background image

2

Sensor Operation 

The MOS-21 sensor monitors motion in interior spaces. The sensor is powered 

by  solar  energy  from  natural  or  artificial  light  sources.  The  solar  energy  is 

transformed into electrical energy which is then stored providing a continuous 

power source for the sensor. Powered by six solar cells, the sensor can operate 

without battery backup for up to 225 hours. The sensor will operate even with a 

brief exposure to light, however for best results the sensor should be mounted 

in a location with exposure for 2 hours of natural or artificial light (160 - 500 lux 

or 16-50 fc) on a daily basis.
A battery (CR2032) must be installed in the MOS-21

x

C sensor for use in high 

bay applications.
The motion sensor supports the Occupancy Sensor EnOcean profile A5-07-01. 
The  sensor  will  transmit  occupancy  or  vacancy  depending  on  the  occupancy 

state of the room. The sensor will broadcast occupancy immediately upon a 

state change from vacant to occupied. The sensor broadcasts a telegram when 

movement is detected and repeats occupied telegrams with a minimum 100 

second period between subsequent transmissions. 
After  detecting  motion,  the  sensor  is  shut-down  to  conserve  energy  for 

100  seconds.  When  the  sensor  awakens  and  no  motion  is  detected,  the 

sensor  transmits  a  vacancy  telegram  after  100  seconds,  200  seconds  total 

since  the  previous  transmission.  The  sensor  will  remain  active  until  the  next 

occupancy state. If the sensor does not detect motion, it resends the vacancy 

telegram every 1000 seconds.
The sensor must be within range of any linked receivers or controllers, installed 

within  24m  (80’)  of  each  other.  For  applications  exceeding  24m  (80’)  range, 

telegram repeaters may be needed to extend reception range.

Motion Detection

The MOS family uses a PIR sensor that detects motion by measuring the infrared 

energy given off by objects. The sensor is calibrated to detect the heat range of 

human body temperature. The sensor has a lens that breaks the viewing angle 

of the sensor into zones (movement zones). It is the movement of the infrared 

energy  moving  in  and  out  of  a  zone  that  defines  occupancy.  The  amount  of 

movement that triggers the sensor is dependent upon the density of the zones 

where the motion takes place. A higher density of zones means smaller motion 

will trigger the sensor.
For detection of small motion (typing, drinking from a coffee cup), use the MOS-

21A model which has a lens with more movement zones. Place the sensor close 

to the location where the motion may occur. 
A red LED under the lens will blink once every 100 seconds when the sensor 

detects motion. 

Summary of Contents for MOS-21 Series

Page 1: ...Motion Sensor with 868 MHz radio with high bay lens The package includes the occupancy sensor and installation guide MOS 21 Sensor Description The 21 series MOS sensor also referred to as the sensor...

Page 2: ...nds When the sensor awakens and no motion is detected the sensor transmits a vacancy telegram after 100 seconds 200 seconds total since the previous transmission The sensor will remain active until th...

Page 3: ...tly affect the receivers reception of the telegrams Before installing refer to the sections in the guide detailing the installation of wireless devices layout tips and test operation modes NOTE The se...

Page 4: ...the lens pops free 4 Choose a mounting method The sensor can be mounted With the screws and anchors not provided to a wall board ceiling Use a pencil to mark the mounting base key hole locations and r...

Page 5: ...accordance to the light level it is detecting see table below Light Level Test Indication Blinks Lux Foot candles Time to Fully Charge Discharge Time 0 0 0 below operating level n a 1 20 40 2 4 operat...

Page 6: ...nds 2 A quick press and release of the button at this point will allow you to select between test modes Pressing and releasing the test button scrolls through the LED indicators When the red LED is bl...

Page 7: ...me wall Avoid locating transmitters and receivers where the telegrams must penetrate walls at acute angles This increases the material the telegram must pass through reducing the signal power Avoid la...

Page 8: ...t notice Document 8DC 5492 Revision 1 4 8188M21 5492 1 Rev C Regulatory Statements FCC Part 15 231 315 and 902 MHz models only Contains FCC ID TCM300C or TCM300U The enclosed device complies with Part...

Reviews: