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ADT Security Services, Inc.
One Town Center Road
Boca Raton, FL 33431
Phone: (561) 988-3600
FAX: (561) 988-3675
ADT-LCD40 Series
Remote Fire
Annunciators
for use with Unimode 200
Addressable Fire Alarm Control Panel
FIRE ALARM ANNUNCIATOR
Ack Silence
Drill
Hold 2 sec.
Reset
Document #50520
7/25/00 Rev:
P/N 50520:D ECN 00-325
D
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Fire Alarm System Limitations
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.).
While a fire alarm system may lower insurance
rates, it is not a substitute for fire insurance!
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.
detectors are designed to protect property, not life.
IMPORTANT!
the same room as the control panel and in rooms used
by the system for the connection of alarm transmission
Smoke detectors must be installed in
wiring, communications, signaling, and/or power.
detectors are not so located, 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.
Heat
If
LimWarSm.p65 01/10/2000
Page 3
Installation Precautions
WARNING -
connected to the fire alarm control panel.
sources 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.
product 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
RH (non-condensing) at 30°
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
Disconnect all
System Reacceptance Test after Software
To ensure proper system operation, this
and at a relative humidity of 85%
C/86° F. However, the
Adherence to the following will aid in problem-free
installation with long-term reliability:
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
Consult with the Technical Services Department
strikes.
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 staticsensitive components. Always ground yourself with a
proper wrist strap before handling any circuits so that
static charges are removed from the body. Use staticsuppressive 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.
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.
LimWarSm.p65 01/10/2000
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.
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Notes
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Document 50520 Rev D 7/25/00 P/N 50520:D
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Table of Contents
Tabl e o f Co nte n ts
Section 1: ADT-LCD40 Series Annunciators ...........................................6
1.1 ADT-LCD40 and ADT-LCD40L ...................................................7
1.2 ADT-LCD40 Only ..........................................................................7
Figure 1-1: Components .......................................................8
Figure 1-2: Wiring to Terminals ...........................................9
1.3 SW1 DIP Switch Settings ...............................................................10
Figure 1-3: DIP Switch Settings Example ............................11
1.4 Typical Configuration .....................................................................12
Figure 1-4: Typical Configuration ........................................12
Section 2: Operation ...................................................................................13
2.1 Display Patterns ..............................................................................13
2.2 Switch Functions for ADT-LCD40 Only .......................................14
2.2.1 Key-switch ..........................................................................14
2.2.2 Acknowledge .......................................................................14
2.2.3 Silence ..................................................................................15
2.2.4 Drill: Hold 2 Sec. .................................................................15
2.2.5 Reset .....................................................................................15
2.3 LED Indicators (all ADT-LCD40 Series) .......................................16
2.3.1 Power ...................................................................................16
2.3.2 Fire Alarm ............................................................................16
2.3.3 Supervisory ..........................................................................16
2.3.4 Trouble .................................................................................16
Section 3: Mounting ....................................................................................17
3.1 ADT-LCD40 Series Preparation .....................................................17
Figure 3-1: Trim Ring Removal ...........................................17
Figure 3-2: Hardware and Backboxes ..................................18
3.2 Semi-flush Mount Backbox ............................................................19
Figure 3-3: Semi-flush Mounting .........................................19
3.3 Surface Mount Backbox .................................................................20
Figure 3-4: Surface Mounting ...............................................20
Section 4: ADT-LCD40 Series Electrical Connections ............................21
Figure 4-1: Power Connection ..............................................21
Figure 4-2: EIA-485 Connection ..........................................22
Figure 4-3: DIM-485 Connections .......................................23
Figure 4-4: Wiring FACP to ADT-LCD40 Series ................24
Section 5: EIA-485 Shield Termination ....................................................25
5.1 EIA-485 Shield Not in Conduit ......................................................25
Figure 5-1: EIA-485 Without Conduit ..................................26
5.2 EIA-485 Shield in Full Conduit ......................................................27
Figure 5-2: EIA-485 In Conduit ...........................................27
Section 6: Programming the Unimode 200 ...............................................28
Document 50520 Rev D 7/25/00 P/N 50520:D
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ADT-LCD40 Series Annunciators
Section 1:
ADT-LCD40 Series Annunciators
FIRE ALARM ANNUNCIATOR FIRE ALARM ANNUNCIATOR
Ack Silence
Drill
Hold 2 sec.
ADT-LCD40
Reset
ADT-LCD40L
Note: Only Model ADT-LCD40L is listed for use in Canada.
The ADT-LCD40 Series Annunciators are compact, attractive,
40-character, backlit LCD fire annunciators designed for use with the
Unimode 200 Addressable Fire Alarm Control Panel. The
ADT-LCD40L operates the same as the ADT-LCD40, except it does not
have function switches or a key-switch. It should be noted that the
ADT-LCD40 Series Annunciator displays will mimic the LCD display
located on the Unimode 200 main circuit board.
