RISC GROUP RK200DTG3 High Ceiling Mount Detector Installation Guide
- June 5, 2024
- RISC GROUP
Table of Contents
- General Description
- Ind. LuNAR 200DTG3 Features
- Remote Control and Diagnostic Features*
- Detection Method
- How ACT™ Works
- How Green Line Works
- Ind. LuNAR 200DTG3 Configuration Options
- LED Display
- INSTALLATION
- Selectors and Jumpers
- DIP Switch Settings
- Terminal Blocks
- Walk Test
- Troubleshooting
- Specifications
- FCC Compliance Section
- US Patent Number
- Ordering Information
- RISCO Group Limited Warranty
- Contacting RISCO Group
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
DT AM Grade 3
Taking Intelligence to New Heights
High Ceiling Mount Detector
Installation Guide
Model: RK200DTG3
General Description
The Industrial LuNAR DT AM Grade 3 (Ind. LuNAR 200DTG3) is a dual technology
ceiling detector with a mounting height of up to 8.6m (28ft) that incorporates
RISCO Group’s Anti- Cloak™ Technology (ACT™). The detector has an Intelligent
Digital Signal Processing method that automatically adjusts the alarm
threshold and pulse count verification according to actual intruder crossing
speed and environmental factors, providing superior detection and false alarm
immunity. The Ind. LuNAR 200DTG3 can operate as a regular relay detector
connected to any control panel, or as an addressable BUS detector when
connected to RISCO Group’s ProSYS control
panel via the RS485 BUS.
NOTE:
For ProSYS programming please refer to the ProSYS Installation and Programming
Manual.
Ind. LuNAR 200DTG3 Features
- PD6662, EN50131-1, EN50131-2-4 Grade 3 Class II
- Addressable Dual Technology detector with Anti-Cloak™ Technology
- Up to 8.6 m (28ft) mounting height
- 3600 by 18m (60ft) diameter coverage pattern
- 3 independent PIR channels for customized coverage
- Intelligent Digital Signal Processing – alarm verification and decision thresholds adjusted according to the actual intruder crossing speed
- Built-in Triple EOL resistors, jumper selectable
- Active IR for Anti-Masking meeting EN50131-2-4 requirements
- Ceiling and cover tampers
- Green Line” setting – for disabling the MW when the premises are occupied
- Opto–relays for low current consumption and long life
- Remote and Local Self Test
- Remote SET input
- Remote RC control input
- PIR coverage optimization by sliding the lenses
- Microwave Range Adjustment manually (analog trimmer) and remotely (digital setting)
- Trouble Indication (by LEDs or via communication)
- 3 Triple color LEDs for easy walk testing
- Advanced Remote control and diagnostics
- Reduced Power Consumption when connected to RISCO Group’s ProSYS
Remote Control and Diagnostic Features*
- Remote microwave adjustment enables one-man walk test.
- Diagnostic tools include detector input voltage reading and status of each PIR channel and MW channel (signal voltage and noise levels), AM channel (signal voltage), SW version verification.
- Remote display and control of detector settings: MW adjustment, ACT on/off, LEDs on/off.
- Remote trouble indication (Pass/Fail) for the PIR, MW, and power supply input
- Control of MW bypass (during MW trouble) and MW disable during Disarm (“Green Line”) when connected to ProSYS.
*Via the optional Bi-Directional Infrared Remote Control, or the ProSYS Upload/Download Software and Keypad.
Detection Method
The Ind. LuNAR 200DTG3 detection is based on:
- PIR (Passive Infra-Red) – which response to changes in the IR radiation caused when an intruder crosses the protected area.
- MW (Microwave) – which transmits signals and analyzes the frequency changes of the reflected echo from an intruder using Doppler Effect.
ALARM is initiated only when both technologies trigger simultaneously (except for certain situations in the ACT mode-see page 4 – “How ACT™ Works”), thus greatly reducing the possibility of false alarms.
How ACT™ Works
Anti-Cloak™ Technology (ACT™) provides the benefits of DT (Dual Technology)
while avoiding its drawbacks. This patent-pending innovation has created a new
standard for detectors. Dual Technology, a combination of PIR +MW, was an
important development for the security industry…but, it has 2 major
weaknesses: IR emission blocking cloaks employed by intruders enable avoidance
of detection. PIR sensitivity is reduced when the protected area’s ambient
temperature approaches body temperature.
