Satel SLIM-DUAL-LUNA-PET Digital Dual Technology Motion Detector User Manual
- June 5, 2024
- Satel
Table of Contents
- Satel SLIM-DUAL-LUNA-PET Digital Dual Technology Motion Detector
- Features
- Description
- Electronics module
- Terminal block
- Selecting a mounting location
- Installation
- Configuring the detector
- Start-up and walk test
- Specifications
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
Satel SLIM-DUAL-LUNA-PET Digital Dual Technology Motion Detector
IMPORTANT
The device should be installed by qualified personnel. Prior to installation, please read carefully this manual.
Changes, modifications or repairs not authorized by the manufacturer shall void your rights under the warranty.
SATEL aims to continually improve the quality of its products, which may
result in changes in their technical specifications and software. Current
information about the changes being introduced is available on our website.
Please visit us at:
https://support.satel.eu
The declaration of conformity may be consulted at www.satel.eu/ce
The following symbols may be used in this manual:
note
caution
The SLIM-DUAL-LUNA-PET detector detects movement in the protected area. Additionally, the detector has a set of LEDs to provide the lighting feature. This manual applies to the detector with electronics version D.
Features
- Motion detection with two sensors: passive infrared sensor (PIR) and microwave sensor (MW).
- Adjustable detection sensitivity of both sensors.
- The capability of separate sensor testing.
- Digital motion detection algorithm.
- Digital temperature compensation.
- A Digital filter of signals received by the microwave sensor ensures immunity to false alarms caused by the power network and gas-discharge lamps.
- Pet immunity up to 20 kg.
- Selectable operation mode: basic, advanced, PIR or MW.
- A wide-angle lens designed especially for SLIM detectors.
- Ability to configure the detector settings using the OPT-1 keyfob.
- Built-in end-of-line resistors (2EOL: 2 x 1.1 k / 2 x 4.7 k / 2 x 5.6 k).
- Lighting feature implemented using LEDs.
- Option to remotely control lighting or activate lighting by motion.
- LED indicators.
- Selectable color of LED indicator light (7 colors available).
- Remote LED indicators enable/disable.
- Remote configuration mode enables/disable.
- Supervision of motion detection system and supply voltage.
- Tamper protection against enclosure opening and removal from the mounting surface.
Description
Operation modes
Basic – both sensors are enabled. The detector reports alarm when both
sensors have detected motion within a time period shorter than 3 seconds.
Advanced – both sensors are enabled. The detector reports alarm when:
- both sensors have detected motion within a time period shorter than 3 seconds,
- within a time period shorter than 3 seconds, the microwave sensor has detected motion, and the PIR sensor has registered some small changes in its field of view, not sufficient however to recognize them as motion,
- within 15 minutes, the microwave sensor has detected motion 16 times, though the PIR sensor has registered no changes in its field of view.
PIR – the microwave sensor is disabled. The detector reports alarm when
the infrared sensor detects motion in the protected area.
MW – the infrared sensor is disabled. The detector reports an alarm when
the microwave sens detects motion in the protected area.
The detector is pet immune in the following operation modes: basic (factory default setting) and PIR. The advanced and MW modes can only be used to activate lighting by motion.
Lighting feature
The light sources are 4 white LEDs. The following lighting operation modes are
available:
- remote control only – the lighting is ON when the LUNA terminal is connected to common ground (if the LUNA terminal is disconnected from ground, the lighting is OFF),
- remote control and motion activation – the lighting is ON when the LUNA terminal is connected to the ground, or after motion is sensed by the detector,
- motion activation if the LUNA terminal is connected to common ground – the lighting is ON when the LUNA terminal is connected to common ground and the detector has sensed motion (if the LUNA terminal is disconnected from common ground, detection of motion will not activate the lighting).
If activated by motion, the lighting remains ON for the time period programmed
in the detector. If the lighting is ON and motion is detected, the countdown
starts anew.
For description of the lighting feature configuration, see section
“Configuring the detector”.
Supervision features
In the event of the voltage drop below 9 V (±5%) for more than 2 seconds or
the motion detection system failure, the detector will signal a trouble. The
trouble is indicated by the alarm output activation and the LED indicators
coming on. Signaling will continue as long as the trouble exists.
