Honeywell FG-1625RFM Installation Instructions Manual
Refer to Supplemental Information (page 2) for complete descriptions of these installation steps
5-051-789-40C Page 1
IntelliSense
®
FG-1625RFM Glassbreak Detector Installation Instructions
FG-1625RFM Glassbreak Detector
FG-1625RFM with
Small Front Cover
FG-1625RFM with
Large Front Cover
FG-1625RFM Components
FG-1625RFM Glassbreak Detector, Terminal Block and
Sensitivity / LED Switch
Select Mounting Location
IMPORTANT: Before drilling the mounting hole,
make sure you do NOT exceed the maximum
distance (25’/7.6 m) from the glass.
Set Sensitivity & LED Configuration
SENS1 & SENS2 configure sensitivity
SENSITIVITY APPROXIMATE
RANGE
SENS1 SENS2
MAX 7.6m (25 ft)
OFF OFF
MEDIUM 4.6m (15 ft)
ON OFF
LOW 3m (10 ft)
OFF ON
LOWEST 1.5m (5 ft)
ON ON
NOTE: Ranges are approximate and vary with each
room’s acoustic properties. Always verify range with an
IntelliSense FG-701 Glassbreak Simulator.
The LATCH and LED DIP switches configure LED
indicator behavior.
SWITCH OFF ON
LATCH
Red LED lights for 5
seconds during alarm
Red LED latches ON when
detector goes into alarm
1, 2
LED
LEDs disabled (except for
power up and test mode
3
)
LEDs always enabled
1
The timing of the alarm relay is not affected by the latched Alarm LED.
2
Reset the Alarm LED by removing/restorin g power, or by toggling the
detector in and out of Test Mode.
3
LEDs can be enabled/disabled using FG-701.
Connect Detector
Connect detector using 18 to 22 AWG wire, with ends
stripped approximately 5mm (3/16 in.) Use the
appropriate wiring method as shown in these diagrams:
Normally Closed Loop/No EOL Resistor
Normally Closed Loop/With EOL Resistor
Note: Be sure to pass the wire through the
wall sleeve before wiring the detector.
Install Detector
• Test location and set Sensitivity as needed.
• Drill a mounting hole 1” diameter by 2.75”
deep (minimum) in the wall or ceiling. (The
hole diameter may need to be increased for
best installation in some solid materials.)
• Run the wire through the wall or ceiling and
slide the wire through the hole at the bottom
of the wall sleeve.
• Insert the wall sleeve into the wall or ceiling.
Position the “TOP” marking to ensure the front
cover center design has either a horizontal or
vertical alignment when attached. (See
following illustration.)
• Wire the detector.
• Align the “TOP” markings on the detector and
wall sleeve, and insert the detector into the
wall sleeve.
Wiring and Installing the Detector
• Select either the small or large front cover and
attach it to the detector: insert the front cover
installation posts into the mounting holes and
snap the front cover into place.
Note: Both the small and large covers
provide the same excellent detection. Select
the front cover size to best fit the application.
Test Detector Installation
Enter Test Mode using an FG-701 Glassbreak
Simulator (see Testing the Detector on the next page)
or manually by shorting Test Mode pads.
Note: Testing with the FG-701 is highly
recommended.
To use the test mode pads, first remove the front cover
of the detector. Carefully slide the tip of a flat blade
screwdriver under the edge of the front cover and
gently pry upward.
Next, remove the detector from the wall sleeve. Insert
a 3mm screwdriver into the detector latch (see
Components illustration in first column). Gently press
outward, and then pull the detector toward you with the
screwdriver.
Removing detector from the Wall Sleeve
Shorting the Test Mode Pads
(if the FG-701 is unavailable)
Short the test mode pads with the screwdriver, and
check to make sure the detector is in test mode. Once
in test mode, replace the detector in the wall sleeve,
and replace front cover before testing the detector.
Refer to Installation Instructions and diagrams (page 1) when installing this product
Page 2
©2004 Honeywell International Inc. All rights reserved.
