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Pi-8 Comms
INSTALLATION MANUAL
Mains
　　As the system uses hazardous voltages it is recommended that the mains supply
connection follow national wiring rules and is carried out by a suitably qualified person.
This equipment must be permanently connected to a mains fused spur (3A or 5A). Mains
cable should be clamped securely with the cable clamps provided within the
equipment/installation kit.Knockouts are provided on the top and sides of this equipment
and these are intended for conduit or cable glands.
Mains Supply
External power source
Input current rating (AC)
Mains Fuse
IMPORTANT: LOW VOLTAGE DIRECTIVE STATEMENT
　　This appliance MUST be earthed.
　　This product complies with the requirements of EN 60950.The following
information is essential for the safe installation and operation of this equipment.
Pi 8 Comms Control Panel
230Vac +10% -6%, 50Hz
130mA
F315mA 250V
Pi 8 Comms Control Panel
14V 0.3V
7Ah (12V Lead Acid)
24 hours
-10 to +50
0.75A
90mA
F2A 250V
F4A 250V
F0.5A 250V
F1A 250V
1
Aux. DC Supply
　　The DC supply output is a Safety Extra-Low Voltage (SELV) circuit. This DC supply rating
is for all the DC current requirements,including recharging the battery.The supply has the
following rating:
Output voltage (DC)
Standby Battery
Maximum recharge time
Operating temperature
range
Power supply rating
Panel quiescent current
Sounder fuse (F1)
Battery fuse (F2)
Keypad fuse (F3)
Aux. DC supply fuse (F4)
All wiring in this enclosure requires to be V-2, IEC approved or PVC type.
All installation wiring within this equipment should utilise plastic cable ties to bundle cables
so as to provide strain relief for the cable.
CONTENTS
1 PROGRAMMABLE FEATURES................................................. 4
2 SPECIFICATIONS ....................................................... 4
PANEL .................................................................. 4
KEYPAD LED ............................................................. 4
KEYPAD LCD ............................................................. 5
COMMUNICATOR ........................................................... 5
2.1 2
2.3
2.4
3 HARDWARE AND CONNECTIONS ............................................. 6
3.1
3.2
3.3
PI-8 COMMS CASE KIT..................................................... 6
PCB MOUNTING ........................................................... 6
PANEL PCB LAYOUT ....................................................... 7
DESCRIPTION OF CONNECTIONS ............................................. 7
TAMPER BY CIRCUIT (End Of Line Wiring) ................................. 8
COMMUNICATOR CONNECTIONS................................................ 8
3.3.1
3.3.2
3.3.3
KEYPAD LED PCB LAYOUT .................................................. 10
DESCRIPTION OF CONNECTIONS ............................................. 10
KEYPAD LCD PCB LAYOUT .................................................. 10
DESCRIPTION OF CONNECTIONS ............................................. 10
3.4
3.4.1
3.5
3.5.1
3.6 SYSTEM CONNECTIONS ................................................. 11
4 PROGRAMMING INSTRUCTIONS ............................................. 12
4.1
4.2
4.3
PROGRAMMING CODE 0: Reset Factory Defaults.............................. 13
PROGRAMMING CODES 1 - 8: Circuit Characteristics........................ 13
PROGRAMMING CODE 9: Sounder Time Out Period ............................ 15
PROGRAMMING CODE 10: Entry/Exit delay period ........................... 15
PROGRAMMING CODE 11: AC Fail and Restore Time........................... 15
PROGRAMMING CODE 12: Part Setting Options............................... 15
PROGRAMMING CODE 13: Quick Set Option................................... 16
PROGRAMMING CODE 14: Silent Alarm Option ............................... 16
PROGRAMMING CODE 15: Silent Keypad Panic Option ........................ 16
THE KEYPAD ............................................................. 12
HOW TO ENTER PROGRAM MODE .............................................. 12
PROGRAMMING CODES....................................................... 13
4.3.1
4.3.2
4.3.3
4.3.4
4.3.5
4.3.6
4.3.7
4.3.8
4.3.9
4.3.10 PROGRAMMING CODE 16: Engineer reset code .......................... 16
4.3.11 PROGRAMMING CODE 17: Auxiliary output reset.......................... 17
4.3.12 PROGRAMMING CODE 18: Enable Sounder delay............................ 17
4.3.13 PROGRAMMING CODE 19: Sounder delay................................... 17
4.3.14 PROGRAMMING CODES 20 - 28 ,33,45 & 46: Auxiliary Output Functions......18
4.3.15 PROGRAMMING CODE 29: Secondary entry delay .......................... 20
4.3.16 PROGRAMMING CODE 30: Telephone Line Monitoring....................... 20
4.3.17 PROGRAMMING CODE 31: Keypad Fire/Medical/Panic options............... 20
4.3.18 PROGRAMMING CODE 32: Bypassing/Force Setting Enabling ............... 20
4.3.19 PROGRAMMING CODE 34: Set with tamper alarmed ........................ 21
4.3.20 PROGRAMMING CODE 35: Push to set circuit............................. 21
4.3.21 PROGRAMMING CODE 36: Unset Tamper Reporting.......................... 21
4.3.22 PROGRAMMING CODES 37 - 41: System Time & Date........................ 21
2
HARDWARE PANEL DEFAULT...................................................... 34
4.3.23 PROGRAMMING CODES 42 - 43: Auto Test Time ........................... 22
4.3.24 PROGRAMMING CODE 44: Managed Reset Seed Code......................... 22
4.3.25 PROGRAMMING CODE 47: Panel Software Version Display LCD K/P only .... 22
4.3.26 PROGRAMMING CODE 48: Verified Alarm time window...................... 22
4.3.27 PROGRAMMING CODES 112 - 115: Engineer code. ......................... 22
4.3.28 PROGRAMMING CODE 125: Dialler Options................................ 23
4.3.29 PROGRAMMING CODE 126: Communication Delay............................ 23
4.3.30 PROGRAMMING CODE 127: Dial Attempts.................................. 24
4.3.31 PROGRAMMING CODE 128: Auto Test Interval............................. 24
4.3.32 PROGRAMMING CODE 129: Downloading Options ........................... 25
4.3.33 PROGRAMMING CODE 130: Rings Before Answer ........................... 25
4.3.34 PROGRAMMING CODE 131: TX Delay After Handshake....................... 25
4.3.35 PROGRAMMING CODE 132: Dialler Format - Primary Telephone No.......... 26
4.3.36 PROGRAMMING CODE 133: Dialler Format - Secondary Telephone No........ 26
4.3.37 PROGRAMMING CODES 134 & 135: Pager Terminator Digits ................ 29
4.3.38 PROGRAMMING CODES 136 - 139: Site ID (Account Code).................. 29
4.3.39 PROGRAMMING CODES 144 - 159: Primary Telephone Number ............... 29
4.3.40 PROGRAMMING CODES 160 - 175: Secondary Telephone Number.............. 29
4.3.41 PROGRAMMING CODES 192 - 251: Reporting Codes......................... 30
4.4
5 EVENT LOG ................................................................ 35
6 PROGRAMMING CODES/DEFAULTS................................................ 36
3
1 PROGRAMMABLE FEATURES

8 circuits, programmable as entry/exit, entry route, PA ,silent PA, normal alarm,
silent normal alarm , 24 Hr, push to set, secondary entry and set/unset circuits.
Individual EOL circuits (alarm & tamper) and a dedicated tamper circuit.
Programmable entry/exit time.
Programmable secondary entry time.
Quick set enable/disable.
Part Set (at home) enable/disable.
Silent or audible panic.
Silent or audible alarm.
Programmable sounder time out.
Programmable sounder delay.
Delayed or instant communication.
Bypassable circuits.
Alarm Verification(programmable time window)
Alarm Abort
Three fully programmable auxiliary outputs.
Multiple formats for alarm communication.
4
2 SPECIFICATIONS
2.1 PANEL

8 alarm circuits with individual tamper. (EOL resistance 8K2/8K2).
Auxiliary power supply rating: 0.75A.
Auxiliary output voltage: 14V.
Speaker output drive capability: 16W.
Strobe current capability: 0.5A (Transistor driver).
Sounder output: 2A (Relay driver).
Maximum number of keypads: 5.
Operating temperature: -10 to +50.
Relative humidity: 9% to 90% non condensing.
Battery type: 1 x 7AH rechargeable.
Recharge time: 24 hours.
Mains input voltage: 230V a.c.1%+10%.
Mains input current: 150mA nominal.
Programmable outputs: 12 volt d.c. 10 mA.
2.2 KEYPAD LED

Minimum current consumption: 45mA (all LEDs off).
Maximum current consumption: 220mA (all LEDs on).
Supply Voltage: 8V minimum 16V maximum.
Weight: 160 grams.
2.3 KEYPAD LCD

Minimum current consumption: 60mA (backlight off).
Maximum current consumption: 100mA (backlight on).
Supply Voltage: 8V minimum 16V maximum.
Weight: 165 grams.
2.4 COMMUNICATOR

Integrated digital communicator.
Programmable formats for alarm reports.
Sescoa
Ademco Express
Ademco Fast
Ademco Superfast
SIA level 3
FBI 4x2 without parity
FBI 4x2 with parity
Silent Knight Slow
Silent Knight Fast
Point ID
Domestic reporting
Paging format
Up / downloadable (using remote or direct connection).
Telephone line monitoring.
5
3 HARDWARE AND CONNECTIONS
3.1 Pi-8 COMMS CASE KIT
Pi-8
Comms
main PCB
A.C.
connections
Battery
Case fixing
holes
The case should be mounted using the three case mounting holes. Using the top
mounting hole to hold the case in position, fix the panel to the wall using the two lower
holes.
The drawing of the case kit shows the position of the battery (up to 7AH) and the locating
position for the optional speaker (16 ohm).
The mains must be connected via a fused spur and then connected into the case using
the fused mains block.
3.2 PCB MOUNTING
The Pi-8 Comms main PCB should be mounted in the case using the plastic pillars found
in the spares bag. Five pillars should be fitted to the PCB and the assembly fitted into the
case.
Once fitted the main PCB should be connected to the A.C. connection cable. The two
cables are connected to the A.C. input on the main PCB.
All cables can be passed through the holes in the base or via trunking using the trunking
holes on the sides of the case. Conduit holes are provided at the top and bottom of the
case.
6
Case fixing hole
Speaker
mounting
position
Transformer
Fused mains
block
3.3 PANEL PCB LAYOUT
3.3.1 DESCRIPTION OF CONNECTIONS
AC
AX-
AX+
SND
STR
SPK
+VE
1
2
3
4
5
6
7
8
TPR
AX-
C
D
AX+
PHONE
LINE
EARTH
TX1
TX2
TX3
18 volt ac input from transformer
Negative/ground auxiliary power output for PIR detectors etc.
Positive 12 volt auxiliary power output for PIR detectors etc.
Sounder negative
Strobe negative
Internal loud speaker
Speaker positive
Circuit 1 input
Circuit 2 input
Circuit 3 input
Circuit 4 input
Circuit 5 input
Circuit 6 input
Circuit 7 input
Circuit 8 input
Tamper circuit input (requires an 8K2 resistor in series with the
tamper loop).
Keypad negative
Keypad clock
Keypad data
Keypad positive
Line monitor output
Telephone line connections A & B
Earth connection for telephone line
Auxiliary output 1
Auxiliary output 2
Auxiliary output 3
7
3.3.2TAMPER BY CIRCUIT (End Of Line Wiring)
The Pi8-Comms panel uses End Of Line (EOL) wiring for each circuit. This allows a
tamper condition to be detected by circuit rather than globally. Each circuit must be
wired as follows.
3.3.3 COMMUNICATOR CONNECTIONS
All apparatus connected either directly or indirectly to a public telecommunication
system requires an approval. However, certain attachments are eligible for approval
under General Approval NS/1234/100003. Further details of this General Approval
and the conditions pertaining to it are given in OFTEL update SA29, available from :-
The Librarian
OFTEL
Export House
50 Ludgate Hill
London
EC4M 7JJ
STATUTORY REQUIREMENTS
If you have any doubts concerning the suitability, connection or use of this
apparatus, then consult a suitably qualified person before continuing.
SUITABILITY FOR USE
The approval of this apparatus for connection to Public Switched Telephone
Networks is invalidated if the apparatus is subject to any modification in any material
way, or its use with any or connection to any external control software or external
control apparatus which causes the communicator to contravene the requirements of
BS6789 : section 3.2.
All apparatus connected to the communicator and thereby connected directly or
indirectly to the Public Switched Telephone Network must be approved apparatus as
defined in the R&TTE directive.
This equipment is suitable for use on direct telephone lines where the specific
service of multi-frequency (tone) dialling is available.
8
The communicator may be connected to direct exchange lines or Relevant Branch
Systems (RBS) as defined in BS6789 : section 6.1 clause 2.4. It is not suitable for
connection to PABX systems or for use as an extension to a payphone.
It is intended for use in normal office, household and similar indoor use. It should not
be used in damp or humid environments such as bathrooms or swimming pools.
The output power is fixed and cannot be changed by the user.
RINGER EQUIVALENCE NUMBER (REN)
REN is a customer guide to indicate the maximum number of apparatus that may be
connected simultaneously to a single telephone line without affecting the bell (or
tone) ringing characteristics of the items connected.
To calculate the maximum number of items, which may be connected to a single
exclusive telephone line, add all the REN values of the connected equipment.
Telephone lines, which are not marked with a REN value, are assumed to have a
REN of 1.0.
The maximum REN value allowed on any combination of simultaneously connected
apparatus is 4.0.
The REN value of this equipment is 0.5.
DIALLING MODES
BS6789 : section 3.1 defines three dialling modes (Modes 1,2 and 3). Modes 2 and 3
cover auto-dialling devices which play recorded messages. Mode 1 (provided by this
communicator) may be used for all non-emergency (non 999/ non 112) calls. Mode 1
specifies that the device must drop the line (hang-up) within 1 minute if it receives
the standard BT tones for number unobtainable, busy, equipment engaged or special
information. Calls not covered by modes 1,2 or 3 must not be made. Alarm calls,
since they use Mode 1, cannot and MUST NOT be used for emergency (999 or 112)
calls.
9
3.4 KEYPAD LED PCB LAYOUT
3.4.1 DESCRIPTION OF CONNECTIONS
TPR Keypad tamper. (Connect as part of system tamper AX-).
TPR Keypad tamper. (Connect as part of system tamper TPR).
CK Bus clock line from panel. (Connect to C).
DAT Bus data line from panel. (Connect to D).
GND Negative/ground from panel. (Connect to AX-).
+12V Positive 12 volt d.c. supply from panel. (Connect to AX+).
3.5 KEYPAD LCD PCB LAYOUT
3.5.1 DESCRIPTION OF CONNECTIONS
TPR Keypad tamper. (Connect as part of system tamper AX-).
TPR Keypad tamper. (Connect as part of system tamper TPR).
CK Bus clock line from panel. (Connect to C).
DAT Bus data line from panel. (Connect to D).
GND Negative/ground from panel. (Connect to AX-).
+12V Positive 12 volt d.c. supply from panel. (Connect to AX+).
10
3.6 SYSTEM CONNECTIONS
The following is an example of how a system may be connected.
11
4 PROGRAMMING INSTRUCTIONS
4.1 THE KEYPAD
For all programming procedures, the * (star) key functions as the ENTER key and the #
(hash) key functions as a CLEAR key to clear wrong entries. The # key is also used to
EXIT from program mode. If an error has been made e.g. an illegal value or an incorrect
series of keystrokes, then the keypad will beep three (3) times. All programming code
values are displayed using the circuit LEDs on the keypad.
If no key is pressed for 1 minute the keypad will enter standby mode. To re-activate the
keypad, press the ODE key.
4.2 HOW TO ENTER PROGRAM MODE
Note: The text written in italics shows the indication given on an LCD keypad.
1. Ensure that the control panel is UNSET and the tamper circuit is alarmed (open the
box).
2. The TAMPER LED should be on (a flashing T on the LCD keypad) and the speaker
will be sounding (if fitted).
3. Press the # key followed by the 4 digit engineer code (the default code is 9999).
4. If the correct code has been entered the READY LED will begin flashing on/off
(LOCATION NUMBER: ), the TAMPER LED (flashing T) will extinguish and the
speaker will be silenced.
5. Press the * key.
6. Enter the value of the programming code that you want to change.
7. Press the * key.
8. The value of the selected programming code will be displayed using the keypads
circuit LEDs. (LOCATION *** on the top line, VALUE: on the bottom line of the LCD)
9. If you want to change the field contents, enter the new value followed by the * key.
10. To leave the contents unchanged, press only the * key.
11. The buzzer will give a long beep indicating that a valid entry has been stored.
12. Repeat steps 6 - 11 until all programming codes have been programmed.
13. To exit from the program mode press the # key.
14. The READY indicator will stop flashing (LCD will return to normal display), the
TAMPER LED will be on permanently and the speaker will sound until the tamper
circuit is closed and a valid user code has been entered.
