While a fire alarm system may lower insurance
rates, it is not a substitute for fire insurance!
An automatic fire alarm system–typically made up of smoke
detectors, heat detectors, manual pull stations, audible warning devices, and a fire alarm control with remote notification
capability–can provide early warning of a developing fire.
Such a system, however, does not assure protection against
property damage or loss of life resulting from a fire.
The Manufacturer recommends that smoke and/or heat detectors be located throughout a protected premise following the
recommendations of the current edition of the National Fire
Protection Association Standard 72 (NFPA 72),
manufacturer's recommendations, State and local codes, and
the recommendations contained in the Guide for Proper Use
of System Smoke Detectors, which is made available at no
charge to all installing dealers. A study by the Federal Emergency Management Agency (an agency of the United States
government) indicated that smoke detectors may not go off in
as many as 35% of all fires. While fire alarm systems are designed to provide early warning against fire, they do not guarantee warning or protection against fire. A fire alarm system
may not provide timely or adequate warning, or simply may not
function, for a variety of reasons:
Smoke detectors may not sense fire where smoke cannot
reach the detectors such as in chimneys, in or behind walls, on
roofs, or on the other side of closed doors. Smoke detectors
also may not sense a fire on another level or floor of a building. A second-floor detector, for example, may not sense a
first-floor or basement fire.
Particles of combustion or "smoke" from a developing fire
may not reach the sensing chambers of smoke detectors because:
• Barriers such as closed or partially closed doors, walls, or
chimneys may inhibit particle or smoke flow.
• Smoke particles may become "cold," stratify, and not reach
the ceiling or upper walls where detectors are located.
• Smoke particles may be blown away from detectors by air
outlets.
• Smoke detectors may be drawn into air returns before
reaching the detector.
The amount of "smoke" present may be insufficient to alarm
smoke detectors. Smoke detectors are designed to alarm at
various levels of smoke density. If such density levels are not
created by a developing fire at the location of detectors, the
detectors will not go into alarm.
Smoke detectors, even when working properly, have sensing
limitations. Detectors that have photoelectronic sensing
chambers tend to detect smoldering fires better than flaming
fires, which have little visible smoke. Detectors that have ionizing-type sensing chambers tend to detect fast-flaming fires
better than smoldering fires. Because fires develop in different ways and are often unpredictable in their growth, neither
type of detector is necessarily best and a given type of detector may not provide adequate warning of a fire.
Smoke detectors cannot be expected to provide adequate
warning of fires caused by arson, children playing with
matches (especially in bedrooms), smoking in bed, and violent
explosions (caused by escaping gas, improper storage of
flammable materials, etc.).
Heat detectors do not sense particles of combustion and
alarm only when heat on their sensors increases at a predetermined rate or reaches a predetermined level. Rate-of-rise
heat detectors may be subject to reduced sensitivity over time.
For this reason, the rate-of-rise feature of each detector
should be tested at least once per year by a qualified fire protection specialist.
Heat detectors are designed to protect
property, not life.
IMPORTANT!
Smoke detectors must be installed in the
same room as the control panel and in rooms used by the system for the connection of alarm transmission wiring, communications, signaling, and/or power.
cated, a developing fire may damage the alarm system, crippling its ability to report a fire.
Audible warning devices such as bells may not alert people
if these devices are located on the other side of closed or
partly open doors or are located on another floor of a building.
Any warning device may fail to alert people with a disability or
those who have recently consumed drugs, alcohol or medication. Please note that:
• Strobes can, under certain circumstances, cause seizures
in people with conditions such as epilepsy.
• Studies have shown that certain people, even when they
hear a fire alarm signal, do not respond or comprehend the
meaning of the signal. It is the property owner's responsibility to conduct fire drills and other training exercise to make
people aware of fire alarm signals and instruct them on the
proper reaction to alarm signals.
• In rare instances, the sounding of a warning device can
cause temporary or permanent hearing loss.
A fire alarm system will not operate without any electrical
power. If AC power fails, the system will operate from standby
batteries only for a specified time and only if the batteries
have been properly maintained and replaced regularly.
Equipment used in the system may not be technically compatible with the control. It is essential to use only equipment
listed for service with your control panel.
Telephone lines needed to transmit alarm signals from a
premise to a central monitoring station may be out of service
or temporarily disabled. For added protection against telephone line failure, backup radio transmission systems are recommended.
The most common cause of fire alarm malfunction is inadequate maintenance. To keep the entire fire alarm system in
excellent working order, ongoing maintenance is required per
the manufacturer's recommendations, and UL and NFPA standards. At a minimum, the requirements of Chapter 7 of NFPA
72 shall be followed. Environments with large amounts of
dust, dirt or high air velocity require more frequent maintenance. A maintenance agreement should be arranged
through the local manufacturer's representative. Maintenance
should be scheduled monthly or as required by National and/
or local fire codes and should be performed by authorized professional fire alarm installers only. Adequate written records
of all inspections should be kept.
If detectors are not so lo-
Precau-Lg.p65 01/18/2000
Installation Precautions
Adherence to the following will aid in problem-free
installation with long-term reliability:
WARNING -
nected to the fire alarm control panel.
of power before servicing. Control unit and associated equipment may be damaged by removing and/or inserting cards,
modules, or interconnecting cables while the unit is energized.
Do not attempt to install, service, or operate this unit until this
manual is read and understood.
CAUTION -
Changes.
must be tested in accordance with NFPA 72 Chapter 7 after
any programming operation or change in site-specific software. Reacceptance testing is required after any change, addition or deletion of system components, or after any modification, repair or adjustment to system hardware or wiring.
All components, circuits, system operations, or software functions known to be affected by a change must be 100% tested.
In addition, to ensure that other operations are not inadvertently affected, at least 10% of initiating devices that are not
directly affected by the change, up to a maximum of 50 devices, must also be tested and proper system operation verified.
This system meets NFPA requirements for operation at
0-49° C/32-120° F
condensing) at 30° C/86° F. However, the useful life of the
system's standby batteries and the electronic components
may be adversely affected by extreme temperature ranges
and humidity. Therefore, it is recommended that this system
and all peripherals be installed in an environment with a nominal room temperature of 15-27° C/60-80° F.
Verify that wire sizes are adequate for all initiating and
indicating device loops. Most devices cannot tolerate more
than a 10% I.R. drop from the specified device voltage.
Several different sources of power can be con-
Disconnect all sources
System Reacceptance Test after Software
To ensure proper system operation, this product
and at a relative humidity of 85% RH (non-
Like all solid state electronic devices, this system may
operate erratically or can be damaged when subjected to lightning-induced transients. Although no system is completely
immune from lightning transients and interferences, proper
grounding will reduce susceptibility.
Overhead or outside
aerial wiring is not recommended, due to an increased susceptibility to nearby lightning strikes.
cal Services Department if any problems are anticipated or
encountered.
Disconnect AC power and batteries prior to removing or inserting circuit boards. Failure to do so can damage circuits.
Remove all electronic assemblies prior to any drilling, filing,
reaming, or punching of the enclosure. When possible, make
all cable entries from the sides or rear. Before making modifications, verify that they will not interfere with battery, transformer, and printed circuit board location.
Do not tighten screw terminals more than 9 in-lbs.
Over-tightening may damage threads, resulting in reduced
terminal contact pressure and difficulty with screw terminal
removal.
Though designed to last many years, system components
can fail at any time. This system contains static-sensitive
components. Always ground yourself with a proper wrist strap
before handling any circuits so that static charges are removed from the body. Use static-suppressive packaging
to protect electronic assemblies removed from the unit.
Follow the instructions in the installation, operating, and
programming manuals. These instructions must be followed
to avoid damage to the control panel and associated
equipment. FACP operation and reliability depend upon
proper installation by authorized personnel.
Consult with the Techni-
FCC Warning
WARNING: This equipment generates, uses, and can
radiate radio frequency energy and if not installed and
used in accordance with the instruction manual, may
cause interference to radio communications. It has
been tested and found to comply with the limits for class
A computing device pursuant to Subpart B of Part 15 of
FCC Rules, which is designed to provide reasonable
protection against such interference when operated in a
commercial environment. Operation of this equipment in
a residential area is likely to cause interference, in which
case the user will be required to correct the interference
at his own expense.
Canadian Requirements
This digital apparatus does not exceed the Class A
limits for radiation noise emissions from digital
apparatus set out in the Radio Interference Regulations
of the Canadian Department of Communications.
Le present appareil numerique n'emet pas de bruits
radioelectriques depassant les limites applicables aux
appareils numeriques de la classe A prescrites dans le
Reglement sur le brouillage radioelectrique edicte par le
ministere des Communications du Canada.
Precau-Lg.p65 01/18/2000
NFPA Standards, NFPA 72 National Fire Alarm Code ................................................................... 6
This digital communicator has been designed to comply with standards set forth by the following
regulatory agencies:
• Underwriters Laboratories Standard UL 864
• NFPA Standards 72 National Fire Alarm Code for Local, Remote Station and Central Station Fire Alarm
Systems
Before proceeding, the installer should be familiar with the following documents.
NFPA Standards, NFPA 72 National Fire Alarm Code:
• Central Station Fire Alarm Systems (Automatic, Manual and Waterflow) Protected Premises Unit.
• Local (Automatic, Manual, Waterflow and Sprinkler Supervisory) Fire Alarm Systems.
• Proprietary Fire Alarm Systems (Protected Premises Unit).
• Automatic Fire Detectors
• Installation, Maintenance, and Use of Notification Appliances for Fire Alarm Systems.
• Inspection, Testing and Maintenance for Fire Alarm Systems.
Underwriters Laboratories Documents:
UL 38 Manually Actuated Signaling Boxes
UL 217 Smoke Detectors, Single and Multiple Station
UL 228 Door Closers—Holders for Fire Protective Signaling Systems
UL 268 Smoke Detectors for Fire Protective Signaling Systems
UL 268A Smoke Detectors for Duct Applications
UL 346 Waterflow Indicators for Fire Protective Signaling Systems
UL 464 Audible Signaling Appliances
UL 521 Heat Detectors for Fire Protective Signaling Systems
UL 864 Standard for Control Units for Fire Protective Signaling Systems
UL 1481 Power Supplies for Fire Protective Signaling Systems
UL 1638 Visual Signaling Appliances
Other:
NEC Article 300 Wiring Methods
NEC Article 760 Fire Protective Signaling Systems
Applicable Local and State Building Codes
Requirements of the Local Authority Having Jurisdiction
The Universal Digital Alarm Communicator/Transmitter (ADT-UDACT) may be used with a variety of ADT control
panels (refer to Appendices). The ADT-UDACT transmits system status to UL Listed Central Station Receivers via
the public switched telephone network. The ADT-UDACT, which is compact in size, mounts internally in some
panels or externally in a separate enclosure. EIA-485 annunciator communications bus and 24 volt (nominal)
connections are required.
Primary
Phone Line
Secondary
Phone Line
Modular Cable
1.1 Product Features
• Dual telephone lines
• Dual telephone line voltage detect
• Surface mount technology
• Compact in size: 6.75" x 4.25"
• Built-in programmer
• Built-in four character red 7-segment LED display
• Manual test report function
• Manual master transmission clear function
• Mounts in separate ADT-ABS-8RF or ADT-UBS-1 enclosure
• Communicates vital system status including:
ü Independent zone/point alarm
ü Independent zone/point trouble
ü Independent zone/point supervisory
ü AC (mains) power loss (programmable)
ü Low battery and earth fault
ü System off normal
ü 12 or 24 hour test signal
ü Abnormal test signal per new UL requirements
ü Annunciation of ADT-UDACT troubles including: loss of
phone lines, communication failure with either Central Station,
total communication failure
• Troubleshoot mode converts keypad to DTMF touchpad
• Individual LEDs for:
ü Power
ü EIA-485 loss
ü Manual Test
ü Kissoff
ü Comm Fail
ü Primary Line Seize
ü Secondary Line Seize
• Open collector relay driver for Total Communication Failure or ADT-UDACT trouble.
