MANUAL ON FUNCTION
The Manual
ON
function is facilitated by installing a momentary switch such as
Watt Stopper LVS-1 Momentary Toggle Switch, or RS2-3 Low Voltage Momentary
Switch. The switch connects to the sensor’s Manual (Man.) Switch and +24V
terminals as shown in the wiring diagram. Each time the switch is pressed, the load
changes state. The sensor’s operation as related to the manually operated switch is
determined by DIP switch settings for Occupancy Logic.
Manual Mode
(Trigger Option 6 or 7): In this mode, the switch
is required
to turn on
the load. The sensor keeps the load on, based on occupant activity. After the time
delay ends, if there is no movement detected within the 30 second re-trigger period,
the load turns
OFF
and the manual switch must be used to turn
ON
the load.
Automatic Mode
(any Trigger Option except 6 or 7): These options use occupancy
triggers as well as switch activation to turn the load
ON
. A manual switch provides
the following additional functionality:
a. The load can be turned
ON
using the manual switch and it stays on according to
the occupancy logic setting. The time delay operates as programmed. When the
load turns
OFF
due to lack of occupancy detection, it can be turned
ON
again by
occupancy detection or the switch.
b. Activating the manual switch while the load is
ON
turns the load
OFF
.
• When the load is turned
OFF
manually, as long as the sensor continues to
detect occupancy the load stays
OFF
. The length of the time delay after the
last occupancy detection, the lights stay off and the sensor reverts to the
automatic-on mode.
• When the load is turned
OFF
manually, pressing the switch again turns the
load
ON
and the sensor reverts to the automatic-on mode.
• Once returning to automatic-on mode, either the switch or occupancy
detection can turn the load
ON
.
OVERLOAD PROTECTION
The occupancy sensor has a built in overload protection function that will
automatically turn off the control output when the load current exceeds
200mA. The sensor LEDs will then blink rapidly (~ 10Hz) to provide
a visual indication of an overload condition. When the load current is
corrected or returns to normal, the control output will turn back on.
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