PC4020 v2.1 Program Manual

Programming Manual

PC4O2O Software Version 2.1

Book 2

Table of Contents

Programming the PC4020

Programming Toggle Options ________________________________________________________ 2

Programming HEX Digits _____________________________________________________________ 2

Programming Manual ___________________________________________________________ 3

Installer options _______________________________________________________________ 4

Event Messages _______________________________________________________________ 5

System Options

System Toggle Options ______________________________________________________________ 7

Keypad Toggle Options ____________________________________________________________ 11

Keypad Lockout Options ___________________________________________________________ 12

System Times _____________________________________________________________________ 12

Zone Supervision __________________________________________________________________ 12

Download Section

Download Toggles _________________________________________________________________ 13

DLS Options _______________________________________________________________________ 14

Communicator Section

Main Items - Phone Numbers/Communicationa Format/Dialer Direction __________________ 15

Communicator Toggles _____________________________________________________________ 24

Communicator Miscellaneous _______________________________________________________ 27

Test Code Transmission ____________________________________________________________ 27

Reporting Codes ___________________________________________________________________ 27

Links Module ______________________________________________________________________ 32

Switched Auxiliary Output ______________________________________________________ 34

Main Bell Output ______________________________________________________________ 35

PGM Outputs

Main PGM Output __________________________________________________________________ 36

PC4204 Options ___________________________________________________________________ 36

PC4216 Options ___________________________________________________________________ 36

PC4216 Custom ___________________________________________________________________ 37

Escort4580 Automation Items _______________________________________________________ 37

PGM Pulse Times __________________________________________________________________ 37

PGM Outputs List _____________________________________________________________ 38

PC4400 Options ______________________________________________________________ 41

System Label ________________________________________________________________ 44

Event Scheduling _____________________________________________________________ 45

Add / Edit Partitions

Partition Toggles ___________________________________________________________________ 49

Partition Times _____________________________________________________________________ 51

Zone Assignment __________________________________________________________________ 52

Zone Type ________________________________________________________________________ 52

Zone Options ______________________________________________________________________ 55

Partition Label _____________________________________________________________________ 55

Delete/Copy Partition __________________________________________________________ 56

Module Hardware

Enroll Module ______________________________________________________________________ 57

Delete Module _____________________________________________________________________ 58

Confirm Module ____________________________________________________________________ 58

RF Zone Options ___________________________________________________________________ 58

RF Zones - Summary _______________________________________________________________ 60

Event Buffer _________________________________________________________________ 61

Diagnostics __________________________________________________________________ 62

Appendix A

List of Available ASCII Characters ___________________________________________________ 63

Appendix B

List of Diagnostics _________________________________________________________________ 64

PROGRAMMING

THE PC4020

The PC4020 incorporates a new method of programming which uses a menu system to find a specific program location when it is to be entered.

Book 3 contains the programming flow charts for the PC4020. The charts are arranged in such a way as to allow you to quickly find any option and the path required to arrive at the program location. In addition you will be able to see other options also available to you in the program area.

Plain boxes are program areas and shaded boxes are menu selections.

Two methods may be used to select the different menu items to arrive at a program location. With the first, you may use the arrow keys (< >) to scroll through the menu items. When the desired item is displayed press the [✱] key. The [✱] key is used as an ‘ENTER’ or ‘SELECT’ key. The panel will then move you to the next set of options.

The other method incorporates a ‘HOTKEY’ system. Every menu and program item contains a one or two digit ‘HOTKEY’ entry. Simply press the number(s) in the menu or program box and the panel will automatically select the item for you.

DO NOT PRESS THE [✱] AFTER ENTERING THE ‘HOTKEY’ NUMBER. This second method is much quicker once you become familiar with it.

EXAMPLE: We wish to program the Exit Delay for Partition 4. The following is the flow chart located in Book 3.

Scroll to desired option using the [<][>] keys and press [✱].

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Using the first method the arrow keys would have to be pressed many times to scroll to the various items followed by the

[✱] key to select the item. Twelve keystrokes would be required after entering Installer Programming providing no mistakes are made. The keystrokes required are as follows:

[>], [✱] to select PARTITION AREA [>], [>], [✱] to select PARTITION TIMES

[✱] to select ADD/EDIT PAR

[>], [>], [>], [✱]to select to PARTITION 4

[>], [✱] to select EXIT DELAY

Using the second ‘HOTKEY’ method we require only 5 keystrokes:

[1] to select PARTITION AREA [2] to select PARTITION TIMES

[0] to select ADD/EDIT PAR

[4] to select PARTITION 4

[1] to select EXIT DELAY

With less keystrokes required, programming is quicker as there is less chance of an error occurring.

At any time you may press the [#] key to exit a section. ANY DATA ENTERED WILL BE CHANGED. THE [#] KEY IS NOT

AN ABORT KEY! The [#] key can also be pressed to move you back to the previous menu. Pressing the [#] key several times will exit you from Installer Programming.

To make programming easier the INDEX at the back of the Programming Manual includes the chart number beside every option as well as the page number for a description of the option.

Programming Toggle Options

Some program areas contain several toggle options which pertain to the menu item selected. Use the arrow keys (<>) to scroll through the various items. Press the [✱] key to toggle between [Y]es and [N]o for each feature. Once all the toggle options have been programmed press the [#] key to save your changes return to the previous menu.

Programming HEX Digits

Often HEX digits are required for a program item. When a HEX digit is required press the [✱] key to enter the HEX menu.

You may use the arrow keys to scroll through the HEX digits (A through F) and when the desired letter is displayed press the [✱] key.

Another much quicker method for entering HEX digits is to, first, press the [✱] key followed by the number corresponding to the HEX letter i.e. A = 1, B = 2, C = 3, up to F = 6. The [✱] key must be pressed before entering each HEX digit as the software returns you to decimal programming automatically after each entry.

EXAMPLE: To enter data ‘ABCD’ on a PC4020 you would enter:

[✱], [1], [✱], [2], [✱], [3], [✱], [4]

Note: The [✱] key is required before every HEX digit entered.

2

PROGRAMMING

MANUAL

The PC4020 Installer’s Programming is broken down into 5 major sections:

System Area For programming options which affect the operation of the entire system. For example communications, downloading, printer options etc. are options which affect the overall system and are programmed in the system area.

Partition Area For programming options which pertain to individual partitions. For example the zone assignment, entry delay time and exit delay time are all options which can be programmed for each of the partitions.

Module Hardware For enrolling and deleting modules.

Event Buffer For the installer to reprint the entire event buffer.

Diagnostics For viewing trouble conditions reported by the modules.

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INSTALLER OPTS

INSTALLER

OPTIONS

This section contains the Installer’s Code, Grand Master Code, 2nd Grand Master Code, Walk

Test Code and Installer’s Lockout options.

Program Installer’s Code. A new Installer’s Code can be programmed. The default setting is

‘4020’ for 4 digit option, or ‘402000’ for 6 digit option. Enter a new 4 digit code using numbers from 0 to 9 only. The installer’s code is used to enter [✱][8] Installer’s Programming Commands.

This code should be changed from the default setting before programming is complete to ensure the security of the system.

Note: If the installer’s code is lost, and installer’s lockout is enabled, there is no way to enter installer’s programming. The panel will have to return to DSC. Panels returned to DSC with the installer’s lockout feature enabled and no other apparent problems will be subject to an additional service charge.

Program Grand Master Code. Master code 001 is the System Grand Master Code. This is the only code which can program other system master codes. The default setting of this code is

‘1234’ for 4 digit option, or ‘123456’ for 6 digit option. This code should be changed from the default setting once programming is complete to ensure the security of the system.

The Installer may program a second System Grand Master Code which has the same access as the System Grand Master Code 001. The Second Master Code is not one of the programmable

128 access codes in [✱][5] programming and therefore cannot be changed by the user. This code may be used as a Master Key for service and trades people. The default setting of this code is ‘AAAA’ for 4 digit option, or ‘AAAA00’ for 6 digit option.

PGM Walk Test Code allows access to the Walk Test Mode [✱] [6] [Walk Test Code]. The walk test mode allows testing of zones that walk test is enabled on.

Each partition to be involved in the walk test must have [✱] [6] [Walk Test Code] entered on one of its keypads.

Installer’s Lockout prevents the installer’s code and downloading access code from being returned to their default values when a hardware or software default occurs.

Note: Panels returned to DSC with the installer’s lockout feature enabled and no other apparent problems will be subject to an additional service charge.

Selecting this section will enable Installer’s Lockout and display the message “Ins Lockout

Enabled”.

Selecting this section will disable Installer’s Lockout and display the message “Ins Lockout

Disabled”.

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EVENT MESSAGES

EVENT

MESSAGES

Event messages are two custom messages programmed by the installer. These messages will be displayed on the keypad when the user fails to arm or an alarm occurs while the system was armed.

A cursor will appear under the first character of the label. The cursor can be moved to left or right using the [<][>] keys. The letters of the alphabet have been divided up among the 1-9 number keys on the keypad.

[1] = A, B, C, 1

[6] = P, Q, R, 6

[2] = D, E, F, 2

[7] = S, T, U, 7

[3] = G, H, I, 3

[8] = V, W, X, 8

[4] = J, K, L, 4

[9] = Y, Z, 9, 0

[5] = M, N, O, 5

[0] = Space

For example, if you press the [4] key, the letter ‘J’ will appear above the cursor on the display.

Press the [4] key again, the letter ‘K’ will appear above the cursor. Press the [4] key a third time and the letter ‘L’ will appear above the cursor. Press it again and the number ‘4’ will appear on the display. If a different key is pressed, for example the [6] key, the cursor will automatically move to the right one space, and the letter ‘P’ will be displayed. To erase a character, move the cursor under the character using the [<][>] keys, and press the [0] key.

While programming the zone label, press the [✱] key to call up an options menu. To select an option, either press the corresponding number key, or toggle through the options using the [<][>] keys and press the [✱] key to select.

[0] Clear Display [1] Clear to End [2] Change Case [3] ASCII Entry (See appendix A)

[4] Save

[0] Clear Display will clear the entire zone label.

[1] Clear to End will clear the display from the character where the cursor was located to the end of the display.

[2] Change Case will toggle the letter entry between upper case letters (ABC...) and lower case letters (abc...).

[3] ASCII Entry is for entering uncommon characters. There are 255 characters, but 000 to 031 are not used. Use the [<] [>] keys to toggle through the characters or enter a 3 digit number from

032 to 255. Press the [✱] key to enter the character into the zone label (see Appendix A for the

ASCII characters chart).

[4] Save the label programmed and return to the previous menu.

See [✱][6][Master Code][6] User Functions in the System Manual for enabling these messages on each partition.

The “System Has Failed To Arm” message will appear on every keypad on a partition when a valid code is entered but the system is unable to arm because a zone is not secure.

The message will clear after 5 seconds.

This message can be used to remind the user to check all zones and make sure they are secure before attempting to arm the system.

The “Alarm Occurred While Armed” message appears when a partition is disarmed after an alarm has occurred. The message will be displayed on all keypads on the partition being disarmed.

The message will clear after 5 seconds and display the zone(s) that went into alarm.

This message can be used to remind the users of what to do in their situation.

The third message is “Fire Alarm !!! 2 Wire Smoke”, this message will only be displayed if the 2 wire smoke detector on the PC4700 fire module goes into alarm.

The fourth message is “Fire Alarm !!! Waterflow Sensor”, this message will be displayed if the waterflow detector on the PC4700 fire module goes into alarm.

Note: If there is more than one of these fire messages to be displayed at once the messages will scroll one every three seconds to the next message. Once any fire alarm has been silenced a message “Fire Bell Has Been Silenced” will be displayed on the partition and global keypads until the partition is armed.

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This message will be displayed for the sensor reset option in the [✱] menu. This message will also be displayed when a sensor reset is performed.

This message will be displayed for the utility output option in the [✱] menu. This message will also be displayed when a utility output is performed.

Notes: Since editing this label will affect how the Utility Output and Sensor Reset labels appear on all partitions if the outputs perform different functions on different partitions the labels should be left at default.

The logs to the viewable and printed event buffer will not use the programmable label. They will continue to log as “Utility Output” and “Sensor Reset”.

The “Zone Tamper” message will appear on every partition keypad when a zone using Double EOL is put into the tamper condition (zone open). The message is displayed while viewing open zones.

The “Zone Fault” message will appear on every partition keypad when a zone using Double EOL is put into the fault condition (zone shorted). The message is displayed while viewing open zones.

Note: Zone Tamper and Zone Fault sections will only appear when Double EOL is being used.

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SYSTEM OPTIONS SYS TOGGLE OPT

SYSTEM

OPTIONS

This section contains options that are relevant to the entire system. System Toggle options,

Keypad Toggle options, Keypad Lockout options and System Times can all be programmed in this section.

Sys Toggle Options

Toggle options are in question form. Use the [✱] key to toggle between Yes and No to enable or disable the feature. Use the [<] [>] keys to scroll through the options.

60 H z LINE

Changeable System Grand Master Code?

YES = System Grand Master Code can be changed by the end user via Grand Master Code.

NO = The System Grand Master Code can only be changed via installer’s programming.

Shunt Zones on Power Up?

YES = All zones are considered non-violated by the main control for the first 2 minutes that power has been applied to the system. This will allow time for the detectors to “settle” without causing false alarms.

NO = The zones are active upon power up.

AC Trouble Displayed?

YES = The system will monitor and display an incoming AC power failure from the transformer.

NO = The system will not display the incoming AC power failures.

Note: AC Trouble Displayed must be programmed as YES on UL listed systems.

Is the incoming AC Frequency 60 Hz?

YES = The incoming AC power from the transformer cycles at 60 Hz. The North American standard is 60 Hz.

NO = The incoming AC power cycles at 50 Hz.

Crystal Timebase?

YES = The timebase is the internal crystal oscillator.

NO = The timebase is the AC power input.

Timing for the clock in the PC4020 can come from two sources. The 60/ 50 Hz frequency of the

AC power or a crystal oscillator on the circuit board. The default is to use the frequency of the incoming AC because it normally is very stable. However in some locations, the stability of the

AC frequency is less reliable. If this is the case then the crystal oscillator should be used.

AC inhibits arming?

YES = When an AC trouble condition is present on the main panel or PC4204, the system cannot be armed.

NO = Regardless of the presence of an AC Trouble, the system can be armed.

DC inhibits arming?

YES = When a low battery condition is present on the main control panel or on a PC4204 expansion module, the system can not be armed (DC Inhibit Arm does not apply to wireless zone that have battery troubles). If the partition is attempted to be armed the keypad display will show the message “Fail To Arm... DC Trouble”. When an access code is entered the panel will perform a battery check on the main control panel and on each of the PC4204’s enrolled on the system. This will ensure that the battery condition is good before the panel is armed. If the control panel has a battery trouble or any one of the

PC4204’s report back with a battery trouble the arming will be aborted.

No = No forced battery check will be performed and a Battery trouble will not inhibit arming.

Note: The Control panel and each of the PC4204 modules may only have 3 battery trouble alarms in a 24 hour period. After the third battery trouble for a given module the trouble condition will “Shutdown” until midnight of that day. The trouble will still be enunciated with the keypad Trouble LED but the event will not be logged to the event buffer or be communicated.

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Memory displayed?

YES = When the partition is armed, any zones have gone into alarm can be viewed by pressing the [<] [>] keys.

NO = Show memory after disarming only.

Bypass displayed?

YES = When the partition is armed, bypassed zones can be viewed by pressing the [<][>] keys.

NO = Shows bypassed zones when disarmed only, by pressing [✱][1].

Note: Bypass Displayed must be disabled on UL listed systems.

Bell shut down?

YES = The bell output will no longer activate for a zone that has reached the swinger shut down threshold. (See ‘Swinger Limit’ and ‘Swgr Shut Down’.)

NO = Every time a zone is violated it will reactivate the bell output.

Note: Bell Shut Down must be programmed as NO on UL listed systems.

Follow includes alarms?

YES = Enables all outputs programmed to follow zones (Zone Follow, Zn Tamp Follow and Zn

Fault Follow), including PC4216s programmed as ‘Follow XX-XX‘, to also annunciate alarms when those zones are armed.

When the zone is disarmed the output will follow the zone status. When the zone is violated the output will activate. When the zone is restored the output will deactivate.

When the zone is armed the output indicates alarm status. The output is not activated until the zone is violated and then remains active. When the zone is disarmed the output remains active to indicate which zone caused the alarm. To get the output to follow the zone status the partition must be armed and disarmed.

NO = Disables the ability to latch alarm status. The output follows zone activity whether armed or disarmed.

Six digit access codes?

YES = All access codes on the system will need to be 6 digits in length except Panel ID code and

DLS access code.

NO = Regular 4 digit codes to be used.

Hourly printer test?

YES = Panel will print a line saying ‘Hourly Printer Test’ with time and date every hour.

NO = Panel will not log “Hourly Printer Test”.

Military time?

YES = Clock will show in 24 hour time (military time) and date will show as Month/Day/Year (MM/

DD/YY). For example, 1:30 pm December 13, 1994 will be displayed as 12/13/94 13:30.

NO = Clock will show in 12 hour time with an ‘a’ for am or ‘p’ for pm, and date will show as

Month/Day/Year (Mon/DD/YY). For example, 3:30 pm January 5, 1994 will be displayed as

Jan 05/94 3:30 p.

Keypad tampers?

YES = Keypad Tampers are used. This option should be enabled only if keypad tamper plates are attached to the keypad.

NO = Keypad Tampers are disabled.

Global keypad [F] key enabled?

YES = The [F] key is enabled for global keypads.

NO = The [F] key is disabled for global keypads.

Global keypad [A] key enabled?

YES = The [A] key is enabled for global keypads.

NO = The [A] key is disabled for global keypads.

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Global keypad [P] key enabled?

YES = The [P] key is enabled for global keypads.

NO = The [P] key is disabled for global keypads.

Global keypad displays clock?

YES = The time and date will be displayed on global keypads instead of the “Enter Your Access

Code” message after 10 seconds of no key presses.

NO = No clock display.

Global keypad lookout?

YES = Keypad Lockout is enabled on global keypads.

NO = Keypad Lockout is disabled on global keypads.

(See “Total Bad Codes”, “Lockout Duration” and “Lockout Rep Code”.)

Keypad #1 global?

YES = Keypad #1 becomes a global keypad.

(See System Manual, Book 1 for further details about “Global Keypads”.)

NO = Keypad #1 is not a global keypad.

Notes: Entry/Exit Delay with Urgency will always be present on a global keypad (See

“Partition Toggles”).

If a keypad is loaned to a deleted partition once Installer’s Mode is exited, the keypad will be reassigned to the lowest assigned partition.

Tamper inhibits arming?

YES = A Zone Tamper requires the Installer’s Code entry before the partition can be armed and the Zone Trouble Restoral Code sent.

NO = Zone Tamper Restorals will follow the zone.

Troubles require code?

YES = A valid access code will be required to silence the trouble beeps from the keypad (or the trouble condition must be restored. When the code is entered 3 quick acknowledgment beeps will be heard from the keypad and the trouble beeps will not restart until a new trouble condition occurs.

NO = No access code is required to silence trouble beeps. Any keypress or the trouble condition restoring will silence the trouble beeps.

YES = The following UL options are enabled when this toggle option is enabled: (1) Any Fire alarm will require an access code to be restored. The zone will show open even once the zone has been restored ([✱][4] sensor Reset) until an access code has been entered.

When a code has been entered to reset the fire zones the keypads for that partition will display the message “Fire Zones Were Reset”. (2) DLS Fault - This trouble condition will generate an audible and visual trouble when the control panel fails to complete communications with the downloading computer. (3) When a Module Com Fault occurs all

Burglary outputs will squawk every 5 seconds (included are fire/burg, invert fire/burg, burg. and invert burg) for the partition(s). Pressing a key on the partition will silence the output squawks.

