Risco Ltd. RWT6G915 Manuel D’Utilisation
Model: RWT6G
Installation instructions
1 General Description
The Wireless VITRON is an advanced microprocessor based
Acoustic Glass Break detector. The Wireless VITRON detects the
breaking of most common types of framed glass panes while
ignoring false alarms.
Acoustic Glass Break detector. The Wireless VITRON detects the
breaking of most common types of framed glass panes while
ignoring false alarms.
2 Installation Procedure
Note: To improve detection, It is highly recommended to use a
swivel adaptor, especially for ceiling and wall installations.
swivel adaptor, especially for ceiling and wall installations.
Fig 1: Percentage of Maximum
Range as a function of angle
between Wireless VITRON and
glass.
Range as a function of angle
between Wireless VITRON and
glass.
Verify that the distance between the Wireless VITRON and the
furthest point on the protected glass does not exceed the maximum
specified range taking into account the reduced range due to angle
(see Fig 2).
furthest point on the protected glass does not exceed the maximum
specified range taking into account the reduced range due to angle
(see Fig 2).
Fig 2: Angle between Wireless
VITRON and glass
VITRON and glass
Other factors affecting range:
•
There should be no obstructions between the Wireless VITRON
and the protected glass.
and the protected glass.
•
Curtains and blinds may reduce the effective range.
•
Sound absorbing materials in the protected area may reduce the
range.
3 Mounting Location
For optimal performance the Wireless VITRON should be mounted as
nearly opposite to the glass area to be protected, as shown in Fig 3.
Attach the Glassbreak detector to the surface using the adhesive strips.
nearly opposite to the glass area to be protected, as shown in Fig 3.
Attach the Glassbreak detector to the surface using the adhesive strips.
Fig. 3
•
Opposite Wall –Mounted (For optimal
results, Wireless VITRON is centered
opposite glass, see Fig. 3).
opposite glass, see Fig. 3).
Fig. 4
•
Ceiling Mounted (for optimal results
Wireless VITRON is centered and directed
towards protected glass, using the supplied
swivel adaptor, see fig. 4)
towards protected glass, using the supplied
swivel adaptor, see fig. 4)
Fig. 5
•
Corner Mounted (choose corner opposite
glass to be protected see fig. 5)
Fig. 6
•
Side wall – mounted not recommended
due to the fact that the Wireless VITRON is
not opposite the glass - see range versus
angle diagram (Fig 2).
not opposite the glass - see range versus
angle diagram (Fig 2).
Notes:
Do not mount Wireless VITRON on same wall as the protected glass.
Avoid installing the Wireless VITRON near sources of loud noise or
vibrations (air conditioners, fans, compressors, stereos, etc).
Avoid defining the Wireless VITRON as a 24 hour zone
The Wireless VITRON should always be installed in addition to
standard motion detectors
Do not mount Wireless VITRON on same wall as the protected glass.
Avoid installing the Wireless VITRON near sources of loud noise or
vibrations (air conditioners, fans, compressors, stereos, etc).
Avoid defining the Wireless VITRON as a 24 hour zone
The Wireless VITRON should always be installed in addition to
standard motion detectors
4 Mounting
Use the two-sided adhesive tape
to attach the detector to the surface.
5 Swivel Mounting
When installing the Wireless
VITRON with the supplied swivel
mounting adaptor, maximum
installation flexibility and
performance is achieved.
To install the swivel mounting
adaptor perform the following:
1. Remove the PCB from the
VITRON with the supplied swivel
mounting adaptor, maximum
installation flexibility and
performance is achieved.
To install the swivel mounting
adaptor perform the following:
1. Remove the PCB from the
Wireless VITRON back plate
2. Open the swivel mounting
adaptor knockouts (4, Fig 7).
3. Attach the swivel mounting
adaptor to the back plate using
the two supplied screws (1, Fig
the two supplied screws (1, Fig
Fig.
8
8).
4. Mount the Wireless VITRON on the required location (wall or
ceiling) using the supplied screws (2, Fig 8). Do not tighten the
screws.
screws.
5. Adjust the detector so it will face the protected glass.
6. Tighten the bolts to the final torque.
6. Tighten the bolts to the final torque.
6 Quick Device Allocation at the Control Panel
The Glassbreak detector is automatically programmed to your control
panel during the on-line installation wizard setup. If you later
purchase an extra detector you can enroll it as follows:
To quickly allocate the detector at the control panel:
If the control panel is not already in Learn mode, press the
panel during the on-line installation wizard setup. If you later
purchase an extra detector you can enroll it as follows:
To quickly allocate the detector at the control panel:
If the control panel is not already in Learn mode, press the
button on the control panel for 5 seconds; the unit beeps once
as it enters Learn mode (all the LEDs also light up, one after the
other).
Remove the plastic wrapping from the batteries before installation
and make sure the cover is removed so the internal tamper switch is
accessible.
Send a signal transmission from the detector by pressing the tamper
button for at least 2 seconds; the control panel beeps once to accept
or beeps three times to reject. Once accepted, the system
announces the device type and its zone (for example, “Detector,
zone 1”).
When the detectors have been enrolled, short-press the control
other).
Remove the plastic wrapping from the batteries before installation
and make sure the cover is removed so the internal tamper switch is
accessible.
Send a signal transmission from the detector by pressing the tamper
button for at least 2 seconds; the control panel beeps once to accept
or beeps three times to reject. Once accepted, the system
announces the device type and its zone (for example, “Detector,
zone 1”).
When the detectors have been enrolled, short-press the control
panel button
to exit Learn mode; the unit beeps once and the
LEDs stop flashing.
Note: For future use, it is recommended to write down the detector
description, zone number, and installation location of each allocated
detector.
Note: For future use, it is recommended to write down the detector
description, zone number, and installation location of each allocated
detector.
7 Jumpers settings
Please do not change the jumper settings.
8 Technical Specifications
Electrical
Current consumption
(standby)
Current consumption
(standby)
22 uA at 3 VDC, without acoustic
signal
signal
Current consumption
(Alarm transmission)
(Alarm transmission)
10 mA at 3 VDC
(Max. with LED OFF)
15 mA at 3 VDC
(Max. with LED ON)
(Max. with LED OFF)
15 mA at 3 VDC
(Max. with LED ON)
Battery life
3 years, at 65 minutes supervision
Range (loss)
300m (1000 feet)
Voltage requirements
CR123A 3VDC Lithium Batteries
Frequency
915MHz
Physical
Size
(LxWxD)
Size
(LxWxD)
87 x 50.7 x 28.6 mm
(3.4 x 2.0 x 1.1 in.)
(3.4 x 2.0 x 1.1 in.)
Environmental
Operating/Storage
temperature
Operating/Storage
temperature
0°C to 50°C (-32°F to 122°F)
* Specifications are subject to change without prior notice
Note: The detector contains a swivel.
75°
60°
45°
30°
15°
0°
WIRELESS
VITRON
VITRON
VITRON
VITRON
VITRON
VI TRO N
VITRON
VI TRON
VITRON
VITRON
2
1