• Real Time Clock
• Extensive transient protection
• Simple EIA-485 interface to host panel
P/N MCBL-7
udactfea.wmf
Document 50934 Rev B 5/15/00 PN 50934:B
7
24VDC Power in
(use power-limited
source)
EIA-485 Connector
(use power-limited
source)
DO NOT USE
Primary
Phone Line
Secondary
Phone Line
Modular Cables
P/N MCBL-7
(Order Separately)
Comm Fail Output
(power-limited)
24 VDC
(power-limited)
udactfea.wmf
Figure 1-1: ADT-UDACT Assembly
8
Document 50934 Rev B 5/15/00 PN 50934:B
1.2Controls and
Indicators
Front Panel Switches
CLEARDigits 0-9
TESTA
MODEB
Up ArrowC
Down ArrowD
1st EVENTE
ENTER/STOREF
Displays
• EIA-485 - yellow LED
• COMM. FAIL - yellow LED
• KISS OFF - green LED
• POWER - green LED
• Four, Seven Segment Displays - red
• Primary Phone Line Active - red LED
• Secondary Phone Line Active - red LED
• TEST - green LED
DO NOTUSE
udactfea.wmf
Figure 1-2: Controls and Indicators
1.3Compatible
Panels
1.4Digital
Communicator
The ADT-UDACT has been designed to be compatible with the ADT Unimode 2020/
1010, Unimode 300/400, and the ADT-MNNA.
Two modular phone jacks allow easy connection to telephone lines. Modular jacks
are labeled PH1 and PH2 for the Primary and Secondary phone lines. Telephone line
'Primary and Secondary Active' red LEDs are provided as well as a green 'Kissoff'
LED. The integral digital communicator provides the following functions:
• Line Seizure - takes control of the phone lines disconnecting any premises
phones.
• Off/On Hook - perform on and off-hook status to the phone lines.
• Listen for dial tone - 440 hertz tone typical in most networks.
• Dialing the Central Station(s) number - default is Touch-Tone®,
programmable to rotary.
Document 50934 Rev B 5/15/00 PN 50934:B
9
• For tone burst or touchtone type formats: Discern proper 'Ack' and 'Kiss-off'
tone(s) - The frequency and time duration of the tone(s) varies with the
transmission format. The ADT-UDACT will adjust accordingly.
• Communicate in the following formats (refer to Section 6.0 for compatible
receivers):
✓6 Tone Burst Types: 20 pps
(3+1, 4+1, 4+2)
✓ 3 Touchtone Types:
4 + 1 Ademco Express
4 + 2 Ademco Express
Ademco Contact ID
The ADT-UDACT circuit board contains a CPU, other primary components and
wiring interface connectors.
1.5Circuits
1.5.1 Power Requirements
Operating voltage for the ADT-UDACT must be power-limited, filtered,
nonresettable 21.2 to 28.2 volts. The 24 VDC nominal operating power must be
supplied by the Control Panel and is connected to TB1 of the ADT-UDACT.
1.5.2 Communications
Communications between the ADT-UDACT and the host control panel is
accomplished over a two wire EIA-485 serial interface which is power-limited and
supervised by the control panel and the ADT-UDACT. The wiring connections are
made to the RS+, RS- and Shield terminals of TB1 on the ADT-UDACT.
The EIA-485 circuit cannot be T-Tapped and must be wired in a continuous fashion
from the control panel to the ADT-UDACT and, if installed, annunciators. The wire
must be 12AWG to 18AWG twisted shielded pair cable with a Characteristic
Impedance of 120 Ohms, +/-20%. Limit the total wire resistance to 100 Ohms on the
EIA-485 circuit. Do not run cable adjacent to, or in the same conduit as 120 volts
AC service, noisy electrical circuits that are powering mechanical bells or horns,
audio circuits above 25 volts
, motor control circuits, or SCR power circuits.
RMS
1.5.3 Primary and Secondary Phone Lines
Modular jacks are used to interface the primary and secondary phone lines to the
public telephone network.
1.5.4 Communicator Fail Relay Driver
Relay driver output for Central Station communication failure is available.
1.6Optional Device
10
1.5.5 Earth Ground
An earth ground connection to the ADT-UDACT is required for transient protection.
One option allows connection via TB3 terminal 1. A second option allows
connection via the upper right corner mounting hole. Using a metal standoff and
screws, attach to grounded metal cabinet.
Future Use.
Document 50934 Rev B 5/15/00 PN 50934:B
1.7Specifications
DC Power - TB1, Terminals 1 & 2
24VDC (nominal) filtered, nonresettable and power-limited. Voltage range is 21.2 to
28.2 volts. DC Power TB1 Terminals 1 (+), 2 (-) 40 mA in standby, 75 mA max.
while communicating and 100 mA with the open collector output engaged and
communicating.
Data Communications - TB1, Terminals 3 - 7
EIA-485 serial interface, TB1 Terminal 3 = RS+, 4 = RS-, 5= Shield, 6 = Future use,
7 = Future use. Power-limited source must be used.
Auxiliary Output - TB3, Terminals 2 & 3
TB3-2 = Communicator Failure. Power-limited circuit. An Open Collector type
output, normally high, active low which sinks up to 40 mA. TB3-3 = 21.2 to 28.2
volts, power-limited. Use UL listed relay P/N: MR-101/C or MR-201/C with this
output.
Earth Ground - TB3, Terminal 1
TB3-1 = Earth Ground connection. Connect this terminal to building earth ground
using solid 12 AWG wire to provide lightning protection. This connection is not
required when the ADT-UDACT is mounted in a grounded metal enclosure via the
upper right mounting hole.
1.8Telephone
Requirements
and Warnings
1.8.1Telephone Circuitry - PH1 & PH2
Ringer Equivalence Number (REN) = 0.6B
AC Impedance 10.0 Mega Ohm
Complies with FCC Part 68
Mates with RJ31X Male Connector
Supervision Threshold: less than 4.0 volts for 2 minutes
The REN is used to determine the quantity of devices which may be connected to the
telephone line. Excessive REN's 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
REN's 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 REN's, contact the telephone
company to determine the maximum REN for the calling area.
1.8.2Digital Communicator:
Before connecting the ADT-UDACT to the public switched telephone network, the
installation of two RJ31X jacks is necessary. The following information is provided
if required by the local telephone company :
The telephone company under certain circumstances may temporarily discontinue
services and/or make changes in its facilities, services, equipment or procedures
which may affect the operation of this control panel. However, the telephone
company is required to give advance notice of such changes or interruptions.
Document 50934 Rev B 5/15/00 PN 50934:B
11
If the control panel causes harm to the telephone network, the telephone company
reserves the right to temporarily discontinue service. Advance notification will be
provided except in cases when advance notice is not practical. In such cases,
notification will be provided as soon as possible. The opportunity will be given to
correct any problems and to file a complaint.
DO NOT CONNECT THIS PRODUCT TO COIN TELEPHONE, GROUND START,
OR PARTY LINE SERVICES.
When the control panel activates, premise phones will be disconnected.
Two separate phone lines are required. Do not connect both telephone interfaces to
the same telephone line.
The control panel must be connected to the public switched telephone network
upstream of any private telephone system at the protected premises.
An FCC compliant telephone cord must be used with this equipment. This equipment
is designed to be connected to the telephone network or premises wiring using a
compatible RJ31X male modular plug which is Part 68 compliant.
1.9Modes and
Special Functions
1.9.1 Normal Mode:
Normal mode is the standard mode of operation. In this mode, the ADT-UDACT
monitors host FACP status as well as monitoring telephone line voltage. The ADTUDACT reports system status information to UL listed Central Stations. Information
transmitted includes general alarm, trouble and supervisory. It also transmits either
the number of zones or points activated or the specific point(s) activated, depending
upon the compatible panel, programming selections and transmission format
selection. Specific system trouble conditions and specific ADT-UDACT troubles are
also transmitted.
1.9.2 Program Mode:
Program mode is used to program the ADT-UDACT. While the ADT-UDACT is in
the program mode, it cannot receive host FACP status information. See Section 3.0
for complete programming instructions.
1.9.3 Lamp Test Mode:
This mode turns on all segments of the 4 character display plus all LEDs on the ADTUDACT.
1.9.4 Troubleshoot Mode:
Troubleshoot mode may be used for testing the telephone line wiring. Connection
from the ADT-UDACT's modular jacks, through RJ31X jacks and into the telephone
network may be easily checked. In this mode, the keypad acts similar to a telephone
touchpad.
12
1.9.5 Type Mode:
Type Mode is used to define the specific type of device (point) used or function of a
zone. Type Mode is also used to disable the alarm report for any zone/point in the
system. The feature which disables the zone/point alarm report must be used for
zones/points programmed into the host FACP as remote silence, reset, drill or
acknowledge switches. Note: Unimode2020/1010 and ADT-MNNA applications
restrict Type Mode programming to a maximum of 568 points. All remaining points
above 568 will report as fire alarm points only.
Document 50934 Rev B 5/15/00 PN 50934:B
1.9.6 Clear Function:
When the clear function is activated, it causes the ADT-UDACT to immediately stop
transmissions, hang-up from the telephone network, clear out any messages that were
waiting for transmission and reset.
1.9.7 Manual Test Function:
The manual test function allows for a test report message to be sent to both Central
Stations upon activation.
Document 50934 Rev B 5/15/00 PN 50934:B
13
2.0 Installation and Wiring
2.1General
2.2Output Circuits
(Primary
Lines)
Incoming
Telco Phone
Lines
Mounting Options
For information on mounting the ADT-UDACT in a specific fire alarm control panel,
refer to the appropriate Appendix.
Telephone Circuits
Provision to connect to two independent telephone lines is available via two
telephone jacks labeled PH1 (Primary) and PH2 (Secondary). Telephone line control/
command is possible via double line seizure as well as usage of an RJ31X style
interconnection. (RJ31X jacks must be ordered separately).
Note: It is critical that the ADT-UDACT be located as the first device on the
incoming telephone circuit to properly function.
Green Wire
Tip
Red Wire
Tip
Ring
Green Wire
Red Wire
Ring
To premise phones
Tip
Note: Shorting bars
inside RJ31X Jack
removed during male
plug insertion
Ring
Ring
To premise phones
Tip
(Secondary Lines)
Incoming Telco
Phone Lines
Primary
Phone Line
PH-1
Modular Female
Connectors
7 foot
Cable
(MCBL-7)
Order Separately
Male Plug
Connectors
Secondary
Phone Line
PH-2
14
UDACJAKN.WMF
Figure 2-1: Wiring Phone Jacks
Document 50934 Rev B 5/15/00 PN 50934:B
Relay Driver
The ADT-UDACT's open collector output on TB3, terminal 2 is provided for
Communicator Failure and ADT-UDACT trouble. It can be used to drive UL listed
relay MR-101/C or MR-201/C. The output is rated for 40 mA. The normal condition
for the output is Off (deenergized).