15. Any active auxiliary outputs will be reset.
Note: If an incorrect value is entered, the keypad will beep three times.
12
4.3 PROGRAMMING CODES
A detailed description of each programming code and function follows.
Where text descriptions are available, the LCD keypad will use them in place of the
data value. e.g. Location 1: ENTRY/EXIT
4.3.1 PROGRAMMING CODE 0: Reset Factory Defaults.
0
1
2
4.3.2 PROGRAMMING CODES 1 - 8: Circuit Characteristics
Programming codes 1 to 8 define the circuit characteristics of each of the eight alarm
circuits. Each circuit can be programmed to function in one of ten modes. Table 1
below provides a programming code /circuit cross-reference, together with the table of
factory default values. Table 2 provides a list of circuit types.
Resets the control panel to the factory default values. (Shown on the
programming codes/defaults table in section 6). All user codes will also be
defaulted, with the master user code defaulting to 1234.
Resets the master user code to 1234 without defaulting the rest of the
programmed data.
Resets all reporting codes to 0. If the communicator is programmed to report in
any format other than Contact ID, the reporting codes must be reprogrammed.
CIRCUIT
1
2
3
4
5
CODE
1
2
3
4
5
6
7
6
7
8
DEFAULT
1
2
4
TABLE 1
CIRCUIT TYPE
ENTRY/EXIT
ENTRY ROUTE
NORMAL ALARM
NORMAL ALARM
NORMAL ALARM
NORMAL ALARM
NORMAL ALARM
PA
4
4
4
4
3
13
VALUE
0
1
2
3
4
5
6
7
8
9
10
TABLE 2
CIRCUIT TYPE DESCRIPTION
DISABLED
ENTRY/EXIT
ENTRY ROUTE
PA
Any activation of the circuit will be ignored.
Entry/Exit circuits are ignored during the exit
delay of the setting procedure. Alarming an
Entry/Exit circuit when set initiates the
entry/exit time. Failure to exit through an
Entry/Exit circuit during setting will enable the
STAY mode if programmed (code 12).
An Entry Route will be ignored during the
entry/exit time. (This allows the user to
enter/exit via the entry route). However, an
Entry Route will behave as a Normal Alarm
circuit if the Entry/Exit is not alarmed first.
A PA circuit will cause the control panel to
register a PA alarm condition and activate the
sounder (set or unset).
NORMAL ALARM If the panel is set, alarming of a Normal Alarm
SET / UNSET
SILENT PA
SECONDARY
ENTRY
PUSH TO SET
circuit will cause the control panel to register
an alarm condition immediately. The sounder
will activate. While the panel is unset,
alarming of a Normal Alarm circuit is ignored.
Alarming a Set/Unset circuit will cause the
panel to full set and clearing it will cause it to
unset. Connect a latched key-switch or remote
control unit to this circuit.
Alarming of a Silent PA circuit will cause the
control panel to register a PA alarm condition.
The sounder will remain silent (set or unset).
SILENT NORMAL If the panel is set, alarming of a Silent Normal
ALARM Alarm will cause the control panel to register
an alarm condition immediately. The sounder
will remain silent and the strobe will not
activate. While the panel is unset, alarming of
a Silent Normal Alarm is ignored.
This circuit is the same as circuit type 1 except
that it uses the entry delay programmed using
programming code 29. The exit delay is the
same as circuit type 1.
If the push to set function is enabled
(programming code 35), alarming of this circuit
after entry of a valid user code will cause the
system to set. (Note: If STAY mode is
programmed and no Entry/Exit circuit has
been activated, part set will occur).
24 HOUR ALARM Alarming a 24 Hour circuit will cause an alarm
condition in the set and unset (24 hour is
signalled as a normal alarm except in Contact
ID reporting format).
14
K/P CCT
LEDS ON
None
Led 1
Led 2
Leds 1 & 2
Led 3
Leds 1 & 3
Leds 2 & 3
Leds 1,2 & 3
Led 4
Leds 1 & 4
Leds 2 & 4
4.3.3PROGRAMMING CODE 9: Sounder Time Out Period
The default value is 15, which selects a 20 minute sounder time-out period. To alter
this time, select the appropriate value from table 3.
4.3.4 PROGRAMMING CODE 10: Entry/Exit delay period
Use the above table 3. The default entry/exit value is 5 corresponding to 30 seconds.
4.3.5 PROGRAMMING CODE 11: AC Fail and Restore Time
The auxiliary outputs for reporting these conditions will only be triggered after the time
programmed into this field. AC failure will only be shown on the keypad as a trouble
condition if it lasts longer than this time. Use table 3 for values. The default value is 11,
corresponding to 5 minutes.
4.3.6 PROGRAMMING CODE 12: Part Setting Options
0
1
2
The default value is 0.
Note: PART SETTING is not reported on the auxiliary outputs.
TIME-OUT
3 sec.
10 sec.
15 sec.
20 sec.
25 sec.
30 sec.
45 sec.
1 min.
VALUE
0
1
2
3
4
5
6
7
The panel will automatically set in the PART SET mode if the user sets and
does not use the entry/exit circuit. This mode allows the user access to certain
pre-programmed thome circuits while the panel is set. (STAY mode).
The panel will set in the FULL SET mode even if no exit occurs. The PART
SET quick set keys (holding down the or are also disabled.
The panel can be set in PART SET mode by holding down the or key but
will always set in FULL SET mode otherwise.
TABLE 3
LEDS ON
None
Led 1
Led 2
Leds 1&2
VALUE
8
9
10
11
12 Led 3
Leds 1&3
Leds 2&3
13
14
15 Leds 1,2&3
15
LEDS ON
Led 4
Leds 1&4
Leds 2&4
Leds 1,2&4
Leds 3&4
TIME-OUT
2 min.
3 min.
4 min.
5 min.
10 min.
Leds 1,3&4
Leds 2,3&4
Leds 1,2,3&4
15 min.
18 min.
20 min.
4.3.7PROGRAMMING CODE 13: Quick Set Option
Enables quick set (default)
Disables quick set
01
The quick set option allows the user to set the panel by holding down the 1 key for a
period of 2 seconds until the keypad beeps. This key functions as per a valid user
code. A set by user 1 will be reported (if programmed).
4.3.8 PROGRAMMING CODE 14: Silent Alarm Option
Sounder enabled with alarm condition (Audible Alarm - default)
Sounder disabled with alarm condition (Silent Alarm)
01
If silent alarm is selected there will be no sounders, audio, keypad buzzers or strobe
operation. The alarm communication will take place.
4.3.9 PROGRAMMING CODE 15: Silent Keypad Panic Option
Sounder enabled on keypad panic condition (Audible Panic - default)
Sounder disabled on keypad panic condition (Silent Panic)
01
If silent keypad panic is selected the sounders will not operate, nor will the strobe.
The panic communication will take place. For this feature to operate, the eypad
fire/medical/panic option code 31 must be enabled.
4.3.10 PROGRAMMING CODE 16: Engineer reset code
0
1
2
The panel can be set after an alarm condition has occurred without the
engineer code.
Once an alarm has been triggered the panel cannot be set again until program
mode has been entered and exited. (See section 4.2)
Once an alarm has been triggered the panel cannot be set again until a reset
code has been entered. (MANAGED RESET). A seed code must also be
entered into Programming code 44.
The default value is 0.
16
4.3.11 PROGRAMMING CODE 17: Auxiliary output reset
0
1
2
Auxiliary outputs will function as per the operating requirements programmed
using programming codes 20 to 28.
Entry of a valid user code will clear all auxiliary outputs regardless of the
operating requirements programmed into fields 20 to 28. (ACPO reset).
After unsetting, pressing the # key to clear the memory will clear all auxiliary
outputs regardless of the operating requirements programmed into fields 20 to
28.
The default value is 1.
Note: Notwithstanding the value programmed into this field an auxiliary output
programmed as a pulsed output will always pulse i.e. the output will go high for 2
seconds in response to an event and then reset to a low state. The output will remain
active until an Engineer Reset occurs.
4.3.12 PROGRAMMING CODE 18: Enable Sounder delay
Audible alarms will trigger the Sounder immediately.
Audible alarms will only trigger the Sounder after the delay programmed using
01
programming code 19.
