SATEL AQUA PRO LR, EWA, VB Digital Passive Infrared Detector Instruction manual

SATEL AQUA PRO LR, EWA, VB Digital Passive Infrared Detector Instruction manual

Below you will find brief information for Digital Passive Infrared Detector AQUA PRO LR, Digital Passive Infrared Detector AQUA PRO EWA, Digital Passive Infrared Detector AQUA PRO VB. The AQUA PRO is a microprocessor-based, fully digital PIR detector characterized by high sensitivity and interference resistance. Its advanced digital temperature compensation feature enables operation over a wide temperature range. The detector utilizes a quad pyroelectric sensor and features two-way signal analysis, based on value and quantity. The detector is equipped with a prealarm feature, indicated by a short flash of the LED when changes not meeting the alarm criteria are detected. The prealarm sensitivity depends on the sensitivity set on the detector pins. The device offers a wide range of configurations allowing for setting different sensitivities as well as enabling/disabling the integrated LED indicator. The detector includes tamper protection and a supply voltage monitoring feature.

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SATEL AQUA PRO LR, EWA, VB Instruction Manual | Manualzz
Lenses
An extra wide (EWA) lens is installed in the detector. Optionally, lenses with other
characteristics (coverage patterns) can be purchased and installed.
®
AQUA PRO
Name
EWA
LR
DIGITAL PASSIVE INFRARED DETECTOR
Description
Range
extra wide angle
15 m
long range with access 30 m
zone monitoring
vertical barrier
22.5 m
VB
Angle of view
141.2°
main beam – 3 m wide (at the
end of range)
2.2 m wide (at the end of range)
Table 1. Available lenses.
aqua_pro_en 07/11
The microprocessor-based, fully digital AQUA PRO detector is characterized by
high sensitivity and interference resistance. Due to an advanced digital
temperature compensation feature, the device can work in a wide temperature
range. A quad pyroelectric sensor is used in the detector. The processor performs
two-way signal analysis, based on value and quantity.
The detector is provided with a prealarm feature. Prealarm is signaled by a short
flash of the LED after changes which do not meet the alarm criteria have been
detected within the coverage area. The prealarm sensitivity depends on what
sensitivity is set on the detector pins. Frequently occurring prealarms may cause
an alarm.
The detector requires to warm up for the first 30 seconds after applying power.
Warm-up is indicated by a rapid LED blinking.
The detector monitors the supply voltage. If the voltage drops below 9 V (±5%) for
more than 2 seconds, the detector will signal a trouble by activation of the alarm
relay and by steady light of the LED indicator. Restoration of a minimum 9 V
(±5%) voltage will turn the signaling off.
NC
NC TMP TMP COM 12V
2,4 m
0
10 m
0
1
2
3
4
10 m
5
JP1
JP2
LED ON/OFF JP3
6
PIR SENS.
7
Fig. 1. View of detector electronics board.
Explanations to Fig. 1:
1 – terminals:
NC
– relay (NC)
TMP – tamper contact
COM – common ground
12V – supply input
2 – red color LED to indicate:
– prealarm – short flash (approx. 120 ms);
– alarm – lit up for 2 seconds;
– warm-up – blinking rapidly;
– low supply voltage – red light.
3 – pyroelectric sensor.
4 – tamper contact.
5 – scale for positioning of pyroelectric sensor against the lens (see: Fig. 7).
6 – fixing screw hole.
7 – detector configuration pins:
PIR SENS
- setting detector sensitivity (see Fig. 2);
LED ON/OFF - enabling/disabling the LED indicator. The LED indicator is
enabled when the pins are shorted.
A
PIR SENS.
JP1
JP2
PIR SENS.
JP1
JP2
C
B
PIR SENS.
JP1
JP2
PIR SENS.
JP1
JP2
D
Fig. 2. Setting the detector sensitivity
(A – low sensitivity, B and C – medium sensitivity, D – high sensitivity)
[
– pins shorted;
– pins open].
0
10 m
20 m
Fig. 3. Coverage area of a detector with EWA type lens.
Note: The detector operating range should be selected to match the size of
space where the detector will be installed. The size of the space along the
main direction of detector positioning is not to be less than 1/3 the nominal
range of the detector. Improper selection of the lens may cause excessive
sensitivity and trigger false alarms.
Installation
1. Open the enclosure as shown on Fig. 4.
I
II
Fig. 4. Removing the cover.