Communicator Failure occurs when the maximum number of attempts to reach both
central stations has taken place or when both phone lines are disconnected. ADTUDACT trouble conditions include loss of telephone line voltage to the primary and/
or secondary phone lines, communication failure to the primary or secondary central
stations, total communication failure, entry into program, type and troubleshoot
modes.
Wiring from the ADT-UDACT terminal TB3 to the relay must be in the same room
no more than 20 feet in length and enclosed in conduit. Wiring from the relay output
contacts must remain in the same room as the ADT-UDACT.
When the ADT-UDACT is programmed for 'Receive Only' (typically this occurs
when annunciators are also used and are set for 'Receive/Transmit'), the relay output
is used to provide a ADT-UDACT trouble input to the host control panel. For
Unimode 2020/1010 applications, use a monitor module to supervise the relay
closure. Refer to Figure 2.3. Program the custom label field to read 'UDACT
Trouble'.
When the ADT-UDACT is programmed for 'Receive/Transmit', EIA-485 supervision
and ADT-UDACT trouble status are automatically handled by the host control panel.
The relay output may, however, be used for ADT-UDACT communications failure if
desired.
TB3
Earth Gnd
Comm Fail
+24 VDC
All wiring to relay
must be in the same
room within 20 feet
of ADT-UDACT and
in conduit.
TB3
Earth Gnd
Comm Fail
+24 VDC
Relay Energized LED
MR-201/C *
Relay Energized LED
DPDT Contacts
10 Amps
@ 115 VAC
Connections must be
in same room as
ADT-UDACT
SPDT Contacts
10 Amps
@ 115 VAC
UDACTTB3.EPS
MR-101/C *
* Note: The MR-101/C and MR-201/C include an enclosure.
Figure 2-2: Relay Driver Connections
Document 50934 Rev B 5/15/00 PN 50934:B
15
Earth Grnd
Comm Fail
+24 VDC
M300 Series
Monitor Module
All wiring to relay must be
in the same room within 20
feet of ADT-UDACT and in
conduit.
0
18/24
115
230
ON
SLC Loop to
Fire Alarm
Control Panel
Wiring in same room
as ADT-UDACT
3.9K EOL
Resistor
(included)
NC
C
NO
ADT-UDACT
udactrbl.wmf
MR-101/C
(MR-201/C may be used)
Note: M300 Series Monitor Module is used to supervise Normally Closed output of MR-101/C. On ADT-UDACT
trouble and Comm Fail, MR-101/C relay contact will open causing the monitor module to transmit trouble
condition to FACP.
Figure 2-3: Monitoring for ADT-UDACT Trouble
16
Document 50934 Rev B 5/15/00 PN 50934:B
2.3UL Powerlimited Wiring
Requirements
Power-limited and nonpower-limited circuit wiring must remain separated in the
cabinet. All power-limited circuit wiring must remain at least 0.25" away from any
nonpower-limited circuit wiring. Furthermore, all power-limited circuit wiring and
nonpower-limited circuit wiring must enter and exit the cabinet through different
knockouts and/or conduits. A typical wiring diagram for the ADT-UDACT is shown
below.
Use power-limited source
DO NOT USE
Power-limited circuits
UDACPWRL.WMF
Figure 2-4: Typical Wiring Diagram for UL Power-limited Requirements
Document 50934 Rev B 5/15/00 PN 50934:B
17
3.0 Programming Instructions
Programming Mode
3.1 Entering
Program Mode
Programming of the ADT-UDACT is possible at any time including while the
ADT-UDACT is communicating with a Central Station.
The ADT-UDACT has been designed for many different types of applications. After
examining your specific application, review the programming options and choose the
entries best suited for your system.
The ADT-UDACT has a built-in programmer. All programming selections are stored
in nonvolatile Electrically-Erasable Programmable Read-Only Memory (EEPROM).
This ensures that the ADT-UDACT will retain all entries made in programming mode
even if both AC and battery power are removed.
The user must program the primary and secondary phone numbers, account numbers
and 24 hour test report times for each Central Station account and the current time.
The ADT-UDACT comes with factory chosen options/features already programmed.
Other options/features may be programmed if desired. If all factory default settings
are acceptable, programming is complete.
To enter the Program Mode, press the MODE key once, (the display will go blank)
you then have ten seconds to start entering the code (7764) .
☛7764 spells PROG on a Touch-Tone® phone
If an incorrect key is entered, reenter the proper 4-digit code before pressing the
[ENTER/STORE] key
___7
__77
_776
7764
You are allowed a pause of up to 10 seconds in between each number while entering
the code. After pressing the [ENTER/STORE] key, the ADT-UDACT will be in
Program Mode and display 00_F. You are allowed up to ten minutes of idle time at
this point before starting your programming, otherwise the ADT-UDACT will go
back to Normal Mode. You also have a maximum of 10 minutes between any key
stroke. All entries made prior to the 10 minute time-out are valid and stored.
Once in Programming Mode, the ADT-UDACT will:
•Ignore the Test and Clear keys.
•Continue to communicate any events not previously acknowledged at the
Central Station prior to entering Programming Mode.
Location 56 is factory set to = 0, ADT-UDACT communications disabled. This keeps
the communicator off until location 56 is changed to 1, 2, 3 or 4. Refer to program
selection for address 56 in this section. Once location 56 is changed from 0 and a
valid phone number is entered, transmission of the "ADT-UDACT off Normal" report
will occur.
Note that as you enter information into the
ADT-UDACT, the digits will scroll across the
display from right to left
18
Document 50934 Rev B 5/15/00 PN 50934:B
Throughout programming mode, the first three locations on the left of the display
represent the memory address which can range from 00 to 208 (Alpha characters are
not used). The last location (farthest right) represents the contents of the memory
address. The first address displayed is shown below:
00_F
(address)(data)
3.2 Switch Functions
3.3Programming
Options
The Function of each switch in program mode is shown below:
No function in this mode
- Select operating mode
Address entry
keys are 0 to 9
Data entry keys
are 0 to 9 and A
to F
{
- Increment memory address
- Decrement memory address
- Once = First memory address
Twice = type any address
- Save data, go to next address
UDACTKEY.WMF
Figure 3-1: ADT-UDACT Keypad
Primary phone number. (00-15)
The first sixteen addresses, 00-15, are factory set to 'F' (from 00_F to 15_F).
Programming is typically done as follows: If your phone # is 484-7161, type 4,
the display will read 00_4, press [ENTER/STORE] to save the entry to memory and
increment to the next address 01_F.
Enter the remaining numbers in their respective addresses as shown below:
4847161FFFFFFFFF
00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15.
Valid entries for both the primary and secondary phone numbers are 0 - F with the
numeric digits as dialed numbers and hexadecimal digits (A-F) representing the
following functions:
A= * on a Touchtone phone keypad
B= # on a Touchtone phone keypad
C= look for secondary dial tone for up to 2 seconds (then, dial anyway)
D= 3-second pause
E= 5-second pause
F= end of phone number (Note: F must be entered)
Document 50934 Rev B 5/15/00 PN 50934:B
19
Primary Number Communication Format (16)
One location is needed to select the Communication Format to the primary phone
number. Address 16 is used for this purpose. The default (factory setting) for this
address is 16_A, which is 4+2 Standard, 1800 Hz 'Carrier', 2300 Hz 'ack'. You may
enter 0, 1, 2, 4, 6, 8, C or E in place of the default, then press [ENTER/STORE].
When selecting the Format, note that Ademco Contact ID is the only format in the
ADT-UDACT which identifies the specific zone or point status to the Central Station.
All other formats report the number of zones or points that are active but do not
identify the specific zone or point. Choose from the list of formats below:
2: 3+1 Standard 1800 Hz Carrier, 2300 Hz ACK
3: Not Used
4: 3+1 Standard 1900 Hz Carrier, 1400 Hz ACK
5: Not Used
6: 4+1 Standard 1800 Hz Carrier, 2300 Hz ACK
7: Not Used
8: 4+1 Standard 1900 Hz Carrier, 1400 Hz ACK
9: Not Used
A: 4+2 Standard 1800 Hz Carrier, 2300 Hz ACK
B: Not Used
C: 4+2 Standard 1900 Hz Carrier, 1400 Hz ACK
D: Not Used
E: Ademco Contact ID
F: Not Used
Note: Consult your Central Station for proper selection or consult our factory
representatives. For any format chosen, the ADT-UDACT automatically
programs all of the event codes. See Tables 3-2, 3-3, 3-4, 3-5, 3-6 and 3-7.
Primary Number Account Code (17-20) Four locations at addresses 17-20 default to
all '0's. Valid entries are (0-9 and A-F). The number of digits entered must match the
format selection. If programming '2 or 4' into address 16, enter 3 digits. (location 20 is
ignored) If programming '0, 1, 6, 8, A, C, or E' into address 16, enter 4 digits.
Primary Number 24 Hour Test Time (21-24).
Use military time when entering the 24 hour 'test' time. The 24 hour test report to
phone number 1 takes up four locations, from addresses 21-24. The default is 00:00
(12:00 midnight). The limits for each location are as follows: 21: enter 0, 1 or 2; 22:
enter 0-9; 23 : enter 0-5; 24: enter 0-9. Note: Do not use A-F.
Primary Number 24/12 Hour Test Time Interval (25). The test report sent to the
Primary phone number may be sent every 12 or 24 hours. If the message is to be sent
every 24 hours, leave the factory default entry of zero. If 12 hour test report time is
needed, enter 1=12 hours.
Secondary Phone Number (26-41). Programming is similar to programming the
primary phone number located at addresses 00 - 15. The defaults are also all 'F's.
20
FFFFFFFFFFFFFFFF
26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41.
Document 50934 Rev B 5/15/00 PN 50934:B
Secondary Number Communication Format (42). Programming is the same as the
primary number's Comm Format at address 16. Default entry is 'A', 4+2 Standard.
When selecting the Format, note that Ademco Contact ID is the only format in the
ADT-UDACT which identifies the specific zone or point status to the Central Station.
All other formats report the number of zones or points that are active but do not identify
the specific zone or point. Choose one entry from the list below:
0: 4+1 Ademco Express Standard, DTMF, 1400/2300 ACK
1: 4+2 Ademco Express Standard, DTMF, 1400/2300 ACK
2: 3+1 Standard 1800 Hz Carrier, 2300 Hz ACK
3: Not Used
4: 3+1 Standard 1900 Hz Carrier, 1400 Hz ACK
5: Not Used
6: 4+1 Standard 1800 Hz Carrier, 2300 Hz ACK
7: Not Used
8: 4+1 Standard 1900 Hz Carrier, 1400 Hz ACK
9: Not Used
A: 4+2 Standard 1800 Hz Carrier, 2300 Hz ACK
B: Not Used
C: 4+2 Standard 1900 Hz Carrier, 1400 Hz ACK
D: Not Used
E: Ademco Contact ID
F: Not Used
Secondary Number Account Code (43-46) is programmed in addresses 43 - 46 in
the same manner as the primary phone number Account Code. Default entries are all
'0s'.
Secondary Number 24-Hour Test Time (47-50) is programmed in addresses 4750 in the same manner as the primary number 24-Hour Test Time. Default is 00:00
(12:00 midnight).
Secondary Number 24/12 Hour Test Time (51) The test message sent to the
Secondary phone number may be sent every 12 or 24 hours. If the message is to be
sent every 24 hours, leave the factory default entry of zero. If a 12 hour test report
time is needed, enter 1=12 hours.