The default value is 0.
4.3.13 PROGRAMMING CODE 19: Sounder delay
Program this field using values from TABLE 3.
The default value is 12, corresponding to a delay of 10 minutes.
17
4.3.14 PROGRAMMING CODES 20 - 28 ,33,45 & 46: Auxiliary Output Functions
These programming codes control the functions of the 3 auxiliary outputs.
Use table 4 to select a function which is required on an output, then use table 5 to
select the output and required action.
CODE
20
21
22
23
24
25
26
27
28
33
45
46
VALUE
0
1
2
3
4
5
6
7
8
9
Note 1: The Output Pulse has a 2 second duration.
Note 2: Any condition may be assigned to any output. The engineer may select
between a choice of 3 output states:
Output may be pulsed high for two seconds
Output may be latched high
Output may be latched low.
Note 3: Multiple conditions may be programmed to a single output. When
programming an output it is essential to ensure that no unwanted conditions are
assigned to the same output.
5
4
9
0
0
4
5
0
0
0
OUTPUT
ALARM
PA
OPEN (Unset)
CLOSE (Full Set) 6
AC FAIL
AC RESTORE
DURESS
LOW BATTERY 0
TAMPER
LINE FAULT
VERIFICATION
ABORT
TABLE 5
ACTION OF AUXILIARY OUTPUT
NO OUTPUT
PULSE AUX. O/P 1
PULSE AUX. O/P 2
PULSE AUX. O/P 3
SET AUX. O/P 1 HIGH
SET AUX. O/P 2 HIGH
SET AUX. O/P 3 HIGH
PULL AUX. O/P 1 LOW
PULL AUX. O/P 2 LOW
PULL AUX. O/P 3 LOW
TABLE 4
DEFAULT VALUE (ACTION)
AUX. 2 HIGH
AUX. 1 HIGH
AUX. 3 LOW
AUX. 3 HIGH
DISABLED
DISABLED
AUX. 1 HIGH
DISABLED
AUX. 2 HIGH
DISABLED
DISABLED
DISABLED
LEDS ON
None
Led 1
Led 2
Leds 1&2
Led 3
Leds 1&3
Leds 2&3
Leds 1,2&3
Led 4
Leds 1&4
18
Programming example: To program auxiliary output 1 to report open and close, with
close HIGH and open LOW.
The programming code to indicate a close (setting) is 23. From table 5 it can be noted
that a value of 4 programmed into this field will cause output 1 to go high.
This output will remain high until:
(a) one of the conditions programmed using programming code 17 forces the output
low or
(b) if code 17 is programmed as a 0 a condition with the appropriately programmed
value gives the instruction for this output to be set low.
The programming code to indicate an open (unsetting) condition is 22. From table 5 it
will be noted that a value of 7 programmed into this field will cause output 1 to go low.
AUXILIARY OUTPUT CONFIGURATION
The current sink and source capability is the same for all three outputs. The output
circuitry consists of a 12 volt source with a 56 W series resistor. Current sink is via a
1000 W resistor to negative. The output circuit is provided below:
19
4.3.15 PROGRAMMING CODE 29: Secondary entry delay
Use TABLE 3 for programmable times.
The secondary entry delay operates as follows: If a primary entry circuit is alarmed
the primary entry delay is activated. If a subsequent alarm of a secondary entry
circuit occurs the primary delay is cancelled regardless of the remaining time and the
secondary entry timer begins. If a valid user code is not entered during this period an
alarm condition will occur.
The default value is 5 corresponding to a delay of 30 seconds.
4.3.16 PROGRAMMING CODE 30: Telephone Line Monitoring
No telephone line monitoring.
The telephone line will be monitored for loss of line voltage.
01
The default value is 0.
4.3.17 PROGRAMMING CODE 31: Keypad Fire/Medical/Panic options
Only hold down the key you wish to activate.
Hold down the key you wish to activate as well as the mode key.
Disable Fire, Medical, and Panic keys.
0
12
The default value is 2.
4.3.18 PROGRAMMING CODE 32: Bypassing/Force Setting Enabling
If forced setting is enabled and any circuit that is bypassable is in alarm at the start of
the entry/exit time the circuit will be bypassed and the panel will set. The default
value is 0. The following circuit types CANNOT be bypassed or force set even if the
bypass and or force set option is programmed, circuit type PA, ENTRY/EXIT,
SILENT PA and PUSH TO SET.
VALUE
0
1
2
3
TABLE 6
LEDS ON FORCED SET SET WITH BYPASSED
CIRCUITS
None
Led 1
Led 2
YES
NO
YES
NO
NO
YES
Leds 1&2 NO YES
20
4.3.19 PROGRAMMING CODE 34: Set with tamper alarmed
Panel will not set with tamper alarmed
Panel will set with tamper alarmed
01
The default value is 0.
4.3.20 PROGRAMMING CODE 35: Push to set circuit
Push to set enabled
If a circuit is programmed as a push to set circuit (a value of 9 programmed into the
circuit characteristics field), after entry of a valid user code alarming this circuit will
cause the system to set. The system will remain in the exit mode and not set until
this circuit is alarmed regardless of the values programmed as entry/exit delays.
01
Push to set disabled
The default value is 0.
If this function is enabled without programming the appropriate circuit type the
entry/exit time will operate as normal.
4.3.21 PROGRAMMING CODE 36: Unset Tamper Reporting
0 A tamper condition during an unset period will not be reported on the auxiliary
outputs or via the communicator.
A tamper condition during an unset period will be reported on the auxiliary 1
outputs and via the communicator (if programmed).
The default value is 0.
4.3.22 PROGRAMMING CODES 37 - 41: System Time & Date
The panel has a real time clock which needs to be set after a power up, otherwise a
trouble condition will be present. To set the clock, enter a two digit number into each
of the following fields.
CODE
37
38
39
40
41
TABLE 7
FUNCTION
System Hours
System Minutes
System Day of Month
System Month
DEFAULT
00
00
01
01
00
RANGE
00 - 23
00 - 59
01 - 31
01 - 12
00 - 99 System Year
21
4.3.23 PROGRAMMING CODES 42 - 43: Auto Test Time
The panel can be programmed to send a test message via the communicator at any
specified time of day. To enable this function, program a two digit number into each
of the following fields. See code 128 for the interval between auto tests. The default
value is 99 in both fields. This disables the auto test function. Once the function has
been enabled by programming valid values into these fields, the auto test can no
longer be disabled without defaulting.
TABLE 8
DEFAULT
99
99
RANGE
00 - 23
00 - 59
FUNCTION
Auto Test Hours
Auto Test Minutes
CODE
42
43
4.3.24 PROGRAMMING CODE 44: Managed Reset Seed Code
If a non zero seed code is entered into this field and engineer reset is selected as
Managed reset (code 16 - value 2), the user can reset the panel by using a one shot
PIN code which is generated by the Guardall Managed Reset software package. Full
operational details of the Managed Reset procedure can be found in the user
manual. The default value is 0.
4.3.25 PROGRAMMING CODE 47: Panel Software Version Display LCD K/P only
If an LCD keypad is being used, entering this programming code will display the
version of panel software on the display.
4.3.26 PROGRAMMING CODE 48: Verified Alarm time window
The panel can be programmed to provide a time between a irst alarm and a
econd alarm?which would be classed as a erified alarm? The time window is
programmable between (off) and 9 minutes. If a second alarm is not received
within the programmed time window then the alarm will not be verified. The default
is 30 minutes.
4.3.27 PROGRAMMING CODES 112 - 115: Engineer code.
The engineer code is used to enter the program mode. The default value is 9999.
This code can be changed by entering a single digit into each of these 4 fields.
Note: The engineer code is only effective when the tamper circuit is alarmed.
This code is also used to reset the panel if the engineer reset function (programming
code 16) is enabled.
Programming example: To change the engineer code to 7890.
Select programming code 112. (Press *112*).
Enter value 7. (Press 7*).
Select programming code 113. (Press *113*).
22
Enter value 8. (Press 8*).
Select programming code 114. (Press *114*).
Enter value 9. (Press 9*).
Select programming code 115. (Press *115*).
Enter value 0. (Press 0*).
4.3.28 PROGRAMMING CODE 125: Dialler Options
When this programming field is entered, any combination of LEDs 1, 2, 3 and 4 may
be on. Consult table 9 to establish the meaning of each LED.
To change the status of any option (LED), press the appropriate key followed by *.
Once you have changed the data to your requirements, press * again to enter the
new information. The default is LEDs 1 & 2 on.