Honeywell, IntelliSense and FlexGuard are registered trademarks
of Honeywell International Inc. - All other brands mentioned are
the trademarks or registered trademarks of their respective
owners. Specifications subject to change without prior notice.
Ê5-051-789-40CŠ
5-051-789-40C 7/07
IntelliSense
®
FG-1625RFM Glassbreak Detector Supplemental Information
1. General Information
The FG-1625RFM flush mount glassbreak detector
senses the sound of breaking plate, tempered,
laminated, wired, coated and sealed insulating glass.
2. Choosing Mounting Location
The preferred mounting location for the device is on a
wall or ceiling, opposite the protected glass.
For the best detector performance, select a mounting
location that is:
• within 7.6 m (25 feet) of the protected glass;
• within clear view of the protected glass;
• at least 2 m (6.5 feet) from the floor;
• at least 1 m (3.3 feet) from forced air ducts;
• at least 1 m (3.3 feet) from sirens or bells greater
than 5 cm (2 inches) in diameter.
• between the protected glass and any heavy
window coverings that may be present.
Alternatively, when heavy window coverings are
present, the detector can be mounted on the frame
of the window.
Avoid mounting the detector on the same wall as the
protected glass, on free-standing posts or pillars, or in
rooms with noisy equipment (air compressors, bells,
power tools, etc.), if this equipment is operated when
the detector is armed.
3. Configuring Sensitivity (Range)
DIP switches SENS1 and SENS2 set detector
sensitivity (range), as shown:
SENSITIVITY RANGE * SENS1 SENS2
MAX 7.6m (25 ft)
OFF OFF
MEDIUM 4.6m (15 ft)
ON OFF
LOW 3m (10 ft)
OFF ON
LOWEST 1.5M (5 ft)
ON ON
* Sensitivity must be set to match the distance between
the detector and the protected glass, as verified using
the FG-701 Glassbreak Simulator.
4. Configuring LED Switch
The LATCH and LED DIP switches determine LED
indicator operation.
SWITCH OFF ON
LATCH
Red LED lights for 5
seconds during alarm
Red LED latches ON when
detector goes into alarm
1, 2
LED
LEDs disabled (except for
power up and test mode
3
)
LEDs always enabled
1
Alarm relay timing is not affected by the latched Alarm LED.
2
Reset the Alarm LED by removing/restorin g power, or by toggling the
detector in and out of Test Mode.
3
LEDs can be enabled/disabled using FG-701.
5. Preparing Mounting Location
CAUTION: Make sure the mounting location
DOES NOT exceed the maximum distance
(25’/7.6m) from the glass.
The FG-1625RFM is designed for flush mounting in a 1”
diameter hole. Once you have selected the appropriate
mounting location, drill a 1” diameter hole.
NOTE: In hardwood or other solid material the hole
diameter must be increased for best installation. The
hole must be a minimum of 2.75” deep.
6. Installing the Wall Sleeve
After selecting the location and drilling the mounting
hole, pull the hook-up wires through the slot in the
bottom of the wall sleeve.
Caution: Make sure to orient the wall sleeve so the
indentation on the detector’s front cover is either
horizontal or vertical when installed. (See Wiring and
Installing the Detector illustration on page 1.)
Insert the wall sleeve into the installation hole until firmly
seated.
7. Wiring the Detector
Refer to the wiring diagrams (page 1) to select the
appropriate wiring configuration.
NOTE:
US and Canada- This sensor must be
connected to a UL/ULC**/or CUL** Listed power supply
or control panel supplying a minimum of four hours of
standby time.
**Listing per Canadian standards S318 or S304.
Resetting the FG-1625RFM is accomplished by
momentarily disconnecting the V+ line. (Disconnection
of only the V- line will not reset the unit)
.
8. Installing the Detector
Align the “TOP” marking on the detector with the “TOP”
marking on the wall sleeve. Insert the detector into the
wall sleeve until the latch engages.
9. Installing the Detector Cover
Select the appropriate cover from the two sizes
provided. Align the two cover mounting posts with the
two marked holes in the detector and snap the cover
into place. See Components illustration on page 1.