Responding to requests from its customer base to solve these pressing
problems, RISCO Group developed ACT™ -a revolutionary anti-cloak solution.
ACT™ prevents the alarm system from being bypassed, by neutralizing attempts
to camouflage IR radiation. Using unique pattern recognition algorithms, ACT™
distinguishes between the weak IR signal of a moving intruder and the
background noise and thermal interferences that may cause false alarms. Once
the presence of an intruder is recognized, ACT™ switches the system
automatically from dual-channel PIR/MW mode to single-channel MW mode for a
predetermined period of time, in order to trigger an alarm utilizing the MW
channel, and then returns to dual-channel mode. In the second case, when the
ambient temperature approaches body temperature, the ACT™ switches to
microwave-only detection. Offering significantly higher detection capabilities
as well as immunity from false alarms, ACT™ thwarts even the most
sophisticated burglars.
How Green Line Works
The Green Line feature is used in order to minimize the MW activity while the
premises are occupied. When the Green Line feature is enabled, the detector
should receive a Set/Unset indication from the security panel. For RISCO
security panels the Set/Unset status will be notified via BUS, for other
panels the status will be notified via the Set/Unset input terminal. (See
Terminal Blocks page 17)
When the Green Line feature is enabled and there is a SET status indication
from the panel, the detector is working normally; both PIR and MW channels are
operating. The detector will report detection to the panel when detection
occurs either in PIR or in MW channels. When the Green Line feature is enabled
and there is an UNSET status indication from the panel, the detector’s MW
channel is disabled. The detector will report detection to the panel when
detection occurs in the PIR channel only.
NOTE:
The processing of the detection report from the detector is completely
dependent on the panel setting and is not related to the Green Line feature.
Ind. LuNAR 200DTG3 Configuration Options
The Ind. LuNAR 200DTG3 can be configured and/or diagnosed remotely via one of the options:
| Manual configuration| Remote Control Device| ProSYS
Bus Control
---|---|---|---
ACT Mode| ✓| ✓| ✓
LEDs| ✓| ✓| ✓
MW Sensitivity| ✓ (by trimmer)| ✓| ✓
Diagnostics| –| ✓| ✓
Status/Trouble/Info Reports| –| ✓| ✓
AM Diagnostics| –| –| ✓
MW Bypass| –| –| ✓
MW Disable on Disarm (“Green Line”)| –| –| ✓
LED Display
The three Tri-color LEDs in Ind. LuNAR 200DTG3, operates as herein described:
LED | STATE | MEANING |
---|
Red
| Steady| Detector alarm (simultaneous PIR and MW detection)
Flashing with low frequency| Indicates malfunctioned communication with ProSYS
Flashing with high frequency| AM detection
Green
| Steady| Microwave detection
Flashing| Trouble in the MW channel
Orange
| Steady| PIR detection
Flashing| Trouble in the PIR channel
All LEDs| Flashing with the change of color| Upon power up
INSTALLATION
Preliminary steps:
- Before installation, study the space to be protected carefully in order to choose the exact location of the unit for the best possible coverage.
- Never install the Ind. LuNAR 200DTG3 in an environment that causes an alarm condition in one technology.
- Avoid installations where rotating machines (e.g. fans) are normally in operation within the coverage pattern. Point the unit away from glass exposed to the outdoors and objects that may change temperature rapidly.
- Do not mount the detector in direct sunlight or near any heat sources. Detection sectors should be pointed either towards a wall, or floor but not towards windows or curtains. The installation surface should be solid, smooth, and vibration-free
- Eliminate interference from nearby outside sources.
- For optimum detection, select a location likely to intercept an intruder moving across the coverage pattern.
- Recommended mounting heights that allow 18m (60ft) detection, are from 3.7m to 8.6m.
- The detector must be mounted on the ceiling, preferably in the center of the room.
Typical Ind. LuNAR 200DTG3 detection coverage and installation height, are illustrated below:
NOTE:
When installing the Ind. LuNAR 200DTG3 detector in a room occupied with high
volume interfering elements, MW detection may be affected.