Option
(LED)
1
2
3
4
On an LCD keypad, the display will show one option at a time (relating to each LED
function) along with its current status. To change the status of any option, press *. To
move to another option, press either the menu> or <menu buttons.
Once all options have been programmed, press # to return to normal programming mode.
4.3.29 PROGRAMMING CODE 126: Communication Delay
If a delayed communication is selected in code 125, then the value programmed into
this field will determine the delay period. Select the value from table 3.
Only the following events are subject to the delay:
Circuit activations, Circuit restorals, Tampers, Keypad panic & Keypad fire.
Also if a valid user code is entered before the expiration of this delay, the report will
be aborted. This is to prevent unnecessary reporting in the event of an accidental
alarm situation. The event will still be logged as normal.
The default value is 3 corresponding to a delay of 20 seconds.
TABLE 9
ACTION STATUS
Pulse Dial Primary Telephone Number
Tone Dial Primary Telephone Number
Pulse Dial Secondary Telephone Number
Tone Dial Secondary Telephone Number
Instant Communication
Delayed Communication
Sequential Reporting
Dual Reporting
Off
On
Off
On
Off
On
Off
On
23
4.3.30 PROGRAMMING CODE 127: Dial Attempts
The value selected in this field determines the maximum number of attempts the
panel will make to contact the programmed telephone number(s).
Note: Entering a 0 into this location will disable the dialler. (Default condition)
If the panel is unsuccessful at communicating with the telephone number, the call
pattern for the dialler is determined by code 125 LED 4 and follows the format below.
1) Sequential reporting.
Attempt 1 To Primary Telephone Number
40 second wait
Attempt 1 To Secondary Telephone Number
40 second wait
Attempt 2 To Primary Telephone Number
40 second wait
. . . . .
repeat call attempts until programmed maximum call attempts (#)
. . . . .
Attempt # To Secondary Telephone Number
If a succesful attempt is made at any time in this sequence, the call pattern is
terminated.
2) Dual Reporting
Attempt 1 To Primary Telephone Number
Attempt 1 To Secondary Telephone Number
40 second wait
Attempt 2 To Primary Telephone Number
Attempt 2 To Secondary Telephone Number
. . . . .
repeat call attempts until programmed maximum call attempts (#)
. . . . .
Attempt # To Primary Telephone Number
Attempt # To Secondary Telephone Number
If any succesful attempt is made at any time in the sequence, the dialler will then
make repeat attempts to the other telephone number only.
4.3.31 PROGRAMMING CODE 128: Auto Test Interval
The time between auto test reports can be programmed using this field. Enter the
number of days between tests.
The default is 1.
24
4.3.32 PROGRAMMING CODE 129: Downloading Options
Note: This feature is only available on software version 1.10 and higher.
Downloading enabled
The panel can be programmed to allow downloading of the configuration from a p.c.
using the downloading software. The event log can also be uploaded to a PC to
allow for storing and reading of the 300 events.
01
Downloading disabled
The default is 1.
4.3.33 PROGRAMMING CODE 130: Rings Before Answer
This field programs the number of rings before the panel will pick up the telephone
line to attempt an upload or download. In the event that the panel picks up the line
and no valid download log on sequence is received by the panel, the call will be
terminated by the panel after 40 seconds.
Note: The default value of 15 (maximum) enables the Fax Defeat mode. If Fax
Defeat is enabled and the telephone rings 15 times, the panel will answer the call. If
however, the telephone rings, and the call is terminated within 3 rings, the panel will,
within a 60 second window, answer the next call on the first ring. Fax Defeat is a
useful feature for up/downloading when a fax machine is connected to the same
telephone line as the alarm panel. If enabled:
Dial the panel telephone number and hang up within the first three rings.
Dial the panel telephone number again within 1 minute.
The panel will pick up the line on the first ring thereby preventing the fax machine
from answering the call before the alarm panel.
A number lower than 15 entered in this field will disable Fax Defeat mode.
4.3.34 PROGRAMMING CODE 131: TX Delay After Handshake
This field sets the time that the control panel waits before sending the report data,
after it receives the kiss-off tone from the base station. This feature allows the panel
to be customised to communicate with a wide range of base station receivers. The
value entered into this field should be multiplied by 20 to give a delay in milliseconds.
The default is 10 equating to a delay of 200ms.
25
4.3.35 PROGRAMMING CODE 132: Dialler Format - Primary Telephone Number
The value entered into this field selects the format to be used for communication to
the base station receiver or other device via the primary telephone number. Select
the appropriate value for the format from table 10. During communication, the green
led on the panel pcb will illuminate. When the panel has received a confirmation
handshake from the receiver, the keypad will beep once.
The default is 9 Ademco Fast Format
Note: If dual reporting is disabled (see code 125) then this format will be used for
both telephone numbers.
4.3.36 PROGRAMMING CODE 133: Dialler Format - Secondary Telephone Number
This field is the same as code 132 but applies to the communication format for the
secondary telephone number if dual reporting is enabled (see code 125). Use table
10 to select the format.
The default is 9 Ademco Fast Format
VALUE
0
1
2
3
4
5
6
7
8
9
10
11
Tx = Transmission, H/S = Handshake, PPS = Pulses Per Second
For both of the above codes, an LCD keypad will display the text description of the
format selected.
TABLE 10
DESCRIPTION
1.8kHz Tx, 2.3kHz H/S
Dual Tone H/S, DTMF
1.9kHz TX, 2.3kHz H/S, 20PPS
1.9kHz TX, 2.3kHz H/S, 40PPS
FORMAT
Sescoa Superfast
Ademco Express
Fbi 4x2 (no parity)
Fbi 4x2 (with parity)
Silent Knight 4x2 Slow 1.9kHz TX, 1.4kHz H/S, 10PPS
Silent Knight 4x2 Fast 1.9kHz TX, 1.4kHz H/S, 20PPS
Dual Tone H/S, DTMF
500Hz Tx, Blind, 2PPS
Blind, DTMF
Dual Tone H/S, DTMF
Dual Tone H/S, DTMF
Dual Tone H/S, DTMF
Point ID
Domestic Reporting
Pager Format
Ademco Fast
Ademco Superfast
SIA level 3
26
NOTES ON REPORTING FORMATS
Point ID: If this format is selected, it is not necessary to program the reporting
codes as all Point ID codes are reported by default. See table 11 for the Point ID
reporting codes included.
Code
E100
Description
Keypad
Medical
Keypad Fire E110
Panic alarm E120
E120
E121
Keypad
panic
Duress
E130
E131
E132
Burglary
alarm
Perimeter
alarm
Interior
alarm
E133 24 Hour
alarm
For any event reports above, a restore report can also be generated, the only
difference being an R instead of an E in front of the number.
Where any of the above codes are generated by either a circuit or a user, then that
circuit/user information will also be transmitted in the third field of the report
message.
If you wish Point ID circuits programmed as Normal Alarm (audible or silent) to be
reported with a description other than burglary, an option may be chosen from table
12. The value selected must then be programmed into the relevant circuit first digit
of its reporting code (even codes 192 - 206).
Value
1
2
3
4
TABLE 11
Code
E134
E135
Description
Entry/exit
alarm
Day/night
alarm
E136 Outdoor
alarm
Tamper alarm E137
E138 Near alarm
E301 A.C. failure
R301 A.C. restore
E302 Low battery
R302 Battery
restore
TABLE 12
Reported As:
Perimeter
Interior
24 Hour
Entry/Exit
27
Code
E401
R401
Description
Open by
user
Close by
user
E406 Cancel
E407
E409
R409
Open by
download
Open by
keyswitch
Close by
keyswitch
E570
E602
Circuit
bypass
Test report
Value
5
6
Reported As:
Day/Night
Outdoor
Tamper
Near Alarm
7
8
Note: Because of the above feature, if the reporting codes for circuits 1-8 are
programmed for use with any other format (eg. Ademco Express) as the secondary
reporting format, the Point ID codes will be changed accordingly.
SIA level 3: If this format is selected, it is not necessary to program the reporting
codes as all SIA codes are reported by default. See table 13 for the SIA reporting
codes included.
Code
AT
BB
Description
A.C. failure
Circuit
bypass
Circuit BT
tamper
Close by user CL
HA Duress
Open by user OP
Keypad panic PA
QA
QT
TR
24Hr circuit
alarm
24Hr circuit
tamper
Tamper
circuit restore
YP AUX 12V
trouble
Where any of the above codes are generated by either a circuit or a user, then that
circuit/user information will also be transmitted in the report message.