If software with Part Number #UNIMODE200V3.0 is installed in the
ADT Unimode 200, the ADT-LCD40 Series Annunciator must have software with a Part Number of 73879 to operate with the control panel. If
software with a Part Number of #UNIMODE200V4.0 or higher is
installed in the Unimode 200, the ADT-LCD40 Series Annunciator must
have software with a Part Number of #LCD40V2.0 or higher to operate
with the control panel.
The ADT-LCD40 Series is capable of displaying English-language text
of system point status including device type, independent
point
alarm,
trouble or supervisory, zone and custom alpha labels programmed into
the control panel. The ADT-LCD40 Series also provide system status
LEDs to display Power, Alarm, Trouble and Supervisory conditions.
The ADT-LCD40 is capable of performing system acknowledge,
silence, drill and reset remotely while the ADT-LCD40L does not have
these features.
Communication between the control panel and the ADT-LCD40 Series
is accomplished over a two-wire serial interface employing the EIA-485
communication standard. Up to 32 annunciators may be connected to
the two-wire EIA-485 circuit. The annunciators may be powered from
the host FACP or remote UL listed, filtered, power supplies.
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Document 50520 Rev D 7/25/00 P/N 50520:D
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ADT-LCD40 Series Annunciators ADT-LCD40 and ADT-LCD40L
1.1 ADT-LCD40 and ADT-LCD40L
• 40-character LCD display (20 characters x 2 lines) is backlit
under normal and alarm conditions
• System Status LEDs for Power (green), Alarm (red), Trouble
(yellow) and Supervisory (yellow)
• No programming necessary — duplicates messages at control
panel display
• Local piezo sounder with alarm and trouble resound
• Device type identifiers from the control panel
• Device & zone custom alpha labels from the control panel
• Time/date and device address from the control panel
• EIA-485 connects to control panel terminal port (requires
DIM-485 module)
• Plug-in terminal blocks for ease of installation and service
• DIP switches control piezo enable/disable and transmit/receive
mode
• Up to 32 ADT-LCD40 Series Annunciators per Unimode 200
• Mounting options:
Surface mounting in SBB-3 (2.75" depth)
✓
Semi-flush mounting in three-gang electrical box (P/N
✓
10103) with a minimum depth of 2.187"
Can be located up to 3,000 feet (900 m) from the panel
✓
• Backlight turns off during AC loss to conserve battery power but
will turn back on if an alarm condition occurs.
1.2 ADT-LCD40 Only
• Enable/Disable key-switch
• Function switches for:
Acknowledge
✓
Signal Silence
✓
Drill
✓
System Reset
✓
• DIP switches control function switches and key-switch enable/
disable
Document 50520 Rev D 7/25/00 P/N 50520:D
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ADT-LCD40 Series Annunciators Components
Figure 1-1: Components
Note: OPEN (Up)
OFF = Receive only
OFF = Key-switch Disable on ADT-LCD40 only
ROM
(not used on ADT-LCD40L)
ON = Piezo Enable
Future use
position on SW1
is OFF state (See
“Wiring to Ter minals” on page 9.).
Top view
Membrane Connector
Cable connection to membrane switches
for Acknowledge, Silence, Drill and Reset.
8
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Piezo Sounder
The ADT-LCD40 sounder, if enabled, will
be activated when any new alarm or trouble
is received from the panel. It is silenced by
an Acknowledge switch. Piezo must not be
disabled without approval of the LAHJ
(Local Authority Having Jurisdiction).
Page 9
ADT-LCD40 Series Annunciators Wiring to Terminals
Figure 1-2: Wiring to Terminals
Side view
P1
Terminal Block replacement
P/N 02108
+ EIA-485 OUT
+ EIA-485 IN
- EIA-485 OUT
- EIA-485 IN
no connection
+24 VDC IN
+24 VDC OUT
-24 VDC IN
-24 VDC OUT
Earth Ground Option
P2
Te r mi na l Bl oc k
replacement
P/N 02109
Note: These connections must be power-limited and the +24 VDC
nominal power must be filtered and nonresettable.
Current Consumption @ 24 VDC nominal (filtered and nonresettable)
Normal/Standby (no activity): 64 mA
Trouble Condition: 64 mA
Alarm: 66 mA
AC Fail (not backlit): 28 mA
Document 50520 Rev D 7/25/00 P/N 50520:D
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ADT-LCD40 Series Annunciators SW1 DIP Switch Settings
1.3 SW1 DIP Switch Settings
The Up position on DIP switch SW1 is the Off state. Refer to “DIP
Switch Settings Example” on page 11, for an explanation of DIP switch
positions. SW1 switch settings follow:
1 - On (Down) = Receive/Transmit, Off (up) = Receive Only.
