FIR2025-0020_Fire_Alarm_Equipment_Specification_Sheets_3.3.2025_3.36.37_PM_4789683TG=7FS SG LTE=M
TELGUARD COMMUNICATOR FOR COMMERCIAL FIRE APPLICATIONS
ARCHITECTURAL AND ENGINEERING
SPECIFICATION
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Table of Contents
1 General.....................................................................
1.1 Purpose.............................................................
1.2 Scope................................................................
1.3 Warranty.........................................................
.................................................... 3
.................................................... 3
.................................................... 3
.................................................... 3
2 System Summary...................................................................................................................................................4
2.1 Unit Description..............................................................................................................................................4
2.2 System Overview..........................................................................................................................................4
2.2 Approvals...........................................................................................................................................................5
2.2.1 Listings (UL/ULC Standards).........................................................................................................5
3 Functional Description.......................................................................................................................................6
3.1 Signal Transmission from FACP to Central Station.................................................................6
3.1.1 Dialer Capture...........................................................................................................................................6
3.1.2 Cellular Transmission..........................................................................................................................7
3.1.3 Delivery to Central Station .........................................
.................. 7
3.2 Link Supervision for Sole Path installations................................................................................8
3.2.1 NFPA 72 requirement.........................................................................................................................8
3.2.2 Link Supervision....................................................................................................................................8
4 Physical Description............................................................................................................................................9
4.1 Metal Enclosure...............................................................................................................................................9
4.2 PCB..................................................................
4.2.1 1/0 Connections ..............................
4.2.2 LED Display .......................................
4.3 Accessories ......................
4.3.1 Included with TG-7FS....................
4.3.2 Optional Accessories ......................
.................................................................................... 9
.................................................................................... 9
..................................................................... 11
..................................................................... 12
....................................... 12
........................................... 13
5 Sole Path Installation........................................................................................................................................ 14
5.1 Power Up Requirements......................................................................................................................... 14
5.2 Signal Strength Requirements........................................................................................................... 14
5.3 Communication and Supervision Requirements................................................................... 15
5.4 Other UL Installation Requirements.............................................................................................. 16
5.5 Wiring Diagram........................................................................................................................................... 17
1 General
1.1 Purpose
When preparing a specification or quotation for the use of a Telguard cellular device
in a commercial fire application, it may be necessary to supply a detailed functional
description of the equipment. The architectural and Engineering Specifications
presented in this publication cover such information for the TG-7FS 5G LTE-M
models —indiscriminate of variance —and are intended to be used for this purpose as
required.
1.2 Scope
Although the hardware is slightly different, this Architectural and Engineering
Specification document contains detailed functional description for the following
Telguard units to work in conjunction with FACP systems with DACT connections:
• TG-7FS 5G LTE-M for AT&T Wireless (Model No. TG-7FS-A)
• TG-7FS 5G LTE-M for Verizon (Model No. TG-7FS-V)
• Honeywell TG-7FS 5G LTE-M for AT&T Wireless (Model No. HW-TG7FS-A)
• Honeywell TG-7FS 5G LTE-M for Verizon (Model No. HW-TG7FS-V)
1.3 Warranty
Telguard sells its hardware through authorized distributors. As such, Telguard has a
responsibility to repair or replace (our option) inoperative units for up to a specified
time from date of manufacture. The warranty period is agreed upon by the
distributor upon purchase. This excludes damage due to lightning or installer error.
Unauthorized modifications void this warranty. Telguard is not responsible for
incidental or consequential damages. Liability is limited to price of unit to the
distributor. Products sold under the Honeywell brand are covered under their specific
warranty.
2 System Summary
2.1 Unit Description
The Telguard TG-7FS 5G LTE-M is a line of digital cellular radio alarm transmission
devices used to provide the following three methods of communications for FACP
units via a cellular network:
• Sole path (Cellular Transmission Only)
• Primary path (Cellular Primary & Telco Backup)
• Back-up path (Telco Primary & Cellular Backup)
2.2 System Overview
Depending on the configuration (determined at time of installation), the FACP will
use the TG-7FS as sole, primary or back-up (secondary) transmission path to deliver
alarm messages. When it is configured as a backup, it will provide transparent
access from the FACP to the central station. When transmitting an alarm signal using
the cellular path, the Telguard obtains its data from the alarm panel by way of a
Telco line interface. The Telguard will obtain all alarm signal information including
monitoring station phone number, account number and all zones for every alarm
transmission. The Telguard handshakes with the FACP causing it to transmit the
alarm data. The Telguard encodes the alarm data and transmits to the Telguard
Communication Center (TCC) over the digital cellular network. The TCC performs a
function similar to a central station receiver and issues the transmission
acknowledgement when the last message in the transmission is received. After
decoding and reformatting, the alarm signal is routed to the appropriate alarm
company monitoring station for action.