Note: The cover must be in place for correct operation.
10. Testing the Detector
The detector should be tested at least once each year.
Test the detector with the FG-701 Glassbreak Simulator.
Note: The FG-701 uses calibrated signal output for true
range verification, and provides reliable, convenient
remote test-mode activation. Testing each installation
with the FG-701 is highly recommended
Other simulators will not
give accurate indication of range.
Always test detector with cover in place.
To enter the Test Mode with the FG-701:
1. Stand within 4.6 m (15 feet) of the detector.
2. Switch the FG-701 to ACTIVATE and MANual
modes.
3. Point the front of the glassbreak simulator
towards the detector. Press the red START
button to send a short activation code.
To enter Test Mode manually:
1. Remove the front cover.
2. Use a screwdriver to remove the detector from
the wall sleeve (see illustration on page 1).
3. Short the Test Mode pads on the PC board
(located next to the DIP switch).
4. Replace the detector in the wall sleeve, and then
replace the front cover.
The detector’s green LED blinks approximately once per
second to indicate that it has entered Test Mode.
When the detector enters Test Mode, the green LED
on the detector flashes about once per second. If the
green LED does not flash, move closer to the detector
and repeat the procedure.
Testing the Detector (flex and audio signals):
To test the detector using the FG-701:
1. Place the detector in Test Mode.
2. Set the FG-701 switches to the TEST and FLEX
positions.
3. Position the FG-701 near the farthest point of the
protected glass, and point it directly at the
detector. If window coverings are present, close
them fully and hold the FG-701 between the
coverings and the protected glass.
4. Press the red START button. The simulator
clicks on and starts an 8-second armed period.
5. Generate a flex signal by carefully striking the
glass with a cushioned tool. The FG-701
responds with a burst of glassbreak audio.
If the detector receives both the flex and audio signals
properly, its red Alarm LED lights for five (5) seconds.
(Red Alarm LED does not latch in Test Mode).
Testing the Detector (audio signals only):
The FG-701 can also be used to test the detector’s
ability to receive audio signals only. See the FG-701
Operating Instructions for additional information. When
it receives the audio signal, the detector flickers its
green Event LED.
Exiting Test Mode:
When you have finished testing, exit Test Mode by
following the same procedure used to enter Test Mode.
The FG-1625RFM automatically exits Test Mode after
five minutes if no events are detected.
11. LED Indicators
The detector is equipped with two LEDs: a green Event
LED and a red Alarm LED. When the LEDs are
enabled, they light in a variety of patterns to indicate
the detector's status. The following table summarizes
the LED messages.
CONDITION GREEN LED RED LED
Normal OFF OFF
Normal, event detected Flicker OFF
Normal, break detected OFF ON 5 seconds
Normal, alarm latched OFF ON
Power up ON 1 second ON 1 second
Low Voltage Flash ON/OFF Flash ON/OFF
Test Mode Flash once per sec OFF
Test Mode, event detected Flicker OFF
Test Mode, alarm Flash once per sec ON 5 seconds
12. Remote LED Enable/Disable Mode
The detector’s Remote LED Enable/Disable Mode allows
you to enable or disable the detector’s LEDs with the
FG-701 Glassbreak Simulator.
To enable or disable the LEDs with the FG-701:
1. LED switch, S4 position 4, must be off.
2. Enter Test Mode, and then exit Test Mode.
3. Within two (2) seconds, enter Test Mode again;
this changes LED enable/disable status.
4. Exit Test Mode again.
5. Clap your hands to test the LEDs. If enabled, the
green LED will flicker. If disabled, the green LED
will remain off.