Use the Start and End Monitoring Address programming locations to set the
reporting range of the ADT-UDACT.
Start Monitoring Address (52-53) is programmed to indicate the first group of
zones or points to be monitored and reported to the Central Station. Valid entries are
'11 through 19' for the Unimode 300/400, and '01 through 32' for the Unimode 2020/
1010 and ADT-MNNA. The factory default setting is '01'. See Table 3-1.
End Monitoring Address (54-55) is programmed to indicate the last group of zones
or points to be monitored and reported to the Central Station. Valid entries are '11
through 19' for the Unimode 300/400, and '01 through 32' for the Unimode 2020/
1010 and ADT-MNNA. Factory default setting is '02'.
Document 50934 Rev B 5/15/00 PN 50934:B
21
)tluafeDyrotcaF(gnitropeRenoZ
TRATS
DNE
35-25.rddA
55-45.rddA
gnitropeRtnioP
TRATS
DNE
35-25.rddA
55-45.rddA
1
004edominU11
Note: For additional information on the starting and ending addresses, refer to the host
FACP Technical Manual.
1
21
senoz99otpufosutatsstropeR=1
,0101/0202edominU
ANNM-TDA
004edominU11
2
10
3
2
23
3
91
stniop040,2otpufosutatsstropeR=2
stniop483otpufosutatsstropeR=3
Table 3-1: Start and End Monitoring Addresses
ADT-UDACT Communication Selection (56)
Leaving address 56 at '0' disables communications to the Central Station(s). Enter '1'
for zone reporting, receive only, '2' for zone reporting, receive/transmit, '3' for point
reporting, receive only, or '4' for point reporting, receive/transmit. See Type Mode
Section 4.2 for additional information on detailed reporting. Note: Use receive only
selection when using remote annunciators. Be certain to set one of the annunciators
for receive/transmit for EIA-485 communications bus supervision. Use the receive/
transmit entry when annunciators are not installed or when the ADT-UDACT
receive/transmit function is to be used to supervise the EIA-485 communication bus.
For more information on the receive/transmit function, refer to annunciator
manuals.
Backup Reporting (57) Leaving address 57 at '0' means that reports will be
transmitted to the secondary phone number only if attempts to communicate to the
primary phone number are unsuccessful. Programming a '1' causes all reports to be
transmitted to the secondary phone number.
22
Touchtone/Rotary Select (58) A '0' programmed in this address by the factory
triggers Touchtone dialing over both phone lines. Select '1' for rotary dialing.
Make Break Ratio (59) Use this address only if you have chosen '1' for address 58.
The make/break ratio is factory set to '0' which is 67/33, but may be changed to '1'
which is a 62/38 ratio.
Address (60) Leave default of 0.
Address (61) Leave default of 0.
AC Loss Reporting Delay (62) '1' is factory default which causes a 6 hour time
delay for AC loss reporting. Valid entries are 0 to 9 and A to F corresponding to the
following reporting delay times: '1' = 6 hour, '2' = 7 hours, '3' = 8 hours, '4' = 9 hours,
'5' = 10 hours, '6' = 11 hours, '7' = 15 hours, '8' = 16 hours, '9' = 17 hours, 'A' = 18
hours, 'B' = 19 hours, 'C' = 20 hours, 'D' = 21 hours, 'E' = 22 hours and 'F' = 23 hours.
'0' entry causes immediate reporting of AC loss.
Host Panel ID (63)
Enter one of the following digits corresponding to the Control Panel in which the
ADT-UDACT is installed. A correct entry is essential for proper operation.
0 = Do not use
1 = Do not use
2 = Do not use
3 = Do not use
4 = Do not use
5 = Do not use
6 = Do not use
7 = Unimode 2020/1010, ADT-MNNA
8 = Unimode 300/400
9 = Do not use
Document 50934 Rev B 5/15/00 PN 50934:B
Loop Number (64 - 65)
For Contact ID format only. Factory default is '00'. Maximum value is '97'. Refer to
Section 5.0 for additional information.
Device/Zone Number (66 - 68)
For Contact ID format only. These entries apply to the general reports only, i.e. general
alarm, general trouble, general supervisory. Factory default is '000'. Maximum value is
'999'. Refer to Section 5.0 for additional information.
Note: For the Contact ID Format, Loop Number and Device Number do not directly
correspond to the SLC Loop or Device Number, instead, it is a convenient way to transmit
data to the Central Station. Using the default Loop Number of '00' allows the reporting of
a maximum of 999 devices or zones (001-999). To report device addresses or zones
higher than 999 (the Unimode 2020 can report up to 2,040 addresses), the Loop Number
is incremented by one to report up to an additional 1,000 device addresses or zones on
the same panel. Following is an example (using the factory defaults) of Loop Number and
Device Number settings for the ADT-UDACT on a single Unimode 2020 control panel:
Loop Number '00'reports points/zones 00 001 to 00 999
Loop Number '01'reports points/zones 01 000 to 01,999
Loop Number '02'reports points/zones 02 000 to 02,040
If the Loop Number (54-65) is programmed to 10, the devices are reported as:
Loop Number '10'reports points/zones 10 001 to 10 999
Loop Number '11'reports points/zones 11 000 to 11,999
Loop Number '12'reports points/zones 12 000 to 12,040
In applications which network multiple Fire Alarm Control Panels, the group number
may be used to help identify each facility being monitored. For example, each ADTUDACT can report its panel's devices by designating different Loop Numbers for each
panel. The Loop Numbers assigned to a particular panel must be sequential, but the Loop
Numbers from one panel to the next need not be sequential; i.e., the Loop Numbers
assigned for the ADT-UDACT on one Unimode 2020 might be 00, 01 or 02 while the
Loop Numbers for another FACP might be 10, 11 or 12 or any other set of unused
consecutive numbers. For additional information on the Unimode 2020/1010 control
panels, refer to Appendix D.
Programming Event Codes (69-208)
The type of reports and 'event codes' that are sent to the Central Station are in Tables 3-2
through 3-7. The selections made for the Primary Central Station Number Communication
Format (address 16) and the Secondary Central Station Number Communication Format
(address 42) automatically program addresses 69-208 with factory default selections.
Any of the event codes may be changed. Consult your Central Station prior to alteringthe event codes. For the 3+1, 4+1 and 4+1 Express Formats, entering an event code of '0'
will cause the communicator to NOT transmit the report. Enter two zeroes for 4+2 and
4+2 Express Formats. For Ademco Contact ID format enter three zeroes. Transmission of
reports to either or both Central Station phone numbers may be disabled.
Note the special 'System Abnormal Test Report' event code. This report was added per
new UL DACT requirements. This report is generated in place of the normal test report
when an alarm and/or trouble condition exists at the time the test report is due to be sent.
Document 50934 Rev B 5/15/00 PN 50934:B
23
Programming the Real-Time Clock
Entering an address greater than 209 will cause a display of the current time. On
initial power up, the clock will start running from the factory setting of 00:01
(military time). The far left digit will be flashing, indicating that this is the first digit
to be programmed.
Hours/Minutes
Select a digit then press [ENTER/STORE]. The digit 2nd from the left will start
flashing. Select a digit then press [ENTER/STORE]. Hours setting is complete.
With the digit 2nd from the right flashing, select a digit then press [ENTER/
STORE]. The digit on the far right will start flashing. Select a digit then press
[ENTER/STORE]. Minutes setting is complete.
End Programming
Exit Programming Mode by pressing MODE, followed by the 4-digit code
corresponding to an alternate mode of operation, then press [ENTER/STORE].
During Program Mode, if no key is pressed within 10 minutes, the ADT-UDACT will
revert to normal mode.
3+1, 4+1 Express and 4+1 Standard Formats If '0, 2, 4, 6 or 8' are entered for
address 16, the following data is automatically programmed for the Primary phone
number event codes. Enter a '0' for the data setting to disable the report. These
formats do not support zone/point programming. For zone/point reporting, refer to
Contact ID.
AddressDescription Setting
69Primary # General Alarm Code1
70Primary # Zone/Point Alarm Code0
71Primary # General Supervisory Code8
72Primary # Zone/Point Supervisory Code0
73Primary # General Fault CodeF
74Primary # AC Fault CodeF
75Primary # Zone/Point Fault Code0
76Primary # Low Battery Fault CodeF
77Primary # Telco Primary Line Fault CodeF
78Primary # Telco Secondary Line Fault CodeF
79Primary # NAC Fault CodeF
80Primary # Comm. Trouble Primary # CodeF
81Primary # Comm. Trouble Secondary # CodeF
82Primary # 485 Comm. Trouble CodeF
83Primary # System Off Normal CodeF
84Primary # ADT-UDACT Off Normal CodeF
85Primary # General Alarm Restore CodeE
86Primary # Zone/Point Alarm Restore Code0
87Primary # General Supervisory Restore CodeE
88Primary # Zone/Point Supervisory Restore Code0
89Primary # General Fault Restore CodeE
90Primary # AC Fault Restore CodeE
91Primary # Zone/ Point Fault Restore Code0
92Primary # Low Battery Fault Restore CodeE
93Primary # Telco Primary Line Fault Restore CodeE
94Primary # Telco Secondary Line Fault Restore CodeE
95Primary # NAC Fault Restore CodeE
96Primary # Comm.Trouble Primary Number Restore CodeE
97Primary # Comm. Trouble Secondary Number Restore Code E
98Primary # 485 Comm. Trouble Restore CodeE
99Primary # System Off Normal Restore CodeE
100Primary # ADT-UDACT Off Normal Restore CodeE
101Primary # System 24 Hour Test9
102Primary # System 24 Hour Test w/active eventF
103Primary # Manual Test9
24
Note:Zero entries prevent the transmission of the report to the Central Station.
Table 3-2: Event Codes, Primary Number
Document 50934 Rev B 5/15/00 PN 50934:B
4+2 Standard and 4+2 Express Formats
If '1, A or C' are entered for address 16, the following data is automatically programmed
for the Primary phone number event codes.
Enter a '0' for the data setting to disable
the report. These formats do not support zone/point programming. For zone/point
reporting, refer to Contact ID.
1) Note: Zero entries prevent the transmission of the report to the Central Station.
2) Refer to Contact ID program locations 64 - 68.
3) The identification of the zone/device number is automatically transmitted by the ADT-UDACT and is
added to the main event code. See Table 5-3 for more information.
4) For control panels Unimode 2020/1010, ADT-MNNA, and the Unimode 300/400 the factory default
event code is 110 and reprogrammable. The Unimode 400 is unique in point reporting mode in that
only the control module report codes are programmable. The factory setting of report code 111 is
fixed for addressable smoke detectors and cannot be changed.
5) The Group # is automatically incremented for Unimode 2020/1010 and ADT-MNNA applications.
2
3
2
3
3
26
Table 3-4: Ademco Contact ID, Primary Number
Document 50934 Rev B 5/15/00 PN 50934:B
3+1, 4+1 Express or 4+1 Standard Formats
If '0, 2, 4, 6 or 8' are entered for address 42, the following is automatically programmed for the Secondary phone number event codes. Enter a '0' for the data setting
to disable the report. These formats do not support zone/point programming. For
zone/point reporting, refer to Contact ID.