Note: If any of the above reporting codes are not required then a 0(zero) must be
programmed in the reporting code locations.
Domestic Reporting: Domestic reporting will dial both telephone numbers as
programmed into code 144 - 159 and 160 - 175. The data to be reported will be
transmitted to each telephone number in turn (up to a maximum number of times
specified by code 127). Normally the data will be transmitted immediately after the
telephone number is dialled. To add a pause after the dialling, program a 15 into the
field immediately after the last digit of the telephone number to give a 4 second
pause. Further 4 second pauses can be added by entering 15 into subsequent fields
up to a maximum pause of 20 seconds. The reporting codes will be transmitted as
the relevant number of pulses for each digit followed by a second transmission of the
message.
Ademco Fast and Superfast: For Ademco fast and superfast, program the number
of the channel you wish to use for reporting into the reporting code location ?where
there are two digits, program it into the first one.
TABLE 13
Description
A.C. restore
Code
AR
BC Abort
BV
CS
MA
Verified
alarm
Close by
keyswitch
Keypad
Medical
OS
PR
QB
Open by
keyswitch
Panic
restoral
24Hr circuit
bypass
RS
TX
Download
access
Auto test
YR Battery
restore
28
Description Code
Circuit alarm BA
Circuit restoral BR
CG
FA
Part Close by
user
Keypad Fire
OC Cancel
PA Panic alarm
PT Panic tamper
QR
TA
24Hr circuit
restore
Tamper circuit
YA Siren trouble
YT Low battery
Paging Format: The pager format transmits to an automatic digital pager. All
communication takes place in DTMF format. It will be necessary to check with the
paging company to ascertain the full message requirements. Delays after dialling can
be added in the same manner as for Domestic Reporting above. Some paging
networks require a digit at the start of the message to inform the network of the
number of digits to follow. This can be achieved by programming that number into
the field following the pause digits. A 0 must be programmed into the field
immediately following this digit. This serves to terminate the telephone number. To
achieve this, it may be necessary to join the 2 telephone numbers to create a single
number. This can be achieved by entering a 14 into the last digit of the primary
number and programming the remainder of the number into the secondary telephone
number locations.
4.3.37 PROGRAMMING CODES 134 & 135: Pager Terminator Digits
Some pager networks require a termination digit(s) to be communicated at the end of
the message. These termination digits inform the network that the message is
complete. Enter 11 for a or 12 for a
A 0 in these programming codes will be ignored. The default is 0 in both.
4.3.38 PROGRAMMING CODES 136 - 139: Site ID (Account Code)
The four digit Site ID for the telephone communicator is programmed into these
fields. The panel is identified at the receiver by this code.
The Code must be 4 digits long. Any code smaller than 4 digits must be preceded
with zero. To achieve this, enter a 10 into the unused fields.
On an LCD keypad, the four digits of the Site ID will be displayed at once, with the
current location flashing. This enables the installer to view the ID as a whole.
Note: If Sescoa Superfast format is used, the Site ID must not be higher than 3374
as this format does not support codes above this value.
4.3.39 PROGRAMMING CODES 144 - 159: Primary Telephone Number
These fields contain the primary telephone number which may be up to sixteen digits
in length. To combine the two telephone numbers into one, enter a 14 into code 159
then resume the telephone number in code 160 onwards.
To dial a 0, program a 10 into a field.
To dial a *, program an 11 into a field.
To dial a #, program a 12 into a field.
To create a 4 second pause in the number, program a 15 into a field.
To terminate a telephone number, program a 0 into a field. (This will prevent
previously entered numbers from being added to the number dialled).
Again, if an LCD keypad is used, the entire telephone number will be displayed at
once with the current location flashing.
4.3.40 PROGRAMMING CODES 160 - 175: Secondary Telephone Number
These fields contain the secondary telephone number which may be up to sixteen
digits in length. Program in the same manner as the primary number.
29
4.3.41 PROGRAMMING CODES 192 - 251: Reporting Codes
With the exception of Point ID, SIA and Sescoa Superfast, all other communication
formats are 4x2 reporting formats. This means that a 4 digit Site ID will be reported
along with a 2 digit reporting code. It should be noted that some reporting functions
require that both digits of the reporting code be programmed, while others require
only a single digit. Reporting codes with only one digit will have the second digit
added automatically by the panel.
A detailed explanation of each reporting function is provided under the codes for that
function.
Note 1: It is important that wherever space is provided for the programming of 2
reporting digits, both digits must be programmed.
Note 2: To disable any reporting function, program a 0 into the fields for that
function. (Both digits - if required).
Note 3: Any reporting function that requires a 0 to be reported as one of its digits,
should be programmed as a 10. (Hex value A is therefore not valid).
Note 4: If at any time, any of the reporting formats are changed to Point ID,
these fields will all be defaulted.
4.3.41.1 PROGRAMMING CODES 192 & 193: Circuit 1 Reporting Code
The reporting code for circuit 1.
Circuit reporting codes will be reported if a circuit goes into an open state.
Note: If the circuit type has been programmed as a Set/Unset circuit (using
programming codes 1 - 8), then the Close Reporting Code will be used rather than
the Circuit Reporting Code.
4.3.41.2 PROGRAMMING CODES 194 & 195: Circuit 2 Reporting Code
As above but relating to circuit 2.
4.3.41.3 PROGRAMMING CODES 196 & 197: Circuit 3 Reporting Code
As above but relating to circuit 3.
4.3.41.4 PROGRAMMING CODES 198 & 199: Circuit 4 Reporting Code
As above but relating to circuit 4.
4.3.41.5 PROGRAMMING CODES 200 & 201: Circuit 5 Reporting Code
As above but relating to circuit 5.
4.3.41.6 PROGRAMMING CODES 202 & 203: Circuit 6 Reporting Code
As above but relating to circuit 6.
30
4.3.41.7 PROGRAMMING CODES 204 & 205: Circuit 7 Reporting Code
As above but relating to circuit 7.
4.3.41.8 PROGRAMMING CODES 206 & 207: Circuit 8 Reporting Code
As above but relating to circuit 8.
4.3.41.9 PROGRAMMING CODE 208: Circuit Restoral Reporting Code
If a report has been generated for a circuit as above, when the circuit returns to the
clear state (closed), a Circuit Restoral Code will be reported for that circuit. The
circuit number will be appended to this digit to give a 2 digit code.
4.3.41.10 PROGRAMMING CODE 209: Circuit Bypass Reporting Code
A Circuit Bypass code will be reported if the panel is set with a bypassed circuit. The
circuit number will be appended to this digit to give a 2 digit code.
4.3.41.11 PROGRAMMING CODE 210: Circuit Tamper Reporting Code
The Circuit Tamper code will be reported if a circuit goes into a tamper condition.
The circuit number will be appended to this digit to give a 2 digit code.
4.3.41.12 PROGRAMMING CODE 211: Circuit Tamper Restore Code
The Circuit Tamper Restore code will be reported when a circuit, which has been in a
tamper condition, clears.
4.3.41.13 PROGRAMMING CODE 212: Close Reporting Code
The Close code will be reported when the panel is fully set. The user number of the
PIN code used to set the panel will be appended to this digit to give a 2 digit code.
Note: If the panel is set using the quick set key, the system will report a close by
user 1.
If the panel is set by means of a keyswitch using a Set/Unset circuit type, the system
will report a close by user 1.
4.3.41.14 PROGRAMMING CODE 213: Part Set Close Reporting Code
The Part Set Close code will be reported when the panel is part set. The user
number of the PIN code used to part set the panel will be appended to this digit to
give a 2 digit code.
Note: If the panel is part set using the quick part set key, the system will report a
part set close by user 1.
31
4.3.41.15 PROGRAMMING CODE 214: Open Reporting Code
The Open code will be reported when the panel is unset. The user number of the
PIN code used to unset the panel will be appended to this digit to give a 2 digit code.
Note: The Open code will not be reported if the panel was only part set and the Part
Set Close Reporting Code is disabled (0).
If the panel is unset by means of a keyswitch using a Set/Unset circuit type, the
system will report an open by user 1.
4.3.41.16 PROGRAMMING CODE 215: Cancel Reporting Code
A Cancel code will be reported when the bell is sounding and a user cancels the bell
by means of entering a valid PIN code or unsetting with a keyswitch. A Silent PA or
Silent Alarm will not cause the cancel code to be reported.
