6.
POWER.
PAGER can be powered from a 9V alkaline battery type 6F22 or nickel-metal hydride battery type NiMH 8.4V min. 170
mAh, the PAGER ca not be used to charge the battery.
PAGER operating time in standby mode (hours):
PNH mode
RTS mode
Rechargeable battery
~ 80
~ 160
Battery
~ 260
~ 500
The measurement was performed for battery VARTA INDUSTRIAL 9V NiMH battery 8.4 V / 170 mAh under "radio
silence”.
PAGER working time is reduced significantly and is dependent on the amount of the received signals.
Low battery or battery is signaled by a short beep generated every 1 minute of a 20 minutes cycle signal / 10-minute
break. 10 seconds before the complete exclusion PAGER is generated continuously beeps and displays a message AKU
Lo.
7.
DEFAULTS.
Indication of low power
BAT
Operating mode
PNH
Password
4 x keys
Memory capacity
100 transmitters
8.
NOTES.
Occasionally it can happen that the PAGER beeps, but nothing appears on the display. If that happens, wait a few /
several seconds until the display shows information from the received transmitter. This happens when at the same time
the signals are coming from more transmitters at a time.
Analogously to the previous situation, it may happen that PAGER received signal from the transmitter and displays about
it and beeps, but by pressing the
C
button
nothing happens
, i
n such a situation also, wait a few / several seconds
until the information is erased. This happens when at the moment of alarm reset, a new information is coming from
other transmitters
.
When PAGER over analyze newly received signals, it will automatically execute the clear command of the "old" alarm.
PAGER remembers previously pressed reset button. PAGER will work for as long as possible on battery - it was designed
primarily to work with press airtight PNH 201. If the PAGER transmitters are to cooperate whit NRP stationary or
portable remote controls it must be ensured that the transmission of the signal from such transmitter lasts a minimum
of 0.5s. Shorter then 0.5s may result in erroneous decoding by PAGER, which ultimately causes no reaction to the
signal.
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