Installation Process:
To open the detector (Figure 1), remove the cover by inserting a screwdriver
(1) in the recess between the detector’s protection cap and the cover. The
cover will remain attached to the base of the detector.
Using a Philips screwdriver, release the upper cover screw (2) and gently pull
upward the detector’s upper cover.
Release the PCB holding screw (Figure 2) located on the right-hand side of the PCB (1), pull gently the two release clips (2) outward, and remove the PCB.
If required, open (Figure 3) the wiring channels knockout using a cutter (1, 2) and knockout holes in the rear cover (3, 4) using a screwdriver.
Insert the cable via the cable opening (Figure 4) and connect the desired wires as described in “Step 4- Wiring”.
Mount the rear cover in its final location (Figure 5) using the 3 mounting screws and seal the remaining open holes with sealant.
NOTE:
When a single gang box is used, use 2 additional screws to mount the base to
the single gang box. The back tamper cannot be used in this case!
Return the PCB to its previous location and verify that it is well secured by
the holding clips and the screw.
Perform lens adjustment and DIP switch settings as described in “Lens
Adjustment” on page 11 and on page 14.
Mount the top cover on the detector’s base.
Tighten the top cover’s central screw.
Replace the detector’s protection cap.
NOTE:
For a ceiling tamper, affix the back tamper screw as shown in Figure 5.
Lens Adjustment:
The Ind. LuNAR 200DTG3 has three – Fresnel lenses attached to the cover,
located in the sensor protective sleeves. Adjust the position of the lenses
based on the ceiling mounting height as follows:
Press the 2 clips attaching the sleeve (Figure 6) to the detector’s cover, and
gently pull out the sleeve.
Remove the lens from the sleeve ( Figure 7 ) by gently lifting it from the holding pins that secure it to the sides of the sleeve.
Place the two pins, which are located on both sides of the sleeve into the matching slots on the lens. Use the following table to select the desired lens position.
Return the protective sleeve back into place on the detector front cover. Repeat steps 1 to 5 for the remaining 2 lenses.
NOTES:
Below 3.7m mounting height, the coverage diameter starts decreasing, and at
2.7m height coverage diameter is 15m (50ft). For customized coverage, it is
possible to set the position of each lens to a different height, according to
the installation conditions.
Selectors and Jumpers
RC/SET INPUT
| Used to determine the polarity of the external inputs.
---|---
| 12V: 12v has to be connected in order to activate the function. GND or N.C. has no influence on the RC/SET status. (see Relay mode DIP switches configuration)
| 0V: The GND has to be connected in order to activate the function. 12v or
N.C. has no influence on the RC/SET status. (see Relay mode DIP switches
configuration)
**EOL RESISTORS JUMPERS| **
| The jumpers are used when connecting the detector to a DEOL or TEOL Zone.
The jumpers allow the selection of TAMPER, ALARM E.O.L resistors (1K, 2.2K,
4.7K, 5.6Kor 6.8K), according to the control panel settings. An additional
double jumper allows the connection of a 12K FAULT/AM E.O.L resistor (see EOL
Resistors Schematic).
Follow the terminal block connection diagram when connecting the detector to a
Double/Triple End Of Line (DEOL/TEOL) Zone.
---|---|---
Schematic of EOL Resistors
DIP Switch Settings
The Ind. LuNAR 200DTG3 has a 9 position DIP switch that changes functionality for use in Relay mode or in BUS operation mode. Set the DIP switch according to the tables below:
Factory Default Settings: Relay Mode Configuration (DIP switch 6=OFF):
DIP switch Number| Description|
---|---|---
1| Used to determine the operation of the ACT
DIP switch ON : ACT is enabled
DIP switch OFF : ACT is disabled (default factory)
2| Used to determine the operation of the detector’s LEDs
Dip switch ON : LEDs are enabled (default factory)
DIP switch OFF : LEDs are disabled
3| Used to determine the operation of the “Green Line” (See Note below)
DIP switch ON : “Green Line” is enabled
DIP switch OFF : “Green Line” is disabled (default factory)
4| Used to determine the type of Self Test (See Note below)
DIP switch ON : Local Self Test:
In case the local self-test fails, the FAULT/AM Relay is activated for a
period of 2.5 secs. DIP switch OFF : Remote Self Test (default factory):
In case the remote self-test passes, the Alarm Relays are activated for a
period of 5 secs. In case the test fails, FAULT/AM Relay is activated for a
period of 2.5 seconds.