2. Remove the electronics board.
3. Make suitable openings for screws and cable in the enclosure base.
4. Pass the cable through the prepared opening.
5. Fix the enclosure base to the wall or to the attached bracket.
Note: For compliance with the requirements of EN50131-2-2, the detector shall
be installed directly on the mounting surface, without the additional bracket.
Start-up
1. Switch the detector power on. The LED will start blinking (if the LED ON/OFF
pins are shorted).
A
2. When the detector is ready to work (the LED will stop blinking), carry out the
detector range test, i.e. check that movement within the supervised area will
activate the alarm relay and lighting of the LED.
B
3. If necessary, change the detector sensitivity (pins PIR SENS.).
C
D
Specifications
Fig. 5. Ways of installing the detector.
I
II
Supply voltage................................................................................. 12 V DC ±15%
Standby current consumption ........................................................................10 mA
Maximum current consumption......................................................................12 mA
Relay contacts rating (resistive load) ............................................ 40 mA / 16 V DC
Alarm signaling time ............................................................................................ 2s
Detectable speed ................................................................................... 0.3...3 m/s
Security grade according to EN50131-2-2 .................................................. Grade 2
Environmental class according to EN50130-5 ....................................................... II
Operating temperature range ...............................................................-30...+55 °C
Standards complied with ........ EN50131-1, EN50131-2-2, EN50130-4, EN50130-5
Dimensions....................................................................................63 x 96 x 49 mm
Recommended installation height................................................................... 2.4 m
Weight .............................................................................................................. 91 g
Fig. 6. Mounting the detector on bracket.
6. Fasten the electronics board, taking into consideration the height of detector
installation (see: Fig. 7).
h=2.4 m
The declaration of conformity may be consulted at www.satel.eu/ce
2.4 m
h>2.4 m
A
2.4 m
B
2.4 m
h<2.4 m
2.4 m
C
2.4 m
D
Fig. 7. Effect of the height of installation on the detector coverage area and the
way of positioning the electronics board to optimize the area. Depending on the
mounting height, the medium scale line should be: aligned with the mark on the
enclosure (installation at a height of 2.4 m), situated above the mark (installation
higher than 2.4 m – example B) or below the mark (installation lower than 2.4 m –
example D).
7. Connect the wires to the corresponding terminals.
8. Using jumpers, set the working parameters of the detector.
9. Close the detector enclosure.
SATEL sp. z o.o.
ul. Schuberta 79
80-172 GdaƄsk
POLAND
tel. + 48 58 320 94 00
[email protected]
www.satel.pl

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Key Features

  • Digital temperature compensation
  • Two-way signal analysis
  • Prealarm feature
  • Adjustable sensitivity
  • LED indicator control
  • Tamper protection
  • Supply voltage monitoring
  • Wide temperature range
  • High sensitivity
  • Interference resistance

Frequently Answers and Questions

How do I set the sensitivity of the detector?
The sensitivity of the detector can be adjusted using the PIR SENS. pins (JP1 and JP2). Refer to Fig. 2 for a visual representation of the different sensitivity levels.
What is the purpose of the LED indicator?
The LED indicator provides visual feedback for various events. It blinks rapidly during warm-up, flashes briefly during prealarm, stays lit for 2 seconds during alarm, and illuminates steadily to indicate low supply voltage.
What does the prealarm feature indicate?
The prealarm is a short flash of the LED that signals changes detected within the coverage area that don't meet the alarm criteria. This can be triggered by minor movements or changes in temperature.

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