AddressDescription Setting
139Secondary # General Alarm Code1
140Secondary # Zone/Point Alarm Code0
141Secondary # General Supervisory Code8
142Secondary # Zone/Point Supervisory Code0
143Secondary # General Fault CodeF
144Secondary # AC Fault CodeF
145Secondary # Zone/Point Fault Code0
146Secondary # Low Battery Fault CodeF
147Secondary # Telco Primary Line Fault CodeF
148Secondary # Telco Secondary Line Fault CodeF
149Secondary # NAC Fault CodeF
150Secondary # Comm. Trouble Primary # CodeF
151Secondary # Comm. Trouble Secondary # CodeF
152Secondary # 485 Comm. Trouble CodeF
153Secondary # System Off Normal CodeF
154Secondary # ADT-UDACT Off Normal CodeF
155Secondary # General Alarm Restore CodeE
156Secondary # Zone/Point Alarm Restore Code0
157Secondary # General Supervisory Restore CodeE
158Secondary # Zone/Point Supervisory Restore Code0
159Secondary # General Fault Restore CodeE
160Secondary # AC Fault Restore CodeE
161Secondary # Zone/ Point Fault Restore Code0
162Secondary # Low Battery Fault Restore CodeE
163Secondary # Telco Primary Line Fault Restore CodeE
164Secondary # Telco Secondary Line Fault Restore CodeE
165Secondary # NAC Fault Restore CodeE
166Secondary # Comm.Trouble Primary # Restore CodeE
167Secondary # Comm. Trouble Secondary # Restore CodeE
168Secondary # 485 Comm. Trouble Restore CodeE
169Secondary # System Off Normal Restore CodeE
170Secondary # ADT-UDACT Off Normal Restore CodeE
171Secondary # System 24 Hour Test9
172Secondary # System 24 Hour Test w/active eventF
173Secondary # Manual Test9
Note: Zero entries prevent the transmission of the report to the Central Station.
Table 3-5: Event Codes, Secondary Number
Document 50934 Rev B 5/15/00 PN 50934:B
27
4+2 Standard and 4+2 Express Formats
If '1, A or C' are entered for address 42, the following is automatically programmed
for the Secondary phone number event codes. Enter a '0' for the data setting to disable
the report. These formats do not support zone/point programming. For zone/point
reporting, refer to Contact ID.
1) Note: Zero entries prevent the transmission of the report to the Central Station.
2) Refer to Contact ID program locations 64 - 68.
3) The identification of the zone/device number is automatically transmitted by the ADT-UDACT and is
added to the main event code. See Table 5-3 for more information.
4) For control panels Unimode 2020/1010, ADT-MNNA, and Unimode 300/400 the factory default event
code is 110 and reprogrammable. The Unimode 300 and Unimode 400 are unique in point reporting
mode in that only the control module report codes are programmable. The factory setting of report
code 111 is fixed for addressable smoke detectors and cannot be changed.
5) The Group # is automatically incremented for Unimode 2020/1010 and ADT-MNNA applications.
Table 3-7: Ademco Contact ID, Secondary Number
Document 50934 Rev B 5/15/00 PN 50934:B
29
4.0 Operating Instructions
UDACTKEY.WMF
4.1Normal Mode
CLEAR
TEST
MODE
The ADT-UDACT has five Modes of operation; Normal, Program, Lamp Test,
Troubleshoot and Type mode. Upon initial power up, the system will be in Normal
Mode. This section discusses operation of the ADT-UDACT in the Normal Mode.
4.1.1 Keys
Below is a description of the function keys in Normal Mode:
The Clear function will cause the ADT-UDACT to:
• cease transmissions
• clear any active or pending transmissions
• reset and return to normal system processing
To perform the Clear function, press the Clear Key followed by 2, 5, 3, 2, then press
the [ENTER/STORE] key.
If the Test Key is pressed three times in rapid succession the ADT-UDACT will
transmit a test message to both Central Stations. The message reported is the same as
the automatic test message for all formats except Ademco Contact ID.
Pressing the Mode Key followed by a valid 4-digit numerical code and [ENTER/STORE] selects one of the four modes of operation.
30
☛ To enter normal mode from any other mode press MODE then
6676[ENTER/STORE]. 6676 spells NORM on a Touch-Tone® phone.
Document 50934 Rev B 5/15/00 PN 50934:B
1st EVENT
This key along with the Up Arrow and Down Arrow keys, are used to display ADTUDACT fault conditions. Press the 1st Event key at any time to display the first event
that occurred.
DOWN ARROW
UP ARROW
[ENTER/STORE]
Use the Down Arrow key to view other ADT-UDACT fault events (older) that have
occurred and are active - not cleared yet.
Use the Up Arrow key to view other ADT-UDACT fault events (newer), that have
occurred and are active - not cleared yet.
See individual mode descriptions in other sections.
4.1.2 Displays:
Four 7-segment red LED characters provide visual annunciation of ADT-UDACT
trouble conditions. A list of messages that may appear on the display in normal mode
is shown below:
PH_1
PH_2
no_1
no_2
Primary Number Communication Fault
Secondary Number Communication Fault
Primary Phone Line Fault
Secondary Phone Line Fault
Individual LEDs are provided for:
EIA-485—A yellow LED that turns on steady when a fault on the EIA-485 circuit is
detected.
Comm. Fail—This yellow LED turns on to indicate the loss of both telephone lines
or that the maximum number of attempts to communicate with both Central Stations
has been unsuccessful. Note: During a comm fail, the display will show either a PH1
and PH2 or no1 and no2.
Power On—A green LED that remains on while DC power is supplied to the ADTUDACT. If this indicator fails to light under normal conditions, service the system
immediately.
Kiss-Off —A green LED that blinks when the Central Station has acknowledged
receipt of each transmitted message.
Test—A green LED that turns on to indicate that a manual test message is being
transmitted.
Primary Line Active—A red LED that indicates the primary phone line is active.
Secondary Line Active—A red LED that indicates the secondary phone line is
active.
Modem —A green LED that stays on steady during modem types of
communications.
Document 50934 Rev B 5/15/00 PN 50934:B
31
Primary
Line
Secondary
Line
Primary Active
Modem
LED
Secondary
Active
LED
Kiss-Off
LED
UDACTNOT.WMF
Figure 4-1: ADT-UDACT Phone Connectors and LEDs
4.1.3 Normal Mode Operation:
Normal mode is the standard mode of operation. In this mode, the ADT-UDACT
monitors host FACP status, power input, EIA-485 communications and telephone line
voltage.
The four character 7-segment display is normally off and does not annunciate events
that are being transmitted. The display will only annunciate ADT-UDACT trouble
conditions in the normal mode.
The ADT-UDACT transmits zone/point and system status reports to a Central Station
via the public switched telephone network. Two supervised telephone line
connections are made to interface the ADT-UDACT to the telephone lines.
The ADT-UDACT supervises both telephone lines for proper voltage. A delay of two
minutes will occur before a fault in either phone line connection is reported as a
trouble. When a fault is detected, the 4 character display will show either 'no 1' or
'no 2' (depending upon which telephone line has the fault. 'no 1' = Primary Line, 'no 2'
= Secondary Line) and the trouble condition will be reported to the Central Station
over the remaining good phone line.
The ADT-UDACT comes with line seizure capability provided for both the primary
and secondary telephone line interfaces. Any time that the ADT-UDACT needs to
make a call to the Central Station, line seizure will disconnect any local premises
phones sharing the same telephone line.
32
All transmission to the Central Station will be sent over the Primary phone line. In the
event of noisy phone lines, transmissions will be sent over the backup Secondary
phone line.
Document 50934 Rev B 5/15/00 PN 50934:B
Two phone numbers must be programmed, the Primary phone number and the
Secondary phone number. All system reports will be transmitted to the primary phone
number. Reports will automatically be sent to the secondary phone number if attempts
to transmit to the primary phone number are unsuccessful. If 10 total attempts to
communicate are unsuccessful, the Communicator Failure output will be turned on
(TB3, terminal 2). Note that as an option, all reports may also be sent to the
secondary phone number. Refer to Section 3.0 Programming Instructions.
The ADT-UDACT meets NFPA 72 for Remote Station Protective Signaling Service
and Central Station Signaling Service reporting requirements for: (a) the type of
signal (b) condition and (c) location of the reporting premises.
Since higher priority events take precedence over lower priority events, the ADTUDACT will transmit higher priority events before sending the lower priority events.
Priorities are as follows:
Event Activations
1. General Alarm
2. Zone/Point Alarm #N
3. General Supervisory
4. Zone/Point Supervisory #N
5. General System Trouble
6. AC Power Loss
7. Zone/Point Trouble #N
8. Low Battery
9. Telco Primary Line Fault
10. Telco Secondary Line Fault
11. NAC Fault Code
12. Communication Trouble, Primary Number
13. Communication Trouble, Secondary Number
14. EIA-485 Communication Bus Trouble
15. System Off-Normal Code
16. System Automatic Test Report
17. System Abnormal Automatic Test Report
18. Manual Activated Test Report
Event Restorals
19. General Alarm Restoral
20. Zone/Point Alarm #N Restoral
21. General Supervisory Restoral
22. Zone/Point Supervisory #N Restoral
23. General System Trouble Restoral
24. AC Power Loss Restoral
25. Zone/Point Trouble #N Restoral
26. Low Battery Restoral
27. Telco Primary Line Fault Restoral
28. Telco Secondary Line Fault Restoral
29. NAC Fault Code Restoral
30. Communication Trouble, Primary Number Restoral
31. Communication Trouble, Secondary Number Restoral
32. EIA-485 Communication Bus Trouble Restoral
33. System Off-Normal Code Restoral
Where #N represents the number of zones or devices in alarm or trouble. This is valid
for all formats except Ademco Contact ID.
For all formats, the 'general' reports are always transmitted (unless disabled). The
zone or point information may follow the general report if enabled.
Document 50934 Rev B 5/15/00 PN 50934:B
33
For all pulsed formats and both Ademco Express formats, the zone/point report is
repeated per the total number of zones or points activated once factory default entries
of zero are removed. See Tables 3-2, 3-3, 3-4, 3-5, 3-6 and 3-7. When Ademco Contact
ID format is used, the actual zone or point activated is identified in the report.
The ADT-UDACT comes factory programmed with the reports identified above as item
numbers 2, 4, 7, 20, 22 and 25 set to zero, preventing the reports from being transmitted
for the pulsed and Ademco Express formats. These reports are factory programmed for
active transmission when using the Ademco Contact ID.
4.1.4 Key Report Descriptions
ADT-UDACT OFF Normal Report
Removing the ADT-UDACT from Normal Mode and placing it into Program or
Troubleshoot Mode causes a transmission of an 'UDACT off normal' fault message.
Returning the ADT-UDACT to Normal Mode causes a transmission of a 'UDACT return
to normal' restoral message.
Panel OFF Normal Report
The ADT-UDACT will report a "System off normal" report when the host FACP
temporarily shuts down the EIA-485 communications bus during various aspects of system
programming. When the host FACP is returned to normal, restoring the fire protection,
the ADT-UDACT will report a 'system off normal restoral' report.
System Test Report
The ADT-UDACT will transmit a test message to both Central Stations at programmed
intervals (typically every 24 hours). Should there exist an abnormal condition in the fire
alarm system (such as an alarm, trouble or supervisory condition) at the time when the test
report is due to be transmitted, the ADT-UDACT will report the 'system abnormal test
report.' If the system is normal, the report transmitted will be the normal 'system test
report.'
4.2Type Mode
EIA-485 Communications Trouble Report
The ADT-UDACT supervises the integrity of the information received from the FACP via
the EIA-485 communications bus. Should the communications bus malfunction or be
temporarily disabled, the ADT-UDACT transmits the report '485 comm trouble.' When
the communications bus returns to proper operation, the ADT-UDACT will report '485
comm trouble restoral.'