5| Used to determine whether Active IR Anti-Masking is active. (See Note
below)
DIP switch ON : Enable
DIP switch OFF : Disable (default factory)
| IMPORTANT:
If the AM is enabled via DIP Switch 5, the cover must be fitted within 1
minute from applying the power. If the detector is already powered up and DIP
Switch 5 is turned on, the unit must be down powered to reset the AM
calibration.
6| Used to determine the detector’s connection mode
DIP switch OFF : Relay mode
7
| Used to determine if the Remote Control communication is enabled or
disabled.
DIP switch ON : RC communication is always enabled.
DIP switch OFF : RC communication depends on the voltage applied to the
terminal block “RC” (default factory) When an activation signal is applied to
the RC input of the terminal block, RC is enabled.
| IMPORTANT:
Turn dipswitch 7 “OFF” after installation and when leaving the site for
security reasons. This will prevent unauthorized use of a remote control unit
that may be used to disable the detector.
8-9| DIP switches OFF
| NOTE:
See Set Terminal Blocks for activation details.
BUS Mode Configuration (DIP switch 6=ON):
DIP switch Number | Description |
---|---|
1-5 | Used to set the detector ID number. (See Table 1) Set the ID number |
in the same way as for any other ProSYS accessory.
6| Used to determine the detector’s connection mode.
DIP switch ON : ProSYS connection – BUS configuration
| | NOTE:|
Upon power up or normal operation, Ind. LuNAR 200DTG3 waits 10 seconds for
ProSYS communication. Communication problems may occur due to bad wiring,
wrong address, or ProSYS not configured properly; RED LEDs will continuously
flash until the problem is solved.
7| Not applicable (RC communication is automatically enabled when
entering Walk Test mode in the ProSYS and disabled otherwise).
8-9| DIP Switch ON : in order to enable the detector to report the
tamper status to ProSYS.
Table 1: ID Settings for BUS connection
ID| 1| 2| 3| 4| 5| | ID| 1| 2|
3| 4| 5
---|---|---|---|---|---|---|---|---|---|---|---|---
01| OFF| OFF| OFF| OFF| OFF| 17| OFF| OFF| OFF| OFF| ON
02| ON| OFF| OFF| OFF| OFF| 18| ON| OFF| OFF| OFF| ON
03| OFF| ON| OFF| OFF| OFF| 19| OFF| ON| OFF| OFF| ON
04| ON| ON| OFF| OFF| OFF| 20| ON| ON| OFF| OFF| ON
05| OFF| OFF| ON| OFF| OFF| 21| OFF| OFF| ON| OFF| ON
06| ON| OFF| ON| OFF| OFF| 22| ON| OFF| ON| OFF| ON
07| OFF| ON| ON| OFF| OFF| 23| OFF| ON| ON| OFF| ON
08| ON| ON| ON| OFF| OFF| 24| ON| ON| ON| OFF| ON
09| OFF| OFF| OFF| ON| OFF| 25| OFF| OFF| OFF| ON| ON
10| ON| OFF| OFF| ON| OFF| 26| ON| OFF| OFF| ON| ON
11| OFF| ON| OFF| ON| OFF| 27| OFF| ON| OFF| ON| ON
12| ON| ON| OFF| ON| OFF| 28| ON| ON| OFF| ON| ON
13| OFF| OFF| ON| ON| OFF| 29| OFF| OFF| ON| ON| ON
14| ON| OFF| ON| ON| OFF| 30| ON| OFF| ON| ON| ON
15| OFF| ON| ON| ON| OFF| 31| OFF| ON| ON| ON| ON
16| ON| ON| ON| ON| OFF| 32| ON| ON| ON| ON| ON
Terminal Blocks
TERMINAL BLOCK 1 | DESCRIPTION |
---|---|
+12V (RED) | Power supply positive (+) input voltage |
– (BLK) | Common to control panel power supply |
BUS (GRN) | Used for data communication with the ProSYS |
BUS (YEL) | Used for data communication with the ProSYS |
SET * | Used to remotely SET/UNSET the detector. |
When an activation signal (see RC/SET Activation jumper for settings) is
applied to the SET input of the terminal block: s AM will be disabled (if
the AM DIP switch 5 was previously ON)
s MW module is enabled (if the Green Line DIP switch 3 was previously ON).