NO = An access code is not required to restore the fire zones

RF zone tamper while disarmed?

YES = RF Zones will always cause tamper alarm(s) and transmissions

NO = When this option is turned off and the partition is disarmed. RF tampers will create a trouble condition “RF Zn Tamper TBL”. The Trouble LED will activate and the partition keypad will begin trouble beeps every 10 seconds. While the partition is disarmed the zone tamper will be logged to the event buffer but no Tamper alarm transmission will occur. The event is logged and transmitted while the partition is armed. This is done so that while the user is changing batteries in a Wireless Zone no tamper alarm will be sent.

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System Fault Squawk

Yes = Causing a Zone tamper, zone fault or a Module tamper will cause all Burglary outputs to squawk every 5 seconds (included are fire/burg, invert fire/burg, burg. and invert burg) for the partition(s). The “Squawks” will be silenced when the alarm is silenced or a key is pressed on that partition. By default this option is set to No.

No = Zone Tampers, Faults and Module Tampers will not squawk the burglary outputs.

Code Display Inhibited

Yes = When programming Access codes ([✱][5] Access code Programming) the code numbers will be X’d out ([XXXX] or [XXXXX] if using 6 digit access codes). By default this option is set to No.

No = The digits of the access code will be displayed, as entered on the keypad being used for programming.

Global Alarm Annunciation

Yes = This system toggle will allow the Global keypads to sound the buzzer (5 seconds on and 5 seconds off) and display the message “Partition X In Alarm” (where Partition X is the programmed label of the partition) when any other partition is in alarm. The buzzer will be silenced and the message cleared from the keypad display when the alarm has been silenced or any key is pressed on the keypad. By default this option is set to No.

No = No notification of the alarm will be given on the Global Keypad.

Note: It is recommended that global alarm annunciation is enabled on multi partition systems.

Global Keypad Trouble

Yes = Troubles present on the system can be viewed from global keypads. If a trouble is present on the system, the user will be prompt with the option to view system troubles.

No = Troubles can not be viewed from global keypads. The keypad must be loaned to a partition before troubles can be viewed.

Global Keypad Partition Status Enunciator

Yes = Enables the Partition Status Enunciator on global keypads. Global keypads will display the status of all active partitions on the system.

No = Global keypads will not display the Partition Status Enunciator.

Note: This option overrides the clock display option.

Global Keypad Enunciates All Entry Delays

Yes = The entry delay for any Partition will be enunciated on Global Keypads.

No = All Partitions must be armed before entry delay will be enunciated on Global Keypads.

10

SYSTEM OPTIONS KEYPAD TOG OP KYPD LOCKOUT OP SYSTEM TIMES

Keypad Toggle Options

Programming the operation of the 3 keypad emergency keys ([F], [A] and [P]). Toggle options are in the form of questions. Use the [✱] key to toggle between Yes and No to enable or disable the feature. Use the [<][>] keys to scroll through the options. Regardless of programming each key must be pressed for 2 seconds before the alarm will be activated.

[F] key activates the Bell Outputs?

YES = The bell output will activate when the [F] key is pressed.

NO = The bell output will not activate when the [F] key is pressed.

The bell output for the [F] key is any output (Bell, SW Aux or PGM) that is programmed for Fire and Burg, Inv Fire and Burg, Fire Only and Inv Fire Only.

[F] key pulses the Bell Output?

YES = The bell output, if enabled, will pulse when the [F] key is pressed.

NO = The bell output, if enabled, will be steady when the [F] key is pressed.

The bell output for the [F] key is any output (Bell, SW Aux or PGM) that is programmed for Fire and Burg, Inv Fire and Burg, Fire Only and Inv Fire Only.

The keypad beeps when the [F] key is pressed?

YES = The keypad will beep 3 times when the [F] key has been pressed for 2 seconds.

NO = The keypad will not sound when the [F] key is pressed.

The bell is silent when the [A] key is pressed?

YES = The bell output will not activate when the [A] key is pressed.

NO = The bell output will activate when the [A] key is pressed.

The bell output for the [A] key is any output (Bell, SW Aux or PGM) that is programmed for Fire and Burg, Inv Fire and Burg, Burg Only and Inv Burg Only.

The bell is steady when the [A] key is pressed?

YES = The bell output, if enabled, will be steady when the [A] key is pressed.

NO = The bell output, if enabled, will pulse when the [A] key is pressed.

The bell output for the [A] key is any output (Bell, SW Aux or PGM) that is programmed for Fire and Burg, Inv Fire and Burg, Burg Only and Inv Burg Only.

The keypad beeps when the [A] key is pressed?

YES = The keypad will beep 3 times when the [A] key has been pressed for 2 seconds.

NO = The keypad will not sound when the [A] key is pressed.

[P] key activates the Bell Outputs?

YES = The bell output will not activate when the [P] key is pressed.

NO = The bell output will activate when the [P] key is pressed.

The bell output for the [P] key is any output (Bell, SW Aux or PGM) that is programmed for Fire and Burg, Inv Fire and Burg, Burg Only and Inv Burg Only.

The bell is steady when the [P] key is pressed?

YES = The bell output, if enabled, will be steady when the [P] key is pressed.

NO = The bell output, if enabled, will pulse when the [P] key is pressed.

The bell output for the [P] key is any output (Bell, SW Aux or PGM) that is programmed for Fire and Burg, Inv Fire and Burg, Burg Only and Inv Burg Only.

The keypad does not beep when the [P] key is pressed?

YES = The keypad will not sound when the [P] key is pressed.

NO = The keypad will beep 3 times when the [P] key has been pressed for 2 seconds.

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SYSTEM OPTIONS KEYPAD TOG OP KYPD LOCKOUT OP SYSTEM TIMES

Keypad Lockout Options

Keypad Lockout Options

This section contains programming for the keypad lockout feature. After a programmed number of incorrect attempts to enter an access or installer’s code the keypad will lockout, preventing the user from performing any function. A message “Keypad Lockout is Active” will be displayed for the lockout duration. See “KYPD LOCKOUT” under “PAR TOGGLES” to enable the keypad lockout feature on a partition.

Enter the number of incorrect code entries (from 000 to 255) required to activate keypad lockout if the option is enabled. See “PAR TOGGLES”, “KYPD LOCKOUT” to enable the keypad lockout feature on a partition. The default setting is 005.

This section determines the number of minutes the keypad lockout will remain active for. Enter the duration of the keypad lockout. Valid entries are from 000 to 255. The default setting is 015.

System Times

They are system times relevant to the whole system.

The zone loop response time is the length of time (005 - 255 x 100 ms) a zone must be violated before it is detected. (100 ms = one tenth of a second.) Minimum zone loop response time is 500 ms. The factory default setting is 005 (500 ms).

Program the amount of time (from 000 to 255 minutes) the bell output will activate when an alarm occurs.

The factory default setting is 004 (4 minutes). Bell Cutoff is for any output (Bell, SW Aux or PGM) that is programmed for Fire and Burg, Inv Fire and Burg, Burg Only, Inv Burg Only, Fire Only, and Inv Fire Only.

Note: For UL listed installations the Bell Cutoff must be a minimum of 15 minutes for commercial burglary applications and 4 minutes for residential burglary and fire applications.

Program the amount of time (000 - 255 Minutes) before a Police Code Alarm reporting code will be sent to the monitoring station. A Police Code Alarm is sent when 2 zone alarms occur within the programmed time. Default is 060 minutes.

Whenever a keypad is loaned to another partition, the keypad will return to it’s home partition after the programmed amount of time. (000 - 255 seconds) default = 20 seconds.

Zone Supervision

The zone is a normally closed loop to ground. The zone will be violated when it is open.

All zones must have a 5600 ohm resistor across them. If the zone is shorted or open, it will be in a violated condition. If the zone is open and programmed as a fire zone, it will be in a trouble condition. See “[✱][2] Trouble Display”.

Notes: If zones are programmed for Fire or Links Supervisory, EOL resistors must be used.

All zones must use EOL resistors on UL listed systems.

This configuration will allow the panel to detect zone Faults (zone shorted), zone tampers (open circuit), open zones (Alarm condition of the 11200 Ohms) and restored zones. If the zone is disarmed and placed in the Tamper (open) or Fault (Short) state the keypad buzzer will sound from all partition keypads (that the zone belongs to) for the length of bell time out or until an access code is entered. A zone tamper (or Fault) alarm reporting code will be sent to the monitoring station if programmed.

When the partition is armed and a zone is Tampered or Faulted all burglary outputs for the partition will activate for the length of bell time out or a valid access code is entered. There will be no buzzer sounded while the zone is armed. A zone tamper (or Fault) alarm reporting code and zone alarm reporting code will be sent to the monitoring station if programmed. See Reporting Codes for details.

Refer to the System Manual for detail on the hookup procedure. All zones on the PC4020 can use

Double end Of Line resistors, except wireless zones (Zone that belong to the PC4164), Fire Zones all types (Standard Fire, Delay Fire, Auto Verify Fire, Sprinkler PC4700 2 Wire Smoke and Waterflow),

Links Supervisory, Links Answer and Forced Answer zones. These zone types must only be used with

Single EOL. Double EOL resistors allow the zone to be capable of detecting zone tampers and zone faults. The Tamper resistor (5600 Ohms) is placed across the alarm contact, and the single EOL resistor (5600 Ohms) is placed between the alarm contact and the tamper contact.

12

DLS SECTION DLS TOGGLE DLS OPTION DLS REPORT CODES

DOWNLOAD

SECTION

This section will allow you to program all options related to downloading.

Download Toggles

Downloading Toggle Options. Toggle options are in the form of questions. Use the [✱] key to toggle between Yes and No to enable or disable the feature. Use the [<][>] keys to scroll through the options.

Downloading enable?

YES = The panel will answer after the programmed number of rings.

NO = DLS Enable disabled. The only way downloading can occur is by using either the

“USER CALL UP” feature or the “PERIODIC CALLUP” feature. DLS Enable can be turned on by the end user for 60 minutes if the “USER ENABLE DLS” option is enabled.

User call up?

YES = The user can cause the panel to call a remote computer by entering the [✱][6][Master

Code][7] user callup command. (See also “PHONE NUMBER” and “PANEL ID CODE” in the DLS options.)

NO = The feature is disabled.

Double call?

YES = If the panel detects 1 or 2 rings on the first call and then is called again within a variable time of 000 to 255 seconds (programmable - see “2 CALL TIMER”), the panel will answer the second call on the first ring. This is useful for bypassing an answering machine on the same line as the panel.

NO = The panel will only answer after the programmed number of rings is reached. See “# OF

RINGS”.

Downloading call back?

YES = Callback is enabled. After connection to the panel both the computer and the panel will hang up. The computer will then wait for the panel to call. If there is more than one downloading computer, callback should be disabled.

NO = Callback is disabled. The downloading computer will have immediate access to the control panel once accepted as valid.

Periodic downloading?

YES = Periodic Downloading is enabled. Periodic downloading is used to allow the computer to execute batch files. The computer must be waiting for a call for this feature to be useable. See “Periodic Callup” for programming the time of day and the number of days in between periodic downloads.

NO = Periodic Downloading disabled.

User Enables Downloading?

YES = The end user may enable ring detect for 60 minutes to allow a computer to access the control panel. If the “DLS ENABLE” option has been enabled, this option is overridden.

NO = Option disabled.

13

DLS SECTION DLS TOGGLE DLS OPTION DLS REPORT CODES

DLS Options

Programming the time and number of days between periodic downloads. (See “Periodic DLS” for enabling Periodic Downloading.)

Set downloading cycle days?

Program the number of days (from 001 to 255 days) between periodic downloads. The default setting is 030.

Set 24 hour time?

Program, in military time, the time of day the panel will call the computer for periodic downloading. The default setting is 0000.

Downloading phone number?

Enter the telephone number for computer if User Call Up, Periodic DLS, or DLS Callback is enabled. See “PGM TEL NUMBER” for entering a telephone number and options when programming the phone number.

Panel identifier code?

Panel Identifier Code. This four digit code will allow the computer to identify the panel that is calling. It must be programmed differently for every panel if User Call Up, Periodic DLS or DLS

Callback is used. The default setting is 4921.

Panel downloading access code?

This 4 digit code must be programmed the same as the computers. If the code is different the panel will NOT allow any uploading or downloading to take place. It is used to help ensure the security of the system. The default setting is 4920.

Double call timer?

This is the maximum allowable time in seconds between two phone calls when the “Double Call” option has been enabled. Valid entries are between 000 and 255 seconds. The default setting is

060. (See “Double Call” for enabling the double call feature.)

Number of rings?

This is the number of consecutive rings the panel must detect before answering the call. (See

“DLS Enable” or “User Enabs DLS” for enabling DLS Enable.) Valid entries are between 001 and

255 rings. The default setting is 008.

14

COMMUNICATOR MAIN ITEMS

COMMUNICATOR

SECTION

All options concerning communications can be programmed, including phone numbers, reporting codes, account numbers and communicator options.

Main Items - Phone Numbers/Communication Format/Dialer Direction

Handling the phone numbers of monitoring stations or remote areas the panel communicates with.

The PC4020 can call up to 3 different phone numbers when reporting any event to a monitoring station. The second and third numbers can be used as backups if the first or second fail.

Note: Dial Tone Search must be included for a number to backup to its Links Number.

1st Number can report any event program set in the dialer directions. By default all events are sent through the first phone number. See ‘Communicator Toggles’ for more detail on backups.

2nd Number can report any events programmed if set in the dialer directions and can back up the 1st Number. See ‘Communicator Toggles’ for more detail on backups.

3rd Number can report any events programmed if set in the dialer directions. It can also be used to back up the first and/or second phone number. See ‘Communicator Toggles’ for more detail on backups.

Enter the communicator telephone number the way you would dial it on a telephone. The total number of digits including dial tone searches and pauses must not exceed 31. Press the [✱] key to enter the telephone entry options menu. A ‘D’ for dial tone search is already programmed as the first digit.

[0] Save

[4] DTMF [✱]

[1] Dial tone

[5] DTMF [#]

[2] Pause 2 Seconds [3] Pause 4 Seconds

[6] Previous Menu

[0] Save can be selected for the telephone number to be stored into the panel’s memory, or simply press [#] when finished entering the phone number.

[1] Dial tone will add a dial tone search to the telephone number, which will be represented by a

‘D’ on the display. When the panel does a dial tone search, it looks for dial tone before dialing the programmed telephone number.

[2] Pause 2 Seconds will add a two second pause to the dialing sequence, which will be represented by the letter ‘A’ on the display.

[3] Pause 4 Seconds will add a four second pause to the dialing sequence, which will be represented by the letter ‘E’ on the display.

[4] DTMF [ ✱ ] will input an asterisk, represented by a ‘B’ on the display. The dialer will output the same frequencies as a touch tone phone would if the [✱] key were pressed. (Frequently required to disable call waiting.)

[5] DTMF [#] will add a ‘#’ to the telephone number, represented by the letter ‘C’ on the display.

The dialer will output the same frequencies as a touch tone phone when the ‘#’ key is pressed. (In some instances it is used to disable call waiting.)

15


There are 19 formats in the PC4020 for communicating with the monitoring station. The system must be programmed to use the same communications format as the receiver at the monitoring station. The default format is (01).

(00) 10 Bps 1400 - Silent Knight, Ademco Slow

(01) 20 Bps 2300 - Sescoa, Franklin, DCI, Vertex

(02) 20 Bps 1400 - Silent Knight Fast

(03) 40 Bps 2300 - Radionics

(04) 40 Bps 1400 - Radionics

(05) 40 Bps 2300 P - Radionics with Parity

(06) 40 Bps 1400 P - Radionics with Parity

(07) 10 Bps 1400 X - Silent Knight, Ademco Slow extended

(08) 20 Bps 2300 X - Sescoa, Franklin, DCI, Vertex extended

(09) 20 Bps 1400 X - Silent Knight, Ademco Fast extended

(10) 40 Bps 2300 X - Radionics Extended

(11) 40 Bps 1400 X - Radionics Extended

(12) 40 Bps 2300 XP - Radionics Extended with Parity

(13) 40 Bps 1400 XP - Radionics Extended with Parity

(14) SIA Fsk Format

(15) Sescoa Super Speed

(16) Sescoa Super Speed ID

(17) DTMF Contact ID

(18) 4/3 DTMF Format - Surgard

(19) Pager 1

(20) Pager 2

(21) Pager 3

}

Do not use for UL installations

Communications Compatibility

All these communication formats are compatible with the Silent Knight SK9000 and Ademco model 685 receivers with the exception of formats (15), (16), (17) and (18). Formats (15) and (16) are compatible with the Linear/ Sescoa model 3000C receiver. For UL installations, ensure that the control unit is reporting to one of these receivers. Formats 19, 20 and 21 should not be used for

UL installations.

10, 20 and 40 BPS Formats

10 Bits Per Second is the standard slow format used on Silent Knight and Ademco receivers.

Data = 1900 Hz Kissoff = 1400 Hz Speed = 10 Baud

20 Bits Per Second is the standard fast format used on DCI, Franklin, Sescoa and Vertex receivers.

Data = 1800 Hz Kissoff = 1400/2300 Hz Speed = 20 Baud

40 Bits Per Second is the standard format used on Radionics receivers.

Data = 1800 Hz Kissoff = 1400/2300 Hz Speed = 40 Baud

These formats will send an account code to identify which customer is sending the alarm, and a reporting code to identify the type of alarm. Depending on the receiver, the account code must be either 3 or 4 digits, and the reporting code must be either 1 or 2 digits. If the account code needs to be only 3 digits, program the ‘System ID Code’ and each partition’s ‘Customer ID Code’ with 3 digits, followed by a ‘0’. If you wish to send a zero in the account code, program it with a

HEX A. For example, if you wish to send 103 as your account code, program the System or

Customer ID code with ‘1A30’. If the reporting code needs to only be 1 digit, program the reporting codes with one digit followed by a ‘0’. For example, to send a ‘3’, program ‘30’ into the reporting codes. To send a zero, program HEX A into the reporting code. For example, to send

30, enter 3A.

16


Radionics Format

For conventional 3/1 Radionics format the communications mode should be set to either (10) or

(11), the 40 Bps extended format. The following guidelines have been provided to help in configuring the PC4020 for Radionics format.

1. The system ID code and customer ID codes must be only 3 digits with a zero making up the 4th digit (i.e. program 1230 for ID code 123.)

2. The zone alarm reporting codes must all be single digit numerical codes with no extended

2nd round being sent. The zero in the 2nd digit of the reporting code tells the PC4020 not to send an extended code.

3. All other non-alarm reporting codes must be set up to send an extended 2nd round. The

1st digit of the reporting code is used to identify the event while the 2nd or extended digit is used to associate the event with a particular item. (i.e. A reporting code of E3 means restore zone 3 - E for restore and 3 for zone 3.)

4. The following is a list of 1st digit identifiers that should be used with the Radionics format.

Restorals “E” Example

Openings “B” Example

Closings “C” Example

“E3”

“B2”

“C4”

=

=

=

Restore zone 3

Opening by User 2

Closing by User 4

Troubles “F” Example

Alarm “A” Example

Misc “D” Example

“F5” =

“A7” =

“D1” =

Trouble from Source 5

Alarm zone 7

Partial Closing

SIA 1986 Format

The system ID codes and the customer ID codes must be four decimal digits in length. The reporting codes must be 2 digits.

The SIA format will transmit a 4 digit account code, a 2 digit identifier code and a 2 digit reporting code. The 2 digit identifier is preprogrammed by the PC4020. The 2 digit reporting code is programmed by the installer with any hex number from 01 to FE.