In a cellular back up alarm installation, the incoming Telco line is connected from the
premises' RJ-31x jack to the Telguard and then from the Telguard's RJ-45 jack to the
alarm panel in the normal fashion. Two programmable System Trouble Condition
(STC) relays provide supervisory trip outputs for connection to the FACP's trip zone
input terminals in order to provide a Telguard trouble signal. Additionally, automatic
self -test and remote query signals are transmitted exclusively over the cellular
network with all Telco line and cellular monitoring, switching and supervisory
functions built in. No extra modules are required. The Telguard TG-7FS has its own
power supply which keeps the Telguard battery charged. Alternatively, the TG-7FS
can be powered by a 12 or 24VDC power source coming from an auxiliary connection
managed by the connected FACP.
2.2 Approvals
• UL: Underwriters Laboratories Inc
• ULC: Underwriters Laboratories of Canada
• CSFM: California State Fire Marshall
2.2.1 Listings (UL/ULC Standards)
• UL 864: Standard for Control Units and Accessories for Fire Alarm Systems
• UL 1610: Standard for Central -Station Burglar -Alarm Units
• ULC S559: Equipment for Fire Signal Receiving Centres and Systems
• ULC S304: Canadian Commercial Burglary Alarm Systems
3 Functional Description
3.1 Signal Transmission from FACP to Central Station
The path of a signal from the FACP to the Central Station receiver through the TG-
7FS unit has three main stages:
1. Local capture of the signal: Using dialer capture technology
2. Data delivery to the TCC: By means of the carrier of choice
3. Delivery of the signal to the Central Station: Through a choice of IP or PSTN
connection
3.1.1 Dialer Capture
The TG-7FS unit has a patented integrated interface that allows digital dialers to dial
into the unit using the following specifications:
• Line voltage: -30 Vdc into standard telephone device when on hook.
• Dial tone: Precision 350 + 440Hz +/- 1%. 10 digits dial out capability.
• Mode: Loop start only. 25mA +/- 10% off -hook.
As long as the TG-7FS unit has a proper connection to the wireless network, it will
provide a dial tone for the FACP to use. Once the FACP has dialed in, the TG-7FS will
interact with the panel by providing handshakes and kiss -offs, similar to a Central
Station receiver. Provided that the alarm data received is valid per the alarm format
protocol, the TG-7FS will capture the message and pertinent information for delivery,
while the FACP will be satisfied with the received kiss -off. If an invalid format, or
invalid data is captured, no kiss -off will be provided.
Compatible formats for the TG-7FS 5G LTE-M units are:
• Pulse Formats (Hexadecimal account numbers can be used):
0 3+1 pulse; 10pps, Double Round, 1400 Hz ack
0 3+1 pulse; 20pps, Double Round, 2300 Hz ack
0 3+1 pulse; 40pps, Double Round, 2300 Hz ack
0 4+2 pulse; 20pps, Double Round, 1400 Hz ack
0 4+2 pulse; 20pps, Double Round, 2300 Hz ack
0 4+2 pulse; 40pps, Double Round, 2300 Hz ack
• Contact ID (Hexadecimal account numbers can be used, 4 or 10 digits in
length)
• Modem Ile/Illa2/4 (Hexadecimal account numbers can be used, 4 digits in
length)
• SIA2 (SIA-DC-03 level 2 release at 300 baud)
• Sonitrol
3.1.2 Cellular Transmission
Once the signal is obtained by the TG-7FS, it is encrypted (256-bit AES) and
packetized for digital delivery via the cellular network. Depending on the version of
the TG-7FS unit used (Verizon or AT&T), the carrier of choice will be used. All
transmissions between the TG-7FS and the TCC will occur via the best available
technology at the time, with data sessions being the primary delivery path and SMS
being the secondary option. The TG-7FS can work on different bands depending on
the carrier of choice:
• AT&T supported bands: 2, 4,12
• Verizon supported bands: 4,13
Similar to the way a central station receiver operates, the TG-7FS will not be satisfied
until there is an acknowledgment of receipt from the TCC. If acknowledgment is not
received by the TG-7FS, a failure will be created and annunciated via suppression of
the dial tone.