Set switch 1 to Off (Up) position for all ADT-LCD40 Series Annunciators except the last (or only) annunciator on the EIA-485 loop.
Set switch to On (Down) position for the last or only annunciator on
the EIA-485 loop to allow transmission of a supervision signal (and
function switch depressions on the ADT-LCD40) back to the FACP.
The last or only annunciator must be set for Receive/Transmit
(switch 1 in the Down position).
A break (open circuit) in the power or EIA-485 connections creates
an ADT-LCD40 Series Annunciator fault at the Unimode 200 panel.
All annunciators before the break will continue to display information (
but the function switches on the ADT-LCD40 will no longer
).
operate
ADT-LCD40 Only (not used on the ADT-LCD40L)
2 On (Down) = Key-switch enabled, Off (Up) = Key-switch disabled.
Switch 2 set to the On (Down) position enables key-switch
operation. The key-switch may now be used to enable the
ADT-LCD40 membrane switches, allowing remote switch functions, or lockout the switches, preventing remote switch functions
Switch 2 set to the Off (Up) position disables the key-switch
operation. Refer to “Switch Functions for ADT-LCD40 Only” on
page 14, for key-switch function description.
3 - On (Down) = Piezo sounder enabled, Off (Up) = Piezo sounder
disabled.
CAUTION:
Piezo sounder must not be disabled without prior
approval of the Local Authority Having Jurisdiction (LAHJ).
4 through 8 = Future use.
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Document 50520 Rev D 7/25/00 P/N 50520:D
Page 11
ADT-LCD40 Series Annunciators DIP Switch Settings Example
.
Figure 1-3: DIP Switch Settings Example
Down Position = On State
Up (OPEN) Position = Off State
Note: SW1 DIP switch settings as illustrated in Figure 1-3 are as
follows:
1. DIP switch 1: On (Down) - Receive/Transmit. This setting is
used for the last or only ADT-LCD40 Series Annunciator on the
EIA-485 line
2. DIP switch 2: Used on ADT-LCD40 only - On (Down) = membrane function switches enabled.
3. DIP switch 3: Off (Up) = piezo sounder disabled (requires
approval of LAHJ)
4. DIP switches 4 through 8: not used
Document 50520 Rev D 7/25/00 P/N 50520:D
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ADT-LCD40 Series Annunciators Typical Configuration
1.4 Typical Configuration
The ADT-LCD40 Series Annunciators mimic the Unimode 200 display,
have full point-display capacity and require no programming. The
ADT-LCD40 offers multiple annunciator locations with the capability
of remote Acknowledge, Signal Silence, Drill and Reset functions.
Figure 1-4: Typical Configuration
3,000 feet (900 m) to last device on loop
Terminal Mode EIA-485 (2 wires)
FIRE ALARM ANNUNCIATOR
Drill
Ack Silence
Reset
Hold 2 se c.
24 VDC (2 wires)
Terminal Mode EIA-485 return (2 wires)
3,000 feet (900 m) back from last device on loop
FIRE ALARM ANNUNCIATOR
Ack Silence
FIRE ALARM ANNUNCIATOR
Drill
Reset
Hold 2 se c.
Ack Silence
Drill
Reset
Hold 2 se c.
12
Notes:
1. EIA-485: maximum of 6,000 feet (1,800 m) total cable length
from FACP to annunciator and back to FACP for supervision
(3,000 feet [900 m] maximum to last ADT-LCD40). Circuit is
power-limited.
2. Up to 32 ADT-LCD40 Series Annunciators may be used on the
EIA-485 circuit. The Unimode 200 can power a maximum of
five annunciators. If additional annunciators are connected, the
FCPS-24F may be used to supply additional power. Power
supplies used for this purpose must have their negative terminals
commoned together.
3. Between each ADT-LCD40 Series annunciator are four wires - a
twisted shielded pair for data communications and a pair for 24
VDC power. The return circuit only requires two wires for data
communication supervision, wired from the last or only annunciator on the line.
Document 50520 Rev D 7/25/00 P/N 50520:D
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Operation Display Patterns
Section 2:
Operation
2.1 Display Patterns
The ADT-LCD40 Series Annunciators directly display (mimic) the
information on the Unimode 200 main circuit board LCD display with
the following exceptions:
• Upon Power-up, the ADT-LCD40 Series may display the
following message until a valid message is received from the
Unimode 200
SYSTEM POWER UP
WAITING FOR THE FACP
• If an ADT-LCD40 Series Annunciator fails to receive communications from the panel for a period of over 30 seconds, it will
activate its local sounder (if so programmed) and display the
following message:
COMMUNICATIONS FAIL
• When placing the host Unimode 200 into some aspects of the
Programming Mode, the annunciator will display the following
message:
PROGRAMMING THE
UNIMODE-200 PANEL
The message shown above will appear at the Level One passcode for
(1) Autoprogram, (2) Point Edit, (3) System Edit, (4) Passcode Entry
and (5) Load. The same message will also appear at the Level Two
passcode for (1) Disable, (2) Clear History and (4) Time.