2 Wire Smoke Alarm

2 Wire Smoke Trouble

2 Wire Smoke Alarm Restore

2 Wire Smoke Trouble Restore

2nd Master Close

2nd Master Open

4204 AC Trouble Restore

4204 Aux Supply Trouble Restore

4204 Battery Trouble Restore

4204 Battery Trouble Alarm

4204 Aux Supply Trouble Alarm

4204 AC Trouble Alarm

Auto Arm Abort

Automatic Arming Closing

Cellular Trouble

Cellular Trouble Restoral

Closing Access Codes 1 to 128

Closing Keyswitch

COMBUS Trouble Alarm

COMBUS Trouble Restoral

Downloading Lead In

Downloading Lead Out

Duress

Ground Fault Restore

Ground Fault

DVAC Trouble

DVAC Trouble Restore

Hold Up Alarm

Preprogrammed

Identifiers

FA

FS

FR

FR

CL

OP

AR

UR

YR

YT

UT

AT

CE

CA

LT

LR

CL

CL

UT

UR

RB

RS

HA

UR

US

YS

YK

HA

Hold Up Restore

Installer’s Lead In

Installer’s Lead Out

Keypad Lockout

Keypad [F] Key Alarm

Keypad [A] Key Alarm

Keypad [P] Key Alarm

Keypad [P] Key Restore

Keypad [F] Key Restore

Keypad [A] Key Restore

Links Test

Module Tamper Restoral

Module Tamper Alarm

Opening After Alarm

Opening Access Codes 1 to 128

Opening Keyswitch

Opening Automatic

Panic Alarm

Panic Restoral

Partial Closing Code

Partition Close

Partition Open

Periodic Test UL

Periodic Test

Police Restore

Police Alarm

Printer Buffer Nearly Full

Quick Arm Closing Code

Preprogrammed

Identifiers

HR

LB

LS

DC

FA

MA

PA

PR

OR

OP

OP

OA

PA

FR

MR

RP

TR

TA

RP

BR

BA

JL

CL

PR

CG

CL

OP

RP

17


RS-232 Trouble

RS-232 Restore

Sprinkler Zone Trouble

Sprinkler Zone Trouble Restore

Sprinkler Zone Alarm

Sprinkler Zone Restore

System TLM Restore Line 2

System TLM Trouble

System Bell Trouble Alarm

System AC Trouble Alarm

System Battery Trouble Alarm

System TLM Trouble Line 2

System FTC Restoral

System TLM Restoral

System AUX Supply Trouble Alarm

System Test

System AC Trouble Restoral

LR

UT

RX

AR

System Aux Supply Trouble Restoral UR

UT

AT

YT

LT

UR

System Battery Trouble Restoral

System Bell Trouble Restoral

Technical Alarm

VT

VR

ST

SR

SA

SR

LR

LT

YR

UR

UA

Technical Restore

Waterflow Trouble Restore

Waterflow Alarm

Waterflow Alarm Restore

Waterflow Trouble

Automation Fault

Automation Fault Restore

Zone Alarms 1 to 128 - Fire

Zone Alarms 1 to 128 - All others

Zone Sensor Fault

Zone Low Bat Alarm

Zone Sensor Fault

Zone Low Bat Restore

Zone Troubles 1 to 128 - Fire

Zone Fault Restore

Zone Tamper 1 to 128

Zone Fault

Zone Sensor Fault Restore

Zone Restorals 1 to 128 - All others

Zone Restorals 1 to 128 - Fire

Zone Tamper Restorals

Sescoa Super speed and Sescoa Super Speed ID

The system ID code and customer ID codes must be four decimal digits in length and in the range of 0001 to 3374.

The reporting codes must be 2 digits in length and programmed as follows. All zero’s must be replaced with ‘A’s. For example, to send 20, the PC4020 must be programmed with a 2A. (To disable a reporting code, leave as FF.)

Notes: Do not program the Downloading Lead In reporting code, the Downloading Lead Out reporting code, the Installer’s Lead In reporting code, the Installer’s Lead Out Reporting Code.

The keyswitch zones will be identified as the zone number plus 128. For example, if the closing user zone and the closing keyswitch zone numbers are both 002, the closing keyswitch zone will then be identified as 130 (zone number 2 + 128 = 130).

Program different reporting codes for zone tamper and zone alarm for identifying a zone tamper from a zone alarm.

Code Code

2 Wire Smoke Alarm Trouble

2 Wire Smoke Alarm Restore

A1 to 9A

A1 to 9A

2 Wire Smoke Alarm A1 to 9A

2 Wire Smoke Alarm Trouble Restore A1 to 9A

2nd Master Close

2nd Master Open




CA

BA

E1

A1 to 9A

E1




Auto Arm Abort

Automatic Closing

Automatic Opening

Buffer Near Full


Cellular Trouble

Closing Reporting Codes 1 to 128

COMBUS Trouble Restore


E1

A1 to 9A

E1

C1

CA

BA

A1 to 9A

EE

EE

CA

A1 to 9A

A1 to 9A

DVAC Trouble


Duress

Ground Fault

Hold Up Restore

Hold Up Alarm

Keypad [P] key Restoral

Keypad [F] key Alarm

Keypad Lockout Code

Keypad [F] key Restoral

Keypad [A] key Restoral

Keypad [A] key Alarm

Keypad [P] key Alarm

Keyswitch Opening

Keyswitch Closing

Links Test

Module Tamper Restorals

Module Tamper Alarms

Opening After Alarm Code

Opening Reporting Code 1 to 128

Panic Alarm

EE

EE

D1

A1 to 9A

A1 to 9A

A1 to 9A

A1 to 9A

A1 to 9A

A1 to 9A

A1 to 9A

A1 to 9A

A1 to 9A

A1 to 9A

BA

CA

1C

A1 to 9A

A1 to 9A

BA

BA

A1 to 9A

FT

TR

TA

TA

ER

BA

ET

XT

ET

XR

UR

SR

SA

SR

SS

ET

ER

FA

BR

FR

TR

18


Panic Restore


Partition Open

Partition Close

Periodic Test

Periodic UL Test

Police Restore

Police Alarm


RS-232 Trouble

RS-232 Restoral

System Aux Supply Trouble Alarm


System TLM Line 2 Restoral




Code

A1 to 9A

C1

BA

CA

1C

1C

A1 to 9A

A1 to 9A

CA

A1 to 9A

A1 to 9A

A1 to 9A

F1

EE

E1

E1

E1

System AC Trouble Restoral E1

System Aux Supply Trouble Restoral A1 to 9A



System TLM Line 1 Trouble

F1

EE

EE


System Test

System FTC Restoral

Technical Alarm

Technical Restore

Waterflow Alarm Trouble Restore

Waterflow Alarm

Waterflow Alarm Restore

Waterflow Alarm Trouble


Automation Fault


Zone Low Battery

Zone Sensor Fault

Zone Fault 1 to 128

Zone Fault Restore 1 to 128

Zone Low Battery Restore

Zone Alarms 1 to 128

Zone Trb./Tamp Restoral 1 to 128

Zone Restoral 1 to 128

Zone Trb./Tamp 1 to 128

Contact ID

The System ID code and 8 Customer ID codes must be 4 decimal digits. The reporting codes must be 2 digits and programmed as follows.

Note: Do not program the Opening After Alarm, Buffer Nearly Full, Installer Lead In and

Installer Lead Out reporting codes.

Do not use this format with 1300 Hz I.D.

Do not use this communicator format on UL commercial fire systems.

Zone Alarms and Restorals can be programmed to send different messages to the monitoring station. For example, if the Reporting code for zone 5 is programmed with ‘34’, the monitoring station will receive the message ‘✱ BURG ✱ - ENTRY/EXIT - 5’, where 5 is the number of the zone which has been activated. Different messages to be sent to the monitoring station are:

Message as seen on receiver Code

13

14

15

16

17

Fire Alarms

1A

11

12

✱ FIRE ✱ - FIRE ALARM - #

✱ FIRE ✱ - SMOKE DETECTOR - #

✱ FIRE ✱ - COMBUSTION - #

✱ FIRE ✱ - WATER FLOW - #

✱ FIRE ✱ - HEAT SENSOR - #

✱ FIRE ✱ - PULL STATION - #

✱ FIRE ✱ - DUCT STATION - #

✱ FIRE ✱ - FLAME SENSOR - #

Code Message as seen on receiver

Burglar Alarms

3A

31

32

33

34

35

36

37

✱BURG ✱ - BURGLARY - #

✱BURG ✱ - PERIMETER - #

✱BURG ✱ - INTERIOR - #

✱BURG ✱ - 24 HOUR - #

✱BURG ✱ - ENTRY/EXIT - #

✱BURG ✱ - DAY/NIGHT - #

✱BURG ✱ - OUTDOOR - #

✱BURG ✱ - TAMPER - #

Panic Alarms

2A

21

22

23

✱ PANIC ✱ - PANIC - #

✱ PANIC ✱ - DURESS - #

✱ PANIC ✱ - SILENT PANIC - #

✱ PANIC ✱ - AUDIBLE PANIC - #

General Alarms

4A

44

✱ ALARM ✱ - GENERAL ALARM - #

✱ ALARM ✱ - SENSOR TAMPER - #

Code

EE

1C

EE

A1 to 9A

A1 to 9A

A1 to 9A

A1 to 9A

A1 to 9A

A1 to 9A

A1 to 9A

A1 to 9A

A1 to 9A

E1

A1 to 9A

A1 to 9A

A1 to 9A

E1

A1 to 9A

A1 to 9A

A1 to 9A

A1 to 9A

19


Code Message as seen on receiver

56

57

58

59

61

5A

51

52

53

54

55

24 Hour Non-Burglary

✱ ALARM ✱ - 24 HR. NON-BURG - #

✱ ALARM ✱ - GAS DETECTED - #

✱ ALARM ✱ - REFRIGERATION - #

✱ ALARM ✱ - HEATING SYSTEM - #

✱ ALARM ✱ - WATER LEAKAGE - #

✱ ALARM ✱ - FOIL BREAK - #

✱ ALARM ✱ - DAY ZONE - #

✱ ALARM ✱ - LOW GAS LEVEL - #

✱ ALARM ✱ - HIGH TEMPERATURE - #

✱ ALARM ✱ - LOW TEMPERATURE - #

✱ ALARM ✱ - AIR FLOW - #

The rest of the reporting codes must be programmed as follows or left as FF to be disabled.

2 Wire Smoke Trouble

2 Wire Smoke Restore

2nd Master Open

2nd Master Close

4204 Battery Trouble Restoral

4204 AC Trouble Restoral



4204 Aux Supply Trouble Restoral


Access Codes 1 to 128 Closing

Access Codes 1 to 128 Opening

Auto Arm Abort

Automatic Opening

Automatic Closing


Cellular Trouble

COMBUS Trouble Restore



Downloading Lead In

Duress

Fire Zone Troubles

Keypad Lockout

Keypad [P] key Restoral


Keypad [A] key Restoral


Keypad [F] key Restoral


Keyswitch

Links Tx


Module Tamper Alarm

Partial Closing

AA

11

A2

A2

3A

3A

3A

3A

3A

3A

A2

A2

A5

A3

A3

51

51

33

33

12

11

21

73

21

2A

15

AA

AA

15

2A

A9

A3

45

45

74

Partition Open

Partition Close

Periodic Test Transmission

Quick Arm Closing

RS-232 Trouble Alarm

RS-232 Trouble Restoral

System Test


System TLM Line 2 Restore

System FTC Restoral







System Aux Supply Trouble Restoral




Waterflow Trouble

Waterflow Trouble Restoral

Zone Fault

Zone Fault Restore

Zone Low Battery


Zone Sensor Fault


Zone Tamper

Zone Tamper Restore

Automation Fault

Automation Fault Resotre

DVAC Trouble


Surgard 4/3 DTMF Format

This is a 7 digit format sent by DTMF tones and uses a 2300 Hz handshake. Each round pair represents a single event as follows:

SSSSXCC where, SSSS=4 digit account code

X = Event descriptor, preprogrammed in the PC4020.

CC = 2 digit reporting code programmed by the installer.

The reporting codes can be programmed with any hex number from 01 to FE (00 or FF will disable the reporting code).

Note that both “0” and “A” will both represent and be received as “0”.

20

44

44

84

84

81

81

AA

51

51

21

A1

A1

44

44

3A

3A

5A

52

A2

AA

A2

21

A1

AA

AA

A2

A8

35

35

A1

A1

52

54

5A


Normally the Zone Alarm reporting codes will transmit a “3” as the event descriptor for most zone types, to indicate a burglary alarm. However, if the zone type is a Standard Fire Zone, Delayed Fire

Zone or Auto Verify Fire Zone, the PC4020 will transmit a “1” as the event descriptor for these zone types to indicate a fire alarm is being transmitted.

For zones programmed as momentary keyswitch arming or maintained keyswitch arming, the

PC4020 will transmit a “4” and the reporting code programmed in the “Zone Alarm” section to indicate a closing (arming) of a partition.

In the Zone Restore reporting codes section, a zone will normally transmit a “9” as the event descriptor for burglary or fire zones to indicate the zone has been restored. However, if the zone has been programmed as a momentary or maintained keyswitch arming zone, when the zone is used to disarm a partition it will transmit a “5” and the reporting code programmed in the zone restoral section to indicate an opening (disarming) of a partition.

2 Wire Smoke Alarm Trouble

2 Wire Smoke Trouble Restore

2 Wire Smoke Alarm

2 Wire Smoke Restore

2nd Master Close

2nd Master Open






Auto Arm Abort

Automatic Opening

Automatic Closing

Buffer Near Full


Cellular Trouble

Closing Access Codes 1 to 128

Closing Keyswitch 1 to 128


COMBUS Trouble Restoral

Downloading Lead In


Duress Code

Fire Zone Troubles 1 to 128

Ground Fault

Ground Fault Restoral

Hold Up Alarm

Hold Up Restore

Installer’s Lead In

Installer’s Lead Out



Keypad [F] key Restore

Keypad [P] key Restore


Keypad Lockout Code

Keypad [A] key Restore

Links Test

Module Tamper Alarm


Opening After Alarm

Opening Access Codes 1 to 128

Opening Keyswitch 1 to 128

Panic Restore

Panic Alarm


PC4020 Reporting Code Section Event

8

8

2

9

F

9

2

6

F

F

6

9

4

4

9

F

Descriptor

6

9

1

5

6

9

4

4

F

F

5

9

9

9

6

5

9

2

D

F

5

F

9

9

0

2

F

9

9

7

1

PC4020 Reporting Code Section Event

Partition Open

Partition Close

Periodic Test

Periodic UL Test

Police Restore

Police Alarm


RS 232 Trouble

RS 232 Restore


System Test



System TLM Line 2 Restore



System Aux Supply Trouble Restoral





System FTC Restoral



Technical Alarm

Technical Restore

Waterflow Trouble

Waterflow Trouble Restore

Waterflow Alarm

Waterflow Restore

Automation Fault


9

6

9

1

9

6

9

3

9

6

6

9

6

9

9

9

Descriptor

5

4

0

3

4

0

9

9

6

6

F

F

0

F

9


Zone Sensor Fault

Zone Fault Restore

Zone Alarms 1 to 128 (All others)

Zone Low Battery


Zone Tamper Restoral

Zone Restorals 1 to 128 (All others)

Zone Alarms 1 to 128 (Fire Alarms)

Zone Fault

Zone Fault Restore

Zone Tamper

Zone Tamper Restore

DVAC Trouble


6

9

6

9

6

9

9

1

9

9

3

6

6

9

9

9

21


ALAR M / RESTORE

Pager Format 1

Pager Format 1 (Semadigit) transmits 7 DTMF digits for each event. Each round is transmitted as follows: AAAA XX C Where AAAA is the 4 digit Account Code.

XX is the 2 digit reporting code.

C is the DTMF Character #

Only one event is communicated per call. This format requires and initial handshake of 440Hz, and a kissoff handshake of 1400Hz.

Note: Pager Formats should only be used as a backup, If using other communication formats do not program Dialer Directions for the pager format.

Pager Format 2

Pager Format 2 (Semaphone) transmits no data. The system will call the number programmed once for every event that occurs. This format is intended to be used with a pager but can be used to call a private residence. This format will “beep” the line every 2 seconds after dialing the phone number. Although this event is not identified, the recipient is made aware of the alarm.

Only one event is communicated per call. No handshake of kissoff signals are required for this format.



Pager Format 3

Pager Format 3 transmits 7 DTMF digits for each event. Each round is transmitted as follows:

AAAA XX C Where AAAA is the 4 digit Account Code.

XX is the 2 digit reporting code.

C is the DTMF Character #

Only one event is communicated per call. No handshake or kissoff signals are required for this format.



This section determines which reporting codes are sent to the selected phone number. All reporting codes can be programmed to communicate to any or all of the phone numbers. By default, all reporting codes are sent to phone number 1 only. See “Comms Toggles” for using phone numbers 2 and 3 as backup phone numbers.

YES = Alarm and Restoral reporting codes are transmitted to the monitoring station by the selected phone number.

NO = Alarm and Restoral reporting codes are not sent.

The reporting codes are:

• Zone Alarms

• Zone Restorals

• Zone Troubles

• Module Tamper Alarms

• Module Tamper Restorals

• [F] [A] [P] Key Alarms

• Cellular Trouble

• Cellular Trouble Restorals

• Water Flow Trouble (PC4700)

• Zone Trouble Restorals • [F] [A] [P] Key Restorals

• Duress • 2 Wire Smoke Alarm (PC4700)

• Water Flow Alarm (PC4700)

• 2 Wire Smoke Trouble (PC4700)

• Zone Faults • Zone Fault Restorals

See “Reporting Codes” for a description of these groups of reporting codes.

YES = Opening and Closing reporting codes are transmitted to the monitoring station by the selected phone number.

NO = Opening and Closing reporting codes are not sent.

The groups of reporting codes, that are Openings and Closings, are:

• Closings by Access Codes 001 to 128

• Misc Closing Reporting Codes

• 2nd Master Close

• Openings by Access Codes 001 to 128

• Misc Opening Reporting Codes

• 2nd Master Open

• Momentary/Maintained arm


22


YES = All other reporting codes are sent to the selected phone number

NO = All other codes are not sent.

“All other” refer to every other reporting code that is not an alarm or restoral, opening or closing.

“All other” groups of reporting codes are:

• System Maintenance Reporting Codes • 4400 Module Maintenance Reporting Codes

• 4204 Module Maintenance Reporting codes • Ground Fault (PC4700)


When a reporting code is sent to the monitoring station, a four digit account code is also sent to identify the user. Each partition has its own account code (See “Customer ID Code”). But for reporting codes that do not pertain to a particular partition, such as AC line trouble etc., the system ID code is sent to identify the panel / user. The reporting code groups that send the system ID code are:

• Module Tamper Alarms

• Module Tamper Restorals

• System Maintenance Reporting Codes

• 4204 Module Maintenance Reporting Codes

• 4400 Module Maintenance Reporting Codes • [F] [A] [P] Key Alarms (global keypads)

• Duress (global keypads) • [F] [A] [P] Key Restorals (global keypads)

• 4700 Reporting Codes


See “Comms Formats” for a description of communication formats and if there are limitations set on what the System and Partition account codes may be programmed as.

23

COMMUNICATOR COMMS TOGGLES

Communicator Toggles

Selecting options relevant to the communications of the panel. Toggle options given in the form of a question. Use the [✱] key to toggle between [Y]es and [N]o to enable or disable the feature.

Use the [<][>] keys to scroll through the options.

Communications are enabled?

YES = The communications are enabled.

NO = The communications are disabled. No reporting codes will be transmitted to the monitoring station. Note that downloading can still be accomplished with the communicator disabled.

YES = The dialer will use DTMF dialing.

The PC4020 can switch to pulse dialing after a programmed number of attempts at

DTMF dialing have failed. See “DTMF Attempts”.

NO = The dialer will use pulse dialing.

Restore on Bell Time Out?

YES = The panel will send the restoral reporting code when both the zone is restored and the bell has timed out (see “BELL CUTOFF” for the time the bell will time out). Note that if the zone is not restored, the restoral will be sent when the partition is disarmed. DO NOT enable this feature if “REST ON DISARM” is enabled.