3.1.3 Delivery to Central Station
After the TCC receives the data, it will process for its delivery. Based on the
subscription options chosen during the registration of the TG-7FS, the TCC can either
use the captured phone number and account number to deliver the signal or use a
predetermined phone number and account number to redirect the signal. A third
option that is available to companies that have set up a connection with a Central
Station ahead of time is to use IP delivery rather than POTS to send signals to Central
Station. The TCC can deliver signals via IP using the Fibro protocol (for Contact ID
and SIA formats) to Surgard receivers, as well as using DMP protocol to send to DMP
receivers. Whether using POTS or IP for delivery, the TCC uses an acknowledgment -
based retry sequence, where it requires receiver acknowledgment.
3.2 Link Supervision for Sole Path installations
3.2.1 NFPA 72 requirement
The TG-7FS unit provides a feature known as "Link Supervision" that complies with
NFPA 72, editions 2010-2019 for use a sole path communicator. Link Supervision is a
feature by which the TCC checks the unit's connectivity and will create a signal to be
delivered to the Central Station if a disruption in service is discovered, lasting 5
minutes (per 2010 edition requirements) or 60 minutes (per 2013 and 2016 edition
requirements).
3.2.2 Link Supervision
Link Supervision must be enabled from the online portal. It will reprogram the device
to initiate check -in signals over the data network, at a frequency that is much higher
than the disruption timeout (5 or 60 minutes). If the TCC detects that there has been
no communication for the predetermined disruption timeout, it will create a signal
(customized during registration) that will be delivered to the Central Station. Once
the check -ins resume, a restoral signal will be created and delivered as well. The
check -in signals are between the TG-7FS and the TCC and are therefore not visible to
the FACP or the Central Station.
4 Physical Description
4.1 Metal Enclosure
• Paint: Red Urethane
• Locking Mechanism: Zinc die cast lock, 90' turn
• Physical Size: 11.4" x 7.75" x 3.3" (290mm x 197mm x 84mm)
• Shipping weight: Approximately 7 lbs.
4.2 PCB
The TG-7FS unit has 1/0 connections for communication and power, as well as LEDs
to display device status.
4.2.1 1/0 Connections
• Antenna port: TNC female connection, 50 ohms
• RJ connections: Two RJ-45 connectors. Gray jack from communication from
the panel. Black jack for pass through to incoming Telco (not applicable to
sole path)
• Pin connectors and terminal blocks: There are four sets of pins, with three
available terminal blocks.
o DC-GND pins: 12/24VDC in. To be used if receiving power from an FACP
with an auxiliary output within that range.
o STC and Trip In pins: There are two pairs of STC pins. STC 1 acts as a
Normally Open relay that will trip on a programmed Telguard failure,
whereas STC2 will trip as a Normally Closed relay. There is also a pair of
Trip Input connections labeled as Trip and Gnd, which can be optionally
used to monitor a dry contact device, with the capability of sending an
event to Central Station or provide customer notification on that trip
closure/restoral.
o Battery pins: There is a set three pins labeled as BATT, with only the
outer pins functional and labeled as - and +. This is an alternate
connection for the battery, with the same functional specifications as
the battery connector.
o AC pins: There is a set of two pins for the AC Adapter to connect to.
Polarity is not labeled because it is AC voltage
• Battery Connector: There is a VHR-2N connector that is keyed to fit with the
provided battery harness. Polarity is not labeled as the battery harness can
only fit in a specific way.