LED indicators
The LEDs indicate:
- warm-up – flashing alternately different colors for about 30 seconds;
- motion detected by microwave sensor – ON for 3 seconds (default color: green);
- motion detected by PIR sensor – ON for 3 seconds (default color: purple);
- alarm – ON for 2 seconds (default color: blue);
- trouble – steady ON for entire duration of the trouble (the same color of lighting as in case of alarm).
You can change the colors. Each event can be indicated in one of seven
available colors. You can also enable/disable the indication of motion
detection by the MW and PIR sensors (see “Configuring the detector”).
The LEDs are also used in the configuration mode (see “Configuring the
detector”).
Enabling the LEDs by using a jumper
If you put a jumper across the LED pins, the LEDs will be enabled, i.e. they
will indicate the above described events (the LED indicators can’t be
enabled/disabled remotely). If you do not put a jumper across the pins, the
LEDs will be disabled, but they can be enabled/disabled remotely.
Remote LEDs enable/disable
The LED terminal is provided to allow remote LEDs enable/disable. When the
terminal is connected to common ground, the LEDs are enabled. When the
terminal is disconnected from common ground, the LEDs are disabled.
If the detector is used in the INTEGRA / INTEGRA Plus alarm system, you can
connect to the terminal an OC type control panel output programmed e.g. as
“Zone test status” or “BI switch”.
Remote switching between detector working parameters
The SENS terminal is provided to allow remote switching between detector
working parameters (detector operation mode and sensor sensitivity). The first
set of parameters is used when the terminal is disconnected from common
ground, and the second – when the terminal is connected to common ground.
This makes it possible to change the detector working parameters depending on
the state of partition to which the detector is assigned. If the partition is
disarmed, the detector can use the set of parameters that will increase the
efficiency of lighting activation by motion (maximum sensitivity of sensors)
or disable the microwave sensor (PIR operation mode). If the partition is
armed, the detector can use the set of parameters that will eliminate false
alarms (e.g. lower sensitivity, both sensors enabled, etc.).
If the detector is working in the INTEGRA / INTEGRA Plus alarm system, you can
connect to the terminal the control panel OC type output programmed e.g. as
“Armed status”.
For description of how to configure detector parameters, see section
“Configuring the detector”.
Remote configuration mode enable/disable
The SRVC terminal is provided to allow remote configuration mode
enable/disable. The configuration mode is enabled, when the terminal is
connected to the common ground.
If the detector is working in the INTEGRA / INTEGRA Plus alarm system, you can
connect to the terminal the control panel OC type output programmed e.g. as
“Service mode status” or “BI switch”.
Electronics module
Do not remove the plastic cover from the circuit board to prevent damage to
the components located on the board.
Do not touch the pyroelectric sensor, so as not to soil it.
-
pins for configuration of the detector outputs. Available settings are shown in the figures:
-
2 – 2 x 1.1 k
-
resistors are used, 3 – 2 x 4.7 k
-
resistors are used, 4 – 2 x 5.6 k
-
resistors are used,
-
5 – built-in resistors are not used.
If the built-in resistors are used, connect the detector outputs as shown in Fig. 12. When the built-in resistors are not used, connect the detector outputs as shown in Fig. 11. -
microwave sensor.
-
infrared receiver allowing to configure the detector by means of OPT-1 keyfob. The keyfob is available in SATEL’s product range.
-
MODE button used for configuring the detector (see “Configuring the detector”).
-
tamper switch activated by cover removal.
-
buttons used for configuring the detector (see “Configuring the detector”).
-
LED indicators.
-
PIR sensor (quad element pyrosensor).
-
pins to enable/disable the LED indicators.
-
LEDs for lighting.
On the other side of the electronics module is a tamper switch activated by removing the detector from the wall.
Terminal block
The terminal block is located on the enclosure base (Fig. 6). To get access to the terminals, you must remove the electronics module (Fig. 8).
SENS –
switching between detector working parameters (operation mode and sensor
sensitivity).
TMP – tamper output (NC relay).
NC – alarm output (NC relay).
COM – common ground.
+12V – power input.
LED – enable/disable the LED indicators.
SRVC – enable/disable the detector configuration mode.
LUNA – LED lighting control.
Selecting a mounting location
- Do not install the detector outdoors (A).
- Install the detector at the recommended height (B).
Test different mounting heights to see where to install the detector in order to achieve the optimal coverage area. You may need to install the detector at a height other than the recommended, e.g. several centimeters down.
