LEVITON OSR15-MCW GreenMAX DRC Sensor Instruction Manual

June 4, 2024
Leviton

LEVITON OSR15-MCW GreenMAX DRC Sensor Instruction Manual
LEVITON OSR15-MCW GreenMAX DRC Sensor

WARNINGS

  • TO AVOID FIRE, SHOCK, OR DEATH; TURN OFF POWER AT CIRCUIT BREAKER OR FUSE AND TEST THAT POWER IS OFF BEFORE WIRING!
  • To be installed and/or used in accordance with appropriate electrical codes and regulations.
  • If you are unsure about any part of these instructions, consult an electrician.

CAUTIONS

  • ESD Sensitive Device: Use Safe handling procedures when installing.
  • For indoor applications only.
  • Save these instructions.

Product Description

This GreenMAX DRC Sensor is a direct network connected device which can detect both Occupancy and Light level within its specified range. It reports data using LumaCAN™ Sensor messages over the network, for receipt by any Sapphire or GreenMAX DRC Room Controller.

Occupancy Sensor Technology and Application Notes:

  • This sensor uses microwave technology (5.8GHz frequency) to detect motion. Microwaves are extremely sensitive, omni-directional and will penetrate through most building construction materials. Microwaves do NOT pass through metal and is the one material used to control the direction of the microwave detection. When selecting a sensor location, ensure that it is placed at least 6 ft away from any HVAC source as this technology is sensitive to air movement.

  • The OSR15-MCW sensor uses PIR detection technology. This technology uses a lens which establishes dozens of zones of detection. The sensor is sensitive to the heat emitted by the human body. In order to trigger the sensor, the source of heat must move from one zone of detection to another.
    The device is most effective in sensing motion across its field-of-view, and less effective sensing motion towards or away from its field-of-view. Keep this in mind when selecting the installation location. Note that occupancy sensors respond to rapid changes in temperature, so care should be taken not to mount the device near a climate control source (i.e. radiators, air exchanges, and air conditioners). Hot or cold drafts will look like body motion to the device and will trigger it if the unit is mounted too close. It is recommended to mount the Occupancy Sensor at least 6 ft. away from a climate control source.
    In addition, it is also recommended NOT to mount the Occupancy Sensor directly under a large light source. Large wattage bulbs (greater than 100W incandescent) give off a lot of heat and switching the bulb causes a temperature change that can be detected by the device. Mount the Occupancy Sensor at least 6 ft. away from large bulbs. If it necessary to mount the device closer, lower the wattage of the bulb directly overhead.

  • The field-of-view for this sensor is 750-1500 sq. ft. with the sensor located in the middle of the desired detection area. Although the sensor provides full coverage at maximum configured range, the field-of-view is more pronounced for half of the detection area. The direction with the larger field-of-view is indicated by a green dot on the inside face of the sensor. Please refer to the functional call out diagram on the right.

Before Installation

  • Requires installation into 2-7/8 in. – 3-1/4 in. diameter (73.025mm – 82.55mm) mounting hole.

  • Requires 4 in. (102mm) vertical clearance.

  • When installation requires conduit for class 2 LumaCAN wiring, drill 2 7/8 in. opening into side of junction box, and, install j-box above ceiling directly above sensor.

  • LumaCAN wiring requires Category rated cable for power and data.
    Use Category 6 or better cable with quality RJ-45 connections. Wire per TIA- 568B standards.

  • For compliance with Chicago Plenum requirements, installation in metal box above ceiling is required. See the 3rd bullet point above.

  • All LumaCAN wire segments must be tested and validated prior to power- up of the system.