Type Mode may be used to disable reports by zone or point and to identify the specific
functionality of each zone or point in the system via Ademco Contact ID format. Factory
default for all zones is Fire Alarm. When reporting point information, the factory default
for addressable monitor modules is Fire Alarm code 110 and the default for addressable
detectors is Smoke Detector code 111. The smoke detector default cannot be modified.
Use Type Mode to identify the function of each zone or point as follows:
• General fire alarm• Burglary
• Supervisory• 24 hour non-burglary
• Pull stations• High temperature
• Heat detectors• Low temperature
• Waterflows• Low water pressure
• Duct detectors• Low water level
• Flame sensor• Pump failure
• Smoke zone
Note: Unimode 2020/1010 and ADT-MNNA applications restrict Type Mode programming to a maximum of 568 points. All remaining points above 568 will report as fire
alarm points.
34
Document 50934 Rev B 5/15/00 PN 50934:B
To access Type Mode, press the MODE key followed by the 4-digit code 8973 and
then press the [ENTER/STORE] key. The ADT-UDACT will display three digits.
For example, initial entry will display 01 0.
The characters to the left identify the zone or point number. In this example, 01
identifies zone 01 or point address 01. The character to the right (0 in this example)
identifies the type of zone or point as follows:
0 = Zone or point defined as fire alarm
1 = Disable zone or point report
2 = Zone or point defined as supervisory
3 = Zone or point defined as pull station
4 = Zone or point defined as heat detector
5 = Zone or point defined as waterflow
6 = Zone or point defined as duct detector
7 = Zone or point defined as flame sensor
8 = Zone or point defined as smoke zone (Use for group of addressable or
conventional smoke detectors. Also use for addressable monitor
modules monitoring conventional smoke detectors).
9 = Zone or point defined as burglary (Unimode 300/400 and ADT-MNNA)
A = Zone or point defined as 24 hour non-burglary
B = Zone or point defined as high temperature
C = Zone or point defined as low temperature
D = Zone or point defined as low water pressure
E = Zone or point defined as low water level
F = Zone or point defined as pump failure
Factory default is all zones or points set to '0' for fire alarm. The '0' setting for zone
reporting allows the mixing of types of devices on a single zone. To change the type
definition of the zone or point from the factory default of 0, select 2 to F
corresponding to the type of device(s) used (do not mix device types for these
settings), or select 1 to disable alarm reporting of any zone or point. The digit
entered will appear on the far right display. Next press the [ENTER/STORE] key.
This stores the entry into E2 memory and increments to the next higher address.
Use the UP, DOWN and 1st EVENT keys to move through the list of zones/points
(refer to Appendices), similar to the method described in the programming section of
this manual.
To define all zones or points as fire alarm (return to original factory default settings)
enter zone or point 999 and then press the [ENTER/STORE] key. The display will
change to 01 0, indicating a return to the factory default settings.
4.2.1 Disabling of Zones or Points
This feature is primarily used when system points have been defined as remote reset,
acknowledge, silence or drill switches. Refer to the FACP technical manual for
additional information. Activation of remote switches appear as alarms on the EIA-
485 bus. The ADT-UDACT will report these points as fire alarm points unless
disabled in the Type Mode. Disabling zones or points also prohibits the activation
(shorted or alarm activated condition) from being reported by the ADT-UDACT.
Disabling of the zone or point does not affect the reporting of the zone or point
trouble condition.
Note: Type Mode '1' for zones 90-99, disables reports for these zones. To transmit
reports for zones 90-99, use Type Mode entries of '0' or '2' through 'F'.
Document 50934 Rev B 5/15/00 PN 50934:B
35
4.2.2 Zone or Point Supervisory
A zone or point must be defined as supervisory to allow the ADT-UDACT to identify
the correct report to transmit to the central station. Follow the programming
instructions in the FACP manual to program a zone or point as supervisory. Next,
program the zone or point as a code 2 for supervisory. Use the charts in Appendices
to enter point and zone definitions. Note that the ADT-UDACT fire protection and
reporting capabilities are inactive while in Type Mode.
4.3 Troubleshoot
Mode
To get into the Troubleshoot Mode, press MODE 8768 and [ENTER/STORE].
☛8768 spells TROU on a Touch-Tone® phone.
Once in this mode, the ADT-UDACT will:
• Transmit the 'UDACT off normal' message to the Central Station(s).
• Continue to communicate any events not yet acknowledged at the
Central Station prior to entering Troubleshoot Mode.
The UP Arrow key,Down Arrow key and 1st EVENT keys do not function in
this mode.
Telephone Line Testing
Pressing C for touchtone dialing or D for rotary dialing, followed by [ENTER/
STORE] causesseizure of the Primary phone line which in turn lights the red
LED signifying Primary phone line active. After a delay of three seconds, the
ADT-UDACT goes off hook to acquire a dial tone.
The ADT-UDACT keypad may be used as a telephone touchpad for number dialing.
Once the first digit is pressed, the display will move the C or D character one
position to the left, while placing the digit to be dialed on the farthest right display
position. Continue to press the phone numbers to be dialed. Successive depressions
of the [ENTER/STORE] key hangs up and picks up the phone (places the phone on
or off the hook).
36
The secondary phone line may be tested by pressing the E key for touchtone dialing
or the F key for rotary dialing and then following the same procedure used for the
primary phone line.
A handset may be temporarily connected across transformer T1 as indicated in Figure
4-2. The handset, when connected across T1, may be used only as an amplifier/
speaker or telephone with the ADT-UDACT used for number dialing.
Document 50934 Rev B 5/15/00 PN 50934:B
Both Primary and
Secondary Lines
Figure 4-2: Handset/Speaker Connection
UDACTNOT.WMF
4.4 Lamp Test Mode
To perform a Lamp Test, press MODE then 5267 followed by [ENTER/STORE].
This will test all system LEDs. The LEDs will stay on for five seconds, then the
ADT-UDACT will return to normal mode.
☛5267 spells LAMP on a Touch-Tone® phone.
Document 50934 Rev B 5/15/00 PN 50934:B
37
5.0 Reporting Formats
Table 5-1 shows the data reporting structure for each of the pulsed formats as well as
the Ademco Express formats. Ademco Express formats allow a typical data message
to be transmitted to the Central Station in under 5 seconds. Pulsed formats typically
require 15 to 20 seconds in comparison. Table 5-2 defines each letter code used in
Table 5-1. Table 5-3 describes the data reporting structure used for Ademco Contact
ID format. Do not select any of the pulsed or Ademco Express Formats if
identification of the specific zone or point is desired. Use Ademco Contact ID for
specific zone or point identification.
Format #
0,2, 4, 6, 8
Report
AlarmSSS(S) ASSSS AA2
Alarm RestoreSSS(S) RASSSS RARA2
Zone Trouble
(Zone Open)
Zone Trouble RestoreSSS(S) RTZSSSS RTZRTZ2
System TroubleSSS(S) TSSSSS TSTS2
System Trouble RestoreSSS(S) RTSSSSS RTSRTS2
Low BatterySSS(S) LSSSS LL2
Low Battery RestoreSSS(S) RLSSSS RLRL2
AC LossSSS(S) PSSSS PP2
3+1/4+1/Standard
4+1 Express
SSS(S) RTZSSSS TZTZ2
Format #
1,A, C
4+2/Standard
4+2 Express
38
AC Loss RestoreSSS(S) RPSSSS RPRP2
Supervisory ConditionSSS(S) VSSSS VV2
Supervisory Condition
Restore
Test ReportSSS(S) XSSSS XX2
Abnormal Test Report
SSS(S) RVSSSS RVRV2
SSS(S) XASSSS XAXA2
Table 5-1: Data Reporting Structure
Refer to Table 5-2 for an explanation of each letter code in Table 5-1.
Refer to Table 6-1 for a list of compatible receivers.
Document 50934 Rev B 5/15/00 PN 50934:B
Where:
SSS 0r
SSSS= Subscriber ID
A= Alarm (1st digit)
A2= Alarm (2nd digit)
RA= Alarm Restore (1st digit)
RA2= Alarm Restore (2nd digit)
TZ= Zone Trouble (1st digit)
TZ2= Zone Trouble (2nd digit)
RTZ= Zone Trouble Restore (1st digit)
RTZ2= Zone Trouble Restore (2nd digit)
TS= System Trouble (1st digit)
TS2= System Trouble (2nd digit)
RTS= System Trouble Restore (1st digit)
RTS2= System Trouble Restore (2nd digit)
L= Low Battery (1st digit)
L2= Low Battery (2nd digit)
RL= Low Battery Restore (1st digit)
RL2= Low Battery Restore (2nd digit)
P= AC Loss (1st digit)
P2= AC Loss (2nd digit)
RP= AC Loss Restore (1st digit)
RP2= AC Loss Restore ( 2nd digit)
V= Supervisory Condition (1st digit)
V2= Supervisory Condition (2nd digit)
RV= Supervisory Condition Restore (1st digit)
RV2= Supervisory Condition Restore (2nd digit)
X= Test Report (1st digit)
X2= Test Report (2nd digit)
XA= Abnormal Test Report (1st digit)
XA2= Abnormal Test Report (2nd digit)
Table 5-2: Letter Code Definitions
(Refer to Table 5-1)
Document 50934 Rev B 5/15/00 PN 50934:B
39
The reporting structure for the Ademco Contact ID format is as follows:
SSSS 18 QXYZ GG CCC
where
SSSS = Four digit Subscriber ID (addresses 17 - 20 and
43 - 46)
18= Identifies transmission as Contact ID to the
receiver at the Central Station
Q= Event Qualifier
1 = New Event
2 = New Restore
XYZ= Event code (shown in Tables 3-4 and 3-7)
GG= Group number or Loop number
CCC= Device or Zone number
For general reports (alarm, trouble and supervisory), the GG and CCC fields
are transmitted as 00 and 000 unless changes to addresses 64-65 and 66-68
are made.
64 - 65= Loop number (GG), (factory default is 00)
66 - 68= Device/Zone number (CCC) for General Alarm,
Fault or Supervisory messages (factory default is 000).
A typical printout of alarm and trouble reports in the Ademco Contact ID
Reporting Structure follows:
1) In the sample report, SD46 refers to smoke detector at address 46 or
on zone 46.
2) 18, which is used in the reporting structure to identify the transmission
as Contact ID, is not printed out in the alarm and trouble report.
3) Q, which is the Event Qualifier for the reporting structure, is printed out
in the report as an E for New Event or R for New Restore.
40
4) CCCC, the first C is not transmitted by the ADT-UDACT but is printed
by the Central Station Receiver printer output.