- When choosing the installation location, keep in mind that the detector performance will be the best where the expected direction of the intruder movement will be across the coverage pattern (C).
- Do not install the detector in places where it will be exposed to direct sunlight (D) or light reflected from other objects (E).
- Do not point the detector towards fans (F), air conditioners (G) or heat sources (H).
Installation
Disconnect power before making any electrical connections.
If the detector is to be pet immune, it must not be mounted on the bracket and
must be installed at a height of up to 2.4 m with no inclination from the
vertical.
- Remove the front cover (Fig. 7).
- Move the electronics module down to unlock it, and then remove it from the enclosure base (Fig. 8).
- Make the openings for screws (Fig. 9) and cable (Fig. 10) in the enclosure base.
- Pass the cable through the prepared opening.
- Secure the enclosure base to the wall (Fig. 9). The wall plugs (anchors) delivered with the device are intended for concrete, brick, etc. For other types of surface (drywall, styrofoam), use the appropriately selected wall plugs.
- Connect the wires to the corresponding terminals.
- Place the electronics module in the enclosure base and then move it up to lock it.
- Configure the detector (see “Configuring the detector”).
- Replace the cover.
Configuring the detector
To configure the detector, you can use the buttons on the electronics module or the OPT-1 keyfob.
NOTE: The OPT-1 keyfob is available in SATEL’s product range.
Starting configuration mode
Press the MODE button on the detector electronics module for 3 seconds or
connect the SRVC terminal to common ground. After starting the configuration
mode, the LEDs will start flashing red. The number of flashes means the number
of functions you can run (see Table 1).
NOTE: Pressing and holding down the – and + buttons simultaneously for 3
seconds in the configuration mode will restore the factory default settings of
the detector.
In the configuration mode, the LED lighting is OFF.
Running functions and configuring parameters
- Use the buttons on the electronics module (+ – next function; – – previous function) or the keyfob keys ( – next function; – previous function) to find a function you want to run.
- Press the MODE button on the electronics module or the key on the keyfob to run a function. After starting the function, the LEDs will start flashing green. The number of flashes means the value currently set for the parameter being configured (see Table 1).
- Use the buttons on the electronics module (+ – next value; – – previous value) or the keyfob keys ( – next value; – previous value) to configure the selected parameter.
- Press the MODE button on the electronics module or the key on the keyfob to save the changes. When the new parameter value is saved, the LEDs will start flashing red to inform you that you have returned to the function list.
Function number|
Description of parameter to be programmed
---|---
1
| PIR sensor sensitivity for the first set of parameters
You can program from 1 to 16 (1 – minimum; 16 – maximum).
By default: 8.
When the function is running, detection of motion by the PIR sensor is indicated by the LEDs coming on red for 2 seconds. This enables the PIR sensor coverage area to be tested for the selected sensitivity.
2
| PIR sensor sensitivity for the second set of parameters
You can program from 1 to 16 (1 – minimum; 16 – maximum).
By default: 8.
When the function is running, detection of motion by the PIR sensor is indicated by the LEDs coming on red for 2 seconds. This enables the PIR sensor coverage area to be tested for the selected sensitivity.
3
| MW sensor sensitivity for the first set of parameters
You can program from 1 to 16 (1 – minimum; 16 – maximum).
By default: 8.
When the function is running, detection of motion by the MW sensor is indicated by the LEDs coming on red for 2 seconds. This enables the MW sensor coverage area to be tested for the selected sensitivity.
4
| MW sensor sensitivity for the second set of parameters
You can program from 1 to 16 (1 – minimum; 16 – maximum).
By default: 8.
When the function is running, detection of motion by the MW sensor is indicated by the LEDs coming on red for 2 seconds. This enables the MW sensor coverage area to be tested for the selected sensitivity.
5
| Operation mode for the first set of parameters
You can program 1 (basic), 2 (advanced), 3 (PIR) or 4 (MW). By default: 1 (basic).
6
| Operation mode for the second set of parameters
You can program 1 (basic), 2 (advanced), 3 (PIR) or 4 (MW). By default: 1 (basic).
7
| LED indicators light color after motion is detected by PIR sensor
You can program from 1 to 8 (1-7 – color; 8 – no light). By default: 4 (purple).
