If selected, when the user tries to arm the system with an AC fail condition, the system will provide a negative acknowledgement and will not arm. To arm the system, the user must enter their code a second time.
OMNI-848/OMNI-848EU Installation and Setup Guide Q 29, 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).Enter the L4 digit from the table below. NOTE: RF Jamming detection will only function if the system uses a ZR402EU or OMNI-RF Receiver that has jam output capability.

L1-L3 Entry B D F Auto Arm Audible Arm Warning Instant Arming Stay Arming

Auto Arm: Arms the system in AWAY mode at time specified in Questions 34-36 for partitions 1-3, respectively. Audible Arm Warning: If enabled, allows an audible output dependent on threshold settings (Question 20, L2) to warn of auto-arming. See Question 20, L2 for more information. Instant Auto Arming: Arms the system with entry delay disabled. Stay Auto Arming: Arms the system in STAY mode. NOTE: All auto arm modes will force-arm the system. This means any open zones at the time of auto arming will be bypassed. To report these bypassed zones, program a bypass code in Submode 2, Question 80, L1.
OMNI-848/OMNI-848EU Installation and Setup Guide Q 33, L4 Up and About Enables Enter the L4 digit for the Up and About Enables desired from the table below.
L4 Entry Up and About Part. 1 Up and About Part. 2 Up and About Part. 3
Up and About: If no controlled zone is violated within a 24-hour 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. Q 34-36 AUTO ARM TIMES These questions set the auto arming time for each partition. L1/L2: Enter hour 00-23 by entering the first digit of the hours (0-2) in L1 and the second digit (0-9) of the hours in L2. (00 = 12 midnight) L3/L4: Enter minute 00-59 by entering the first digit of the minutes (0-5) in L3 and the second digit (0-9) of the minutes 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.
Must be disabled for UL installations. AUTO ARM TIME PARTITION 1

minutes

AUTO ARM TIME PARTITION 2
AUTO ARM TIME PARTITION 3

Q 37-48

TRIGGER/RELAY TYPES These questions set the relay and trigger types. Momentary trigger times in minutes or seconds are set in Submode 1, Question 30, L1 and L2 (minutes), or L3 and L4 (seconds). Each trigger/relay definition requires two locations to define its operation. Note that all momentary triggers will follow the momentary time (seconds or minutes) programmed in Question 30. Some trigger types 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 follow the momentary time (seconds or minutes) programmed for that partition. Each timer may be programmed for 1-15. NOTE: Triggers 3 and 4 are used for the XL4705 relay module if selected in Question 17, L2. Enter a relay trigger type from the following table for each trigger used.

Troubleshooting

SYMPTOM LED or LCD: Keypad display not lit. POSSIBLE CAUSE 1a. AC & DC power out REMEDY 1a. Check transformer & battery connection; check AC input & batt. volt. (w/transformer disconnected). 1b. Check term. 15(+) & 12(-) for 12VDC. 2a. Check transformer connection; check AC input voltage. 2b. Replace keypad. 3a. Check battery connections; check battery voltage (w/transformer disconnected). 3b. Same as 3A except volt. < 11 VDC; let battery charge; replace battery. 4a. Telephone lines cut or disconnected; CS information mis-programmed. 4b. Replace panel. 4c. Consult local telephone company. 5a. Check loop wiring for open/short & repair; check EOL resistor for open or wrong value. 5b. Replace keypad. 5c. Check zone terminal voltage for 3.3VDC; bypass zone temporarily; replace panel. 6a. Connect 12VDC to siren/speaker; if no sound is produced, replace siren/ speaker. 6b. Check wiring for an open or short circuit and replace wiring if necessary. 6c. Check terminals 22 (+) & 23 (-) for 12VDC when panel is in alarm (if programmed for bell output). If no voltage is measured, replace panel. 1.
LED KP: AC/LB light OFF LCD KP: AC LOSS LED KP: AC/LB light slowly blinking LCD KP: LOW BAT
1b. Keypad not powered 2a. Primary AC power out 2b. Faulty keypad 3a. DC power out
3b. Low battery voltage 4a. Failure to communicate w/Central Station 4b. Faulty panel/dialer 4c. Faulty telephone lines 5a. Zone faulted; system not ready 5b. Faulty keypad 5c. Faulty panel
LED KP: ARM light slowly blinking LCD KP: COMM FAILURE LED KP: ZONE light ON & READY light OFF LCD KP: NOT READY: ZN # & SYSTEM NOT READY
Siren/Speaker does not sound
6a. Faulty siren/speaker 6b. Faulty wiring 6c. Faulty panel/bell output
For more complicated problems, consult our Technical Support Center.
Regulatory/Limitations Statements
RADIO FREQUENCY EMISSIONS STATEMENTS
FEDERAL COMMUNICATIONS COMMISSION (FCC) Part 15
This device complies with part 15 of the FCC rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.