NO = The panel will send the restoral reporting code when the zone is restored, or if “REST

ON DISARM” is enabled, the restoral is sent when the partition is disarmed. (See “REST

ON DISARM”.)

Restore on Disarming?

YES = The panel will send a restoral when the partition has been disarmed. The panel will not send another alarm transmission for the zone until the partition is disarmed. DO NOT enable “RESTORE ON BTO” if this feature is enabled. (See “RESTORE ON BTO”.)

NO = The panel will send the restoral immediately when the zone is restored, or if “RESTORE

ON BTO” is enabled, the restoral is sent when the bell times out. (See “RESTORE ON

BTO”.)

Note: If Bell Shutdown is to be used, do NOT use “Rest On Disarm” for Shutdown to occur.

Swinger Shutdown reset every 24 hours?

YES = The swinger shutdown counters will be reset everyday at midnight. The swinger shutdown counters keep track of how many alarms have occurred on each zone before entering shutdown, in which the zones will no longer cause an alarm. See “SWINGER

LIMIT” and “SWGR SHUT DOWN” to enable swinger shutdown.

NO = The swinger shutdown counters will be reset when the partition is armed.

Partial Closings Identified?

YES = The panel will identify all manually bypassed zones when the partition is armed. The bypassed zones are identified by sending the zone alarm reporting codes for the bypassed zones between the partial closing reporting code and the closing code. The partial closing reporting code must be programmed for this feature to work.

See “MISC CLOSING” to program the partial closing reporting code.

See “PC ID RESTORES” to use zone restoral reporting codes instead of zone alarm reporting codes to identify the bypassed zones.

NO = The panel will only send a partial closing reporting code to tell the monitoring station that zones were bypassed when the partition was armed.

Partial Closings on Auto Arming?

YES = The panel will send the partial closing reporting code to the monitoring station when a zone is force armed (temporarily bypassed) by an auto arm. If the option “PC ID” is enabled, the force armed zone will be identified by sending its zone alarm reporting code after the partial closing reporting code. See “FORCE ARM” for an explanation of force arming.

NO = No partial closing reporting code will be sent when zones are force armed during auto arming.

24

COMMUNICATOR COMMS TOGGLES

Partial Closings Identified send Zone Restorals?

YES = The zone restoral reporting codes are transmitted to the monitoring station instead of the zone alarm reporting codes to identify the manually bypassed zones and force armed zones on auto arm. See “PC ID”.

NO = The zone alarm reporting codes are used to identify the bypassed zones.

Telephone Line Monitoring Enabled?

YES = The system tests for telephone line faults. If a fault is detected, the trouble is annunciated on the keypads. A telephone line trouble is generated when the line voltage drops below 3 volts for more than 30 seconds.

NO = Does not test for Telephone Line faults.

Telephone Line Monitoring has Audible Bell Alarm?

YES = If there is a Telephone Line trouble and a partition is armed, the bell outputs for the armed partition will be activated, along with the keypad annunciation. The bell outputs are any outputs (Bell, SW Aux or PGM) programmed for “FIRE AND BURG”, “INV FIRE / BURG”,

“BURG ONLY” and “INV BURG ONLY”.

NO = If there is a Telephone Line trouble, the panel will annunciate the trouble at the keypad only.

Should a Failure to Communicate sound the Bells?

YES = If a partition is armed, the bell outputs for the armed partition will sound when the PC4020 fails to communicate with the monitoring station.

NO = A failure to communicate will not cause the PC4020 to sound the bells.

Should a Transmission Line Monitoring trouble and an alarm occurring cause the bells to sound?

YES = If a partition is armed, the bell outputs for the armed partition will sound when the PC4020 has both a TLM fault and an alarm occurring.

NO = The TLM and Alarm Audible Function is disabled.

Enable Ringback?

YES = The Ringback option is enabled.

A successful communication of a closing to the monitoring station will be annunciated by the keypads beeping 5 times. Only the keypads belonging to that partition will beep.

Note: If communications are being sent to more than one telephone number, communications to all numbers will produce a ringback.

NO = The Ringback option is disabled.

Note: Ringback must be enabled on a commercial burglar alarm system.

Ringback Squawk?

YES = Ringback Squawk option is enabled.

NO = Ringback Squawk option is disabled.

If Ringback and Ringback Squawk are both enabled upon a successful communication of a closing, the Fire / Burg, Inv Fire / Burg, Burg and Invert Burg outputs for that partition will squawk 4 times.

Note: Ringback must be enabled for this feature to function.

Periodic Test Transmission?

YES = The panel will send a test transmission to the monitoring station. See “TEST CODE TX” for programming time and frequency the code is sent. See “SYSTEM MAINT” for programming the reporting code.

NO = The panel will not send a test transmission.

European Dialing?

YES = When the communicator is pulse dialing, the contact closure to the phone line is made in a

67/33 make/break ratio. This is the European standard method of dialing.

NO = The contact closure to the phone line is made in a 60/40 make/break ratio. This is the

American/Canadian standard method of dialing.

Note: European Dialing must be disabled on UL listed systems.

25

COMMUNICATOR COMMS TOGGLE

/

COMM MIS

Dial if No Dial Tone Present?

YES = If the first attempt by the panel to call the monitoring station fails, on every subsequent attempt the panel will dial regardless of the presence of dial tone.

NO = If a ‘D’ for dial tone search precedes the phone number, the panel will not dial if dial tone is not present. See “PGM TEL NUMBER” for programming the telephone numbers with dial tone search.

Phone #2 back up Phone #1?

YES = The PC4020 will send the reporting code to the 2nd phone number if the 1st phone number fails to communicate with the monitoring station after 10 attempts. Dialer directions for the 2nd phone number should be disabled (set to “N”) if the 2nd number is used for backup only, otherwise the reporting codes will be sent to the 2nd phone number whether the 1st number failed or not.

NO = Disabled. The 2nd phone number does NOT back up the 1st phone number.


YES = The PC4020 will send the reporting code to the 3rd phone number if the 1st phone number fails to communicate with the monitoring station after 10 attempts. Dialer directions for the 3rd phone number should be disabled (set to “N”) if the 3rd number is used for backup only, otherwise the reporting codes will be sent to the 3rd phone number whether the 1st number failed or not.

If “PH 1-2 BACKUP” is enabled when 1st phone number fails, the reporting code will be sent to both the 2nd and 3rd phone number.

NO = Disabled. The 3rd phone number does NOT back up the 1st phone number.


YES = The PC4020 will send the reporting code to the 3rd phone number if the 2nd phone number fails to communicate with the monitoring station after 10 attempts. Dialer directions for the 3rd phone number should be disabled (set to “N”) if the 3rd number is used for backup only, otherwise the reporting codes will be sent to the 3rd phone number whether the 2nd number failed or not.

If “PH 1-2 BACKUP” is enabled when 1st phone number fails, the reporting code will be sent to the 2nd phone number. If the 2nd phone number fails, the reporting code will then be sent to the 3rd phone number.

NO = Disabled. The 3rd phone number does NOT back up the 2nd phone number.

Busy Tone Detection?

Yes = If a busy tone is detected for 4 seconds the panel will hang-up and re-dial 60 seconds after hearing the busy tone. By default this option is set to No.

No = The panel will not search for Busy Tone when dialing the phone number.

1300 Hz Identification Tone?

Yes = This Communications Toggle when enabled will allow the panel to emit a 1300Hz

Identification tone from the time the end of the phone number is dialed to the time that it receives a handshake. By default this option is set to No.

No = No Identification tone will be transmitted when the panel dial out.

Note: This option must not be used with Pager 2, Pager 3 or Contact ID communications formats.

Alternate Dialing?

Yes = This communications toggle option allows the panel to switch telephone number after a failed communication attempt. If the panel is able to dial (force dialing not included) on

Phone Number One, but no handshake is received then the next communication attempt will be to Phone Number 2 regardless of the dialer direction settings. This will cause the panel to switch between phone number 1 and 2 until a handshake is received. If a handshake is received but no kissoff is received from the receiver the panel will continue to dial that phone number until the event FTC's or a phone number backup occurs. By

Default is option is set to No.

Note: When alternate dialing is enabled the control panel will ignore all dialer directions and backup settings for phone number 2. Phone number 1 may be backed up to phone number 3, however phone number 2 will not backup to phone number 3 with Alternate Dialing enabled.

No = The panel will not switch phone numbers if no handshake is received until the programmed backup or dialer direction occurs.

26

COMMUNICATOR X / REPORTING CODES

Communicator Miscellaneous

Program other options relating to the communications of the panel including DTMF attempts, swinger shutdown limit, AC failure and zone transmission delay.

The number of attempts using DTMF dialing (e.g. a touch tone phone) before switching to pulse dialing (e.g. a rotary phone). Enter a three digit number from 000 to 010 attempts. Note that the

PC4020 will only call a number 10 times before a Failure to Communicate trouble occurs. By default, the panel will have 2 attempts of DTMF dialing before pulse dialing. If “DTMF DIALING” is not enabled, the panel will only pulse dial.

Enter the number of alarm / restore pairs the panel will communicate per zone before communications for that zone shut down. The bell will also shut down if so programmed (see

“BELL SHUTDOWN”). Valid entries are from 000 to 255. The default setting of swinger shutdown is 003. Entering 000 in this section will disable swinger shutdown. See “SWGR SHUT DOWN” to enable swinger shut down on each zone.

Note: Swinger Limit must be set to 000 on UL listed systems.

Enter the time in hours and minutes, AC trouble on the main panel must be present before the AC trouble reporting code will be communicated. Valid entries are from 0000 to 23:59. The default setting is 0700.

Enter the time in seconds, the panel will delay communication of an alarm zone. Valid entries are from 000 to 255. The default setting is 000. If the panel is disarmed within the programmed time, no alarm communication will be sent. See “TX DELAY?” under zone toggle options to enable the transmission delay on each zone.

This option will not be supported with DVAC. Zone events programmed to follow TX Delay will be sent immediately regardless of what the TX Delay is set for.

Note: Zone TX Delay must be set to 000 on UL listed systems.

Test Code Transmission

Test Code Transmission. Programs items regarding the test transmission of the panel. To send a test transmission, the time of day, the number of days between test transmissions and the test transmission reporting codes must be programmed. Also the “PERIODIC TX?” comms toggle options must be enabled.

Enter the number of days between test code communications. Valid entries are from 001 to 255.

The default setting is 030.

Note: Set Cycle Days must be set to 001 on UL listed systems.

Enter the time of day the test code will be communicated. Times are entered using military format

HH:MM. The default setting is 0000.

Reporting Codes

Reporting codes are 2 digit codes which are sent to the receiver at the monitoring station along with the customer ID code for each transmission. They identify the type of alarm to the receiver

(See “Comms Format”). Once you have selected which group of reporting codes to program, use the arrow keys to toggle through the reporting codes, and enter in a 2 digit number. If you are sending a 3/1 or 4/1 format where the reporting code needs to only be one digit, program the one digit followed by a “0”. For example, if you want to send a “5” to the monitoring station, program

“50” into the reporting code. To disable a reporting code, program it with FF (default setting).

Pressing the [✱] key when entering the code will call up a menu for hex digit entry and to “Save and Exit” from the Reporting Codes menu.

Note: When programming Hex digits, the second ✱ is no longer used as in previous panel versions i.e. PC3000 and PC2550. For example in the PC4020: ✱ 1 ✱ 2 is AB

✱ 1 2 is A2

Alarm Reporting Codes for Zones 001 to 128. Momentary and maintained arm zones will send the reporting code programmed in this section for a closing.

Restoral Reporting Codes for Zones 001 to 128. See Restore on BTO and Rest on Disarm for when the zone restoral will be sent to the monitoring station. Momentary and maintained arm zones will send the reporting code programmed in this section for an opening.

27

COMMUNICATOR X / REPORTING CODES

Zone trouble and Zone Tamper reporting codes for zone 001 to 128. The only types of zone that will cause a zone trouble are the Standard Fire, Delayed fire, Auto Verify Fire, Sprinkler Zone, and the LINKS Supervisory Zones. Regardless of the End Of Line type being used these zone types will send the programmed reporting code for a zone trouble condition. When using Double End

Of Line and an open circuit condition occurs (Zone Tamper) the remaining zone types will send the programmed reporting code as a Zone Tamper condition. This will include a zone tamper on a Wireless zone (See RF Zone Options for details on the Wireless Zones).

Zone trouble and Zone Tamper Restoral reporting codes for zone 001 to 128. The only types of zone that will cause a zone trouble restoral are the Standard Fire, Delayed fire, Auto Verify Fire,

Sprinkler Zone, and the LINKS Supervisory Zones. Regardless of the End Of Line type being used these zone types will send the programmed reporting code for a zone trouble restoral condition. When using Double End Of Line and an open circuit restoral condition occurs (Zone

Tamper restoral) the remaining zone types will send the programmed reporting code as a Zone

Tamper restoral condition. This will include a zone tamper restorals on a Wireless zone (See RF

Zone Options for details on the Wireless Zones).

Zone Fault reporting codes for zone 001 to 128. . The following types of zone will not cause a zone Fault are the Standard Fire, Delayed fire, Auto Verify Fire, Sprinkler Zone, LINKS

Supervisory, and Wireless Zones. When using Double End Of Line and an Short circuit condition occurs (Zone Fault) the remaining zone types will send the programmed reporting code as a

Zone Fault condition.

Zone Fault Restoral reporting codes for zone 001 to 128. . The following types of zone will not cause a zone Fault restoral are the Standard Fire, Delayed fire, Auto Verify Fire, Sprinkler Zone,

LINKS Supervisory, and Wireless Zones. When using Double End Of Line and an short circuit restoral condition occurs (Zone Fault restoral) the remaining zone types will send the programmed reporting code as a Zone Fault restoral condition.

Zone Sensor Fault trouble reporting code for wireless zones 1 - 64. When a wireless zone has not reported in to the PC4164 during the Zone Supervisory time then the panel will generate a “Zn

Sensor Fault” trouble and transmission.

Zone Sensor Fault trouble restoral reporting code for wireless zones 1 - 64. When a wireless zone regains communication with the PC4164 then the panel will restore the “Zn Sensor Fault” trouble and send the programmed reporting code.

Zone Low Battery trouble reporting codes for wireless zones 1 - 64. When a wireless zone sends a zone low battery trouble condition to the PC4164 the main panel will generate a “Zn LwBatt

Fault” trouble and transmission.

Zone Low Battery trouble restoral reporting codes for wireless zones 1 - 64. When a wireless zone sends a zone low battery restoral condition to the PC4164 the main panel will restore the “Zn

LwBatt Fault” trouble and send the programmed reporting code.

Reporting Codes for Tamper Alarms on Modules. All modules have a tamper zone, if the tamper is activated.

There are 16 keypad tamper alarm reporting codes, one for each keypad that can be enrolled onto the system.

There is an RS-232 tamper alarm reporting code.

There are 16 reporting codes for tamper alarms on 4108, 4116 and 4164 zone expansion modules.

If you use all 4108s, the maximum number of expansion modules you will use is 14. (14 x 8 zones =

112 zones + 16 zones on the main panel = 128 zones) For this reason, 15 and 16 are for future use.

28

COMMUNICATOR REPORTING CODES

O / P

O / P

O / P

O / P

There are 9 module tamper alarm reporting codes, one for each 4216 module that can be enrolled onto the system.

There are 16 module tamper alarm reporting codes, one for each 4204 module that can be enrolled onto the system.

Reporting Codes for the restoral of a modules tamper.

There are 16 keypad tamper restoral reporting codes, one for each keypad that can be enrolled onto the system.

There is an RS-232 tamper restoral reporting code.

There are 16 reporting codes for tamper restorals on 4108, 4116 and 4164 zone expansion modules. If you use all 4108s, the maximum number of expansion modules you will use is 14 (14 x

8 zones = 112 zones + 16 zones on the main panel = 128 zones). For this reason, reporting codes 15 and 16 are for future use.

There are 9 tamper restoral reporting codes, one for each 4216 module that can be enrolled onto the system.

There are 16 module tamper restoral reporting codes, one for each 4204 module that can be enrolled onto the system.

[F] [A] [P] Keys Reporting Codes for [F]ire, [A]uxiliary, [P]anic key alarms, [F]ire, [A]uxiliary,

[P]anic key restoral and Duress Reporting Codes.

Reporting Codes for Closings by Access Codes. There are 128 reporting codes, one for each access code.

Miscellaneous Reporting Codes for Closings. These 5 reporting codes are for Quick Arm, Partial

Closing, Auto Arm Closing, Auto Arm Abort and Keypad Lockout.

• Quick Arm - See [✱][0] user function in the system manual.

• Partial Closing - If a partition auto-arms, and some zones were open, the system will force arm itself, bypass the open zones and send the partial closing reporting code to the monitoring station along with the alarm reporting codes of the zones that are open. Also, if zones were manually bypassed, the partial closing reporting code will be transmitted.

• Auto Arm Abort - If the auto-arming is aborted with or without an access code, this reporting code will be sent.

• Auto Arm Closing - When the system Auto-arms, the panel will send the auto-arm reporting code to the monitoring station. See Auto-arm [✱][6] functions in the System Manual.

• Keypad Lockout - If too many incorrect access codes (see “TOTAL BAD CODES” under

Keypad Lockout Options for programming the number of incorrect code entries) are entered, the keypad will lock up, preventing anyone from attempting to enter any more access codes.

When keypad lockout occurs, the keypad lockout reporting code is sent to the monitoring station.

This code will be sent when the partition is armed. The system account code is sent followed by the programmed reporting code. If there is a user closing reporting code programmed it will also be sent. This is to allow identification of the partition which armed when only one account code is used for each of the Partitions and System Account codes. The user is identified with the closing reporting code and the partition is identified with the Partition Close Reporting Code.

Note: During a Closing Suppression window the Partition Close reporting code will not be sent.

29

COMMUNICATOR REPORTING CODES

Reporting Codes for openings by Access Codes. There are 128 reporting codes, one for each access code.

Opening After Alarm - This reporting code will be sent to the monitoring station when the system is disarmed, and there was an alarm while the partition was armed.

Opening Automatic - This reporting code will be sent any time an auto disarm schedule occurs that disarms the partition.

Note: During an Opening Suppression schedule the Opening Automatic reporting code will only be sent if there are alarms in memory.

This code will be sent when the partition is disarmed. The system account code is sent followed by the programmed reporting code. If there is a user opening reporting code programmed it will also be sent. This is to allow identification of the partition which disarmed when only one account code is used for each of the Partitions and System Account codes. The user is identified with the opening reporting code and the partition is identified with the Partition Open Reporting Code.

Note: During an Open Suppression Window the Partition Open reporting code will not be sent unless there was an alarm during the armed period for that partition.

System Maintenance Reporting Codes. There are 19 reporting codes dealing with the operation and maintenance of the system. The reporting codes are:

• Battery Trouble and Battery Restoral - If the battery voltage on the PC4020 main panel is weak, disconnected or if the battery fuse fails, a battery trouble occurs, and the battery trouble reporting code is sent. When the battery voltage and fuse are restored, the battery restoral code is sent. See Battery Trouble under Trouble Display [✱][2] in the System Manual.

• AC Line Trouble and AC Line Restoral - If the incoming AC voltage to the AC terminals fails, an AC trouble occurs and the AC trouble reporting code is sent to the monitoring station after the AC Fail Tx Delay has elapsed (see “AC FAIL TX DELAY”). When the incoming AC is restored, the AC restoral reporting code is sent to the monitoring station. See AC Trouble under

Trouble Display [✱][2] in the System Manual.

• Main Bell Trouble and Main Bell Restoral - If a bell trouble occurs, either from the bell fuse failure or the open bell terminals, the Main Bell Trouble reporting code will be sent to the monitoring station. When the trouble condition is restored, the Main Bell Restoral reporting code will be transmitted.