In addition to the presentation of value (flashing green), the LEDs show the color assigned to that value (for 2 seconds).
8
| LED indicators light color after motion is detected by MW sensor
You can program from 1 to 8 (1-7 – color; 8 – no light). By default: 2 (green).
In addition to the presentation of value (flashing green), the LEDs show the
color assigned to that value (for 2 seconds).
Function number|
Description of parameter to be programmed
---|---
9
| LED indicators light color when indicating alarm / trouble
You can program from 1 to 7 (1-7 – color). By default: 3 (blue).
In addition to the presentation of value (flashing green), the LEDs show the color assigned to that value (for 2 seconds).
10
| Lighting operation modes
You can program 1 (remote control only), 2 (remote control and activation by motion) or 3 (activation by motion if the LUNA terminal is connected to common ground).
By default: 1 (remote control only).
11
| Duration of motion activated lighting
You can program 1 (5 s), 2 (15 s), 3 (30 s), 4 (60 s), 5 (90 s) or 6 (180 s).
By default: 3 (30 s).
12
| Method of lighting turning off
You can program 1 (instant turn off) or 2 (slow dim down). By default: 2 (slow dim down).
NOTE:
When setting sensitivity of the MW sensor, keep in mind that microwaves can
penetrate e.g. glass, plaster walls, non-metal doors, etc.
The detector is pet immune in the following operation modes: basic (factory
default setting) and PIR. The advanced and MW modes can only be used to
activate lighting by motion.
The color of LED light has an impact on the current consumption by the
detector. The red, green and blue colors ensure the lowest current
consumption. Selecting other colors will increase the current consumption by
as much as several milliamperes.
Ending configuration mode
Press the MODE button on the electronics module for 3 seconds or disconnect
the SRVC terminal from common ground.
NOTE: If you started the configuration mode by using the MODE button, the configuration mode will be ended automatically 20 minutes after the last operation performed by the user.
Start-up and walk test
NOTE:The LED indicators should be enabled during the walk test (see “LED indicators”).
- Power on the detector. The LEDs will flash alternately different colors for 30 seconds to indicate warm-up of the detector.
- When the LEDs stop flashing, check that moving within the detector coverage area will make the LEDs to turn on. Figure 13 shows the maximum coverage area and the creep zone of a detector installed at a height of 2.4 m.
Separate testing of sensors
If you wish to test the sensors separately, you can do so when configuring
sensitivity of the given sensor (see “Configuring the detector”).
- Run the sensor sensitivity configuring function.
- Make sure that moving within the coverage area will make the LEDs turn on red.
- If necessary, change the sensitivity.
Specifications
Supply voltage ………………………………………………………………………………………. 12 VDC ±15%
Standby current consumption ……………………………………………………………………………… 14 mA
Maximum current consumption ………………………………………………………………………….. 100 mA
EOL resistors …………………………………………………………… 2 x 1.1 k / 2 x 4.7 k / 2 x 5.6 k,
Outputs
alarm (NC relay, resistive load) …………………………………………………………. 40 mA / 24 VDC
tamper (NC relay, resistive load) ……………………………………………………….. 40 mA / 24 VDC
Relay contact resistance
alarm output ……………………………………………………………………………………………………. 26 Ω
tamper output …………………………………………………………………………………………………. 26 Ω
Microwave frequency …………………………………………………………………………………. 24.125 GHz
Detectable speed ………………………………………………………………………………………… 0.3…3 m/s
Alarm signaling period ……………………………………………………………………………………………. 2 s
Warm-up period …………………………………………………………………………………………………… 30 s
Recommended installation height …………………………………………………………………….. 2…2.4 m
Coverage area …………………………………………………………………………………… 12 m x 13 m, 90°
Security grade according to EN 50131-2-4 …………………………………………………………. Grade 2
Compliance with standards ……………….EN 50131-1, EN 50131-2-4, EN 50130-4, EN
50130-5
Environmental class according to EN 50130-5 ……………………………………………………………… II
Operating temperature range ……………………………………………………………………. -10°C…+55°C
Maximum humidity ……………………………………………………………………………………………. 93±3%
Dimensions ……………………………………………………………………………………… 62 x 137 x 42 mm
Weight ………………………………………………………………………………………………………………. 144 g
References
Read User Manual Online (PDF format)
Read User Manual Online (PDF format) >>