INDUSTRY CANADA

This Class B digital apparatus complies with Canadian ICES-003. Cet Appareil numrique de la classe B est conforme la norme NMB-003 du Canada.
TELEPHONE/MODEM INTERFACE STATEMENTS
FEDERAL COMMUNICATIONS COMMISSION (FCC) Part 68

O560 DECLARATION OF CONFORMITY
OMNI-848 and OMNI-848EU are in conformity with the essential requirements as described in Directive 1999/5/EC and satisfy all the technical regulations applicable to the product within this directive EN 50081-1:1992 EN 50130-4:1998 EN 60950:1992 TBR 21 This apparatus has been assessed for connection to the following circuits Public Switched Telephone Networks (PSTN) -non DDI Private Branch Exchange (PBX)
Section 10: Regulatory/Limitations Statements
FEDERAL COMMUNICATIONS COMMISSION (FCC) Part 68 STATEMENT
This equipment complies with Part 68 of the FCC rules. On the front cover of this equipment is a label that contains, among other information, the FCC registration number and ringer equivalence number (REN) for this equipment. If requested, this information must be provided to the telephone company. This equipment uses the following jacks: An RJ31X is used to connect this equipment to the telephone network. The REN is used to determine the quantity of devices which may be connected to the telephone line. Excessive RENs on the telephone line may result in the devices not ringing in response to an incoming call. In most, but not all areas, the sum of the RENs should not exceed five (5.0). To be certain of the number of devices that may be connected to the line, as determined by the total RENs, contact the telephone company to determine the maximum REN for the calling area. If this equipment causes harm to the telephone network, the telephone company will notify you in advance that temporary discontinuance of service may be required. If advance notice is not practical, the telephone company will notify the customer as soon as possible. Also, you will be advised of your right to file a complaint with the FCC if you believe necessary. The telephone company may make changes in its facilities, equipment, operations, or procedures that could affect the operation of the equipment. If this happens, the telephone company will provide advance notice in order for you to make the necessary modifications in order to maintain uninterrupted service. If trouble is experienced with this equipment, please contact the manufacturer for repair and warranty information. If the trouble is causing harm to the telephone network, the telephone company may request you remove the equipment from the network until the problem is resolved. There are no user serviceable components in this product, and all necessary repairs must be made by the manufacturer. Other repair methods may invalidate the FCC registration on this product. This equipment cannot be used on telephone company-provided coin service. Connection to Party Line Service is subject to state tariffs. This equipment is hearing-aid compatible. When programming or making test calls to an emergency number, briefly explain to the dispatcher the reason for the call. Perform such activities in the off-peak hours; such as early morning or late evening.

Door Strike Setup
1. Enter installer programming: Press [CODE] + [*] + Installer Code + [1] + [1] NOTE: Must enter [#] key after each location entry. 2. Press [*] followed by questions number (Q47-48).
3. Program trigger desired for one of the options listed below: 1E (activates trigger when #57 command is entered from Partition 1) 5E (activates trigger when #57 command is entered from Partition 2) 9E (activates trigger when #57 command is entered from Partition 3) DE (activates trigger when #57 command is entered from Common Partition).
4. Press [*] followed by question number (Q18). 5. Enter one of the options listed below:
Entry A B C D E F User Online User 61-64 Duress No Code for Door Strike Door Strike Users 50-60
No Code for Door Strike: Allows Quick Command for door strike (#57) Door Strike Users 50-60: Allows users 50-60 to activate door strike trigger 6. Exit programming by pressing the [STAY] key. 7. To activate door strike enter [#] + [57] + [User Code] + [Trigger #] Trigger number is only necessary if there is more than one trigger programmed for door strike capability. User Code is not necessary if Q18 on step 5 is programmed for No Code for Door Strike Trigger activates for a period of 5 seconds.