4.2.1 1/0 Electrical Ratings
Field Wiring Electrical Ratings
• STC 1 relay: 30VDC/120mA Max Load (Resistive)
• STC 2 relay: 30VDC/100mA Max Load (Resistive)
• Trip Input: 30VDC/100mA Max Load
Power Limited Circuits
• DC Input: J17
• STC1, STC2, and Trip Input: J18
• Battery Charging: J15 & J19
• AC Input: J20
Operating Environment
• 0° C to +490 C; 0 - 93% humidity (non -condensing)
'i,
0 1142 00000 000 tI
1 2 3 4 5 6 1 2 3 1 2
J17 J18 J19 J15 J20
4.2.2 LED Display
LED Symbol
Color
Pattern
Indication
Unit is activated at TCC and
Solid On
enabled
LED 1 Activation
Green
Unit not activated at TCC (and
Off
disabled)
1 Flash*
Unit is disabled
Off
All OK
System Trouble Condition -
1 Flash*
Low/Missing AC Power
System Trouble Condition -
2
Low/Missing Battery and/or
Flashes*
Battery Charger Failure
LED 2 STC
3
Flashes*
System Trouble Condition - LFC
(System Trouble
Red
4
System Trouble Condition - NSC
Condition)
Flashes*
5
System Trouble Condition - RFC
Flashes*
6
System Trouble Condition - DTF
Flashes*
7
System Trouble Condition - PPF
Flashes*
Off
FACP idle (Telguard is primary or
Sole Path)
LED 3 Mode
Yellow
Flash
FACP off -hook (cellular mode)
On
FACP idle (Telguard is backup)
LED Symbol
Color
Pattern
Indication
Solid On
Waiting for acknowledgement from
TCC
LED 4
Red
Off
Idle state
Acknowledge
1 Flash*
When flashing with LED 1, unit has
failed activation
Off
Telguard initialized
Telguard initializing with cellular
On
network
Flash (1
Radio receiving message
LED 5 Radio
Green
sec)
Flash (2
Radio sending message
sec)
Flash
(2 flashes
Link Supervision Mode
/ 6 sec)
LED 6
Not used
Solid On
Trip Input activated
LED 7 Trip Input
Green
Off
Trip Input not activated or restored
LED 8 AC
Red
Solid On
AC power connected to unit
Power
Note: * means that the LED pattern will repeat until condition clears.
4.3 Accessories
4.3.1 Included with TG-7FS
• Cellular antenna: 8in, 50-ohm nominal, omni-directional LTE antenna with
knuckle and male TNC connector. 2dBi gain.
• Antenna cable: 12-ft RG-58 UL approved cable in PVC jacket with 50-ohm TNC
male connector and TNC female bulkhead.
• Mounting bracket: 900 angle bracket with .566in-diameter opening for TNC
connector.
• RJ cord: 7-ft RJ-45 plug -to -plug flat modular cord with PVC outer jacket.
• Battery harness: 20in battery cable assembly with VHR-2N connector on one
end and two quick connect connectors on black and red 18ga wires.
• Enclosure key lock.
• Terminal blocks: Pluggable screw terminal blocks, 3.5mm pitch. Set of 6-, 3-,
and 2-position blocks.
• Transformer: UL Listed 12VAC 800mA.
4.3.2 Optional Accessories
• ACD-35 antenna cable: RG-8 UL approved cable in PVC jacket with 50-ohm
TNC male connector and TNC female bulkhead. 35ft in length.
• ACD-50 antenna cable: RG-8 UL approved cable in PVC jacket with 50-ohm
TNC male connector and TNC female bulkhead. 50ft in length.
• ACD-100 antenna cable: RG-8 UL approved cable in PVC jacket with 50-ohm
TNC male connector and TNC female bulkhead. 100ft in length.
• HGDL-0: High gain directional LTE antenna, wideband 690-2700MHz, 50-ohm.
U-bolts for up to 1.75" pole -mount outdoor use. 8-10dBi. 11.575" x 8" x 2.375"
(294mm x 203mm x 60mm). Type-N female connection, comes with adapter
to TNC
• EXDL-0: Omnidirectional LTE antenna, 698-960MHz, 1700-2700MHz, 50-ohm.
No ground plane, 3dBi. 3.45" x 1.45" diameter (88mm x 37mm). Type-N female
connection, comes with adapter to TNC.
• TG-PEM: Power and expansion module, receives 12/24VDC from panel
auxiliary power and supplies DC power needed by the TG-7FS to operate
without an AC source. Provides up to 8 dry contact inputs that can be
programmed for Fire Alarm, trouble, and supervisory signal delivery.
5 Sole Path Installation
5.1 Power Up Requirements
The TG-7FS unit must comply with the NFPA 72 requirements which state that the
unit will have a secondary power source besides the main power source, that will
allow it to go remain uninterrupted for 24 hours at the end of which period it should
be able to handle 5 minutes of signal transmission on the secondary power source.