Removing an activation signal will cause a Self Test (if the Remote Self Test
DIP switch 4 was previously OFF).
RC * (REMOTE CONTROL)| Used to enable/disable the remote control
communication, only when DIP switch 7 is “OFF”.
When an activation signal (see RC/SET input jumper for settings) is applied to
the RC input of the terminal block, Remote Control will be enabled.
Note: DIP switch 7 “ON” constantly enables RC communication.
WARNING:
Turn DIP switch 7 “OFF” after installation and when leaving the site for
security reasons. This will prevent unauthorized use of a remote control unit
that may be used to disable the detector.
***** Not relevant in BUS mode
TERMINAL BLOCK 2 | DESCRIPTION |
---|---|
AM/FAULT | Normally closed output |
The AM/FAULT output opens in the following events:
• Detector is masked (ALARM also opens in this case)
• Self Test failed
• Input voltage is low (6VDC-8VDC)
TAMPER| Normally closed output
ALARM| Normally closed output
Walk Test
NOTE:
To perform the walk test, first, enable the LEDs.
Two minutes after applying power (warm-up period), walk test the detector over
the entire protected area to verify the proper operation of the detector and
observe the Tri-color LED. The edge of the microwave pattern is determined by
the first red LED activation (both PIR and MW LEDs are triggered).
NOTE:
If the PIR/MW LEDs do not TURN ON, probably it means that there is a problem
with either the lens (PIR) position or MW adjustment! Adjust the microwave
sensitivity by turning the PCB potentiometer (using a screwdriver), or by
using the Remote Control device. Walk test the unit from all directions to
determine all the detection pattern boundaries.
NOTE:
Adjust the MW to the lowest possible setting that will still provide enough
coverage for the entire protected area! When using the Remote Control device,
it is recommended to perform the LuNAR Self Test; for further instructions
refer to the Remote Control Instructions. Upon completion of installation and
testing stages, ensure that all switches are in their desired positions.
IMPORTANT:
Turn DIP switch 7 “OFF” after installation and when leaving the site for
security reasons. This will prevent unauthorized use of a remote control unit,
that may be used to disable the detector.
Troubleshooting
This section describes possible system problems and their solutions:
Always perform the following preliminary checks before referring to the
troubleshooting table:
Perform a complete visual inspection of Ind. LuNAR 200DTG3, for signs of
mechanical damage, loose connections, or torn wires.
Check the connections of the incoming AC power source.
Trouble | Meaning | Response |
---|---|---|
ProSYS Configuration of detectors fails/not accepted by the system | ID | |
configuration problem | Disconnect all power sources, configure the desired IDs |
and reconnect power again
Tamper indication while working in the BUS mode| Tamper
connection malfunction
| Verify that both DIP 8 and 9 are in the ON position
Tamper indication in the Relay or BUS mode| Tamper is probably not closed|
Visually verify that ceiling tamper and spring are correctly installed
Walk test cannot be initiated via the ProSYS keypad| Wrong code| Insert the
appropriate code
Green LED doesn’t operate during Walk test – MW the channel does not function|
Ind. LuNAR 200DTG3 is configured (via the ProSYS) to the “MW disable on
DISARM” during ProSYS’s DISARM mode| Normal behavior
Ind. LuNAR 200DTG3 operating in Bypass mode due to “Bypass MW channel mode”|
Reset the detector.
If MW channel trouble reoccurs, replace the detector with a new one
Specifications
Coverage| Coverage pattern consists of 192 fingers (96 Fresnel facets)
divided into 3 lens sections. Each lens section has 4 adjustable vertical
positions for variable mounting height and customized coverage. 360° by 18m
(60ft) diameter. When mounting the detector under 3.7m, the coverage diameter
starts to decrease up to 15m (50ft).
---|---
Variable Mounting Height| From 2.7m to 8.6m (9′ to 28′), 4 lens
positions according to installation height
RFI immunity| According to EN50130-4
Operating voltage| 9 to 16VDC
Current consumption| 20mA at 12VDC, 30mA at 16 VDC, Maximum of 40mA with
all LEDs on.