13. Specifications
Range:
7.6 m (25 ft.) maximum, omnidirectional
No minimum range
Operating Temperature:
-10° to 55° C (14° to 131° F)
Storage: -20° to 60° C
(-4° to 140° F)
Alarm Duration:
5 seconds (unaffected by
alarm LED latching)
Alarm Relay:
Form A
90 mA maximum
16 VDC maximum
Rated for direct panel
connection only
Power Requirements:
8 - 16 VDC; 5.5 mA typical
at 12 VDC, 12 mA max at
12 VDC, LED Latched
AC Ripple: 4 Volts peak-topeak at Nominal 12 VDC
RFI Immunity:
30 V/m,
10 MHz - 1000 MHz
ESD Immunity:
10 kV discharges of either
polarity to exposed surfaces
Dimensions:
Small Front Cover
:
45.0mm
(1.8 in.) Diameter
Large Front Cover:
63.5mm
(2.5 in.) Diameter
Wall Sleeve
:
For installation in 1”
(25mm) hole. Maximum d epth,
without wire 66mm (2.6 in.)
Weight:
24.0 g (0.85 oz.) with small
front cover
25.5 g (0.90 oz.) with large
front cover
Packaged: 54.0 g (1.90 oz.)
Approvals / Listings:
FCC/IC Verified
CE
C-Tick
UL listed
ULC listed
EN 50131-1 Security Grade 1,
Environmental Class II
For Connection to an EN 60950
Class II Limited Power Source
14. Nominal Glass Thickness Chart
Nominal Thickness
Glass Type*
Minimum Maximum
Plate
2mm (3/32 in.) 10mm (3/8 in.)
Tempered
3mm (1/8 in.) 10mm (3/8 in.)
Laminated
3mm (1/8 in.) 14mm (9/16 in.)
Wired
6mm (1/4 in.) 6mm (1/4 in.)
Coated 2
3mm (1/8 in.) 6mm (1/4 in.)
Sealed Insulating
1
3mm (1/8 in.)
[13mm (1/2 in.)
overall]
6mm (1/4 in.)
[19mm (3/4 in.)
overall]
* Minimum size for all types is 28cm (11 in.) square; glass must be
framed in the wall or mounted in a barrier at least 0.9m (36 in.) wide.
1
Protected only if both plates in the unit are broken
2
Coated glass with security films up to 0.35mm (14 mils) thick (including
films for solar protection) may be used. Evaluated with these
products: 3M
®
SCOTCHSHIELD® SH14CLARL – 0.35mm (14 mils), 4
ply film; Film Technologies International, Inc.'s GLASS-GARD
®
GGLL
1200 – 0.3mm (12 mils), 3 ply film.
Canada: Wiring methods shall be in accordance with CSA C22.1
Canadian Electrical Code, Part 1, Safety Standard for Electrical
Installations.
NOTICES
FCC Notice: This equipment has been tested and found to comply with the
limits for a Class B digital device, pursuant to part 15 of the FCC Rules.
These limits are designed to provide reasonable protection against harmful
interference in a residential installation. This equipment generates, uses,
and can radiate radio frequency energy and, if not installed and use d in
accordance with the instructions, may cause harmful interference to radio
communications. However, there is no guarantee that interference will not
occur in a particular installation. If this equipment does cause harmful
interference to radio or television reception, which can be determined by
turning the equipment off and on, the user is encouraged to try to correct the
interference by one or more of the following measures: 1) Reorient or
relocate the receiving antenna, 2) Increase the separation between the
equipment and receiver, 3) Connect the equipment into an outlet on a circuit
different from that to which the receiver is connected. The installer can also
consult an experienced radio/television technician for additional suggestions,
if necessary.
IC Notice: This Class B digital apparatus meets all requirements of the
Canadian Interference-Causing Equipment Regulations.
Cet appareil numérique de la Classe B respecte toutes les exigences du
Règlement sur le matériel brouilleur du Canada.
To obtain applicable EU compliance Declaration of Conformities for this product,
please refer to our Website,
http://www.security.honeywell.com/hsce/international/index.html. For any additional
information regarding the compliance of this product to any EU specific requirements,
please contact:
Quality Assurance Department,
Honeywell Security & Custom Electronics,
Newhouse Industrial Estate
Motherwell,
Lanarkshire ML1 5SB,
Scotland,
United Kingdom.
Tel:+44(0)1698738200
Email: UK64Sales@Honeywell.com
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