Document 50520 Rev D 7/25/00 P/N 50520:D
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Operation Switch Functions for ADT-LCD40 Only
2.2 Switch Functions for ADT-LCD40 Only
2.2.1 Key-switch
The key-switch is used to enable
Key-switch (shown in Off position)
and disable the operation of the
function switches if switch 2 on
DIP switch SW1 has been placed
to the On (Down) position.
TOR
To enable the Acknowledge,
Silence, Drill and Reset function
switches, insert a standard ADT
key into the key-switch located at
the top right corner of the
ADT-LCD40. Make certain the
Reset
key is inserted completely before
attempting to turn it. Turn the key
clockwise until it stops. Leave the key inserted while pressing the
function switches. When finished with the function switches, turn
key-switch counterclockwise to disable function switches.
Note that the key-switch should normally be in the disabled position
(fully counterclockwise), with the key removed and access to the key
restricted to authorized personnel only. Do not leave the key
unattended in the ADT-LCD40.
2.2.2 Acknowledge
When the Acknowledge switch is pressed and released, the
ADT-LCD40 sends an Acknowledge command to the control panel.
Pressing the Acknowledge switch silences the local piezo sounder,
the sounders located in all other system annunciators and the
sounder located on the Fire Alarm Control Panel's main circuit
board. It will also change all flashing system LEDs to steady on.
Only one press is necessary regardless of the number of new alarms,
troubles or supervisory signals.
An acknowledge message is also sent to the printer and the history
files in the Unimode 200. Multiple active events (alarms, troubles,
supervisories) are scrolled on the display at a one second rate, but
may be held for sequential display by pressing and holding the
Acknowledge switch.
When more than one event exists, the first press of the Acknowledge
switch silences system piezo sounders and changes all flashing
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Operation Switch Functions for ADT-LCD40 Only
LEDs to steady on. The second press of the switch stops the scrolling and holds the event on the display for one minute. Subsequent
pressing of the switch 'steps' through each active event.
2.2.3 Silence
When the Silence switch is pressed and released, the ADT-LCD40
sends a signal silence command to the control panel. The Silence
switch performs the same functions as the Acknowledge switch. In
addition, if an alarm exists, it turns off all silenceable NACs and
causes the FACP Alarm Silence LED to turn on while the
ADT-LCD40 will display a 'silenced' message. It also sends an
'Alarm Silenced' message to the printer and the history file within the
Unimode 200. A subsequent new alarm will resound the appropriate
NACs (Notification Appliance Circuits) and local sounders.
2.2.4 Drill: Hold 2 Sec.
When the Drill switch is pressed and held for at least two seconds
(time required to prevent accidental activations), the ADT-LCD40
will transmit a drill command to the control panel. This command
causes the FACP to turn on both main panel NAC outputs and all
silenceable circuits (all C304 modules/NACs that are programmed
silenceable). In the event that the system was previously silenced,
the drill command will also turn off the Alarm Silence LED. The
'Manual Evacuate' message is shown on the ADT-LCD40 display.
The same message is sent to the FACP display, printer and history
files. The Silence switch operates on
silenceable
NAC outputs only.
2.2.5 Reset
When the System Reset switch is pressed and released, the
ADT-LCD40 sends a Reset command to the control panel. This will
turn off all C304 modules and Notification Appliance Circuits, temporarily turns off resettable power to 4-wire detectors, causes a 'System All Normal' message to be displayed on the ADT-LCD40 and
sends a 'System Reset' message to the FACP display, printer and Unimode 200 history files. It also turns on all system LEDs, piezo
sounders and LCD display segments as long as the Reset switch is
held (lamp test). Any alarm or trouble that exists after a Reset will
resound the system.
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Operation LED Indicators (all ADT-LCD40 Series)
2.3 LED Indicators (all ADT-LCD40 Series)
2.3.1 Power
This is a green LED which illuminates if AC power is applied to the
host FACP. The green LED will turn off if AC power to the host
FACP is lost.
2.3.2 Fire Alarm
This is a red LED that flashes when one or more fire alarms occur. It
illuminates steadily when an Acknowledge or Silence switch is
pressed. The Alarm LED turns off when the Reset switch is pressed.
2.3.3 Supervisory
This is a yellow LED that flashes when one or more supervisory
conditions occur, such as a sprinkler valve tamper condition. It
illuminates steadily when an Acknowledge or Silence switch is
pressed. It turns off when the Reset switch is pressed.
2.3.4 Trouble
This is a yellow LED that flashes when one or more trouble conditions occur. It stays on steady when an Acknowledge or Silence
switch is pressed. The LED turns off when all trouble conditions are
cleared. This LED will also illuminate if the microprocessor watchdog circuit within the ADT-LCD40 Series is activated.