While for primary power source, the provided transformer is expected to be used,
the TG-7FS units do not come with a battery included. However, this requirement
can also be met by utilizing an auxiliary power source coming from the FACP.
Power Consumption numbers (used for battery calculations) are below:
Current Draw
Input Voltage
(source)
Idle No
Idle w/Link
Max during
Supervision
Supervision
Transmission
12VDC regulated
80mA
83mA
230mA
(from panel)
24VDC regulated
27mA
42mA
110mA
(from panel)
12VAC (from plug-in
400mA
420mA
490mA
adapter)
Note: For a UL approved installation, the transformer and connections must be
protected. A UL Listed pull box must be used in conjunction with a UL Listed outlet
box and receptacle. Same guidelines that apply to the FACP power supply
installation should apply here.
5.2 Signal Strength Requirements
It is recommended that the signal strength during the time of installation follows our
guidelines to reduce the amount of perceived network issues. Having a lower signal
strength than recommended may result in a higher number of incidents as it is the
nature of the cellular network to fluctuate in quality and bandwidth.
RSSI
LED's Lighted
RF dBm
Value
No SVC
LED 5 = slow flash, LED 4-
n/a
2 = off
1
LED 5 = on, LED 4-2 = off
<- -111
1'12
LED 5 = on, LED 4 = slow
>_ -110
flash
LED 3-2 = off
2
LED 5-4 = on, LED 3-2 =
>_ -100 (Minimum signal
off
strength required when
Telco is involved)
21/2
LED 5-4 = on, LED 3 = slow
>_ -90 (Minimum signal
flash
strength when used as a
LED 2 = off
Sole Path)
3
LED 5-3 = on, LED 2 = off
>_ -80
3'/2
LED 5-3 = on, LED 2 = slow
>_ -70
flash
4
LED 5-2 = on
>_ -60
Approved accessories as previously listed can be used to relocate or change the
type of antenna used.
5.3 Communication and Supervision Requirements
If using the TG-7FS unit as the sole path of communication, it will be necessary for
the TG-7FS unit to provide dial tone to both Telco connections on the panel, unless
one can be disabled. To do this, the Tip and Ring connection on the FACP must be
connected in parallel for both Telco connections.
As far as supervision of the TG-7FS, there are two System Trouble Condition relays
that can be used to locally annunciate to the panel of any issues, as programmed
during registration. However, the TG-7FS will also announce through the suppression
of the dial tone to the panel of any issues caused by No Service or Radio Failure
conditions.
Note: Because a low/missing battery or low/missing AC power on the TG-7FS unit
will not result in any other type of annunciation, at least one STC relay should be
connected to a zone on the FACP, if the TG-7FS has its own power source separate
from the FACP. If using the panel's auxiliary connection to power up unit, the FACP
will manage such events.
5.4 Other UL Installation Requirements
Commercial
Fire
Required
AC transformer lines in flexible
conduit.
Required
AC transformer plugged into un-
switched outlet.
Required
AC transformer plugged into
dedicated branch circuit.
Optional
Enclosure Tamper Switch
connected to 24-hour circuit.
Required
Antenna cable in flexible conduit
concealed or covered by motion
detector.
5.5 Wiring Diagram
ANTENNA
Battery wire should
be at least '/< inch
apart from AC wires
I
WARNING:
O
HIGH VOLTAGE
O
PRESENT ON PHONE
2 D
LINES.
DISCONNECT PRIOR
System Status
LEDs 3 D
TOSERVICING.
4 D
5 D
6D
7 ❑
Power LED 8 O
LED N1ode O
® Toggle Button
SIM
TELGUARD
TG-7FS LTE
LU
R
Battery
Connector
m•
STC2
T
(N.C.)
STC1
FFF
0 0
T
(N.O.)
C•
1 2 1 2 3 4 5 6 1 2 3 1 2
CAUTION: INCORRECT
CONNECTIONS MAY RESULT
IN DAMAGE TO UNIT.
OPTIONAL CONNECTION:
(TWO TELCO CONNECTIONS FROM THE
ALARM PANEL SPLICED INTO THE TG-7FS)
Alarm Panel) � � [ TG-7FS
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<0
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I RING
<cOO o RINGi
rl
RING
nP1
o RING1
EARTH
Optional GROUND
Battery
AC
(12V 800MA)
TO EXTERNAL
TRIP INPUT
Note: Drawing available as a CAD file.
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