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PowerSeries - PC1616/PC1808/PC1832/PC1864
Section [030] Fast Loop Response
This section is used to determine the Loop Response Time for the main panel zones.
Section [101] to [164] Zone Attributes
These sections are used to customize the operation of the zones. There are 9 toggle options in each Section:
Keypad zones and zone expanders will always follow Section [013].
When Zone Types (Section [001] to [004]) are programmed, the system will change the Zone Attributes to those found in the chart included in the Pro-
gramming Worksheets. The Zone Attributes will default if a new Zone Type is programmed for a specific zone. After programming the Zone Types, enter
Section [101] to [164] and ensure that all options are programmed correctly.
Ready light ON:Program attributes [1-8] (press [1]-[8] to turn option ON or OFF)
Ready light and Armed light ON: Program attributes [9-16] (press [1]-[8] to turn option ON or OFF)
Press [9] to switch between attributes [1-8] and attribute [9-16].
Section [165] Maximum Dialing Attempts
Program the Maximum Dialing Attempts before the panel will generate a Failure to Communicate (FTC) trouble condition.
Valid entries are [001] to [005].
Section [166] Post Dial Wait for Handshake
Program the maximum time the panel will wait, after dialing, for a valid handshake from the central station.
Valid entries are [001] to [255] seconds.
Section [167] TL/GS Module Wait for Acknowledgment
Program the maximum time the panel will wait, after sending a data packet, for an acknowledgment from the central station. Valid entries are [020] to
[255] seconds.
A value of 60 seconds or greater should be used if multiple alternate communicator paths are used to allow the module to attempt to communicate
via all paths before detecting a failed attempt.
[6] ON: the system disconnects a listen in/two-way session if a new event occurs.
OFF: the system does NOT disconnect. New events are transmitted only after the session is terminated.
[7] ON: the system does NOT activate the keypad buzzer for any trouble condition (excluding Fire Troubles).
OFF: the system annunciates troubles via the keypad buzzer (two beeps every 10 seconds) normally.
[8] ON: Key switches will always arm in away mode.
OFF: Key switches will arm in away mode if an entry/exit zone is violated during exit delay.
ON: the loop response time will be 36 mS. OFF: the loop response time will be 400 mS.
Option
Description
[1] ON: alarms are audible (bell output). OFF: alarms are silent.
[2] ON: the bell output is steady (burglary). OFF: the alarm output pulses (fire).
[3] ON: a zone violation or restoral will activate Chime. OFF: Chime is not activated.
[4]
ON: the user can manually bypass the zone using the [
][1] command. OFF: the zone cannot be manually bypassed.
[5] ON: the partition can be armed even if the zone is violated (the zone will not affect the Ready status).
OFF: the zone must be secure before arming.
[6] ON: the system shuts down alarm reporting after the programmed number of alarms have occurred.
OFF: the panel will always report the event if an alarm occurs.
[7] ON: the system delays reporting the event for the time programmed for the Transmission Delay time. OFF: the panel immediately
transmits the reporting event when an alarm is detected.
[8] ON: the zone is a wireless or addressable device. OFF: the zone is a hardwire zone (main panel, zone expander or keypad zone).
[9] ON: the zone has the Cross Zone feature enabled. OFF: the zone functions normally.
[10]-[13] For Future Use
[14] ON: the zone requires a normally-closed loop. OFF: the zone will follow the EOL configuration in Section [013]
[15] ON: the zone requires a single End-of-Line resistor. OFF: the zone will follow the EOL configuration in Section [013]
[16] ON: the zone requires a double End-of-Line resistors. OFF: the zone will follow the EOL configuration in Section [013]
Options 14, 15, 16 apply to first 8 zones only. If more than one of these options are enabled then lowest numbered option is enabled.
E.g., If Option 14 and option 15 are enabled then the zones are configured as normally closed loops.
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