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Mounting ADT-LCD40 Series Preparation
Section 3:
Mounting
3.1 ADT-LCD40 Series Preparation
The ADT-LCD40 Series Annunciators can be surface mounted in a
three-gang electrical box such as the P/N SBB-3 (2.75" depth) or semiflush mounted in a three-gang electrical box, P/N 10103 or equivalent,
with a minimum depth of 2 3/16". The ADT-LCD40 Series Annunciators cannot
nected together. Select and remove the appropriate knockout(s), pull the
necessary wires through the knockouts and mount the three-gang box in
or on the wall depending on the type of installation desired.
that power is not applied to the wiring during the installation procedure.
Note: To ensure static protection, all enclosures, including the
ADT-LCD40 Series electrical box, must be connected to earth ground!
Never use the shield for grounding purposes.
To mount the ADT-LCD40 Series Annunciators in an electrical box, the
trim ring must first be removed. The trim ring is held in place by two
screws inserted through the top and bottom edge as illustrated in Figure
3-1. Removal of the trim ring will expose a metal flange with mounting
holes. Refer to “Hardware and Backboxes” on page 18.
be mounted in three gangable electrical switch boxes con-
Be certain
Figure 3-1: Trim Ring Removal
Screw
FIRE ALARM ANNUNCIATOR
Ack Silence
Screw
Document 50520 Rev D 7/25/00 P/N 50520:D
Drill
Hold 2 sec.
Reset
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Mounting Hardware and Backboxes
Figure 3-2: Hardware and Backboxes
FIRE ALARM ANNUNCIATOR
ADT-LCD40 Series Trim Ring
(replacement P/N 23165)
3-Gang Electrical Box P/N 10103
(semi-flush mount)
Ack Silen ce
Hold 2 sec.
Drill
Reset
ADT-LCD40 Series flange
18
3-Gang Electrical Box P/N SBB-3
(surface mount)
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Page 19
Mounting Semi-flush Mount Backbox
3.2 Semi-flush Mount Backbox
Remove the plug-in terminal blocks from the ADT-LCD40(L) circuit
board. Connect the EIA-485 and power wiring into the terminal block
positions illustrated in Figure 1-1 on page 8, Figure 4-1 on page 21 and
Figure 4-2 on page 22. Plug the terminal blocks back into the P1 and P2
connectors on the back of the annunciator. Set DIP switch SW1 for the
desired options (refer to Figure 1-2 on page 9).
Carefully insert the ADT-LCD40(L) into the three-gang electrical box
and attach it using the four mounting holes on the ADT-LCD40(L)
flange and the four screws provided for this purpose. Replace the trim
ring and secure with the two screws which were previously removed.
Adjust the plastic trim ring to the surface of the wall before tightening
the screws.
Do not overtighten.
Figure 3-3: Semi-flush Mounting
Mounting holes (4)
ADT-LCD40 Series flange
FIRE ALARM ANNUNCIATOR
CAUTION! The ADT-LCD40 Series can
be semi-flush mounted in a three-
ONLY
gang electrical box, P/N 10103 or equivalent, with a minimum depth of 2 3/16".
The ADT-LCD40 Series
mounted in three gangable electrical
switch boxes connected together.
Three-gang electrical box
flange
ADT-LCD40(L)
Document 50520 Rev D 7/25/00 P/N 50520:D
cannot
be
Three-gang electrical box P/N 10103
Ack Silence
Drill
Hold 2 sec.
EIA-485 and power wiring
Reset
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Mounting Surface Mount Backbox
3.3 Surface Mount Backbox
Remove the plug-in terminal blocks from the ADT-LCD40(L) circuit
board. Connect the EIA-485 and power wiring into the terminal block
positions illustrated in Figure 1-1 on page 8, Figure 4-1 on page 21 and
Figure 4-3 on page 23. Plug the terminal blocks back into the P1 and P2
connectors on the back of the annunciator circuit board. Set DIP switch
SW1 for the desired options (refer to Figure 1-2 on page 9).
Carefully insert the ADT-LCD40(L) into the three-gang electrical box
and attach it using the four mounting holes on the ADT-LCD40(L)
flange and the four screws provided for this purpose. Replace the trim
ring and secure with the two screws which were previously removed.
Do not overtighten.
Figure 3-4: Surface Mounting
ADT-LCD40 Series flange
Mounting holes (4)
FIRE ALARM ANNUNCIATOR
CAUTION! The ADT-LCD40 Series can
be surface mounted in a three-
ONLY
gang electrical box, P/N SBB-3 or
equivalent, with a minimum depth of
2.75". The ADT-LCD40 Series
be mounted in three gangable electrical
switch boxes connected together.
Three-gang electrical box P/N SBB-3 or
equivalent with a 2.75" minimum depth.
flange
ADT-LCD40(L) Three-gang surface box P/N SBB-3
cannot
Ack Sile nce
Drill
Reset
Hold 2 sec.
EIA-485 and power wiring
20
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ADT-LCD40 Series Electrical Connections Power Connection
Section 4:
ADT-LCD40 Series Electrical
Connections
The ADT-LCD40 Series Annunciators can be powered by the Unimode
200 24VDC nominal power or from a remote UL listed, filtered power
supply such as the FCPS-24F. The power run to the annunciator must
be power-limited but need not contain a power supervision relay since
loss of power is inherently supervised through loss of communication
with the annunciator. Maximum ADT-LCD40 Series current draw from
the power supply (under alarm condition) is 66 mA. Maximum current
draw from the control panel's secondary power source (batteries) under
loss of AC power is 28 mA, since the LCD backlight is turned off during
AC loss. Backlighting is turned back on during AC loss only for alarm
conditions in the system.
Figure 4-1: Power Connection
ADT-LCD40 Series
P1
P2
Plug-in Terminal Blocks
+24 VDC IN from main power supply
+24 VDC OUT to next ADT-LCD40(L)
-24 VDC IN from main power supply
-24 VDC OUT to next ADT-LCD40(L)
no connection
Earth Ground Option
1. All connections are power-limited and supervised
2. 12 - 18 AWG (0.75 - 3.25 mm
2
) wire for 24 VDC circuit is
acceptable
3. Power wire distance limitation is set by 1.2 volt maximum line
drop from source to end of circuit.
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ADT-LCD40 Series Electrical Connections EIA-485 Connection
Figure 4-2: EIA-485 Connection
ADT-LCD40 Series
P1
Terminal Block replacement
P/N 02108
+ EIA-485 IN from source
- EIA-485 IN from source
Out to next ADT-LCD40 Series
or return to host FACP if last or
only annunciator on line
6,000 feet (1,800 m) maximum wire run
from and back to FACP (3,000 feet to last
ADT-LCD40) @ 18 AWG (0.75 mm
(+) (-)
EIA-485
P2
Te r mi na l Bl oc k
replacement
P/N 02109
Notes:
1. All connections are power-limited and supervised
2. A maximum of 32 ADT-LCD40 Series annunciators may be connected to this circuit
3. 6,000 feet (1,800 m) maximum distance @ 18 AWG (0.75 mm
between the panel, annunciators and return to the panel.
4. Use overall foil/braided-shielded twisted pair cable suitable for
EIA-485 applications (refer to “EIA-485 Shield Termination” on
page 25, for shield termination information)
5. The EIA-485 circuit is rated at 5.5 VDC maximum and 60 mA
maximum
6. The ADT-LCD40 Series annunciators have resistors built into
the circuit board at the In (Terminals 2 & 4) and the Out (Terminals 1 & 3) for impedance matching. There is no
need for the
installer to add impedance matching resistors
2
)
2
)
22
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Page 23
ADT-LCD40 Series Electrical Connections DIM-485 Connections
Figure 4-3: DIM-485 Connections
Circuit Board
1 2 3 4
DIM-485 CONNECTIONS
DIM-485
ADT-LCD40 Series
3
Terminal 1 - OUT (+) P1 Terminal 2 - IN (+)
Terminal 2 - IN (+)
P1 Terminal 1
2
- OUT (+)
Terminal 3 - OUT (-) P1 Terminal 4 - IN (-)
Terminal 4 - IN (-)
P1 Terminal 3
2
- OUT (-)
1. Terminal to terminal wiring is shown between the DIM-485 and
one ADT-LCD40 Series Annunciator
2. If more than one ADT-LCD40 Series Annunciator is installed,
the wiring to the DIM-485 In (+) Terminal 2 and In (-) Terminal
4 will be from the last installed annunciator (refer to Figure 4-4
on page 24)
3. The ADT-LCD40 Series Annunciators have resistors built into
the circuit board at the In (Terminals 2 & 4) and the Out (Terminals 1 & 3) for impedance matching. There is no
need for the
installer to add impedance matching resistors
4. Connect wiring to DIM-485 terminals before plugging DIM-485
into connector J11 of the Unimode 200 main circuit board.
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ADT-LCD40 Series Electrical Connections Wiring FACP to ADT-LCD40 Series
Dim-485 Installation.
CAUTION!
Connect all wiring to the DIM-485 terminals before
plugging it into connector J11 on the Unimode 200 circuit board.
1. Carefully align the DIM-485 connector with the four pins on
connector J11 of the Unimode 200
2. Press firmly on the DIM-485 connector to seat properly on
connector J11 being careful not to bend any pins
3. Be certain to secure the DIM-485 module to the Unimode 200
and keep all wiring from mechanically interfering with module.