Document 50934 Rev B 5/15/00 PN 50934:B
By using the Type Mode feature, identification of zone/point types is possible. Limits for the maximum
number of zones/points reported for each panel are as follows:
The chart below shows UL listed receivers compatible with the ADT-UDACT:
Format #
(Addresses 16 & 42)
Ademco
685 (1)
Silent Knight
9000
ITI
FBI
CS-4000 (3)
CP220FB
Osborne Hoffman
Radionics
Quick Alert Models 1 & 2
Linear/Sescoa
6000/6500 (5)
3000R (7)
Surguard
MLR-2 (9)
04+1 Ademco Express
14+2 Ademco Express
2 3+1/Standard/1800/2300
3 Not Used
4 3+1/Standard/1900/1400
5 Not Used
6 4+1/Standard/1800/2300
7 Not Used
8 4+1/Standard/1900/1400
9 Not Used
A 4+2/Standard/1800/2300
B Not Used
C 4+2/Standard/1900/1400
D Not Used
E Ademco Contact ID
F Not Used
✔✔
✔
✔✔
✔✔
✔
✔✔
✔✔
✔
✔✔
✔✔
✔
✔✔
✔✔
✔
✔✔
✔✔
✔
✔✔
✔✔
✔
✔✔
✔✔
✔
✔✔
✔✔
✔
✔✔
✔✔
✔
(2)
✔✔
✔✔
✔
(2)
✔✔
✔✔
✔
(2)
✔✔
✔✔
✔
(2)
✔✔
✔✔
✔
(2)
✔✔
✔ ✔
✔ (2)
✔ ✔
✔ ✔
✔
✔ ✔
✔ ✔ ✔ ✔
✔ ✔(8)
✔ ✔ ✔ ✔
✔ ✔ ✔ ✔
✔ ✔ (4)
✔ ✔ ✔ ✔
✔ ✔
✔ (4)
✔ ✔
✔✔
✔ ✔
✔
✔ (4)
✔✔
✔ ✔
✔ ✔
✔ (4)
✔ ✔
✔✔
✔ ✔
✔
✔ (4)
✔✔
✔ ✔
✔ ✔
✔ (4)
✔ ✔
✔ ✔ ✔ ✔
✔ ✔
✔ ✔ ✔ ✔
✔ ✔
✔
✔ ✔
✔ ✔
✔
✔ ✔
✔ ✔
✔
✔ ✔
✔ ✔
✔
✔ ✔
✔ ✔
✔
✔ ✔
✔ ✔
✔
✔ ✔
✔ ✔
✔(5,6)
✔ ✔
✔ ✔
✔
✔ ✔
✔ ✔
✔ (5)
✔ ✔
✔ ✔
✔ (5)
✔ ✔
✔ ✔
✔
✔ ✔
✔ ✔
✔
✔ ✔
✔ ✔
✔
✔ ✔
✔ ✔
✔
✔ ✔
✔ ✔
✔
✔ ✔
✔✔
✔
✔✔
✔✔
✔
✔✔
✔✔
✔
✔✔
✔✔
✔
✔✔
✔✔
✔
✔✔
✔✔
✔
✔✔
✔✔
✔
✔✔
✔✔
✔
✔✔
✔✔
✔
✔✔
42
(1) With 685-8 Line Card with Rev 4.4d software.
(2) With 9002 Line Card Rev 9035 software or 9032 Line Card with 9326A
software.
(3) Rev. 4.0 software.
(4) FBI CP220FB Rec-11 Line Card with Rev 2.6 software and a
memory card with Rev 3.8 software.
(5) Model 6500 with Rev 600 software.
(6) Model 6000 with Rev 204 software.
(7) With Rev B control card at Rev 1.4 software and Rev C line card at Rev
1.5 software.
(8) Model 2 only.
(9) Version 1.62 software.
Table 6-1: Compatible UL Listed Receivers
Document 50934 Rev B 5/15/00 PN 50934:B
7.0 Programming Reference Sheets
--- To enter Programming, press Mode: 7 7 6 4, Enter
❑42 Secondary Comm Format: Enter 0-F.
❑43 ❑44 ❑45 ❑46 Secondary Account Code: Valid keys are 0-F.
❑47 ❑48 ❑49 ❑50 Secondary 24-Hour Test Time.
❑
Secondary Number Test Time Interval. Enter '0' for 24-hour; '1' - 12-hour.
51
❑52 ❑
❑
54 ❑55
Start Monitoring Address. Valid entries are 01 through 32.
53
End Monitoring Address. Valid entries are 01 through 32.
Enter military time (i.e. 1400 for 2 PM)
15
41
.
❑
ADT-UDACT Communication Selection. Enter '0' to disable ADT-UDACT communication; '1' for zone
56
reporting receive only communication; '2' for zone reporting receive/transmit communication; '3' for point
reporting receive only; or '4' for point reporting receive/transmit.
❑
Backup Reporting. Enter '0' to have secondary phone number act as backup only; '1' to have secondary
57
phone number receive all reports and messages along with primary phone number.
❑
Touchtone/Rotary Select. Enter '0' for touchtone dialing; '1' for rotary dialing.
58
❑
Make/Break Ratio. If rotary dialing is selected in Address 58; Enter '0' for a 67/73 make/break ratio; '1'
59
for a 62/38 make/break ratio.
❑
Leave default of 0.
60
❑
Leave default of 0.
61
❑
AC Loss Reporting Delay. Enter '0' for no time delay after AC loss; '1' for 6 hour delay; '2' for 7 hour
62
delay; '3' for 8 hour delay; '4' for 9 hour delay; '5' for 10 hour delay; '6' for 11 hour delay; '7' for 15 hour
delay; '8' for 16 hour delay; '9' for 17 hour delay; 'A' for 18 hour delay; 'B' for 19 hour delay; 'C' for 20
hour delay; 'D' for 21 hour delay; 'E' for 22 hour delay; or 'F' for 23 hour delay.
❑
Host Panel ID. Enter '7' for Unimode 2020/1010 and ADT-MNNA; '8' for Unimode 300/400; all other
63
entries are invalid.
❑
64 ❑65
Loop Number. Factory set to '00'. Valid entries are 00 through 97
❑
66 ❑67 ❑68
through 999.
Device/Zone Number for General Reports. Factory set to '000'. Valid entries are 000
Note: Use chart to carefully identify function of each zone in the system. Take special precaution with any supervisory zones in the
system. Use Type Mode (refer to Section 4.2 Type Mode) to match the function of remaining zones in the system for proper
reporting.
Caution: When selecting burglar zones, modify the general supervisory report at addresses 75-77 and 145-147, to report general
burglary.
Note: Use chart to carefully identify all points in the system. Take special precaution with any supervisory points and remote
switches in the system. Use Type Mode (refer to Section 4.2 Type Mode) to match the function of remaining points in the system
for proper reporting. *For Unimode 300, use only Loop 1 in the chart.
48
Document 50934 Rev B 5/15/00 PN 50934:B
Appendix B (continued): Point Assignments (Unimode 300*/400)
Note: Addressable detectors on Loops 1 and 2 may be disabled using Type Mode. The Event Code cannot be altered.
*For Unimode 300, use only Loop 1 in the chart.
Document 50934 Rev B 5/15/00 PN 50934:B
49
Appendix B (continued): Point Assignments (Unimode 300*/400)
Note: Event Code cannot be altered. Physical location is critical to the point number reported.
50
Document 50934 Rev B 5/15/00 PN 50934:B
Appendix C: Point Assignments (ADT-MNNA)
Note: Use the following charts to carefully identify the function of each point in the system. Take special precaution with any
supervisory points in the system. For the ADT-UDACT to report a supervisory point to the central station, both the FACP and the
ADT-UDACT must have the point programmed as supervisory. Failure to program the panel or ADT-UDACT correctly will result
in a fire alarm signal being transmitted to the central station. All points greater than 568 can only be transmitted as fire alarm
points. Use Type Mode (refer to Section 4.2 Type Mode) to match the function of points in the system for proper reporting.
Point No.Point FunctionPoint No.Point FunctionPoint No.Point Function
The ADT-UDACT is capable of reporting up to 2,040 points when used with the Unimode
2020/1010 (1,980 Addressable devices plus 60 zones or 1,800 Addressable devices plus
240 zones) The first 568 points can be programmed using the Type Mode feature (refer to
Section 4.2). All points greater than 568 can be transmitted only as fire alarm points. For
the ADT-UDACT to report a supervisory point to the central station, both the FACP and
the ADT-UDACT must have the point programmed as supervisory. Failure to program the
panel or ADT-UDACT correctly will result in a fire alarm signal being transmitted to the
central station.
The ADT-UDACT may be mounted in the Unimode 2020/1010 control panel using the
CHS-4 chassis or remotely in an ADT-ABS-8RF or ADT-UBS-1F enclosure up to 6000
feet away from the control panel. All power must be removed from the control panel before
making any connections to prevent circuit damage. The EIA-485 serial interface is connected
between the control panel and ADT-UDACT using twisted, shielded pair wire. Power should
be wired from the control panel's main power supply 24 VDC (nominal) filtered, nonresettable
output to TB1 on the ADT-UDACT.
Note: The ADT-UDACT does not support voice and burglar options when used with the
Unimode 2020/1010. Refer to the Unimode 2020/1010Manual for additional restrictions.
ADT-UDACT mounting in a Unimode 2020/1010
Remove all power from the FACP by disconnecting AC and batteries. Install the three supplied nylon support posts for
the top and bottom left of the ADT-UDACT, one aluminum/nylon and one aluminum standoff in the CHS-4 chassis slot
in which the ADT-UDACT is to be installed (refer to Figure D-2). Position the ADT-UDACT on the standoffs and secure
on aluminum standoff with a #6-32 screw.
Figure D-1:
ADT-UBS-1F
6708ubs.wmf
Connect the communication line between the EIA-485 terminal block on the Unimode 2020/1010 SIB card and TB-1
terminals 3 and 4 on the ADT-UDACT being certain to observe polarity (refer to Figure D-3). Recommended wire is
12 AWG to 18 AWG twisted pair. If no other devices are connected to the EIA-485, install a 120 ohm EOL resistor
across ADT-UDACT TB1 terminals 3 and 4.
Connect the supplied Ground Strap from the ADT-UDACT Earth Ground terminal on TB3 to the CHS-4 chassis. Connect
24 VDC filtered, regulated power to TB1 terminals 1 and 2 on the ADT-UDACT.
ADT-UDACT
Nylon Support Posts
CHS-4
Aluminum Standoff and Screw
Ground Strap
Nylon and Aluminum Standoff
UDACCHS4.WMF
56
Figure D-2: ADT-UDACT Mounting in CHS-4
Document 50934 Rev B 5/15/00 PN 50934:B
TB5
Terminal 5 EIA-485 (+)
Terminal 6 EIA-485 (-)
EIA-485 (Supervised and
Power-limited
SIB
TB1
Terminal 3 RS+
Terminal 4 RS-
Refer to Figure I-4 for power
connections to ADT-UDACT
Install 120 ohm EOL resistor (P/N:71244)
across terminals 3 & 4 if last or only
device on EIA-485 line. Note that
Terminals 6 & 7 are not used at this time.
DO NOT USE
Figure D-3: EIA-485 Connection to Panel Mounted ADT-UDACT
ADT-UDACT
Document 50934 Rev B 5/15/00 PN 50934:B
57
Unimode 2020/1010 cabinet
SIB in Unimode 2020/1010
DO NOT USE
Install 120 ohm EOL resistor (P/N:71244)
across terminals 3 & 4 if last or only
device on EIA-485 line. Note that
Terminals 6 & 7 are not used at this time.
(Supervised)
To Phone
Lines
Solid Earth Ground Connection
ADT-UDACT in
ADT-ABS8RF
Notes:
AM20ABSU.WMF
(Shown with cover removed)
1) Ferrite cores are recommended for all applications.
2) Recommended wire is 12 AWG to 18 AWG twisted pair.
3) Shielded wire is not required (unless mandated by local AHJ).
If shielded wire is used, connect only one end of shield:
a) shield may be connected to cabinet (earth ground) at fire alarm panel, or
b) shield may be connected to TB1 Terminal 5 (Shield) at ADT-UDACT as shown in Figure D-4.
NOTE: The shield end that is not connected should be insulated to prevent accidental grounding.
Do not connect both ends of shield under any circumstance since a ground fault may result.
4) Conduit is recommended for external wire runs. Consult local building codes.
5) Connect Ground Strap (supplied with ADT-ABS8RF enclosure) from Earth Ground terminal on
ADT-UDACT to a solid building earth ground. Conduit alone will not provide a reliable earth ground.
6) ADT-UDACT may be located up to 6000 feet away from the host control panel.
7) Refer to Specifications for power requirements.
58
Figure D-4: EIA-485 Connection to Remote ADT-UDACT
Document 50934 Rev B 5/15/00 PN 50934:B
Appendix E: Unimode 300/400
The ADT-UDACT is capable of reporting a maximum of 99
zones or 448 points when used with the Unimode 400.
The ADT-UDACT must be mounted remotely in an ADT-ABS8RF
or ADT-UBS-1 enclosure up to 6000 feet away from the control
panel. All power must be removed from the Control Panel before
making any connections to prevent circuit damage. The EIA-485
serial interface is connected between the Control Panel and ADTUDACT using twisted, shielded pair wire. Power should be wired
from the MPS-400 24 VDC nonresettable output to TB1 on the
ADT-UDACT.
Remove all power from the control panel by disconnecting AC and
batteries. Since the Unimode 400 cannot accommodate the ADTUDACT in the control panel enclosure, the ADT-UDACT must
be mounted remotely using an ADT-ABS8RF enclosure. Ferrite
cores are recommended for this application. Refer to Figure E-3
and the accompanying notes for wiring alternatives.
Connect the communication line between the EIA-485 terminal block TB4 on the
Unimode 300/400 and TB-1 terminals 3 and 4 on the ADT-UDACT, being certain to
observe polarity (refer to Figure E-3). Recommended wire is 12 AWG to 18 AWG twisted
pair. If no other devices are connected to the EIA-485, install a 120 ohm EOL resistor
across ADT-UDACT TB1 terminals 3 and 4.
ABS-8R.WMF
Figure E-1:
ADT-ABS8RF
Connect the supplied ground strap from the ADT-UDACT Earth Ground terminal on
TB3 to a solid building earth ground. Connect 24VDC nonresettable power to TB-1
terminals 1 and 2 on the ADT-UDACT (refer to Figure E-3).
DISABLED
SUPERVISORY
SIGNAL
SYSTEM
TROUBLE
SYSTEM
RESET
POINTS
ALARM
SILENCED
LAMP
TEST
ABS-8R.WMF
Figure E-2: ADT-CPU-400 Module
Document 50934 Rev B 5/15/00 PN 50934:B
59
Install 120 watt EOL
resistor (PN: 71244) on
TB1 terminals 3 and 4 if
last or only device on
EIA-485 line
Supervised and
Power-limited
EIA-485 and
power wiring
Unimode 400 Cabinet
ADT-CPU-400
MPS-400
TB2-1 (+)
TB2-2 (–)
24 VDC
Nonresettable
power
Ferrite cores
PN 29090
To supervised
phone lines
Solid earth
ground
EIA-485 (ACS Mode)
TB4-1 (+)
TB4-2 (–)
DO NOT USE
ADT-UDACT in ADT-ABS8RF
(shown with cover removed)
Notes:
1) Ferrite cores are recommended for all applications.
2) Recommended wire is 12 AWG to 18 AWG twisted pair.
3) Shielded wire is not required (unless mandated by local AHJ).
If shielded wire is used, connect only one end of shield:
a) shield may be connected to cabinet (earth ground) at fire alarm panel, or
b) shield may be connected to TB1 Terminal 5 (Shield) at ADT-UDACT as shown in Figure E-3.
NOTE: The shield end that is not connected should be insulated to prevent accidental grounding.
Do not connect both ends of shield under any circumstance since a ground fault may result.
4) Conduit is recommended for external wire runs. Consult local building codes.
5) Connect Ground Strap (supplied with ADT-ABS8RF enclosure) from Earth Ground terminal on ADTUDACT to a solid building earth ground. Conduit alone will not provide a reliable earth ground.
6) ADT-UDACT may be located up to 6,000 feet away from the host control panel.
7) Refer to Specifications for power requirements.
Figure E-3: Unimode 400 External ADT-UDACT Mounting in ADT-ABS8RF
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Document 50934 Rev B 5/15/00 PN 50934:B
Type Mode Programming
To disable or identify a zone or point in Type Mode (refer to Section 4.2), the following Entries/Addresses are used:
For Zone Identification:
Zones 1 - 99 are programmed by Entries/Addresses 01 - 99. The factory default code is 'fire alarm.'
For Point Identification:
Loop 1, Modules 101 - 196 are programmed by Type Mode Entries/Addresses 01 - 96
Loop 2 Modules 201 - 296 are programmed by Type Mode Entries/Addresses 101 - 196
Loop 1, Detectors 101 - 196 are programmed by Type Mode Entries/Addresses 201 - 296
Loop 2, Detectors 201 - 296 are programmed by Type Mode Entries/Addresses 301 - 396
System 5000 output modules are programmed by Type Mode Entries/Addresses 401 - 464
CAUTION: Addresses 97 - 100, 197 - 200 and 297 - 300 must not be programmed. Refer to the CAB illustrations below.
Event Code/Report Transmission
via Ademco Contact ID Format Only
For Zone Reporting:
Zones 1 - 99 report as zone numbers 01 - 99
For Point Reporting:
Loop 1, Modules 101 - 196 report as device numbers 01 - 96 (Report defaults to '110')
Loop 2, Modules 201 - 296 report as device numbers 101 - 196 (Report defaults to '110')
Loop 1, Detectors 101 - 196 report as device numbers 201 - 296 (Report defaults to '111')
Loop 2, Detectors 201 - 296 report as device numbers 301 - 396 (Report defaults to '111')
Output Modules 1 - 64 report as device numbers 401 - 464 (Report defaults to '380', trouble only)
CAUTION: Point reports for Loop 1, Modules 197 through 199, Detectors 197 through 199 and point reports for Loop
2, Modules 297 through 299 and Detectors 297 through 299 are omitted. However, when devices are installed on either
SLC Loop and the device is in alarm or trouble, the ADT-UDACT will transmit the general alarm and general trouble
reports if enabled.
Following are module locations and their corresponding addresses in various cabinets:
ADT-CAB - B3
UPC004-PFA424-714234-524
ADT-CAB - C3
UPC004-PFA
ADT-CAB - 400AA
UPC004-PFA804-104
044-334844-144654-944464-754
804-104614-904424-714234-524
044-334844-144654-944464-754
Document 50934 Rev B 5/15/00 PN 50934:B
61
Appendix F: ADT-MNNA
The ADT-UDACT is capable of reporting up to 2,040 points when used with the ADT-MNNA. The first 568 points can
be programmed using the Type Mode feature (refer to Section 4.2). All points greater than 568 can be transmitted only
as fire alarm points. For the ADT-UDACT to report a supervisory point to the central station, both the FACP and the
ADT-UDACT must have the point programmed as supervisory. Failure to program the panel or ADT-UDACT correctly
will result in a fire alarm signal being transmitted to the central station.
The ADT-UDACT may be mounted in the ADT-MNNA control panel using the CHS-4 chassis or remotely in an ADTABS8RF or ADT-UBS-1 enclosure up to 6,000 feet away from the control panel. All power must be removed from the
control panel before making any connections to prevent circuit damage. The EIA-485 serial interface is connected between
the control panel and ADT-UDACT using twisted, shielded pair wire. Power should be wired from the control panel's
main power supply 24 VDC (nominal) filtered, nonresettable output to TB1 on the ADT-UDACT.
Note: The ADT-UDACT does not support voice and burglar options when used with the ADT-MNNA. Refer to the ADTMNNA Manual for additional restrictions.
ADT-UDACT mounting in an ADT-MNNA
Remove all power from the ADT-MNNA by disconnecting AC and batteries. Install the three supplied nylon support
posts for the top and bottom left of the ADT-UDACT, one aluminum/nylon and one aluminum standoff in the CHS-4
chassis slot in which the ADT-UDACT is to be installed. Position the ADT-UDACT on the standoffs and secure on
aluminum standoff with a #6-32 screw.
Connect the communication line between the EIA-485 terminal block on the ADT-MNNA and TB-1 terminals 3 and 4 on
the ADT-UDACT being certain to observe polarity (refer to Figure F-1). Recommended wire is 12 AWG to 18 AWG
twisted pair. If no other devices are connected to the EIA-485, install a 120 ohm EOL resistor across ADT-UDACT TB1
terminals 3 and 4.
Connect the supplied Ground Strap from the ADT-UDACT Earth Ground terminal on TB3 to the CHS-4 chassis. Connect
24 VDC filtered power to TB1 terminals 1 and 2 on the ADT-UDACT.
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Document 50934 Rev B 5/15/00 PN 50934:B
TB1
Terminal 3 EIA-485 (+)
Terminal 4 EIA-485 (-)
ADT-MNNA
TB1
EIA-485 (Supervised and
Power-limited
power connections to ADT-UDACT
Install 120 ohm EOL resistor (P/N:71244)
across terminals 3 & 4 if last or only
device on EIA-485 line. Note that
Terminals 6 & 7 are not used at this time.
TB1
Terminal 3 RS+
Terminal 4 RS-
DO NOT USE
ina-udac.wmf
ADT-UDACT
Figure F-1: EIA-485 Connection to Panel Mounted ADT-UDACT
Document 50934 Rev B 5/15/00 PN 50934:B
63
ADT-MNNA cabinet
ADT-MNNA
DO NOT USE
Install 120 ohm EOL resistor (P/N:71244)
across terminals 3 & 4 if last or only
device on EIA-485 line. Note that
Terminals 6 & 7 are not used at this time.
(Supervised)
To Phone
Lines
Solid Earth Ground Connection
ADT-UDACT in ADT-ABS8RF
(Shown with cover removed)
Notes:
ina-absu.WMF
1) Ferrite cores are recommended for all applications.
2) Recommended wire is 12 AWG to 18 AWG twisted pair.
3) Shielded wire is not required (unless mandated by local AHJ).
If shielded wire is used, connect only one end of shield:
a) shield may be connected to cabinet (earth ground) at fire alarm panel, or
b) shield may be connected to TB1 Terminal 5 (Shield) at ADT-UDACT.
NOTE: The shield end that is not connected should be insulated to prevent accidental grounding.
Do not connect both ends of shield under any circumstance since a ground fault may result.
4) Conduit is recommended for external wire runs. Consult local building codes.
5) Connect Ground Strap (supplied with ADT-ABS8RF enclosure) from Earth Ground terminal on ADTUDACT to a solid building earth ground. Conduit alone will not provide a reliable earth ground.
6) ADT-UDACT may be located up to 6,000 feet away from the host control panel.
7) Refer to Specifications for power requirements.
64
Figure F-2: EIA-485 Connection to Remote ADT-UDACT
Document 50934 Rev B 5/15/00 PN 50934:B
Appendix G: Annunciators
The ADT-UDACT is connected to the EIA-485 communication bus. AFM series and LDM series annunciators may also
occupy the same bus. Use of an ADT-UDACT along with one of the above mentioned annunciators on the same control
panel will alter the assignments of the first eight yellow LEDs on the annunciator as follows: