ON-BRD-500 series
Low Voltage OS-NET Sensor
INSTALLATION INSTRUCTIONS
w/Lens A/B/C w/Lens D
w/Lens Gw/Lens F
*More lens options are available for this sensor.
Please refer to the Lens Datasheet for more details.
WARNING & CAUTION
Turn power OFF at circuit breaker before installing Power
Pack or Sensors.
Do NOT touch the square window of infrared sensor under
the lens assembly.
Do Not Install To and/or Cover a Junction Box Having
Class 1, 3 or Power and Lighting Circuits.
Class 2 Device Wiring Only – Do Not Reclassify and Install
as Class 1, 3 or Power and Lighting Wiring.
Install the sensor at least 1 ft. away from any occupant.
AVERTISSEMENT & PRUDENCE
Coupez l'alimentation au disjoncteur avant d'installer
Power Pack ou capteurs.
Ne PAS toucher la fenêtre carrée de capteur infrarouge
sous l'ensemble de l'objectif.
Ne pas installer ou couvrir une boîte de jonction ayant les
classes 1 et 3 ou circuits de puissance et d'éclairage.
Classe 2 Câblage de périphériques Seulement - Ne PAS
reclasser et installer Classe 1, 3 ou alimentation et circuits
d'éclairage.
This product may be covered by one or more U.S. patents or patent applications.
Please visit www.irtec.com for more information.
OVERVIEW
The ON-BRD-500 series is a fundamental device of OS-NET wireless mesh network solution packed with multiple functionalities including occupancy/vacancy
sensing, daylight harvesting, bi-level StepDIM or continuous SmartDIM, and wireless network communication for top-notch intelligent lighting control.
Numerous design innovations allow this device to be flexibly integrated with an OEM luminaire, or mounted on the ceiling in a variety of options. Interchangeable lenses allow the
sensor to be mounted at various heights with different detection patterns for all applications. All functionalities can be easily and intuitively configured by a 2-way remote
programmer from the floor. With ON-BRD-500, you can effortlessly achieve energy efficient, code-compliant smart lighting control through a state-of-the-art wireless mesh network
synchronously established while installing the OS-NET enabled lighting.
Power voltage
Infrared sensor
Photo sensor
Sensor output
Dim controlt
Wireless protocol
Radio frequency
Number of channel
Radio range
Radio power output
Detectable speed
Mounting height
Detection range
Remote range
Op. humidity
Op. temperature
Dimensions
12-24 VDC
Digital quad-elemernt pyroelectric sensor
Digital ambient light sensor
Open collector, active low
0-10V, max. 25 mA sinking current
Modified Zigbee Light Link (ZLL)
2405-2480MHz
16ch
15/90 m @indoor/outdoor, open space
6.62dBm
0.3~3 m/sec. (1~10 ft./sec.)
Subject to the lens type applied
Subject to the lens applied and height
10m (33 ft) indoor with no backlight
Max. 95% RH
-40°C~55°C (-40°F~131°F)
Ø60 x H37mm (Ø2.36”x H1.45”)
Federal Communication Commission Interference Statement
FCC ID: NRIRS35XY00
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.
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 of the following measures:
-Reorient or relocate the receiving antenna.
-Increase the separation between the equipment and receiver.
-Connect the equipment into an outlet on a circuit different from that to
which the receiver is connected.
-Consult the dealer or an experienced radio/TV technician for help.
FCC Caution: Any changes or modifications not expressly approved by the party responsible for
compliance could void the user's authority to operate this equipment.
This transmitter must not be co-located or operating in conjunction with any other antenna or
transmitter.
Radiation Exposure Statement:
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled
environment. This equipment should be installed and operated with minimum distance 20cm
between the radiator & your body.
P/N: 058-50906-003 Printed in Taiwanwww.irtec.com
APPLICATION NOTESSPECIFICATIONS
The sensor is more sensitive to the movements
1.
“crossing” the detection zones than “toward” or
“away” the sensor unit. To obtain better sensitivity,
avoid placing the sensor in line with occupant path.
2.
The closer the movement is to the sensor, the more
sensitive the sensor is. The higher the sensor is
installed, the larger movement is required to be
detected.
Ensure to place the sensor at least at 1.5m (5 ft.) away
3.
from air supply ducts as rapid air flow may cause false
activations.
The sensor cannot “see” the movements behind
4.
obstacles, such as tall furniture, shelf, glass or
partitions. Avoid placing the sensor where
obstructions may block the sensor’s line of sight.
The partition of workstation could block the sensor
5.
view to occupant movements, it is best to place the
sensor over the intersection of workstation. For large
open office, place multiple sensors so that there is
overlap coverage with each adjacent sensor.
6.
To obtain optimal wireless communication range,
avoid enveloping the sensor with a metallic enclosure.
Industry Canada statement:
This device complies with ISED’s licence-exempt RSSs. 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.
Le présent appareil est conforme aux CNR d’ ISED applicables aux appareils radio exempts de licence.
L’exploitation est autorisée aux deux conditions suivantes : (1) le dispositif ne doit pas produire de
brouillage préjudiciable, et (2) ce dispositif doit accepter tout brouillage reçu, y compris un brouillage
susceptible de provoquer un fonctionnement indésirable.
Radiation Exposure Statement:
This equipment complies with ISED radiation exposure limits set forth for an uncontrolled environment.
This equipment should be installed and operated with greater than 20cm between the radiator & your
body.
Déclaration d'exposition aux radiations:
Cet équipement est conforme aux limites d'exposition aux rayonnements ISED établies pour un
environnement non contrôlé. Cet équipement doit être installé et utilisé à plus de 20 cm entre le radiateur
et votre corps.
IC: 22993-5XYRS3DC900
MOUNTING
This device can be integrated with a luminaire or
mounted on the ceiling in various formats via specific
mounting bracket. Please refer to the mounting
instruction sheet separately attached for more details
about mounting options available.
WIRING DIAGRAM
Non-dimmable Lighting with Power Pack
(ON-OFF Switching only)
Red
Black
Blue
Line
Neut
Relay
Relay
DC24V
DC
Manual
Control
Hold ON
Hold OFF
Black
White
Red
Red
Red
Black
Blue
Violet
120/277 VAC
Power Pack
PPU-300/301
0-10V Dimmable Lighting with Power Pack
ON-BRD-500
AODC+ DO
Red
Blue
Black
Violet
Red
Black
Blue
DC
DC24V
Manual
Control
BALLAST
DIM+
DIM
LED DRIVER
BALLAST
DIM+
DIM
LED DRIVER
Black
Line
White
Neut
Hold ON
Hold OFF
Relay
Relay
Red
Red
2
1
Power Pack
PPU-300/301
NOTE: Each PPU-300/301 power pack can supply
power for up to ? ON-BRD-500 sensors. When more
sensors are connected, multiple power packs may be
required.
ON-BRD-500
AODC+ DO
Line
Neutral
Load
L
N
L
N
120/277 VAC
Line
Neutral
PRELIMINARY
OPERATION
The ON-BRD-500 employs a digital PIR sensor together with an ALS to detect occupancy status
and ambient light level. The sensor not only controls the connected lighting as programmed
when it detects the presence of an occupant/vehicle, but also broadcasts an OCC signal to other devices of the
group to activate the respective controls. Each sensor can be assigned to be
member of maximum 4 groups for coordinated control.
Programming Guide
SETTING
All sensor settings can be configured, in individual or group basis, by
an OS-NET Remote Programmer SRP-281. Following table highlights
the setting items and options available with ON-BRD-500. For detailed
setting operation, please refer to the OS-NET Programming Guide
available for download from www.irtec.com.
Settings Description Options (*Denotes factory default)
INDIV-SET To setup an individual device
GROUP-SET To setup all devices of the group with same settings
CONTROL Control schemes available for OS-NET sensor. ON/OFF, OSO, OSLA, OSLATO*, DSVM, DSC, VSC,
AMBIENT LUX Thresholds of ambient light level for OS-NET sensor to execute the
control.