  • The end of each LumaCAN network must be terminated for proper data flow.
    A termination plug is pre-installed into one of the RJ-45 receptacles for this purpose. If this is the end of the network, only one of the RJ-45 receptacle will be used. Leave the termination plug in the unused RJ-45 receptacle. If this is in the middle of the network, both RJ-45 receptacles will be required. Remove and discard the termination plug. If you have misplaced your termination plug, you can terminate the end-of-run device by turning “on” the termination switch (E).
    Installation

Reference

  • A. LumaCAN connections
  • B. Power indicator light
    • Normal operation: SOLID [ON]
  • C. LumaCAN communication indicator light
    • Normal operation: blinks when tx/rx LumaCAN communication is occuring.
  • D. Addressing DIP switches
  • E. Termination switch: [ON] to terminate (not used). Activating termination switch when using plug will over-terminate the network and cause loss of data.
  • F. P1 universe programming DIP switch
  • G. P2 channel programming DIP switch
  • H. Occupancy sensor, light level sensor and occupancy indicator light
    • Flashes: each time occupancy is detected
    • Two blinks followed by pause (and repeat): when sensor does not have an address assigned
    • Occupancy: blinks RED when detected. When sensor does not have an address assigned, it repeats two rapid blinks, followed by a pause.

SPECIFICATIONS

Input Voltage +12-24VDC, 90-45mA
IP Rating IP30
Network Connections (2) RJ-45 Cat 6 or better for connection to LumaCAN

network 1600’ Max Length per Daisy-Chain Segment.
Home-Run topology supported when using repeaters Network length may be extended when using repeaters
Note: Pass-through RJ-45 connectors are prohibited from use on Leviton project. Use of this connector style both voids all warranties and voids any promise of product suitability of operation.
Operating Temperature| 0-55°C, 0-85% relative humidity
Storage Temperature| -10-85°C
Sensor Range| 1500 sq. ft.
Sensor Technology| PIR + Microwave + Photocell
Warmup Time| 15 seconds
Patents| Patents covering this product, if any, can be found on leviton.com/patents

Installation

WARNING: TO AVOID FIRE, SHOCK, OR DEATH; TURN OFF POWER at circuit breaker or fuse and test that power is off before wiring!

  1. Drill a 2-7/8 in. – 3-1/4 in. diameter (73.025mm – 82.55mm) mounting hole.

  2. Push network wires through hole and connect to sensor. If end of line, the sensor must be terminated by using the provided RJ45 termination plug.

  3. LumaCAN Address:

    • All devices on a LumaCAN network require a unique address, and sensors require a unique input. This device supports auto-addressing and auto-configuration which is the preferred method of address assignment.
    • A GreenMAX DRC Room Controller will assign a unique address to all devices on the network.
    • For auto-addressing to work, all dip switches must be set to OFF.
    • Indicator LED will blink when the devices has no address and will stop blinking when a valid address is assigned.
    • If you prefer to set an address manually, please use the DIP switches to assign a fixed address and input number per #4 and #5 below.
  4. Manual input number assignment (not required with GreenMAX DRC system, see note above).
    Using the DIP switches and procedures below, program the universe and input numbers into the sensor.
    Each sensor requires a unique input number assignment. This input number will be used by the network controller(s) to track activity of the sensor. The occupancy sensor will have the assigned input number and the photocell will have the next sequential number (If occ sensor is 1, photocell is 2). Setting the input number requires setting the universe number and the input number within that universe. Valid universe numbers are 0-127, resulting in a input number range of 1-32,768. The chart shows each universe number, the channel range for that universe, the DIP switch setting for the universe, and the actual input number.

  5. Set the Universe Number.

  * Set DIP switch P1 to [ON].
  * The PWR indicator should blink rapidly indicating that the Smart Pack is awaiting entry of the universe number.
  * Set DIP switches 1-8 to the required address of the universe number.  

Refer to the chart.