4.3.41.17 PROGRAMMING CODE 216: Abort Reporting Code
An abort code will be reported when a valid PIN code is entered during the 90
second abort code window. If a valid PIN code is not entered during the 90 second
window no abort code will be sent and the transmission of the alarm will be acted
upon by the central station.
4.3.41.18 PROGRAMMING CODES 222 & 223: Verification Reporting Code
A verification code will be reported if an alarm circuit activates and is subsequently
verified by an alarm circuit activation by a different circuit. A verification signal cannot
be sent by a circuit which alarms twice (a circuit cannot verify itself).
4.3.41.19 PROGRAMMING CODES 224 & 225: Duress Reporting Code
The Duress code will be reported if the panel is unset using user code 16 (Duress
code). See the user manual for further details.
4.3.41.20 PROGRAMMING CODES 226 & 227: Tamper Circuit Reporting Code
The Tamper Circuit code will be reported if the dedicated tamper circuit on the pcb
goes into an open condition.
4.3.41.21 PROGRAMMING CODES 228 & 229: Tamper Circuit Restore Reporting
Code
The Tamper Circuit Restore code will be reported if the dedicated tamper circuit on
the pcb returns to a closed condition.
32
4.3.41.22 PROGRAMMING CODES 230 & 231: Keypad Panic Reporting Code
The Keypad Panic code will be reported if the panic function on the keypad is
activated. Activation of this feature depends on the value programmed into code 36.
4.3.41.23 PROGRAMMING CODES 232 & 233: Keypad Fire Reporting Code
The Keypad Fire code will be reported if the fire function on the keypad is activated.
Activation of this feature depends on the value programmed into code 36.
4.3.41.24 PROGRAMMING CODES 234 & 235: Keypad Medical Reporting Code
The Keypad Medical code will be reported if the Medical function on the keypad is
activated. Activation of this feature depends on the value programmed into code 36.
4.3.41.25 PROGRAMMING CODES 236 & 237: AC Fail Reporting Code
The AC Fail code will be reported if the AC power is removed for a period longer
than the delay time programmed into code 11.
4.3.41.26 PROGRAMMING CODES 238 & 239: AC Restore Reporting Code
The AC Restore code will only be reported if an AC fail condition has occurred and
the AC power has then been restored for a period longer than the delay time
programmed into code 11.
4.3.41.27 PROGRAMMING CODES 240 & 241: Low Battery Reporting Code
The Low Battery code will be reported if the battery voltage drops below 11 volts
during an AC power fail condition. A low battery condition will also be recognised if
the battery fuse (F2) blows and the battery voltage drops below 11 volts while AC
power is still present.
4.3.41.28 PROGRAMMING CODES 242 & 243: Battery Restoral Reporting Code
The Battery Restoral code will be reported if there has been a low battery condition
and the battery has subsequently been re-charged.
4.3.41.29 PROGRAMMING CODES 244 & 245: Auto-Test Reporting Code
The Auto-Test code will be reported at regular intervals as per programming code
128. Reporting of this code is recommended as it provides verification that the
system is functioning correctly.
33
4.3.41.30 PROGRAMMING CODES 246 & 247: Auxiliary 12v Trouble Reporting Code
The Auxiliary 12v Trouble code will be reported when the fuse to the auxiliary outputs
(F4) has blown and requires replacement.
4.3.41.31 PROGRAMMING CODES 248 & 249: Sounder Trouble Reporting Code
The Sounder Trouble code will be reported when the fuse to the sounder output (F1)
has blown and requires replacement.
4.3.41.32 PROGRAMMING CODES 250 & 251: Download Done Reporting Code
The Download Done code will be reported when a download to the panel has been
successfully completed.
4.4 HARDWARE PANEL DEFAULT
If it is not possible to default the panel by using programming code 0 (i.e. if the engineer
code has been lost) the panel can be defaulted using the following procedure.
1. Remove the panel cover.
2. Remove all power from unit (mains and battery).
3. Press and hold the DEFAULT switch on the pcb while re-applying power.
4. Wait until the keypad bleep changes from constant to intermittent then release the
DEFAULT switch.
5. Enter the default engineer code to access programming mode.
6. Default the panel using programming code 0.
34
EVENT TABLE
5 EVENT LOG
The PI-8 control panel has a 19 event memory which can be viewed using a keypad,
these events are stored in non volatile memory (NVM) and can not be erased, nor will they
be lost in the event of a complete power loss to the panel. The NVM actually contains 300
events, these events can only be viewed if the event log is uploaded to a PC using the
up/download software.
To display the alarm memory proceed as follows:
1. Hold down the 0 key for three seconds.
2. The following combinations of indicators will show the type of event which has
occurred:
KEYPAD LEDS STATUS
READY LED on
READY and TAMPER LEDs on
READY LED flashing
READY and TAMPER LEDs flashing
POWER LED on
POWER LED flashing
TAMPER LED on
TAMPER LED flashing
POWER and TAMPER LEDs flashing
In addition to the above, any circuit LEDs show which circuits were bypassed/alarmed, the
first circuit to alarm is also identified in the event log.
3. Press the * key to scroll back through the events.
4. Press the # key to exit this mode. If the # key is not pressed and there are no further
key strokes this mode will timeout in 15 seconds.
Example
1. Ensure that the panel is not set.
2. Hold down the 0 key for three seconds.
3. e.g. The READY, TAMPER and CIRCUIT 2 LEDs were on and CIRCUIT 1 LED is
flashing.
This combination of LEDs means that circuits had alarmed during a set cycle
(READY and TAMPER LEDs), while the circuit 1 and circuit 2 LEDs show that
circuits 1 and 2 were the circuits which alarmed, also that circuit 1 was the first
circuit to alarm.
4. Press the * key to advance to the next entry in the event log.
5. e.g. The POWER LED was flashing.
This would indicate that prior to the event indicated in point 3 above, a low
battery condition was detected.
6. Repeat step 4 until all events have been viewed.
To exit this mode press the # key.
EVENT TYPE
Circuits bypassed during a set cycle
Circuits alarmed during a set cycle
Circuits bypassed during a part set cycle
Circuits alarmed during a part set cycle
Mains failure
Low battery
Tamper
Panic
Duress
35