• Main Aux Trouble and Main Aux Restoral - If an auxiliary voltage supply trouble occurs, the

Main Aux Trouble reporting code is transmitted, and when the auxiliary voltage supply is restored, the Main Aux Restoral code is transmitted.

• COMBUS Trouble and COMBUS Restoral - When the main panel losses communication with a module, the COMBUS Trouble reporting code will be transmitted, and when communications resume the COMBUS Restoral reporting code will be sent.

• TLM Failure - If the Links unit is being used, a TLM reporting code will be sent through the

Links when a TLM trouble occurs. Do NOT program this code if the Links is not used.

• TLM Restoral - If there is a telephone line monitoring trouble, the PC4020 will not be able to communicate with the monitoring station until the telephone line is restored, then the TLM

Restoral reporting code will be sent.

• TLM Fail Line 2 - If the LINKS unit is being used, a TLM reporting code will be sent through the

LINKS when a TLM trouble occurs.

Note: Do not program this reporting code if the LINKS module is not being used.

• TLM Restoral Line 2 - If there is a Telephone Line Monitoring Trouble, when the trouble restores the panel will transmit the programmed reporting code reporting code.

• FTC Restoral - If a failure to communicate trouble occurs, where the PC4020 could not get through to the monitoring station, the next time the panel attempts to communicate and is successful, it will also transmit the FTC restoral reporting code.

• Periodic Test - This is the reporting code that is sent to the monitoring station to test communications.

• Buf Near Full - This reporting code is sent only if a printer is not being used, or the printer is off line for 450 events.

30

COMMUNICATOR REPORTING CODES LINKS MODULE

• User System Test - When the user does a [✱][6] bell/comm test, the User System Test reporting code is sent to the monitoring station to test communications. See “BELL/COMM

TEST” in the System Manual.

• Links Test - If this code is programmed and Links Test Transmission is enabled (see Links

Toggles), this reporting code will be sent via the Links unit. This code will never be sent through the regular telephone line.

• Per. Test UL - Periodic Test Transmission UL This test transmission code is sent inplace of a

Periodic Test Transmission if a Fire Trouble is present on the system at the time that the periodic test transmission is supposed to be sent. The default reporting code is 99.

Note: This Transmission must be used on UL Commercial Fire systems.

• DLS Lead In and DLS Lead Out - If the DLS Lead In reporting code is to be used, the DLS callback feature must be enabled. (See DLS callback under DLS Toggles). When a computer calls the PC4020 panel, after connection is made, both the panel and the computer will hang up the telephone line. The panel will then transmit the DLS Lead In reporting code to the monitoring station. The panel will then call the computer and begin downloading. When the computer is finished downloading to the panel, they will both hang up the phone line, and the

PC4020 will transmit the DLS Lead Out reporting code to the monitoring station.

Note: DLS Lead In/Out reporting code is only sent for User Call Up and DLS Call Back.

• Ins Lead In and Ins Lead Out - The Installer's Lead In reporting code is sent to the monitoring station when an installer enters the [✱] [8] installer’s programming mode. The Lead Out code is sent when the installer leaves [✱] [8] installer’s programming.

• Automation Fault - This trouble condition will occur when the Escort4580 loses communication with the Automation Output control module. An audible trouble (VIA keypad buzzer) will be generated as well as the trouble LED activating for the keypads. An Automation Fault trouble reporting code will be sent to the monitoring station if programmed. If there is an AC trouble present at the time the panel will not transmit the Automation Fault reporting code.

• Auto Fault Restoral - This reporting code is sent when the Automation Fault trouble condition clears.

The PC4204 module maintenance reporting code section has reporting codes for sixteen modules, with 6 codes for each module, in a total of 96 reporting codes. The 6 codes for each module are Battery Trouble, AC Line Trouble, Aux Supply Trouble, Battery Restoral, AC Line

Restoral and Aux Supply Restoral. These reporting codes are similar to the system maintenance reporting codes for the PC4020 main panel.

The PC4400 module maintenance reporting codes:

• RS-232 Trouble - This trouble is sent when the serial printer connected to the PC4400 module goes off line, or when the PC4400 module loses communications with the serial printer.

• RS-232 Restore - The reporting code is sent when the RS-232 trouble condition restores.

• DVAC Trouble - This reporting code will be sent if the DVAC line is no longer present, if the self diagnostics in the PC4400 module has failed or if DVAC communications has been shut down by the central station.

• DVAC Restore - This reporting code will be transmitted when all of the DVAC trouble conditions have been restored.

The Second System Grand Master Code used by the installer has a reporting code to report when it has been used to arm a partition.

The Second System Grand Master Code used by the installer has a reporting code to report when it has been used to disarm a partition.

The PC4700 Fire Module reporting codes:

• 2 Wire Alarm - This reporting code will be sent when there is a 2 Wire Smoke zone alarm condition. The 2 Wire Smoke zone acts as a standard fire zone.

• 2 Wire Alarm Restore - This reporting code will be sent when there is a 2 wire smoke zone alarm restoral occurs.

• Waterflow Alarm - This reporting code will be sent when there is a Waterflow zone alarm condition.

• Waterflow rest.

- This reporting code will be sent when there is a Waterflow zone restoral occurs.

• 2 Wire Trouble - This trouble code will be sent when the 2 wire smoke detector zone has a trouble (open) condition.

31

COMMUNICATOR LINKS MODULE

• 2 Wire TBL Rest.

- This trouble restoral code will be sent when the 2 wire smoke detector zone trouble has restored.

• Waterflow TBL - This trouble code will be sent when the Waterflow detector zone has a trouble

(WFA or WFB loops are open) condition.

• Waterflw TBL Rest - This trouble restoral code will be sent when the Waterflow detector zone trouble has restored.

• Ground Fault - This trouble code will be sent when the earth ground connection detects a ground fault. Note: The Ground terminal must not be connect to the COMBUS ground,

Connecting earth ground to the Combus ground will interfere with system performance an generate a Ground Fault Trouble.

• Ground FLT Rest.

- This trouble code will be sent when the earth ground fault connection is restored.

Police Code Alarm is an alarm notification feature such that when a zone on an armed partition goes into alarm and the zone transmits a zone alarm (or tamper alarm) reporting code a timer

(Police Code Time - see System Times) will being. If during this time (60 minutes by default) a second zone goes into alarm, this zone will transmit its alarm reporting code followed by the partition(s) Police Code Alarm Reporting code (there is a Police Code Alarm reporting code for each partition). A second police code will only be sent once the police code restore has been transmitted for that partition (see Police Code Restoral). Police Code Alarm will only function for burglary zones and only while the partition is armed. This includes 24 hour Burg zones (24 Bell,

Bell/Buzz, and Buzzer, latching 24 Hour). The only zone that will activate the police code are the following; Standard Delay; Auxiliary Delay; instant; interior; Interior Home Away; Delay Home

Away; 24 Hr Bell; 24 Hr Bell/Buzz; 24 Hr Buzzer; and the Latching 24 hr.

The Police Code Restoral will be transmitted when the partition is disarmed or when using

Restorals Follow Bell Time-Out (BTO) when the bell times out.. A second police code will only be sent once the Police Code Restore has been transmitted for that partition.

Links Module

These section options are relevant to the Links operation.

Note: Dial Tone Search must be included in the land phone number. See ‘Main Item’ for programming details.

Phone Number 1. If the Links module is enabled on the PC4020 this number will be used to back up the land line first number should the telephone line fail.

Phone Number 2. If the Links module is enabled on the PC4020 this number will be used to back up the land line second number should the telephone line fail.

Phone Number 3. If the Links module is enabled on the PC4020 this number will be used to back up the land line third number should the telephone line fail.

This number is used if downloading is to be done or backed up with the Links 1000 unit.

Enter the telephone number for computer if User Call Up, Periodic DLS or DLS Callback is enabled. See “PGM TEL NUMBER” for entering a telephone number and options when programming the phone number.

Programming Telephone Numbers

Enter the telephone number the way you would on a telephone. the total number of digits including the dial tone search and pauses must not exceed 31. Press the [✱] key to enter the telephone entry options menu. A “D” for dial tone search is already programmed as the first digit.

Note: There must be a dial tone search programmed into the land line phone number for the links unit to operate.

[0] Save [1] Dial tone [2] Pause 2 Seconds [3] Pause 4 Seconds

[4] DTMF [✱] [5] DTMF [#] [6] Previous Menu

[0] Save can be selected for the telephone number to be stored into the panel’s memory, or simply press [#] when finished entering the number.

32

COMMUNICATOR LINKS MODULE

[1] Dial tone will add a 2 second search to the telephone number, which will be represented by a letter “D” on the display. When the panel does a dial tone search, it looks for dial tone before dialing the programmed phone number.

[2] Pause 2 Seconds will add a 2 second pause to the dialing sequence, which will be represented by the letter “E” on the display.

[3] Pause 4 Seconds will add a 4 second pause to the dialing sequence, which will be represented by the letter ‘A‘ on the display.

[4] DTMF [ ✱ ] will input an asterisk, represented by a ‘B‘ on the display. The dialer will output the same frequencies as a touch tone phone would if the [✱] key were pressed. (Frequency required to disable call waiting.)

[5] DTMF [#] will add a ‘#’ represented by a ‘C’ on the display. The dialer will output the same frequencies as a touch tone phone would if the [#] key were pressed.

This section contains all options related to the use of the Links module.

Links Module?

YES = Links module enabled. This selection must be enabled in order for the Links unit to operate.

NO = Links module disabled.

Note: Once the Links module is selected the Main PGM OUT automatically changes to Links

Operation and cannot be reprogrammed until the Links module is deactivated.

Links Test Transmission?

YES = A test transmission is sent by the panel for the Links unit. (See ‘Tx Cycle Days’ and ‘Tx

Cycle Time’.)

NO = No test transmission is sent by the panel for the Links unit.

Note: The Links Test Transmission Code can be programmed under system maintenance of the reporting code section.

Zone 1 Links Supervisory?

YES = Zone 1 Links Supervisory enabled. This zone is used to indicate the trouble conditions of the Links unit. The troubles are: Loss of Cellular Communications, AC, DC and Tamper.

Notes: Cellular trouble reporting codes are programmed as Zone Trouble and Restoral. For clear identification of the Cellular Trouble, program a zone label that will identify the zone as Links zone.

If Partial Closings identify alarms are used the Alarm Reporting Code must be programmed for the feature to function properly.

End of Line resistors must be used for the Links Supervisory zone (see System Toggle

Options). Do NOT use the Double EOL resistor on the Links Supervisory zone.

NO = Zone 1 Links Supervisory disabled

Note: When this option is enabled the PC4020 will automatically reprogram the zone type and options to be Links Supervisory for zone 1. The zone type cannot be changed until this option is disabled.

Zone 2 Links Answer?

YES = Zone 2 Links Answer enabled. This zone is used when downloading is to be performed through the Links unit.

Note: End of Line resistors must not be used on the Links Answer zones.

NO = Zone 2 Links Answer disabled.

Note: When this option is enabled the PC4020 will automatically reprogram the zone type and options to be Links Answer for zone 2. The zone type cannot be changed until this option is disabled.

Enter the number of days between test code communications. Valid entries are from 001 to 255. The default setting is 030.

Note: Set Cycle Days must be set to 001 on UL listed systems.

Enter the time of day the test code will be communicated. Times are entered using military format

HH:MM. The default setting is 0000.

33

SW AUX OUTPUT

SWITCHED AUXILIARY

OUTPUT

The switched auxiliary output terminal on the main panel is a 12 volt power supply activated and deactivated by any one of 35 options. When the switched auxiliary is activated, it outputs 12 volts

(if measured, will read 13.8 volts). The switched auxiliary output, for some options can also be programmed to activate for only selected partitions.

For example:

If the SW AUX output has been programmed for Sensor Reset and enabled on partition 1 and partition 2.

Pressing [✱][4] on any keypad assigned to partition 1 or partition 2 will deactivate the output for the amount time programmed in “PGM PULSE TIME”.

Pressing [✱][4] on a keypad assigned to partitions 3 to 8 will not deactivate the output.

Note: Refer to the PGM Outputs List for available options.

34

MAIN BELL OUTPUT

MAIN BELL

OUTPUT

The bell output on the main control board can be programmed to activate for any one of the 35

PGM output options on any number of partitions. The BELL terminal is normally 13.8 V

DC

and will switch to ground potential when activated. The BELL terminal will be at ground potential and switch to 13.8 V

DC

if any “INV” option is selected. If the bell output is not being used, a 1000 ohm resistor (brown, black, red, gold) must be connected across the terminals as the output is supervised.

Note: Refer to the PGM Outputs List for the available options.

35

PGM OUTPUTS

PGM

OUTPUTS

Main PGM Output

The PGM output can be programmed to activate for any one of the 35 options listed in the PGM outputs list. Normally the output will be open collector (not active) and will switch to ground potential (active). The output will switch from ground potential (active) to open collector (not active) if any “INV” options are selected.

Notes: Refer to the PGM Outputs List for the available options.

If the Links Module is enabled the Main PGM Output cannot be programmed. The message

‘LINKS Module is Active’ will appear if the section is entered.

PC4204 Options

Each relay of any 4204 relay module can be programmed to activate for any one of the 35 options listed in the PGM outputs list. Normally each relay will be de-energized and energized when active. The relay will normally be energized and then de-energized if any “INV” option is selected. Output 1 will always be active if left at default of (19) COMBUS power. It will always be active unless there is no incoming COMBUS power.

PC4216 Options

A maximum of nine 4216 output modules can be connected to the system.

First select the PC4216 to be programmed, then select the option it is going to be programmed for. The PC4216 can be an alarm annunciator, a zone follower or one of nine custom PGM arrays.

(01) (09)

The custom group allows each of the 16 outputs to be individually programmed with one of the 35 options listed in the PGM outputs list. Each output is programmed in the “4216 CUSTOM” section.

The 8 selections of “ALARMS XX-XX” are for programming the PC4216 to annunciate alarms.

The 16 outputs will activate for each of the corresponding selected zones. The output will remain active, even when the partition is disarmed, for continuously showing the zones which have gone into alarm. The outputs will deactivate the next time the partition is armed.

For example, a PC4216 is programmed for Alarms 49-64. If zone 53 goes into alarm, the output will activate and remain active even when the bells are silenced and the partition is disarmed.

The outputs will reset when the partition is armed again.

More than one PC4216 can be programmed to annunciate the same zones.

The 8 selections of “FOLLOW XX-XX” are for programming the PC4216 to annunciate open zones.

The 16 outputs will activate for each of the corresponding selected zones. The output will activate when the zone is open, and deactivate when the zone is restored.

More than one PC4216 can be used to annunciate the same group of 16 zones. For example,

PC4216 #1 is programmed as Follow 33-48 and #5 is programmed as Follow 33-48. If zone 34 is opened, output 2 on both 4216s will activate.

See “Follows + Alarms” for making outputs act as a zone follower and alarm annunciator.

36

PGM OUTPUTS

PC4216 Custom

(01) (09)

This section is for programming each of the 9 custom groups for different options. Each group can be programmed with 16 outputs from the 28 listed options. The PC4216 modules can then be assigned to one of these groups.

Escort4580 Automation Items

(01) (32)

This programming section allows the panel to have control over the Escort4580s (Voice

Prompting Module) automation outputs. Each of the 32 Automation Output Modules may be programmed to follow one of the 35 Programmable Outputs that are available to the panel (See

PGM Output List for a listing and description of each of the PGM Output options).

The Automation Output Control Module (Power House PL513) use the existing AC power lines of the building to transfer data to the Automation Output Modules controlling when an output will activate or deactivate. The Output Modules are then connected to devices such as lamps. Refer to the Escort4580 manual for programming Item Options and Output Conditions.

PGM Pulse Times

This section will allow you to select the amount of time the PGM output will remain active after being triggered.

The main bell, switched auxiliary or any of the PGM outputs programmed for “Utility Output”,

“Sensor Reset” and “Duress”, can be active for 000 to 255 seconds. The default setting is 005.

Any output programmed for “Kissoff Output” can be active for 000 to 255 seconds. The default setting is 003.

Any output programmed for “Ground Start” can be active for 000 to 255 seconds. The default setting is 002.

Note: The panel will wait until the end of the Ground Start before dialing.

Any output programmed for “Chime Pulse” can be active for 000 to 255 seconds. The default setting is 002.

The Duress Pulse time is the programmable amount of time from 000 - 255 seconds that the

Duress Pulse Programmable output will activate for when a duress code is entered. The default value is 005 Seconds.

37

PGM OUTPUTS

PGM

OUTPUTS LIST

The output will activate when any fire or zone alarm occurs on any of the selected partitions.

The output will deactivate when any fire or zone alarm occurs on any of the selected partitions.

The output will activate when any zone alarm occurs on any of the selected partitions.

The output will deactivate when any zone alarm occurs on any of the selected partitions.

The output will activate when any fire alarm occurs on any of the selected partitions.

The output will deactivate when any fire alarm occurs on any of the selected partitions.

The output will activate when [✱][7] is entered on any keypad on any of the selected partitions.

Note: This output will follow the “Utility/ Sensor” PGM pulse time.

The output will deactivate when [✱][4] is entered on any keypad on any of the selected partitions.

Note: This output will follow the “Utility/ Sensor” PGM pulse time.

The output will activate when any of the selected partitions are armed.

The output will activate when any alarm occurs on any of the selected partitions. The output will stay activated until the partition that caused the alarm is disarmed.

The output will activate when a trouble condition is present on any of the selected partitions.

If a system trouble occurs (i.e. loss of time, TLM) all trouble outputs will activate.

The output will activate during exit and entry delay on any of the selected partitions.

The output will activate when door chime is activated on any of the selected partitions, and deactivate when the chime pulse timer expires. (See “CHIME PULSE” under “PGM PULSE

TIMES”.)

Door chime activates when a zone is opened and activates again when a zone is closed. For

Door Chime to activate, the user must enable the door chime (see “DOOR CHIME” under [✱][6]

User Functions in the System Manual) and the installer will enable door chime for the individual zones (see “CHIME FUNCTION” under “ZONE OPTIONS”).

The output will activate when a telephone line trouble is present.

38

PGM OUTPUTS

The output will activate when a Telephone Line Trouble is present and an alarm occurs on any of the selected partitions.

The output will activate when a Failure to Communicate Trouble is present. The output will stay activated until the trouble is cleared by the user or a successful communication is sent to the central station.

The output will activate while the panel is attempting to communicate with the central station.

The output will activate for a programmable number of seconds before the panel attempts to communicate with the central station. See ‘PGM Pulse Times’.

Note: This output will follow the “Ground Pulse” PGM pulse time.

The output will activate for a programmable number of seconds after a successful communication to the central station. See ‘PGM Pulse Times’.

Note: This output will follow the “Kissoff Pulse” PGM pulse time.

This output will remain active at all times unless a system reset is ordered by the main panel.

The output will activate when all the zones in the partition are closed, and the partition is disarmed. If a zone opens or the partition is armed, the output will deactivate.

This output will annunciate when a selected zone has gone into alarm.

Any one of the 128 zones can be selected. If the zone is armed and goes into alarm, the output will activate and remain active, even when the partition the zone belongs to has been disarmed.

The output will remain active until the partition is armed again.

This output will follow a selected zone. Any one of the possible 128 zones can be selected. If the zone is opened, the output will activate. When the zone is closed the output will deactivate.

See ‘Follows + Alarms’ for enabling the output to be a zone follower and zone alarm annunciator.

This output will be turned on when a duress type code is used to perform any function. It will follow the utility output timer.

Note: This output will follow the Utility/ Sensor Reset PGM pulse time.

This output will activate when a programmed partition(s) keypad buzzer activates for Entry

Delays, Auto Arm Pre-alert, 24 Hour Buzzer and Door Strike.

This option can be remotely activated with DLS-1 (version 5.3 or later), and remain active until deactivated by the DLS-1 package.

This option will follow the exit delay timer of the partition(s) it is assigned to.

This option will follow the entry delay timer of the partition(s) it is assigned to.

This output type may be programmed to follow any of 99 Date Schedule (See Event Scheduling)

The schedule Number (01-99) which the output is programmed to follow may be activated at any time (Start Time) and remain on uhtil an End Time occurs for the schedule. Pulse Timer The on time duration of the Date Schedule output (Pulse Timer) may be programmed in seconds. Once the schedule number has bee selected the panel will prompt for a 2 digit entry between 00 and

59s. If a number between 01 and 59 is entered the output will remain on for that number of seconds. If 00 is enter in this section the output will follow the Date Schedule Interval timer for both Start Time and End Time. See Event Scheduling for programming detail of the Date

Schedules and Intervals.

39

PGM OUTPUTS

This output will activate when any zone tamper alarm occurs for the selected partition(s) and remain active until the partition is disarmed (alarm silenced) or Bell Time-out occurs.

This output will activate when any zone fault alarm occurs for the selected partition(s) and remain active until the partition is disarmed (alarm silenced) or Bell Time-out occurs.

Zone Tamper Follow, this output will enunciate when a zone goes into tamper alarm. Any one of the 128 zones can be selected. If the zone is tampered, the output will activate, when the zone is restored the output will deactivate. When “Follows + Alarms” is enabled then the output will remain active until the partition that the zone belongs to is armed.

Zone Fault Follow, this output will enunciate when a zone goes into Fault alarm. Any one of the

128 zones can be selected. If the zone is faulted, the output will activate, when the zone is restored the output will deactivate. When “Follows + Alarms” is enabled then the output will remain active until the partition that the zone belongs to is armed.

This output will activate when the selected partition(s) are At-Home armed ([✱][9]), or when the partition is armed with interior zones bypassed.

This output will activate when the selected partition is armed and interior zones are active.

40

PC4400

OPTIONS

PC4400 OPTIONS

This section will allow you to select the baud rate and handshake requirements for a PC4400 module if an on-site printer is being used.

The Baud Rate is the communications speed of the PC4400 module. The PC4400 can communicate at 300, 600, 1200, 2400 or 4800 baud. If the printer is experiencing problems with missing characters, try lowering the baud rate.

Note: 4800 baud is only available on PC4400 software version 2.0 and above.

This section is used to program the type of handshake signal used with the printer.

This selection is for printers that do not use handshakes.

YES = No handshake (XON/XOFF).

NO = A handshake signal is sent from the printer (DTR Protocol).

This section will only be available if the PC4400 module is enrolled as a DVAC module.

This section is used to program options for the DVAC communicator.

Option 01 - ID Code is the ID code the PC4400 module will use when communicating DVACS.

Valid ID codes range from 01 to EF. The default ID code is FF, with this setting the PC4400 will respond to ID code 01.

Option 02 - All Call Select determines how the PC4400 module will respond to all calls from the central station. Valid entries are from 00 to 04.

00 = No response on all calls.

01 = Respond to all call #1 only.

02 = Respond to all call #2 only.

03 = Respond to both all calls.

04 = Respond to all call #1 if ID code is odd or on all call #2 if ID code is even.

The default all call select option is FF, with this setting the PC4400 will follow the all call select option 04.

This section is used to program the function byte and reporting code for events that are transmitted over DVAC. The function byte is a hex entry and the reporting code is a decimal entry. After entering this section the installer will be prompt to enter a reporting code number.

Valid entries are from 0000 to 0346.

Special FB values

- FF = Transmit the default FB (function byte)

Special RC values

- 000 = Disable transmission

- 254 = Transmit a zero

- 255 = Transmit the default RC (reporting code)

Note: When programming a section, if the panel loses communications with the PC4400 module, the message “DVAC module not present” will be displayed. If this occurs check your wiring, then program the section again.

Rep # Title

000 - 07F Zone Alarms/Restore

080 - 0FF Zone Troubles/Restore

FB

*

*

RC Printed Mess

001 - 128 (See Zone Events Section)

001 - 128 (See Zone Events Section)

100 - 17F Zone Faults/Restore * 001 - 128 (See Zone Events Section)

180 - 1C9 Module (1-74) Tamper/Restoral 17/97 131 - 204 Tamper Zn#

1CA

1CB

1CC

Fire Key

Aux. Key

Panic Key

00

04

02

129

129

129

Fire Zn#129

Medical Zn# 129

Panic Zn#129

1CD Duress Code

1CE - 24D Open/Close by users

24E

24F

250

Quick Arm

Partial Close

Auto Arm Abort

251 Automatic Arming

03

76/F6 001 - 128 Open/Close User#

F6

7E

7E

7E

129

130

004

011

001

Holdup Zn#129

Close User#130

PartClos

Late to Close

Automat Closing

41

Rep #

252

253

Title

Keypad Lockout

Open/Close 2 nd Master

254 - 256 For Future Use

257 Opening after Alarm

258 Auto Disarm

259 - 260 Partition Open/Close

261 For Future Use

FB

7E

RC

029

76/F6 131

Printed Mess

User cd Tamper

Close User#131

00

7E

-

017

Not Transmitted

Disarm from alm

7E 002 Automatic Open

77/F7 001 - 008 Open/Close Group#

00 Not Transmitted

262

263

264

265

System Battery Trouble / Restoral 3D/BD 001

System AC Trouble / Restoral 3A/BA 001

System Bell Trouble / Restoral

System Aux. Supply

Trouble / Restoral

32/B2 135

3C/BC 001

SysLBat

AC Cut

System trb

PwSuply

266 COMBUS Trouble / Restoral 32/B2 131 System trb

267 - 268 TLM Line 1 & 2 Trouble / Restoral 3E/BE 001 - 002 Line

269

26A

26B

FTC Restoral

System Periodic Test

Event Buffer %75 Full

00

00

32

-

-

132

Not Transmitted

Not Transmitted

System trb

26C

26D

26E

26F

270

System Test

LINKS Periodic Test

Periodic UL Test

DLS Lead In

DLS Lead Out

7E

00

7A

7E

7E

-

055

002

047

049

Manual Test

Not Transmitted

Test

Remote P. Begin

Remote P. Success

271

272

Installer Lead In

Installer Lead Out

273 Automation Fault / Restoral

274 - 277 For Future Use

7E

7E

32/B3

00 -

039

043

133

Local Prg Begin

Local Prg Ended

System Trb

Not Transmitted

278 - 2A7 PC4204 Battery Trouble / Restoral 3D/BD 011 - 026 SysLBat

3A/BA 011 - 026 AC Cut

2A8

2A9

PC4204 AC Trouble / Restoral

PC4204 Aux. Supply Trouble /

Restoral

For Future Use

Fire Alarm 2 WR Smoke

3C/BC 011 - 026

00

00/80

-

130

PwSuply

Not Transmitted

Fire

2AA

2AB

2AC

2AD

2AE - 2ED Wireless Zone

Low Battery Alarm

2EE - 32D Wireless Zone Supervisory

32E - 335 Partition Police (1 - 8)

336-337 For Future Use

338 Line Fault

339

33A

33B

33C-346

Water Flow Alarm

2 WR Smoke Trouble

Water Flow Trouble

Ground Fault

Module Fault

Shut Down by C.S

Bypassed Zone **

For Future Use

01/81 130

20/A0 130

21/A1 130

32/B2 130

Sprnklr

Fire Trb

Sprnklr Trb

System Trb

3B/BB 151 - 214 WirLBat

18/98 151 - 214 Supervi

19

00 -

001 - 008

3E/BE 004

Burglary Verified

Not Transmitted

Line

32/B2 137

32/B2 138

*

00 -

001 - 128

System Trb

System Trb

(See Zone Events Section)

Not Transmitted

** To disable this transmission, program the function byte as 00 and the reporting code as

000. Programming any other value will result in the default function byte and reporting code being transmitted.

42

If the reporting code is left as default FF, the RC (reporting code) will be the same as the zone number and the FB (function byte) for the zone events will be chosen form the corresponding zone type. A zone has 7 associated events that will modify the printer MSG:

PC4020 Event

Zone Alarm

Zone Restore

Partial Closing+ Zone Alarm

Zone Trouble/Tamper

Zone Trouble/Tamper Restore

Zone Fault

Zone Fault Restore

DVAC Printer MSG

Alm

Rst

Byp

Trb

T_R

Sup

S_R

The following is a list of the default settings for zone transmissions:

Zone Type

Standard Delay

Aux. Delay

Instant

Interior

Interior H.A

Delay H.A

24 hr Bell

24 hr Bell/Buzzer

24 hr Buzzer

Standard Fire

Delayed Fire

Auto Ver. Fire

Momentary Arm

Maintained Arm

Latching 24 hr

FB: Alm Rst Byp Trb T_R Sup S_R Printer MSG

08

08

09

0A

0B

88

88

89

8A

8B

48

48

49

4A

4B

28

28

29

2A

2B

A8

A8

A9

AA

AB

68

68

69

6A

6B

E8

E8

E9

EA

EB

Delay

Delay

Instant

Interior

InteriHA

07

11

11

11

00

00

00

XX

XX

16

87

91

91

91

80

80

80

96

47

51

51

51

40

40

40

56

27

31

31

31

20

20

20

36

A7

B1

B1

B1

A0

A0

A0

B6

67

71

71

71

60

60

60

76

E7

F1

F1

F1

E0

E0

E0

F6

DelayHA

24 hr

24 hr

24 hr

Fire

Fire

Fire

24hrLat

Forced Answer

Links Supervisory

Links Answer

Sprinkler

Hold Up

Panic

Technical

XX

18

XX

01

03

02

18

98

81

83

82

98

58

41

43

42

58

38

21

23

22

38

B8

A1

A3

A2

B8

78

61

63

62

78

F8

E1

E3

E2

F8

Supervi

Sprnklr

Hold Up

Panic

Supervi

Enter this section to restore the PC4400 programming back to the default values.

Note: When exiting installers mode, if the panel loses communications with the PC4400 module, the message “DVAC module not present” will be displayed. If this occurs check your wiring, then enter and exit installers mode again.

43

SYSTEM

LABEL

SYSTEM LABEL

This selection will allow the system label to be programmed for events that do not pertain to a partition such as AC Trouble, which is logged to the event buffer. See Label Programming in

“Event Messages” for programming instructions.

Note: The maximum length of the system label is 14 characters.

44

EVENT SCHEDULING

EVENT

SCHEDULING

Event scheduling allows for a variety of timed events to occur on specific dates and times.

Openings and Closings can be suppressed during high traffic times, outputs may be programmed to follow Date Schedules and partitions may be Auto Armed and Auto Disarmed by specific times programmed in the Date Schedule.

This group of schedules can be programmed to suppress openings or closing (each schedule is capable of suppressing either opening or closings only) for any partition on the system. There are

99 different Open/Close Suppression schedules that the panel is capable of following. Each schedule is programmed to follow one of 99 Date Schedules. Date Schedules is where the time(s) for the Open/Close Suppression schedule are programmed. If desired the schedule can be programmed to follow a Holiday Schedule this will allow the Schedule to have exceptions. Each

Schedule may be programmed to function for one or more partitions at the same time.

Programming sections of Open/Close suppression are:

• Openings Y/N - Selects to suppress openings or closings - Default N

• Date Schedule # 01 - 99 - Selects the date schedule to follow - Default 01

• Partition Mask - Selects the Partition(s) to be active on - Default All off

An example of an Open/Close Suppression Schedule:

Open/Close Suppression Schedule 05 is programmed with;

Openings - Y

Sch. # (Date Schedule Number) - 03

Partition 1 - Y Partition 5 - N

Partition 2 - Y

Partition 3 - N

Partition 6 - N

Partition 7 - N

Partition 4 - N Partition 8 - N

Date Schedule - 03 is programmed with;

Interval 1

Start Time

End Time

Sunday

Monday

Tuesday

Wednesday

Thursday

0730

0930

N

Y

Y

Y

Y

Interval 2

Start Time

End Time

Sunday

Monday

Tuesday

Wednesday Y

Thursday Y

Y

Y

1630

1830

N

Friday

Saturday

Holiday 1

Holiday 2

Holiday 3

Holiday 4

N

N

Autoarm N

Autodisarm N

Y

N

N

N

Friday

Saturday

Holiday 1

Holiday 2

Holiday 3

Holiday 4

Autoarm

Autodisarm

Y

N

N

N

N

N

N

N

Intervals 3 - 4 are left unprogrammed.

In this example Open/Close Suppression schedule 05 will suppress openings for partitions 1 and

2, following Date Schedule 03 Monday to Friday 7:30AM to 9:30AM and 4:30PM to 6:30PM. In this example Holiday Schedules and Autoarm/Disarm Schedules are not used.

Notes: In an opening suppression window if a partition is disarmed with alarms in memory the opening (or Autodisarming) and opening after alarm will be transmitted. In a opening/ closing suppression window the openings and closings will be logged to the event buffer, but no transmission will be made for the event.

Date Schedules are used by the panel to control the times that an event will occur. There are 99

Date schedule each containing 4 intervals. Date schedules are used by Open/Close Suppression

Schedules, Holiday Schedules, Autoarm/AutoDisarm Schedule and the Date Schedule Output

(See PGM OUTPUT OPTIONS).

Interval - An Interval is used by the control panel to determine the time(s) and day(s) that a schedule is to be active and if the schedule should follow a Holiday Schedule or AutoArm/

AutoDisarm schedule.

45

EVENT SCHEDULING

Each Interval contains the following programming Items:

• Start Time - Indicates the time of day that the schedule Interval will start. Valid entries are from

00:00 to 24:00. And 9999- Default is 0000.

Note: If two Intervals in a schedule are programmed for the same start time the schedule will follow the longest End Time.

• End Time - Indicates the time of day the schedule Interval will end. Valid entries are from 00:00 to 24:00. And 9999 - Default is 0000.

NOTE: The End Time must be equal to or greater than the Start Time.

• Day Toggles - Each day of the week may be selected to be active for the interval. - Default each Day is off (N).

• Holiday Group Toggles - These toggles allow the Interval to follow a Holiday Schedule(s). Each

Interval may follow any of the 4 Holiday Schedules. - Default each Holiday Group is off (N).

• Autoarm - This will enable the Interval to Autoarm any partition(s) selected by the “Arm/Disarm

Sched” - Default Autoarm is set to N.

• AutoDisarm This will enable the Interval to AutoDisarm any partition(s) selected by the “Arm/

Disarm Sched” - Default AutoDisarm is set to N.

Note: Do not program an Interval with both Autoarm and AutoDisarm enabled. For the

Autoarm AutoDisarm feature to work they must be put into separate Intervals.

Each Date Schedule may be used to control more than one schedule type at a time. One schedule could be programmed to follow an Autoarm/disarm schedule, opening/closing suppression schedule, or Date Schedule output. These items can all be programmed to follow the same schedule.

Each Interval is independent of each other, but any of the scheduled items that are programmed to follow the Schedule will follow all intervals.

To Program The On Times Under 1 Minute

When using the Date Schedule output and the on time duration is to be less than one minute the outputs “Pulse Timer” must be programmed to be between 01 and 59. If the pulse timer is programmed to be [00] the output will remain active until the End Time of the schedule occurs.

Activating Outputs For Specific Dates

In order for a Date Schedule to become active for a specific day of the year a Holiday Schedule

Group can be programmed for the desired day and then assigned to an interval on the Date schedule. Do not program a day of the week, this will allow the Date Schedule to activate at the

Start Time of the day and remain active until the End Time of the that day.

Turning A Schedule On or Off

Programming 9999 into the start time will allow the schedule to deactivate at the end time. This is useful when an X-10 Item is to be turned off at a specific time. The output will deactivate regardless of its state (on or off). Programming 9999 into the End Time will allow the schedule to activate and not have an End Time. This will allow the schedule to be active for more than one day if desired. The schedule can then be deactivated by another interval at a desired time.

Example:

An Example of Date Scheduling to control a programmable output is:

Main PGM output programmed to be a Date Schedule output following

Date Schedule - 04

Pulse Timer - 10

PC4204 - output number 2 programmed to be a Date Schedule following

Date Schedule number 04

Pulse Timer - 00

Date Schedule 04 programmed with

Interval 1

Start Time

Interval 2 Interval 3 Interval 4

0830 Start Time 1200 Start Time 1230 Start Time 1700

End Time

Sunday

0900 End Time

N Sunday

1230 End Time

N Sunday

1231 End Time

N Sunday

1800

N

Monday

Tuesday

Wednesday

Thursday

Friday

Saturday

Holiday 1

Y

Y

Y

Y

Y

N

N

Monday

Tuesday

Y

Y

Wednesday Y

Thursday Y

Friday Y

Saturday

Holiday 1

N

N

Monday

Tuesday

Y

Y

Wednesday Y

Thursday Y

Friday Y

Saturday

Holiday 1

N

N

Monday

Tuesday

N

N

Wednesday N

Thursday N

Friday N

Saturday

Holiday 1

N

N

46

EVENT SCHEDULING

Holiday 2

Holiday 3

Holiday 4

Autoarm

Autodisarm

N

N

N

N

N

Holiday 2

Holiday 3

Holiday 4

N

N

N

Autoarm N

Autodisarm N

Holiday 2

Holiday 3

Holiday 4

N

N

N

Autoarm N

Autodisarm N

Holiday 2

Holiday 3

Holiday 4

N

Y

N

Autoarm N

Autodisarm N

Holiday Group #3 - Is programmed with the following day 1225 (December 25)

In this example the Main PGM output will activate 3 times during the day, Monday to Friday at

8:30AM,12:00PM,12:30PM for ten seconds each time (this was done by programming the PGM output pulse timer to 10 instead of leaving it at 00). This output will also activate for December 25

(1225) at 5:00PM for 10 seconds regardless of what day of the week it is. PC4204 relay number 2 will activate on the same days (as well as December 25) and at the same time but will remain on until the programmed End Time occurs. This was accomplished by programming 00 into the PGM output Pulse Timer section for that output.

Holiday Schedules are used by the panel to provide exceptions to the scheduled events. Open/

Close Suppression, Date Schedules, and Arm/Disarm Scheduling are capable of following

Holiday Schedules. There a re 4 Holiday groups that can have as holidays programmed as there are days in the year. Select the Holiday group to be edited (1-4) and the display will prompt with

“Enter Date”. This is a 4 digit entry for the month and day (MM/DD). Once the date has been entered the year will be auto programmed for the selected date. If the date programmed has not occurred yet for the present year then the present year will be auto inserted into the date. If the date has already occur for the year then the next year will be auto inserted. Once a Holiday

Schedule has occurred the holiday will be erased from memory allowing for a new schedule to be placed into the programming section.

Sections to be programmed for Holiday Schedules are

Holiday Group 1-4 - default is 1

Date - There can be up to 366 (leap year) days programmed into each of the Holiday groups

An Example of Holiday Scheduling is:

Date Schedule 04 is programmed with

Interval 1 Interval 2 Interval 3 Interval 4

Start Time 0800 Start Time 1800 Start Time 2200 Start Time 2200

End Time 0801 End Time 9999 End Time 9999 End Time 9999

Sunday

Monday

Tuesday Y

Wednesday Y

Thursday

N

Y

Y

Sunday

Monday

Tuesday

N

Y

Y

Wednesday Y

Thursday Y

Sunday

Monday

Tuesday

Wednesday N

Thursday

Y

N

N

N

Sunday

Monday

Tuesday

Thursday

N

N

N

Wednesday N

N

Friday

Saturday

Holiday 1

Holiday 2

Holiday 3

Holiday 4

Autoarm

Autodisarm Y

N

N

Y

N

N

Y

N

Friday

Saturday

Holiday 1

Holiday 2

Holiday 3

Holiday 4

Autoarm

Y

N

N

Y

N

N

Y

Autodisarm N

Friday

Saturday

Holiday 1

Holiday 2

Holiday 3

Holiday 4

Autoarm

N

Y

N

N

N

N

Y

Autodisarm N

Friday

Saturday

Holiday 1

Holiday 2

Holiday 3

Holiday 4

Autoarm

N

N

N

Y

N

N

Y

Autodisarm N

Holiday Schedule 02 is programmed with the following day: 1225

Arm/Disarm Schedule 05 is programmed with the following data.

Schedule Number - 04

Partition 1 - Y

Partition 2 - Y

Partition 3 - N

Partition 5 - N

Partition 6 - N

Partition 7 - N


PC4204 # 10 output number 3 this programmed as a Date Schedule Output with the pulse timer programmed as 00.

47

EVENT SCHEDULING

In this example Partition one will Autodisarm Monday to Friday at 8:00AM and AutoArm at 6:00PM

Monday to Friday.On Saturday and Sunday the partition will autoarm at 10:00PM. Interval 4 is programmed to activate the schedule on 1225. When December 25 occurs the partition will

AutoArm at 10:00PM regardless of the day of the week.. Because interval 1 and 2 follow holiday schedule number 2 as well the programmed events will not occur on that day. PC4204 #10 output

#3 will activate whenever following the same pattern as the autoarming and auto disarming schedule does.

Note: Be sure the system Time and Date are set before programming Holiday schedules.

Arm/Disarm Scheduling is used by the panel to control when a partition will Auto Arm or Auto

Disarm. There are 50 schedules that may be used to program when the Auto Arming/Disarming will occur. Once the schedule is selected the display will show “Enter Sch.#” on the top line of the display. This is the Date Schedule that the partition(s) that are selected will follow for the Auto

Arm or Auto Disarm schedule. Next the display will prompt to select the partition(s) that are to be enabled on this schedule. Used the [<][>] keys to scroll the to the partition(s) to be selected.

Press [✱] to changed the toggle option from “N” to “Y”.

Sections to be programmed for Arm/Disarm Scheduling are:

Date Schedule 01-99 - Default 01

Partition Mask - Default all off.

An Example of Auto Arm/Disarm Scheduling is:

Arm/Disarm Schedule 25 programmed with

Date Schedule 11

Partition 1 - Y Partition 5 - N

Partition 2 - N

Partition 3 - N

Partition 6 - N

Partition 7 - N


Date Schedule 25 programmed with

Interval 1 Interval 2

Start Time

End Time

Sunday

Monday

Tuesday

Wednesday

Thursday

Friday

Saturday

Holiday 1

1830

1831

N

Y

Y

Y

Y

Y

N

N

Start Time

End Time

Sunday

Monday

Tuesday

Wednesday

Thursday

Friday

Saturday

Holiday 1

0830

0831

N

Y

Y

Y

Y

Y

N

N

Interval 3

Start Time

End Time

Sunday

Monday

Tuesday

Wednesday

Thursday

Friday

Saturday

Holiday 1

1030

1031

Y

N

N

N

N

N

Y

N

Holiday 2

Holiday 3

Holiday 4

Autoarm

Autodisarm

N

N

N

Y

N

Holiday 2

Holiday 3

Holiday 4

Autoarm

Autodisarm

N

N

N

N

Y

Holiday 2

Holiday 3

Holiday 4

Autoarm

Autodisarm

N

N

N

Y

N

In this example Partition 1 will AutoArm Monday to Friday at 6:30PM and Auto Disarm Monday to

Friday at 8:30AM. On Saturday and Sunday the partition will autoarm at 10:30PM.

Note: For Auto Arming and Auto Disarming schedule to function on a partition the following toggle options must be enabled:

• A Date Schedule must be programmed with Autoarm or Autodisarm enabled (Do Not Program

A Single Interval With Autoarm And Autodisarm Enabled) .

• Partition toggle option “AutoArm /Dis.” must be enabled.

• User Function toggle option “Auto Arm” must be enabled for “Schedule Arm” to function. The

Auto Arm toggle option has no effect on the “Sched. Disarm” toggle option. To disable a scheduled disarm only “Sched. Disarm” has to be disabled.

• User Function Toggle option “Schedule Arm” or “Sched. Disarm” must be enabled.

48

AD D / EDIT PAR

ADD / EDIT

PARTITIONS

Add/Edit Partition. Default settings has only the first partition enabled. To enable more partitions, select the Add/Edit partition section, then select the partition. The partition is now enabled.

(1) (8)

The PC4020 can be divided into 8 partitions. This section selects which of the 8 partitions the installer is programming.

Each partition has its own 4 digit customer account number that will be transmitted to the monitoring station when a reporting code is sent. The monitoring station can then identify the customer. Where a zero digit is required, use Hex A to transmit ten pulses. The receiver at the monitoring station interprets ten pulses as a zero. If a three digit code is required, enter [0] as the last digit. [0] represents a null digit, no pulses will be transmitted.

Partition Toggles

Enabling or disabling options for individual partitions.

[F] Key Enabled?

YES = The [F]ire key is enabled.

NO = The [F]ire key is disabled.

(See “KEYPAD TOG OPT”.)

[A] Key Enabled?

YES = The [A]uxiliary key is enabled.

NO = The [A]uxiliary key is disabled.


[P] Key Enabled?

YES = The [P]anic key is enabled.

NO = The [P]anic key is disabled.


Display Clock?

YES = The time and date will be displayed on every keypad of the partition instead of the

“ENTER CODE TO ARM SYSTEM” message after 10 seconds of no key presses.

NO = No clock display.

Display Delay Exit Time?

YES = The exit delay time remaining will be displayed in the lower corner on all keypads on the partition during the exit delay.

NO = No exit time display.

Bypass requires an Access Code?

YES = Bypassing zones requires a valid access code ([✱][1][code]), either a System Master code or an access code assigned to that partition.

NO = No access code required to bypass zones. ([✱][1])

Auto Arming/Auto Disarming?

YES = Auto Arm control enabled.

NO = Auto Arm control disabled. If disabled, the user will not be able to enter the Auto Arm control menu in the [✱][6] user functions.

Note: The panel will not auto arm or auto disarm, if there is a loss of time trouble present on the system.

Auto Arm Abort requires an Access Code?

YES = An access code must be entered during the auto-arm pre-alert to abort the auto arm.

NO = Pressing any key during the pre-alert will abort the auto arm.

Notes: If the Auto Arm Abort Code is programmed it will be sent for one of these conditions.

Auto Arm Abort requires access code must be enabled for CTT arming to function properly.

49

AD D / EDIT PAR WHICH PARTITION

Auto Arm Squawk?

YES = The bell output will activate for one second every ten seconds during the auto-arm pre-alert.

NO = The bell output will not activate during auto-arm pre-alert.

Note: Auto Arm Squawk must be enabled on UL listed systems.

Bell Squawk On?

YES = The bell output will activate once briefly when the partition is armed, twice when disarmed. Only the bell terminals on the PC4020 main board, when programmed for

“Fire and Burg”, “Inv Fire/Burg”, “Burg Only” or “Inv Burg Only”, will squawk.

NO = Bell Squawk disabled.

Note: Bell Squawk must be enabled on UL listed systems.

Keypad Lockout?

YES = Keypad Lockout enabled.

NO = Keypad Lockout disabled.

(See “TOTAL BAD CODES”, “LOCKOUT DURATION” and “LOCKOUT REP CODE”.)

Utility Output requires an Access Code?

YES = Utility output requires a valid access code - [✱] [7] [access code].

NO = No access code required - [✱] [7].

(See “UTILITY OUTPUT”.)

Sensor Reset requires an Access Code?

YES = Sensor Reset Requires Code - [✱] [4] [access code].

NO = Sensor Reset does not require a code - [✱] [4].

(See “SENSOR RESET”.)

User functions any code?

YES = User functions require [✱] [6] [any code].

NO = User functions require [✱] [6] [Master Code]. This means a Grand Master, System Master or a Supervisory Code assigned to that partition.

Audible Exit Urgency?

YES = 1 beep every second on keypad. During the last 10 seconds, keypad will beep 3 times per second.

NO = Keypad is silent during exit delay.

Bell Squawk Exit Delay?

YES = Bell squawks once every second on exit delay. During the last 10 seconds, bell will squawk twice every second.

NO = Silent bell on exit delay.

Audible Exit Fault?

YES = A standard delay will sound the siren for entry delay if zone is still violated at the end of exit delay.

NO = Siren will not be on for entry delay if zone is still violated at the end of exit delay.

Urgency during the Exit Delay?

YES = During the last 10 seconds of entry delay, keypad beeps 3 times per second.

NO = Keypad entry is steady.

Bell Squawk Entry Delay?

YES = Bell squawks once every second on entry delay. During the last 10 seconds, bell will squawk twice every second.

NO = Bell is silent during entry delay.

50

AD D / EDIT PAR ZONE ASSIGNMENT

Exit Delay Termination?

YES = During the exit delay if a Standard Delay zone is tripped and restored then the exit delay will be reduced to 5 seconds. Audible Exit Delay and Exit Delay Squawk will be terminated upon the restoral of the standard delay zone. At the end of the shortened exit delay all functions will return to normal, and the partition will be armed.

NO = The exit delay will count down for the full programmed duration.

Global Alarm Annunciation?

Yes = This system toggle will allow the partition keypads to sound the buzzer (5 seconds on and

5 seconds off) and display the message "Partition X In Alarm" (where Partition X is the programmed label of the partition) when any other partition is in alarm. The buzzer will be silenced and the message cleared form the keypad display when the alarm has been silenced or any key is pressed on the keypad. By default this option is set to No.

No = No notification of the alarm will be given on the Global Keypad.

Note: It is recommended that global alarm annunciation is enabled on multi partition systems.

Full System Status Enunciator

Yes = Enables the Partition Status Enunciator on partition keypads. Partition keypads will display the status of all active partitions on the system.

No = Partition keypads will not display the Partition Status Enunciator.

Note: This option overrides the clock display option.

Partition Times

The following programming sections are for programming various times separately for each partition.

The keypads will give a tone to signal an entry delay when a Standard Delay zone or a Delay

Home Away zone is activated. This gives the user time to disarm the system when they enter through a door. The entry delay time is programmable from 000 to 255 seconds (see Standard

Delay zones and Delay Home Away Zone Types). The default setting is 030.

Note: The allowable Entry Delay for UL listed systems is 60 seconds.

When a system is armed, the zones will not become active until the exit delay has expired, this gives the user time to exit the building without tripping alarms. The exit delay time is programmable from 000 to 255 seconds. This time can be displayed on the keypad (see “Disp

Exit Time”). The default setting is 120.

Note: The allowable Exit Delay for UL listed systems is 60 seconds.

This entry time is for auxiliary delay zones, for doorways that may need a longer entry delay than standard delay zones. This time is programmable from 000 to 255 seconds (See Auxiliary Delay

Zone Types). The default setting is 045.

This exit time is for auxiliary delay zones, for doorways that may need a longer exit delay than standard delay zones. This time is programmable from 000 to 255 seconds (See Auxiliary Delay

Zone Types.). The default setting is 120.

Note: The auxiliary entry/exit delays should not be shorter than the standard entry/exit delay times.

This is the amount of time the panel will wait before CTT arming. Valid entries are from 000 to 255.

The timer value is the programmed value multiplied by 5 minutes. Programming a value of 000 will disable this feature.

- The CTT timer will begin when the partition is disarmed.

- 15 minutes before the CTT arming takes place, the CTT arming prealert will begin. The keypads will beep once every 4 seconds and the keypads will display the message

- At 5 minutes before the CTT arming takes place the keypads will beep twice every four seconds (urgency)

- At 1 minute before the CTT arming the panel will begin the normal autoarm procedure.

If a valid access code with the disarmed bit enabled is entered during the CTT arming prealert, a user log will be logged to the event buffer and the CTT timer will be set to 1 hour. If the access code is entered during the autoarm prealert, the panel will log and transmit an autoarm abort reporting code.

Notes: For the CTT arming feature to function properly, the autoarm abort requires access code option must be enabled.

During the CTT arming prealert, the Escort4580 will prompt the user with autoarm active.

51

AD D / EDIT PAR ZONE ASSIGNMENT ZONE TYPE

Zone Assignment

This section is for assigning type and options for each individual zone.

Zone Type

By default, the first 16 zones on the main panel are assigned to partition 1. If zone expanders have been enrolled, the zones must be added to a partition for the PC4020 to be able to monitor them.

Upon entering this section, the zones which have not been assigned to the selected partition will be displayed. Use [<][>] keys to scroll through the zones, and the [✱] key to select which zone to add to the selected partition.

Global Zones : If zone(s) are added to more than one partition (global zones), the zone(s) will follow the following rules:

• A global zone is not armed until all partitions which the zone belongs to are armed.

• A global delay zone will follow the longest delay of all partitions which it is assigned to. For example, if Partition 1 has an entry delay of 30 seconds and Partition 2 has an entry delay of 45 seconds, the global delay zone will not be in alarm until Partition 2 finishes with its entry delay.

• If one or more partitions that a global interior home-away zone(s) belongs to is [✱] [9] armed

(At-home Armed), and the other partitions which the zone(s) belongs to are not, the zone will not be active until the interior zones are activated ([✱] [1]).

• If a global zone is manually bypassed and any partition that the zone belongs to is disarmed, the bypass will be removed from the zone.

This section is for editing zones which have already been assigned to a partition. Upon entering this section, the zones which have been assigned to the selected partition will be displayed. Use the [<] [>] keys to toggle through the zones, and the [✱] key to select the zone to edit.

Deleting zones from the partition. When selecting which zone to delete, the keypad will only display zones which are assigned to the partition.

Each zone can have its own unique label to help identify it on the LCD keypad. Upon first entering this section, the LCD will display the current zone label. See ‘Label Programming’ in

Event Messages.

Note: The maximum length of the zone label is 14 characters.

Select the zone type for the selected zone. Upon entering this section, the current programmed zone type is displayed.

For example, zone 001 will display ‘Standard Delay’ the first time it is programmed. The default setting is for Standard Delay. All other zones (002 through 128) are instant zones by default.

Note: Every time a new zone type is selected, the zone options for the selected zone will be set to a default setting. The default setting will be different depending on the zone type selected.

Zone Options Zone Type Default Settings

Bell Audible

Bell Pulsed

Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N N N N N N N

N N N N N N N N N Y Y Y N N N N N N Y N N N

Bypass Enabled Y Y Y Y Y Y Y Y Y N N N N N N Y Y Y N N N N

Chime Function Y Y Y N N N N N N N N N N N N N N N N N N N

Force Arm N Y N N N N N N N N N N N N N Y Y Y N N N N

Swgr Shut Down Y Y Y Y Y Y N N N N N N N N N N N N N N N N

Tx Delay ?

N N N N N N N N N N N N N N N N N N N N N N

For example, if zone 009 is programmed for zone type “24 HR BUZZER”, the zone options “BELL

AUDIBLE” and “BYPASS ENABLED” will be enabled, and all other options will be disabled for zone 009.

52

AD D / EDIT PAR ZONE ASSIGNMENT AD D / EDIT

Standard delay zones have an entry and exit delay. The exit delay starts as soon as the panel is armed. The loop may be opened and closed during the delay time without causing an alarm. After the exit delay time has expired, opening the loop will start the entry delay timer. During the entry delay time, the keypad will sound steadily to advise the user that the system should be disarmed.

If the panel is disarmed before the entry time expires, no alarm will be generated.

The auxiliary delay zone operates the same way as the standard delay zone. However different entry / exit times may be programmed. This is useful when a system has two delay zones, each requiring a different entry / exit time.

The zone opened will activate instantly after the partition is armed and the exit delay has expired.

The zone will follow the entry time of a delay zone. If no delay zone has been tripped the zone will activate instantly.

The zone will operate the same as the interior option with one exception: the zone will automatically bypass if no delay zone on the partition is tripped during exit delay.

The zone will operate the same as the Interior Home / Away option with one exception: the zone has entry delay.

A 24 Hour Bell zone is active at all times, and will create an alarm whether the partition is armed or disarmed. This zone will not go into alarm if the zone is bypassed.

This zone operates like the 24 hour bell option except the bell output terminals are activated when the partition is armed, and the keypad buzzer will be activated when the partition is disarmed.

Operates the same as the 24 hour bell, except this zone will only activate the keypad buzzer. The buzzer will remain active until Bell Time out.

A fire zone is a 24 Hour zone that is specially used for fire detection circuits. On alarm, the bell output will pulse the bells to indicate that the fire loop has been activated. The communicator will immediately transmit the alarm to the monitoring station if a reporting code is programmed.

If the fire zone is open circuit, the keypads will beep every 10 seconds and a fire zone trouble will be displayed on the LCD. If programmed the communicator will transmit the trouble to the monitoring station. The keypad beeping may be silenced by pressing any key.

Note: Do NOT program fire zones as silent and do NOT use the Double EOL resistors with this zone type.

This fire zone works the same way as a 24 Hour fire zone, except the alarm memory and transmission by the communicator is delayed by 30 seconds. If the alarm is acknowledged by pressing any key before the 30 second delay expires, the bells will silence and the transmission will be aborted.

If after the alarm has been acknowledged, and the smoke detector has not been restored to normal, after 90 seconds the bell output will be activated again, in which the user then has another 30 second delay before the bell output latches and communicator are activated. A code would then be required to silence the bell output.


Automatically Verifying Fire Zone.

This zone works the same way as the Standard Fire Zone with the exception that it will reset the smoke detectors and wait for it to go into alarm again before sounding the bells and transmitting the alarm to the monitoring station. If the smoke detectors do not go into alarm again, it assumes there is a false alarm and no fire alarm will be initiated.

For activating an automatically verifying fire zone, the smoke detectors must be powered by the

SW AUX power supply on the main panel, or controlled by a relay on a PC4204 module.

Otherwise the PC4020 has no control over the power to the sensors.

When an automatically verifying fire zone is shorted, the PC4020 performs a “SENSOR RESET”, which removes the power from the smoke detectors for 20 seconds. All SW AUX, BELL or PGM outputs programmed for “SENSOR RESET” will be activated. The outputs will be deactivated for

20 seconds, regardless of the time programmed in the “PGM PULSE TIMES” section. After the 20 second reset pulse time, power will be restored to the sensors and all fire zone troubles will be bypassed for 10 seconds to allow the detectors to settle.

53

AD D / EDIT PAR ZONE ASSIGNMENT AD D / EDIT ZONES

If the smoke detectors initiate another alarm within 60 seconds after the power is restored, a fire alarm will immediately sound and the monitoring station will be notified.

If the smoke detector is not reset during the sensor reset, the zone will not be restored. Because the zone is not restored, a fire alarm will be initiated immediately.

See PGM OUTPUTS for programming an output as “SENSOR RESET”, “Smoke Detector Power

Supply” on the PC4204 Wiring Diagram for using the PC4204 to power up the smoke detectors, and PC4020 Wiring Diagram in the System Manual for using the SW AUX on the main panel to power up the smoke detectors.


A momentary closure of this zone will alternately arm and disarm the partition. This zone can be used as a key switch to arm and disarm the system. The zone is monitored for End of Line resistors if the “ZONES EOL” option is enabled in the system options.

Notes: This feature must not be used on UL listed systems.

This zone type must not be used as a global zone.

When the zone is closed the partition will disarm. When the zone is opened the partition will be armed. The zone is monitored for End of Line resistors if the “ZONES EOL” option is enabled in the system options.

Note: This feature must not be used on UL listed systems.

The zone will operate the same as the 24 hour bell option with one exception: the installer’s mode

([✱][8]) must be entered before the system can be armed. This will ensure the problem has been examined by the installer.

When this zone is tripped, the panel will instantly pick up the phone lines looking for a downloading computer. Do not use this zone type to monitor for alarms.

“Links Supervisory” is used with the Links cellular communications unit to monitor for Links troubles. When the Links PGM output activates, a Links trouble will be logged on the event buffer and the zone trouble transmitted. This zone type may be programmed through the Links Toggle

Option section.