  * For input numbers between 1-256 it will be set to all 0’s.
  * Set DIP switch P1 to [OFF].
  * The PWR indicator will turn off indicating that it is saving datathen resume normal operation.
2. Set the Input Number.
  * Set DIP switch P2 to [ON].
  * The COM indicator should blink rapidly indicating that it is awaiting an input number.
  * Set DIP switches 1-8 to the required address of the input number. Refer to the chart.
  * Set DIP switch P2 to [OFF].
  * The COM indicator will turn off indicating that it’s saving data then resume normal operation.  

Installation

  1. Manual address assignment (not required with GreenMAX DRC system, see note above).
    Set DIP switches 1-8 to the desired LumaCAN address.
    A unique LumaCAN address ID must be set for each LumaCAN device. The first 8 switches of the DIP switch are used for setting the ID. During operation, P1 and P2 must be in the off position. Valid node addresses are 1-250. If the node IDs are defined in your Contract Document, set to that address.
    If not, ensure that the ID is unique for each device in the system. It is helpful, although not required, that the location of each node ID is documented for use by Leviton Field service during system commissioning.

  2. Confirm sensor is operating on network.

  3. Install sensor into mounting hole.

  4. Retract spring arms and insert into mounting hole.
    Installation

  5. Release spring arms, sensor will secure itself.
    Installation

FCC COMPLIANCE STATEMENT:

Any changes or modifications not expressly approved by Leviton could void the user’s authority to operate this equipment.

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.
  • Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
  • Increase the separation between the equipment and receiver.
  • Consult the dealer or an experienced radio/TV technician for help.

INDUSTRY CANADA COMPLIANCE STATEMENT:

This device complies with Industry Canada license-exempt RSS standard(s).
Operation is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device.
IMPORTANT! Any changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate this equipment. This Class B digital apparatus complies with Canadian CAN ICES-3(B)/NMB-3(B).

SDoC STATEMENT:

Model OSR15-MCW with responsible party Leviton Manufacturing, Inc., 201 N Service Road, Melville, NY, http://leviton.com.
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, including interference that may cause undesired operation of the device

FOR CANADA ONLY
For warranty information and/or product returns, residents of Canada should contact Leviton in writing at Leviton Manufacturing of Canada ULC to the attention of the Quality Assurance Department, 165 Hymus Blvd, Pointe-Claire (Quebec), Canada H9R 1E9 or by telephone at 1 800 405-5320.

LIMITED 5 YEAR WARRANTY AND EXCLUSIONS

Leviton warrants to the original consumer purchaser and not for the benefit of anyone else that this product at the time of its sale by Leviton is free of defects in materials and workmanship under normal and proper use for five years from the purchase date. Leviton’s only obligation is to correct such defects by repair or replacement, at its option. For details visit www.leviton.com or call 1-800-824-3005. This warranty excludes and there is disclaimed liability for labor for removal of this product or reinstallation. This warranty is void if this product is installed improperly or in an improper environment, overloaded, misused, opened, abused, or altered in any manner, or is not used under normal operating conditions or not in accordance with any labels or instructions. There are no other or implied warranties of any kind, including merchantability and fitness for a particular purpose, but if any implied warranty is required by the applicable jurisdiction, the duration of any such implied warranty, including merchantability and fitness for a particular purpose, is limited to five years. Leviton is not liable for incidental, indirect, special, or consequential damages, including without limitation, damage to, or loss of use of, any equipment, lost sales or profits or delay or failure to perform this warranty obligation. The remedies provided herein are the exclusive remedies under this warranty, whether based on contract, tort or otherwise.

For Technical Assistance Call: 1-800-824-3005 (USA Only) or 1-800-405-5320 (Canada Only) www.leviton.com

Logo

Documents / Resources

| LEVITON OSR15-MCW GreenMAX DRC Sensor [pdf] Instruction Manual
OSR15-MCW, GreenMAX DRC Sensor, OSR15-MCW GreenMAX DRC Sensor, Sensor
---|---

Read User Manual Online (PDF format)

Loading......

Download This Manual (PDF format)

Download this manual  >>

Leviton User Manuals

Related Manuals