Alarm and AM contacts| Opto-relay NC, 100mA, 24 VDC
Tamper contacts| NC, 500mA, 24 VDC
Alarm Time| 2.2 seconds
Warm-up time| 2 minutes
Optical Filtering for white light
protection
| Pigmented Fresnel lens
Operating temperature| -20° C to 55° C (-4° F to 131° F)
Storage temperature| -20° C to 60° C (-4° F to 140° F)
Dimensions (Height x Diameter)| 99mm x 194mm (3.9″x 7.6″)
FCC Compliance Section
FCC Part 15 Note:
FCC ID: JE4RK200DTG3US
This device complies with part 15 of the FCC Rules. Operation is subject to
the following two conditions:
(1) This device may not cause harmful interference, and
(2) This device must accept any interference received, including interference
that may cause undesired operation.
Any changes or modifications not expressly approved by the party responsible
for compliance could void the user’s authority to operate the equipment.
FCC Note
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 used 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:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
- Connect the equipment to an outlet on a circuit different from that to which the receiver is connected.
- Consult the dealer or an experienced radio/TV technician.
FCC Warning:
The manufacturer is not responsible for any radio or TV interference caused by
unauthorized modifications to this equipment. Such modifications could void
the user’s authority to operate the equipment.
US Patent Number
This product is protected under Patent No. US 7,126,476 B2. Other patents pending.
Ordering Information
Model | Description |
---|---|
Ind. LuNAR 200DTG3 | Industrial LuNAR DT AM Grade 3 Detector |
Ind. LuNAR 200RC | Industrial LuNAR Remote Control |
RISCO Group Limited Warranty
RISCO Group and its subsidiaries and affiliates (“Seller”) warrant its
products to be free from defects in materials and workmanship under normal use
for 24 months from the date of production. Because Seller does not install or
connect the product and because the product may be used in conjunction with
products not manufactured by the Seller, Seller can not guarantee the
performance of the security system which uses this product. Sellers obligation
and liability under this warranty is expressly limited to repairing and
replacing, at Sellers option, within a reasonable time after the date of
delivery, any product not meeting the specifications. Seller makes no other
warranty, expressed or implied, and makes no warranty of merchantability or of
fitness for any particular purpose.
In no case shall the seller be liable for any consequential or incidental
damages for breach of this or any other warranty, expressed or implied, or
upon any other basis of liability whatsoever. The seller’s obligation under
this warranty shall not include any transportation charges or costs of
installation or any liability for direct, indirect, or consequential damages
or delay.
Seller does not represent that its product may not be compromised or
circumvented; that the product will prevent any persona; injury or property
loss by an intruder, robbery, fire, or otherwise; or that the product will in
all cases provide adequate warning or protection. The buyer understands that a
properly installed and maintained alarm may only reduce the risk of an
intruder, robbery, or fire without warning, but is not insurance or a
guarantee that such will not occur or that there will be no personal injury or
property loss as a result. Consequently, the seller shall have no liability
for any personal injury, property damage, or loss based on a claim that the
product fails to give a warning. However, if seller is held liable, whether
directly or indirectly, for any loss or damage arising from under this limited
warranty or otherwise, regardless of cause or origin, seller’s maximum
liability shall not exceed the purchase price of the product, which shall be
the complete and exclusive remedy against the seller.
No employee or representative of Seller is authorized to change this warranty
in any way or grant any other warranty.
WARNING: This product should be tested at least once a week
Contacting RISCO Group
RISCO Group is committed to customer service and product support. You can contact us through our website (www.riscogroup.com) or at the following telephone and fax numbers:
United Kingdom
Tel: +44-(0)-161-655-5500
E-mail: support-uk@riscogroup.com
USA
Tel: +1-631-719-4400
E-mail: support-usa@riscogroup.com
RISCO product was purchased from
All rights reserved.
No part of this document may be reproduced in any form without prior written
permission from the publisher.
© RISCO Group 09/20
REMOVE UL Section 5IN1350 D
Ind. LuNAR 200DTG3 Installation Guide
References
Read User Manual Online (PDF format)
Read User Manual Online (PDF format) >>