Note: If Partial Closings identify alarms are used the Alarm Reporting Code must be programmed for the feature to function properly. Do NOT use the Double EOL resistors with this zone type.

It provides the Links with a forced answer for downloading purposes. This zone type may be programmed through the Links Toggle Option section.

Note: Do NOT use the Double EOL resistors with this zone type.

A Sprinkler zone is a 24 hour zone that is specifically used for sprinkler alarm circuits. On alarm, the keypad buzzer will activate and the message “Sprinkler Zone In Alarm” will be displayed until the zone has been restored. If enabled the communicator will immediately transmit the alarm to the monitoring station if a reporting code is programmed. If the Sprinkler zone is open circuit the keypads will beep every 10 seconds and a sprinkler supervisory trouble will be sent to the monitoring station. The message “Fire Trouble !! <> To View” will be displayed until the zone has been restored. Note: Do not use Double EOL with the sprinkler zone.

This zone type is a 24 hour silent zone. This output does not activate Burg. outputs or the Latched

Strobe output (See Comms Format - for a list of Identifiers sent where applicable).

This zone type is a 24 hour silent zone. This output does not activate Burg. outputs or the Latched

Strobe output (See Comms Format - for a list of Identifiers sent where applicable).

This zone type is a 24 hour silent zone. This output does not activate Burg. outputs (See Comms

Format - for a list of Identifiers sent where applicable). Typical application of the zone is for supervisory of equipment (i.e. Freezers).

54

AD D / EDIT PAR ZONE ASSIGNMENT AD D / EDIT ZONES

Zone Options

Enabling or disabling options by zone.

Bell Audible?

YES = An alarm causes the bell output to activate.

NO = Silent alarm.

Bell Pulsed?

YES = The bell output will pulse when the zone is in alarm.

NO = The bell output will be steady when the zone is in alarm.

Zone Bypass Enabled?

YES = The zone may be manually bypassed.

NO = The zone cannot be bypassed.

Door Chime Function?

YES = Every keypad on the partition will chime both when the zone is violated and when the zone is then secured. The partition must be disarmed for the chime option to function.

NO = The zone will not chime the keypads.

Zone can force arm?

YES = The partition may be armed with the zone violated. The zone will be temporarily bypassed, and when the zone is secured it will be added back into the system.

NO = The partition cannot be armed if this zone is open.

Swinger Shut Down?

YES = After a zone causes a programmed number of alarms, the zone will shut down so that no further transmissions are sent to the monitoring station. The bell can follow Swinger Shut

Down if programmed. (See “Shut Down 24 Hrs ”, “Swinger Limit” and “Bell Shut Down.)

NO = Swinger Shut Down disabled.

Note: Swinger Shut Down must be disabled on UL listed systems.

Transmission Delay?

YES = The reporting of zone alarm will be delayed for the programmed time. If the system is disarmed within this time, no alarm signal will be communicated. (See “Zone TX

Delay”.)

NO = When an alarm occurs, the reporting code is transmitted immediately.

Note: TX Delay must be disabled on UL listed systems.

Partition Label

Programming a partition name label. This label is programmed in the same manner as LCD messages or custom zone ID (see “Event Messages”).

Note: The maximum length of the partition name label is 14 characters.

55

AD D / EDIT PAR ZONE ASSIGNMENT DELET E / COPY PARTITION

DELETE / COPY

PARTITION

Disables a partition.

If a partition is deleted, it does not erase any programming assigned to it, so if the installer decides to re-enable the partition, the programming is still there.

Note: When a partition is deleted, the zones assigned to it are removed from the Zone

Assignment.

Copies a partition.

Copies the programming from one partition to another one. This includes the Customer ID Code,

Partition Toggles, Partition Times and the Partition Name Label. The zone assignment is not copied.

56

ENROL L

MODULE

HARDWARE

Enroll Module

O / P

N N N

Each time a module is added, it must be enrolled on the system.

When adding modules to the system ensure that the power is off when connecting the

COMBUS wiring.

‘Press Any Key On Desired Unit’ will be displayed on the keypad being used for programming.

After the module has been added it will display its module number. Then press any key and the display will prompt with “Select (01)” on the top line of the LCD display. The second line of the display will prompt with 9 options. Options 01 through 08 are partition assignments, and options

09 is global keypad.

Note: To change the partition to which a keypad is assigned to, the keypad must be deleted and then re-enrolled with the new partition mask selected.

‘Create Tamper On Desired Unit’ will be displayed on the keypad being used for programming after the module has been chosen to be added. Open the tamper zone to enroll the module.

After the module is enrolled the installer will be prompt with this option.

YES = PC4400 module will be used for DVAC communications.

NO = PC4400 module will be used with a serial printer.

“Create Tamper On Desired Unit” will be displayed on the keypad being used for programming after the module type has been chosen to be added. Open the tamper zone to enroll the module.

There are three types of zone expansion module capable of being used on the PC4020 control panel. The PC4108, the PC4116, and the PC4164. The PC4108/16 are 8/16 zone expansion modules comprised of wired zones capable of being programmed as any zone type the PC4020 can provide. The PC4164 is a 64 zone wirless expansion module. The PC4164 support all zone types that are provided by the PC4020 except Fire zones, the Links Supervisory and Links

Answer zone types. See RF Zone Options for details on assigning wireless zones to the module.

Note: When enrolling zone expansion modules zone above 128 will not be accessible in the programming sections.


O / P

YES = This module will activate all outputs when a lamp test is performed.

NO = This module will not activate all outputs when a lamp test is performed.


Note: The keypad being used to program with will indicate the module number after the module has been tampered. Make sure this number is recorded on the module programming work sheets.

“Looking For Fire Module...” will be displayed on the keypad being used for programming when this module type has been selected. The PC4700 Fire Module does not require a tamper to be enrolled. This module type will “auto-enroll” itself onto the system once this selection has been made. If the enroll of the module is successful then the keypad will display the message “PC4700

Fire Mod 01 Enrolled”. Only one PC4700 module may be used on the system at a time. If the module can not be found by the control panel, the message “PC4700 Fire Mod Not Present” will be displayed on the keypad. Recheck the connection between the control panel and the PC4700 referring to the module work sheet.

57

ENROL L

“Looking For 4580 Module...” will be displayed on the keypad being used for programming when this module type has been selected. The Escort4580 Voice Prompting Module does not require a tamper to be enrolled. This module type will “auto-enroll” itself onto the system once this selection has been made. If the enroll of the module is successful then the keypad will display the message “4580 Mod 01 Enrolled”. Press any key and the display will prompt with “Select (01)” on the top line of the display, and on the bottom line will be the partition name that the module is going to be assigned to. Options 01 through 08 are partition assignments and option 09 is Global

Module. The Escort4580 will behave as a keypad on the partition it is assigned to. Only one 4580 module may be used on the system at a time. If the module can not be found by the control panel, the message “4580 Mod Not Present” will be displayed on the keypad. Recheck the connection between the control panel and the Escort4580 referring to the module work sheet.

Delete Module

Confirm Module

Before removing any module from the system be sure to first delete the module from the system.

To delete a module from the system first select the module class (e.g. LCD4500). Then select the module number (e.g. Module #05) to be removed from the system, by either scrolling to the selected module an d pressing the [✱] key or entering the digits directly (LCD4500 #05) would be deleted.

Notes: If the module number is not know use CONFIRM MODULE to verify the Module number before attempting to delete the module. The PC4700 Fire Module and the

Escort4580 Voice Prompting Module will not require the module number to be entered in order to delete the module.

DVAC module must be deleted before removing from the system.

This is used to identify a module on the system in case the module number has been lost and further programming on that module is desired. Once the tamper is created the keypad display will indicate the module number.

Note: The PC4700 and Escort4580 Confirm without Keypresses or Tamper being performed.

RF Zone Options

RF Zone option refer the wireless zone modules that may be enrolled onto the system when using the PC4164. This section will only be made available when the PC4164 is enrolled. This section will describe the procedure for enrolling, deleting, placing and defaulting the PC4164 zones.

This section is used to assign a wirless zone to the PC4164. Unlike the PC4108 and the PC4116 zone must be assigned to the module and then assigned to the partition. “Enroll RF Zone” allows the PC4164 know which zones belong to the module. When this section is entered the display will read “Enroll RF Zone” on the top line of the Display and “Serial # [ ]” on the bottom line of the

LCD. Enter in the 5 digit serial number (SN:XXXXX) found on the bottom of the zone transmitter section. Once the serial number has been entered the keypad display will show the “RF Zone enrolled” on the top line to the display and “Zone XXX” on the bottom line of the display(where XXX is the actual zone number the module is assigned to on the control panel). As the zones are enrolled the serial number will fill the first available empty position. Example if zones 17 to 23 are used but zone 20 is empty the next zone that is enrolled will be placed in zone number 20 position.

NOTE: The PC4164 supports wireless door contacts and motion detectors.

This section allow the wireless zone to be deleted from the PC4164. When this section is entered the display will read “Serial# [ ]” on the top line of the display and the zone label on the bottom line of the display. Use the [<][>] keys to scroll to the zone that is to be deleted then press the

[✱] key. The bottom line of the display will then read “Zone Deleted”. Adding a new zone to the system will automatically fill this location with the new serial number.

This section allow one RF zone to be replace with another RF Zone. All programming that was used with the old zone will be used with the new zone. When this section is entered the display will read “Serial# [ ]” on the top line of the display and the zone label on the bottom line of the display. Use the [<][>] keys to scroll to the zone that is to be replaced then press the [✱] key.

The top line of the display will then read “With RF Zone”, the bottom line of the display will read

“Serial# [ ]”. Enter the serial number of the zone to replace the selected zone.

58

RF ZONE OPTIONS

This section will determine if the location of a zone is good. Once this section has been entered the panel will then prompt the installer to select a zone to be tested. Use the [<][>] keys to scroll to the desired zone. Then press the [✱] key to select the zone. The keypad will now display the message “Please Activate Zone”. When this message is displayed open then close the zone from the intended mounting location. The keypad will display the result of the module placement test (with respect to RF strength). Placement results are as follows:

Good - This result will be displayed on the keypad as ***good*** and the keypad will beep once indicating that the placement was good. A placement result of good means that the zone is placed in a location that has a strong RF transmission strength.

Fair - This result will be displayed on the keypad as ***fair*** and the keypad will beep twice indicating that the placement was fair. A placement result of fair means that the zone is placed in a location that has passed the module placement test.

Poor - This result will be displayed on the keypad as ***poor*** and the keypad will beep three times, indicating that the placement was poor. A placement result of poor means that the zone is placed in a location that has weak RF transmission strength and should be relocated. In most cases it should only be necessary to move the zone a short distance from it’s original intended location. After relocating the zone repeat the module placement test. When the test results are satisfactory, continue with the next zone to be tested.

Note: To perform a module placement test on an RF PIR motion detector, the zone must be tampered then restored instead of opened then closed.

Once this selected has been made the LCD will display the message “Confirm Default Press ✱”. To abort press any other key. Once the [✱] key has been pressed the LCD will display the message

“Resetting “. All RF zone signatures will have been erased from the PC4164. Note: Deleting the RF signatures from the PC4164 will not remove the zone(s) from the partition assignment(s).

59

RF Zones - Summary

Placing Components

Before Permanently mounting components, each component should be tested in its intended mounting location to ensure it can communicate properly with the PC4164. It is recommended that the Module Placement Test is performed more than once for each zone. For the best system performance, it is suggested that the PC4164 be mounted;

• in as central location as possible

• in as elevated a location as possible

In most installations, selecting a central location for the PC4164 will ensure reliable system operation. When mounting the

PC4164 in a basement, it is recommended that the PC4164 be mounted as high - and as close to the underside of the first floor as possible.

Wireless PIR Motion Detectors

To prolong battery life of a PIR Motion Detector the detector features a High Traffic Shutdown Mode. If a motion detector is activated more than once within a 6 minute period, the detector will temporarily delay reporting activity to the PC4164.

The Motion detector will then require a 12 minute period of no activity before it will resume transmissions to the PC4164.

Because the High Traffic Shutdown Mode prevents Motion Detectors from being tested during a regular walk test, the

Motion Detector features its own built in Walk Test Mode. To active this mode remove the back plate from the detector to be tested, and then re-attach it. The motion detector will be in Walk Test Mode for 90 seconds. The LED will come on for

3 seconds each time the detector is tripped. At the end of the 90 second period the Motion detector will return to normal operation.

Zone Supervisories

A zone supervisory is a transmission sent from the wireless zone to the PC4164 as a test transmission to ensure that communications between the zone and the PC4164 are still present. When the PC4164 receives the supervisory from the zone it will then transmit this information to the control panel. If the control panel does not get a supervisory within the

“supervision time”, the zone will be considered lost and go into the open state..(if Double EOL is being used the zone will go into the Tamper Alarm state). The next supervisory that the PC4164 receives for a missing zone will restore communication with that zone and restore the Zone Supervisory Fault.

Battery Troubles

If a zone has a low battery trouble, then that zone does not report in with a zone supervisory within the “supervision time”, the zone will not go into alarm. This has been included to reduce the possibility of a false alarm from batteries that do not get changed in the zone, and then the zone going into sensor fault.

Restoring Battery Troubles

A wireless zone battery trouble will only be restored after that zone has been Tampered and Restored. This will allow the batteries to be changed without multiple Battery trouble/Battery restoral transmissions taking place. In order for the batteries to be changed the cover must be removed from the back plate. When the tamper is restored and the zone sends a battery trouble restoral signal to the PC4164, the battery trouble will clear.

60

PRINT BUFFER

EVENT

BUFFER

The installer can review the events stored in the event buffer by sending the contents of it to a printer.

Printing out the event buffer through the PC4400 module. All events stored in the event buffer will be printed out. The event buffer can store up to 600 events.

Note: If the printer is left on line hooked up to the PC4400 (RS-232) module, it will always print out events as they occur.

61

DIAGNOSTICS

The Diagnostics function helps the installer to track down any problems that may be occurring with the modules. If this section is entered during the first minute after powering up the system, the selections Diagnostics, Binary Program, Memorize Vbat and Factory Default will be available to the installer. After the first minute, Diagnostics will automatically be selected.

The Diagnostics function helps the installer to track down any problems that may be occurring with the modules.

If there is no problem the keypad will display ‘PC4020 System No Faults Found’.

If there is a problem, the keypad will display ‘Error ... Module’ along with ‘E- T- LV-’ and a number following one of them. The number represents a module (See Appendix C). The ‘E’ stands for a communications error, if the number follows the ‘E’, the main panel has lost communications with the module represented by the number. The ‘T’ stands for tamper, which means the tamper zone on the module has been activated. The ‘LV’ stands for low voltage, for when the module is not receiving enough voltage from the COMBUS. For example, if the display shows ‘E- T-25 LV- ‘, this means the tamper on the PC4400 module has been activated. The

[<][>] keys are used to scroll through the display if there is more than one module with a trouble.

Note: The following items are available during the first minute after power up.

Normally used upon instruction from factory technical personal for specialized programming not covered by the standard programming instructions.

Programs the battery offset voltage. Normally this is already set at the factory and need not be done again. To set the VBAT = 13.85 volts, remove the battery from the battery terminals. The battery terminals should now output 13.85 volts. If it is not 13.85, turn the ‘pot’ above the heatsink until the voltage is the correct value. (If the voltage is 0 volts, check the battery fuse).

Once this selection has been made, the LCD will display "Confirm Default Press ✱". The abort press any other key once the [✱] key is pressed, the programming keypad will display the message ‘Power System Down and Restart’. Remove all power to the main panel. This will erase all programming and reset the system to factory default settings. All modules will have to be reenrolled.

Once this selected has been made the LCD will display the message “Confirm Default Press ✱”.

To abort press any other key. Once the [✱] key has been pressed the LCD will display the message “Resetting 4580 Module”. Once the default is complete the keypad will display “4580

Default is Complete” All programming done in the 4580 will now be erased.

62

APPENDIX A

List of Available ASCII Characters

032 048 064 080 096 112 160 176 192 208 224 240

033 049 065 081 097 113 161 177 193 209 225 241

034 050 066 082 098 114 162 178 194 210 226 242

035 051 067 083 099 115 163 179 195 211 227 243

036 052 068 084 100 116 164 180 196 212 228 244

037 053 069 085 101 117 165 181 197 213 229 245

038 054 070 086 102 118 166 182 198 214 230 246

039 055 071 087 103 119 167 183 199 215 231 247

040 056 072 088 104 120 168 184 200 216 232 248

041 057 073 089 105 121 169 185 201 217 233 249

042 058 074 090 106 122 170 186 202 218 234 250

043 059 075 091 107 123 171 187 203 219 235 251

044 060 076 092 108 124 172 188 204 220 236 252

045 061 077 093 109 125 173 189 205 221 237 253

046 062 078 094 110 126 174 190 206 222 238 254

047 063 079 095 111 127 175 191 207 223 239 255

63

APPENDIX B

List of Diagnostics

E = Communication error

T = Tamper open

LV = Low voltage to module

17

18

19

20

21

13

14

15

16

Indicated

Number

9

10

11

12

22

23

24

Indicated #

Number

1

2

3

6

7

4

5

8

For Future Use

9

10

11

12

13

7

8

5

6

LCD4500

Module

3

4

1

2

14

15

16

Indicated

Number

25

PC4400 Serial

Interface Module

1

Indicated

Number

26

27

28

29

30

PC41XX Zone

Module

1

4

5

2

3

36

37

38

39

31

32

33

34

35

40 For future use15

41 For future use16

8

9

6

7

10

11

12

13

14

Indicated

Number

42

43

44

45

46

47

48

49

50

PC4216

O/P Module

3

4

1

2

5

8

9

6

7

64

61

62

63

64

65

57

58

59

60

66

Indicated

Number

51

52

53

54

55

56

Indicated

Number

67

Indicated

Number

68

Escort4580 Voice

Prompting Module

1

11

12

13

14

15

7

8

9

10

16

PC4204

O/P Module

1

4

5

2

3

6

PC4700

Fire Module

1

© 1997 Digital Security Controls Ltd.

1645 Flint Road, Downsview, Ontario, Canada M3J 2J6

(416) 665-8460 • 1-800-387-3630

Printed in Canada 29002034 R1

PC4020 v2.1 Program Manual

Programming Manual

Table of Contents

PROGRAMMING

THE PC4020

Programming Toggle Options

Programming HEX Digits

PROGRAMMING

MANUAL

INSTALLER

OPTIONS

EVENT

MESSAGES

SYSTEM

OPTIONS

Sys Toggle Options

Keypad Toggle Options

Keypad Lockout Options

System Times

Zone Supervision

DOWNLOAD

SECTION

Download Toggles

DLS Options

COMMUNICATOR

SECTION

Main Items - Phone Numbers/Communication Format/Dialer Direction

Communicator Toggles

Communicator Miscellaneous

Test Code Transmission

Reporting Codes

Links Module

SWITCHED AUXILIARY

OUTPUT

MAIN BELL

OUTPUT

PGM

OUTPUTS

Main PGM Output

PC4204 Options

PC4216 Options

PC4216 Custom

Escort4580 Automation Items

PGM Pulse Times

PGM

OUTPUTS LIST

PC4400

OPTIONS

SYSTEM

LABEL

EVENT

SCHEDULING

ADD / EDIT

PARTITIONS

Partition Toggles

Partition Times

Zone Assignment

Zone Type

Zone Options

Partition Label

DELETE / COPY

PARTITION

MODULE

HARDWARE

Enroll Module

Delete Module

Confirm Module

RF Zone Options

RF Zones - Summary

EVENT

BUFFER

DIAGNOSTICS

APPENDIX A

List of Available ASCII Characters

APPENDIX B

List of Diagnostics

E = Communication error

T = Tamper open

LV = Low voltage to module

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