Figure 4-4: Wiring FACP to ADT-LCD40 Series
ADT-LCD40 Series in
grounded box
Ferrite Core P/N FBD-1
Required
24 VDC
TB4 Terms
3(+) & 4(-)
Unimode 200
in grounded box
DIM-485
1 2 3 4
To p
EIA-485
ADT-LCD40 Series in
grounded box
Ferrite Core P/N FBD-1
Required
P1
P2
Notes:
1) Ferrite Core P/N FBD-1 is required to meet
FCC Part 15 requirements if the EIA-485
wiring is not in conduit. Twisted, shielded
wire is recommended for the EIA-485
communications loop.
2) Six conductor overall shielded wire may be
used for the four EIA-485 wires and the two
power wires. It is, however, strongly
recommended that the power and communication wires be separate whenever possible.
24
Document 50520 Rev D 7/25/00 P/N 50520:D
(+) EIA-485
IN
(-) EIA-485
1 2 3 4
(+) (-)
EIA-485
OUT
(+) 24 VDC
IN
(-) 24 VDC
1 2 3 4 5 6 7
n/c
Earth
Ground
Optional
Shield
Connect
(+) (-)
24 VDC
OUT
Page 25
EIA-485 Shield Termination EIA-485 Shield Not in Conduit
Section 5:
The EIA-485 circuit must be wired using a twisted, shielded pair cable
with a characteristic impedance of 120 ohms (+/- 20%). Do not run
cable adjacent to or in the same conduit as 120 VAC service, noisy
electrical circuits that are powering mechanical bells or horns, audio
circuits above 25 V
Note: To ensure static (ESD - electrostatic discharge) protection, all
enclosures, including the ADT-LCD40 Series electrical box, must be
connected to earth ground! Never use the EIA-485 shield for this
purpose. The EIA-485 shield is for radiated noise emission protection
(RFI, EMI). Refer to the following figures for details on EIA-485 shield
termination.
EIA-485 Shield Termination
, motor control circuits or SCR power circuits.
RMS
5.1 EIA-485 Shield Not in Conduit
The EIA-485 line allows the FACP to communicate with the
ADT-LCD40 Series Annunciators. The shield for the EIA-485 line
must be connected to earth ground at the FACP but must be left floating
(no connection) at the annunciator if it is the first or only device on the
EIA-485 line. If a second annunciator is connected, the shield leaving
the first annunciator must be left floating. The shield entering the second annunciator must be connected to the three-gang box or Earth
Ground terminal (P2-7) on the second annunciator. If additional annunciators are connected, the shield leaving each enclosure must be left
floating and the shield entering each must be connected to the threegang box or the Earth Ground terminal (P2-7) on the annunciator.
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EIA-485 Shield Termination EIA-485 Without Conduit
Figure 5-1: EIA-485 Without Conduit
Connect the drain wire to the outside
of the Unimode 200 cabinet via a BXtype connector.
Shield Drain Wire
(+) EIA-485
(-) EIA-485
FAC P B a ckb ox
FAC P
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EIA-485 Shield Termination EIA-485 Shield in Full Conduit
5.2 EIA-485 Shield in Full Conduit
The EIA-485 line allows the FACP to communicate with the
ADT-LCD40 Series Annunciators. The shield for the EIA-485 line
must be connected to earth ground at the FACP (both exiting and
entering the FACP) but must be left floating (no connection) at the
annunciator if it is the first or only device on the EIA-485 line. If a
second annunciator is connected, the shield leaving the first annunciator
must be floating. The shield entering the second annunciator must be
connected to the Earth Ground terminal (P2-7) on the second annunciator. If additional annunciators are connected, the shield leaving each
annunciator must be left floating and the shield entering the following
unit must be connected to the Earth Ground terminal (P2-7) on the
annunciator.
Caution! Do not allow the floating (no connection) end of the shield to
contact the conduit. The floating end should be insulated from earth
ground.
Figure 5-2: EIA-485 In Conduit
Connect the shield drain wire to the Earth
Ground Terminal on the ADT-LCD40 Series
Annunciator
ADT-LCD40 Series
P1-2 (+)
EIA-485 (IN)
P1-4 (-)
Shield Drain Wire
ADT-LCD40 Series Box
Notes:
1) Power-limited 24 VDC power may be run in the same conduit as the EIA-485 wiring
2) Twisted, shielded wire is recommended for the EIA-485 communications loop
3) Each ADT-LCD40 Series electrical backbox is connected to earth ground via the conduit
4) Shield is connected to the FACP cabinet (earth ground) leaving and entering the FACP
Document 50520 Rev D 7/25/00 P/N 50520:D
EIA-485 (IN)
P2-7 Earth
Ground (IN)
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Programming the Unimode 200 EIA-485 In Conduit
Section 6:
The Unimode 200 must be programmed to allow use of the
ADT-LCD40 Series Annunciators. In order to program the Unimode
200, make certain the main circuit board 'Write Protect' switch (SW1) is
in the down position and then press the ENTER key on the panel keypad. After pressing ENTER, the screen shown below is displayed:
Programming the Unimode 200
1 = PROGRAMMING
2=RD.STATUS 3=AC/BAT
To enter the Programming Mode, press '1'. The display will read:
KEY PASSWORD, ENTER
Enter the Level 1 password. The following screen will appear:
0=CLR 1=AUTO 2=POINT
3=SYS 4=PWORD 5=LOAD
Press '3' to enter System Edit. The system edit screen may appear as
shown (note that previous programming may have altered some N or No
designations to Y or Yes):
V=N I=N A=N P=N C=N
A/U=N L/P=N S=4 R=4
Use the left and right arrow keys to move to the L/P option. Once at the
L/P option, to enable the ADT-LCD40 Series Annunciator option, use
the up and down arrow keys to scroll to the L (for ADT-LCD40 Series
Annunciator) choice. The ADT-LCD40 Series can now communicate
with the Unimode 200.
To leave Programming Mode, press the Backspace (left arrow) key
repeatedly until Program Mode is exited.
28
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Index
A
Acknowledge switch
ADT-LCD40
see also ADT-LCD40 Series Annunciators
software version
ADT-LCD40 Series Annunciators
6, 7, 10, 14, 15
23, 28
ADT-LCD40 Series Annunciators display
custom alpha labels
device type
point alarm
supervisory
system point status
trouble
6
zone labels
ADT-LCD40L
see also ADT-LCD40 Series Annunciators
Alarm LED
Alarm Silence LED
annunciators
6, 7, 16
maximum per EIA-485 circuit
B
backboxes
backlight
18
7, 21
C
communication
see also EIA-485 circuit
communications fault
components
configuration
control switches
ADT-LCD40L only
current rating
AC fail
alarm
standby
trouble
8
12
21
9
9
9
9
D
DIM-485
23, 24
connections
installation
6, 7, 12, 14
6
6, 12, 13, 16, 17, 19, 20, 21, 22,
6
6
6
6
6
6
6, 7
15
7, 12, 22
6
6
13
6
23
24
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Page 30
wiring
23
DIM-485 module
DIP Switch settings
function switches
piezo sounder
Receive/Transmit
SW1
10
DIP switches
SW1
14, 19, 20
display
scroll
step through
distance from panel
Drill switch
7
8, 10, 11
11
11
10, 11
7
14, 15
15
7, 12, 22
6, 7, 12, 14, 15
E
earth ground
EIA-485 circuit
fault
EIA-485 connection
electrical box
electrical connections
electrostatic discharge
9, 17, 25, 27
6, 7, 12, 19, 22, 25, 26, 27
10
22
17, 18
21
25
F
fault
communication failure
FCC Part 15 requirements
Ferrite Core
filtered
flange
function switches
enable/disable
24
9
18, 20
6, 7
11, 14
I
impedance matching
22, 23
K
key-switch
6, 14
enable/disable
7, 10
L
lamp test
LCD display
15
7, 13
mimic control panel display
see also Liquid Crystal Display
10
24
6
6
30
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Liquid Crystal Display
Local Authority Having Jurisdiction
6
M
Manual Evacuate
mounting
7, 17, 19
semi-flush
surface
15
7
7, 20
N
NAC
see also Notification Appliance Circuit
nonresettable
9
O
Operation
13
P
piezo sounder
alarm resound
enable/disable
silence
trouble resound
power connection
Power LED
power source
power-limited
power-up
programming
Unimode 200
7, 15
7
8, 10, 11
14
7
21
6, 7, 16
6, 9, 12, 21
9, 12, 21, 22
13
7, 12
13, 28
R
Receive/Transmit
Reset switch
resettable power
resistors
impedance matching
ROM
8
10, 11
6, 12, 14, 15
15
22, 23
S
SBB-3 electrical box
semi-flush mounting
shield
17, 25, 27
Signal Silence switch
silence
NAC
15
piezo sounder
17, 18, 20
7, 19
7, 12
14, 15
8, 10
15
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Silence switch
software version
ADT-LCD40
Unimode 200
static
25
static protection
supervised
Supervisory LED
surface mount
SW1 DIP Switch
switch functions
System LEDs
System Reset switch
System Status LEDs
6, 14, 15
6
6
17
21, 22
6, 7, 16
7, 20
10
14
14, 15, 16
7
6, 7
T
terminal block
three-gang electrical box
trim ring
Trouble LED
7, 9, 19, 20
17, 19, 20
17, 18, 19, 20
6, 7, 16
U
Unimode 200
programming
software version
Unimode 200 programming
6, 7, 12, 13, 15, 21, 23, 24, 26
28
6
W
wire
distance
requirements
size
type
wiring
wiring connections
21
12
21, 22
22, 25
12, 19, 23, 24, 25
9
13
32
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Notes
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Notes
34
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Notes
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