6 PROGRAMMING CODES/DEFAULTS
CODE
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
DESCRIPTION
RESET TO FACTORY DEFAULT
CIRCUIT 1 TYPE
CIRCUIT 2 TYPE
CIRCUIT 3 TYPE
CIRCUIT 4 TYPE
CIRCUIT 5 TYPE
CIRCUIT 6 TYPE
CIRCUIT 7 TYPE
CIRCUIT 8 TYPE
SOUNDER TIME
ENTRY/EXIT TIME
AC FAIL DELAY
PART SET OPTIONS
QUICK SET ENABLE
ENABLE SILENT ALARM
ENABLE SILENT KEYPAD PANIC
ENGINEER RESET
AUX OP RESET
SOUNDER DELAY ENABLE
SOUNDER DELAY TIME
AUX OP ALARM
AUX O/P PANIC
AUX O/P OPEN (UNSET)
AUX O/P CLOSE (FULL SET)
AUX O/P AC FAIL
AUX O/P AC RESTORE
AUX O/P DURESS
AUX O/P LOW BATTERY
AUX O/P TAMPER
SECONDARY ENTRY DELAY
TELEPHONE LINE MONITORING
FIRE,MEDICAL,PANIC KEY OPTIONS
BYPASSING/FORCE SETTING
AUX O/P LINE FAULT
SET WITH TAMPER ALARMED
PUSH TO SET
36
DEFAULT
ENTER 0 TO RESET
1 : ENTRY/EXIT
2 : ENTRY ROUTE
4 : NORMAL ALARM
4 : NORMAL ALARM
4 : NORMAL ALARM
4 : NORMAL ALARM
4 : NORMAL ALARM
3 : PA
15 : 20 MINUTES
5 : 30 SECONDS
11 : 5 MINUTES
0 : STAY SET
ENABLED
0 : QUICK SET
ENABLED
0 : SILENT ALARM
DISABLED
0 : SILENT PANIC
DISABLED
0 : DISABLED
1 : USER CODE
RESET
0 : DISABLED
12 : 10 MINUTES
5 : AUX O/P 2 HIGH
4 : AUX O/P 1 HIGH
9 : AUX O/P 3 LOW
6 : AUX O/P 3 HIGH
0 : DISABLED
0 : DISABLED
4 : AUX O/P 1 HIGH
0 : DISABLED
5 : AUX O/P 2 HIGH
5 : 30 SECONDS
0 : DISABLED
2 : DISABLED
0 : ONLY
BYPASSING
ENABLED
0 : DISABLED
0 : DISABLED
0 : DISABLED
NEW
VALUE
36
37
38
39
40
41
42
43
44
45
46
48
112
113
114
115
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
144
145
146
147
148
149
150
151
152
153
154
UNSET TAMPER REPORTING
SYSTEM TIME : HOURS
SYSTEM TIME : MINUTES
SYSTEM DAY OF MONTH
SYSTEM MONTH
SYSTEM YEAR
AUTO TEST TIME : HOURS
AUTO TEST TIME : MINUTES
MANAGED RESET SEED CODE
AUX O/P VERIFICATION
AUX O/P ABORT
VERIFIED ALARM TIME WINDOW
ENGINEER DIGIT 1
ENGINEER DIGIT 2
ENGINEER DIGIT 3
ENGINEER DIGIT 4
DIALLER OPTIONS
COMMUNICATION DELAY
DIAL ATTEMPTS
AUTO TEST INTERVAL
DOWNLOADING OPTIONS
RINGS BEFORE ANSWER
TX DELAY AFTER HANDSHAKE
PRIMARY DIALLER FORMAT
SECONDARY DIALLER FORMAT
PAGER TERMINATOR DIGIT 1
PAGER TERMINATOR DIGIT 2
SITE ID DIGIT 1
SITE ID DIGIT 2
SITE ID DIGIT 3
SITE ID DIGIT 4
PRIMARY TELEPHONE NUMBER DIGIT 1
PRIMARY TELEPHONE NUMBER DIGIT 2
PRIMARY TELEPHONE NUMBER DIGIT 3
PRIMARY TELEPHONE NUMBER DIGIT 4
PRIMARY TELEPHONE NUMBER DIGIT 5
PRIMARY TELEPHONE NUMBER DIGIT 6
PRIMARY TELEPHONE NUMBER DIGIT 7
PRIMARY TELEPHONE NUMBER DIGIT 8
PRIMARY TELEPHONE NUMBER DIGIT 9
PRIMARY TELEPHONE NUMBER DIGIT 10
PRIMARY TELEPHONE NUMBER DIGIT 11
37
0 : DISABLED
0
0
1
1
0
99 : DISABLED
99 : DISABLED
0
0 : DISABLED
0 : DISABLED
30 : MINUTES
9
9
9
9
3 : BOTH
TELEPHONE
NUMBERS TONE
DIAL
3 : 20 SECONDS
0 : DISABLED
1 : 1 DAY
1 : DOWNLOADING
ENABLED
15
10 : 200mS
9 : ADEMCO FAST
9 : ADEMCO FAST
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
3
0
3
0
3
0
3
0
3
0
3
0
3
0
2
0
3
0
3
3
4
0
4
0
PRIMARY TELEPHONE NUMBER DIGIT 12
PRIMARY TELEPHONE NUMBER DIGIT 13
PRIMARY TELEPHONE NUMBER DIGIT 14
PRIMARY TELEPHONE NUMBER DIGIT 15
PRIMARY TELEPHONE NUMBER DIGIT 16
SECONDARY TELEPHONE NUMBER DIGIT 1
SECONDARY TELEPHONE NUMBER DIGIT 2
SECONDARY TELEPHONE NUMBER DIGIT 3
SECONDARY TELEPHONE NUMBER DIGIT 4
SECONDARY TELEPHONE NUMBER DIGIT 5
SECONDARY TELEPHONE NUMBER DIGIT 6
SECONDARY TELEPHONE NUMBER DIGIT 7
SECONDARY TELEPHONE NUMBER DIGIT 8
SECONDARY TELEPHONE NUMBER DIGIT 9
SECONDARY TELEPHONE NUMBER DIGIT 10
SECONDARY TELEPHONE NUMBER DIGIT 11
SECONDARY TELEPHONE NUMBER DIGIT 12
SECONDARY TELEPHONE NUMBER DIGIT 13
SECONDARY TELEPHONE NUMBER DIGIT 14
SECONDARY TELEPHONE NUMBER DIGIT 15
SECONDARY TELEPHONE NUMBER DIGIT 16
CIRCUIT 1 REPORT CODE DIGIT 1
CIRCUIT 1 REPORT CODE DIGIT 2
CIRCUIT 2 REPORT CODE DIGIT 1
CIRCUIT 2 REPORT CODE DIGIT 2
CIRCUIT 3 REPORT CODE DIGIT 1
CIRCUIT 3 REPORT CODE DIGIT 2
CIRCUIT 4 REPORT CODE DIGIT 1
CIRCUIT 4 REPORT CODE DIGIT 2
CIRCUIT 5 REPORT CODE DIGIT 1
CIRCUIT 5 REPORT CODE DIGIT 2
CIRCUIT 6 REPORT CODE DIGIT 1
CIRCUIT 6 REPORT CODE DIGIT 2
CIRCUIT 7 REPORT CODE DIGIT 1
CIRCUIT 7 REPORT CODE DIGIT 2
CIRCUIT 8 REPORT CODE DIGIT 1
CIRCUIT 8 REPORT CODE DIGIT 2
CIRCUIT RESTORAL REPORT CODE
CIRCUIT BYPASS REPORT CODE
CIRCUIT TAMPER REPORT CODE
CIRCUIT TAMPER RESTORE CODE
CLOSE REPORT CODE
PART SET CLOSE REPORT CODE
OPEN REPORT CODE
CANCEL REPORT CODE
38
216
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
5
6
0
2
0
3
0
3
0
2
0
1
0
3
0
0
0
0
0
0
0
0
0
0
0
0
ABORT REPORT CODE
VERIFICATION REPORT CODE DIGIT 1
VERIFICATION REPORT CODE DIGIT 2
DURESS REPORT CODE DIGIT 1
DURESS REPORT CODE DIGIT 2
TAMPER CIRCUIT REPORT CODE DIGIT 1
TAMPER CIRCUIT REPORT CODE DIGIT 2
TAMPER CIRCUIT RESTORE CODE DIGIT 1
TAMPER CIRCUIT RESTORE CODE DIGIT 2
KEYPAD PANIC REPORT CODE DIGIT 1
KEYPAD PANIC REPORT CODE DIGIT 2
KEYPAD FIRE REPORT CODE DIGIT 1
KEYPAD FIRE REPORT CODE DIGIT 2
KEYPAD MEDICAL REPORT CODE DIGIT 1
KEYPAD MEDICAL REPORT CODE DIGIT 2
A.C. FAIL REPORT CODE DIGIT 1
A.C. FAIL REPORT CODE DIGIT 2
A.C. RESTORE REPORT CODE DIGIT 1
A.C. RESTORE REPORT CODE DIGIT 2
LOW BATTERY REPORT CODE DIGIT 1
LOW BATTERY REPORT CODE DIGIT 2
BATTERY RESTORE REPORT CODE DIGIT 1
BATTERY RESTORE REPORT CODE DIGIT 2
AUTO TEST REPORT CODE DIGIT 1
AUTO TEST REPORT CODE DIGIT 2
AUXILIARY 12V TROUBLE REPORT CODE DIGIT
1
0 AUXILIARY 12 V TROUBLE REPORT CODE DIGIT
2
SOUNDER TROUBLE REPORT CODE DIGIT 1
SOUNDER TROUBLE REPORT CODE DIGIT 2
DOWNLOAD DONE REPORT CODE DIGIT 1
DOWNLOAD DONE REPORT CODE DIGIT 2
0
0
0
0
39
WARRANTY
Guardall Ltd guarantees all Pi-8 Comms Control Panels against defective parts and
workmanship for 24 months from date of purchase. Guardall Ltd shall, at its option, repair
or replace the defective equipment upon return of such equipment to Guardall Ltd. This
warranty applies ONLY to defects in components and workmanship and NOT to damage
due to causes beyond the control of Guardall Ltd, such as incorrect voltage, lightning
damage, mechanical shock, water damage, fire damage, or damage arising out of abuse
and improper application of the equipment.
Note: Wherever possible, return only the PCB to the place of purchase. DO NOT return
the metal enclosure.
The Pi-8 Comms is a product of
Guardall Ltd
and is manufactured by
Guardall Ltd
Lochend Industrial Estate
Newbridge
Edinburgh
EH28 8PL
tel. 0131-333-2900
fax 0131-333-4919
Web site http://www.guardall.co.uk
40
Part number:320699-0B

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