DELAY Delay time that sensor will turn off or fade down the light. 30 sec./1/3/5/10*/15/20/30/60 min.
TIME OFF Delay time that sensor will keep the light at low dim level after the
OFF delay time elapsed.
HIGH DIM High dim is the output level set to control the light during occupancy,
or when ambient light is lower than the threshold if daylight sensing
scheme is selected.
LOW DIM/SmartDIM Low dim is the output level set to dim the light when space is vacant
for bi-level control. Low dim setting will become SmartDIM bar if
SmartDIM control is selected.
RAMP UP Speed of lighting output increase. INSTANT*/SOFT/SLOW
FADE DOWN Speed of lighting output decrease. INSTANT/SOFT*/SLOW
LED INDICATOR Enable or disable the LED indicator of the sensor. ENABLED*/DISABLED
VM-TB Time duration BEFORE Virtual Midnight.
Only available if DSVM is selected.
VM-TA Time duration AFTER Virtual Midnight.
Only available if DSVM is selected.
SENSITIVITY
Sensitivity of occupancy sensor.
To disable the occupancy sensing capability, select OFF.
OSB, OFF
10/20/40/60/80/200/400/600/1000/2000/DISABLED*/
CURRENT
10/30 sec./3/5/10*/15/20/30/45/60 min.
50/55/60/65/70/80/90/100%*
SmartDIM
0/5/10/15/20/25/30*/40%
0.5/1/1.5/2/2.5*/3/3.5/4/4.5/5/5.5/6 hour
0.5/1/1.5/2/2.5/3/3.5/4*/4.5/5/5.5/6 hour
HIGH*/NORMAL/LOW/OFF
SETTING ACKNOWLEDGEMENT
The sensor will acknowledge setting success or failure with different indications by device LED or connected lighting.
INDICATION ACKNOWLEDGEMENT REMARKS
Device LED fast blinking in GREEN and BLUE. The device is scanning and linking to the network. The fast blinking (on-off per 0.2 second)
Device LED blinks twice every 2-second in
The sensor detects occupant’s motion. GREEN means the device is network linked.
GREEN or BLUE.
Device LED blinks twice every 2-second for
5 minutes, and then 15-second after power
The device is set with daylight sensing control.
(DSVM or DSC)
applied.
Device short beeps twice.
Device beeps one long and two short. The
connected lights flash twice.
The connected lights flash twice.
Receiving a single setting or control command.
1. Multiple setting data UPLOAD successful.
2. GROUP LINK successful.
1. Factory default setting resumed.
2. SmartDIM setting completed.
only appears during network linking.
BLUE means the device is unlinked.
GREEN means the device is network linked.
BLUE means the device is unlinked.
CONTROL SCHEME
The ON-BRD-500 series can be programmed to control the connected lighting in one of the schemes as below.
Scheme Description
ON/OFF
OSO
OSLA
OSLATO
DSVM
DSC
VSC
OSB
OFF
This is a typical
Lighting will be inhibited when the ambient light level is higher than the set threshold, regardless of occupancy or vacancy. When
the ambient light level is lower than the set threshold, the controlled light will be automatically turned on once the sensor detects the
presence of occupant, and turned off after the delay time elapsed.
NOTE:
This is an
will be maintained at Low Dim level. Whenever space is occupied, lighting output will be increased to High Dim level or continuously
regulated to maintain within the pre-set range by SmartDIM control.
NOTE:
This is an
lower than the set threshold.
Lighting will be inhibited if the ambient light level is higher than the set threshold, regardless of occupancy or vacancy. When the
ambient light level is lower than the set threshold, the sensor will automatically control the light at Low Dim level. When sensor detects
the presence of an occupant, lighting output will be increased to the High Dim level or continuously regulated within the pre-set range
by SmartDIM control. After the delay time elapsed, lighting output will be reduced to Low Dim level or shut off if the ambient light is
higher than the set threshold.
NOTE:
This is an
before shutting off.
Lighting will be inhibited if the ambient light level is higher than the set threshold, regardless of occupancy or vacancy. When the
ambient light level is lower than the set threshold, and any sensor detects the presence of occupant, lighting output will be increased to
High Dim level or continuously regulated to maintain overall lighting level within the pre-set range by SmartDIM control. After the delay
time elapsed, lighting output will be reduced to Low Dim level for a period of TIME OFF delay before shut off.
NOTE:
and the delay time will be extended with the TIME OFF (TO) delay.
This is a
level between a certain time before and after virtual midnight.
Lighting will be inhibited if the ambient light level is higher than the set threshold. When the ambient light level is lower than the set
threshold, the sensor will turn the light to High Dim level or continuously regulate the output to maintain overall lighting level within the
pre-set range by SmartDIM control. Lighting output will be reduced to Low Dim level from a certain time before virtual midnight to a
certain time after.
NOTE:
whenever ambient light level is lower than the set threshold.
This is a
than the set threshold.
The sensor will automatically turn on the light to High Dim level or continuously regulate the output to maintain overall lighting level
within the pre-set range by SmartDIM control when the ambient light level is lower than the set threshold, and automatically turn off the
light when the ambient light level is higher than the set threshold.
NOTE:
whenever ambient light level is lower than the threshold.
This is a
sensor turn off the light automatically.
The occupant would have to press the OS-NET Button to turn on the lighting group assigned. The sensor will control the lights at High
Dim level or continuously regulate the output to maintain overall lighting level within the pre-set range by SmartDIM control. The sensor
will control the connected lighting as per OSLATO scheme.
NOTE:
and the delay time will be extended with the TIME OFF (TO) delay.
This is an advanced
area of entire lighting group is vacant.
Lighting will be inhibited if the ambient light level is higher than the set threshold, regardless of occupancy or vacancy. When the
ambient light level is lower than the set threshold and the first occupant is detected by a grouped sensor, the output of sensor
connected light will be increased to High Dim level or continuously regulated within the pre-set range by SmartDIM control during
occupancy, and the unoccupied areas of entire lighting group will brighten up to Low Dim level as background light. The entire lighting
group turns off after the last person leaves and delay time elapsed.
NOTE:
This is a
Once this scheme is set, all OS-NET controlled lighting will remain off until another scheme is selected.
occupancy sensing control
This scheme can be used with
occupancy sensing control
Do
NOT
use this scheme to control
occupancy sensing control
Do
NOT
use this scheme to control
occupancy sensing control
This scheme requires
daylight sensing control
This scheme requires
daylight sensing control
This scheme requires
vacancy sensing control
This scheme requires
dimmable
scheme can be applied in spaces that require automatically dimming the lighting output to a low
dimmable
scheme can be applied in spaces that require automatic lighting whenever the ambient light is lower
dimmable
scheme can be applied in spaces that require users to manually turn on the light, and have the
dimmable
occupancy sensing control
Do
NOT
use this scheme to control
manual control
scheme can be used when you need the light to be off for a certain period of time.
scheme.
dimmable
scheme can be applied in areas that require 24-hour lighting. When space is vacant, the lights
scheme can be applied in spaces that require automatic lighting when the ambient light level is
scheme can be applied in spaces that require maintaining Low Dim lighting for a period of time
or
non-dimmable
non-dimmable
non-dimmable
lighting to enable dimming control. If lighting is
lighting to enable dimming control. If lighting is
lighting to enable dimming control. If lighting is
lighting to enable dimming control. If lighting is
scheme can be applied in open offices to provide background light level before the
non-dimmable
lighting, but not for HID lighting.
lighting.
lighting.
lighting.
non-dimmable
non-dimmable
non-dimmable
non-dimmable
, there will be no dim control
, all lights will remain on
, all lights will remain on
, there will be no dim control
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