Arrowhead Alarm Products Elite S V9 Operating instructions
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Installation &
Programming Guide
ELITE S Version
Arrowhead
Alarm Products Ltd
(8/16 ZoneControl Communicator) V9
344b Rosedale Road
Albany
AUCKLAND
PO Box 303-096
AUCKLAND 1330
NEW ZEALAND
Designed & Manufactured in New Zealand to Meet NZS:4301/93
Copyrightby Arrowhead Alarm Products Ltd
November 2006 ELITE S V9.05 and below.
This manual relates tothe Arrowhead ELITE S V9 alarm control panel
software version V9.00 to V9.05.
Disclaimer
Arrowhead Alarm Products Ltd make no warranties regarding the
content of this document and assume no responsibility for any
omissions or errors contained herein.
To the best of our knowledge the information contained in this manual
is correct at the time of printing. Arrowhead Alarm Products Ltd reserve
the rightto make changestothe features and specifications at any
time without notice in the course of product development.
PHONE: (09) 414 0085
FAX: (09) 414 0088
FREEPHONE: 0800 700 123
Arrowhead Alarm
Products
L
td
This ELITE S Version 9 alarm control panel has been designed to provide the most requested features for
both the installer & the end-user. These features include ease of installation, ease of programming and
user friendly operation all in a package which is reliable, functional and attractive.
Utilising many years of experience in the security industry and implementing valuable feedback, we are
proud to provide you with a new generation of alarm controller. The ELITE S V9 is a New Zealand de-
signed and built product which brings you the quality and features which you deserve at an affordable
price. In addition to the the advanced design, only the highest quality components have been used in the
production of this Alert panel to ensure the highest degree of reliability.
This manual will guide you through the installation and programming of your Elite S alarm panel. For addi-
tional information regarding the operating instructions and options, please refer to the “Elite S User’s
Guide”.
Page 3
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Page
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CONNECTION DIAGRAM 5
Wiring to the Panel 5
INPUT OPTIONS 6
Different Input Configurations 6
Zone Wiring Examples 7
Other Inputs 8
OUTPUTS 8
Description of Outputs 8
DTU Board 8
Serial Board 8
ACCESSORIES 9
Radio Receiver 9
Voice Board 9
Proximity Readers 10
Night Monitor Keypad 12
KEYPAD INDICATIONS 13
LED Keypad 13
LCD Keypad 13
KEYPAD MEMORY DISPLAY 15
LED Keypad 15
LCD Keypad 17
KEYPAD ADDRESS ASSIGNMENT 18
LED Keypad 18
LCD Keypad 19
LCD KEYPAD LOCAL EDIT MODE 20
Adjusting Backlighting and Buzzer Tone 20
LCD Keypad Local Edit Mode 21
PROGRAM MODE ACCESS 27
Accessing Program Mode 27
Exiting Program Mode 28
LCD PROGRAM MENUS 29
LCD Keypad Menu Programming 29
LCD Keypad Main Menu Headings 32
LCD Keypad Sub-Menu Headings 33
SPECIAL KEYPAD FUNCTIONS 36
Special Arming Mode with Two Areas 36
Chime Mode On/Off 36
PROGRAMMING GUIDE 37
USERS 37
User Codes 37
User Type 37
User Areas 38
User Arm/Disarm options 38
User Program Mode Access 39
Radio User Type & Panic options 39
User Time-zone Control 40
User Keypad assignment 40
User Output Mask 41
User turns Output On or Off 41
Arm/Disarm 4+2 Codes 88
Learn/Find and Delete Radio Key Codes 42
MISCELLANEOUS PANEL & CLOCK SETTINGS 44
Installer Code 44
Duress Digit 44
Dial Delay 44
Supervised Detector Timer 44
Two Trigger Time 44
Mains Fail Report Delay 44
Receiver Fail Timer 44
Upload/download Site Code Number 45
Temporary Output Disable 45
Miscellaneous Installer & Panel Options 45
Hide User Codes 46
Setting Time, Date & Daylight Saving 47
Page 4
OUTPUTS 48
Miscellaneous Output Options 48
Output On Delay, Pulse, Reset & Chime Times 50
Output Voice Board Remote Control Start message 50
Un-Map an Output 50
AREAS 51
Area Arm and Special Function Options 51
Area Arm/Stay Pulse & Chirps to Outputs 52
Area Exit Delay Beeps to Keypads 54
Arm & Stay Exit Delay Time 54
Monitoring Account Code Number 55
Remote Arm/Disarm DTMF Code & Start Voice Message 55
Area Delinquency Time 56
Auto-Arm/Disarm Time-zone 56
KEYPADS 57
Keypad Area Assignment 57
Keypad Button Operations, Misc Beeps and LED Control 57
Keypad “ARM”, “STAY”, “A” & “B” Button Options 59
Keypad Number and “CONTROL” Button to Output Mask 62
Keypad “Panic” “Fire” & “Medical” Alarms to Outputs & KP Buzzer 63
Keypad Chime Timer 65
Keypad “Panic” “Fire” & “Medical” Alarms 4+2 Codes 88
KEY-SWITCHES 66
Key-switch Area Assignment 66
Key-switch Arm/Disarm Options 66
ZONES 67
Zone Area Assignment 67
Zone Alarm Type Options 68
Zone EOL & Vibration Settings 69
Zone Radio Type 70
Zone Alarms to Output & Keypad Buzzer Mapping 71
Armed & Stay Mode Entry Delay Times 74
Zone Lockout Time 74
Various Zone 4+2 Report Codes 88
Various Zone CID Report Codes 75
ZoneInactivity Timer 76
Learn/Find & Delete Radio Zone Codes 76
TIME-ZONES 77
Time-Zone Days 77
Time-Zone Start & Stop Times 77
DIALLER 78
Enable Dialler and Set Type of Dialling 78
Dialling Cycles, Auto-answer Ring Count 79
Time to First Test Call 79
Keypad & Output 1 Listen-in Options 79
Dialling Pre-fix Number 80
Keypad “Panic” “Fire” & “Medical” Alarms CID Report Code 80
Output, Microphone & Voice Kiss-off DTMF Remote Codes 80
Miscellaneous Voice Reporting Message Numbers 81
TELEPHONE NUMBERS 82
Programming Telephone Numbers 82
Reporting Formats 82
Dial Progress Options 83
Enable/Disable Miscellaneous Dialler Reports 85
Call Divert Numbers & Options 86
MISCELLANEOUS 4+2 CODES 88
Mains/Battery/Tamper/Duress & Arming 4+2 Codes 88
DIAGNOSTIC & DEFAULT OPTIONS 91
Display Software Version, Keypad Number, Keypad Areas 91
Display Active Time-zones, battery Voltage 91
Start Walk-Test Mode 91
Read or Write to DTU 91
Restore Defaults 92
Clear Memory Buffer 92
Start a Call-Back Call 92
PROGRAM SUMMARY GUIDE 93
QUICK START PROGRAM GUIDE 111
CONTACT ID CODE SUMMARY 114
Page 5
RESETTING THE PANEL
Power-up the panel with the tamper input in
alarm while shorting out “RST” pins for 5
seconds (you must short out the “RST” pins
before the panel LED starts to flash).
This will default: User Codes, Telephone
Numbers, Installer Code & Account Codes.
It will also Disarm All Armed Areas.
The Reset feature is disabled if Installer
Lockout is turned on.
External Alarm
+
_
Internal Alarm-Piezo
Pos
Neg
Gnd Ant
Clock
Data
RX-16/303
Receiver
17V
AC
AC
Lin
Dat
Clk
Neg
Pos
C
O
NN
ECTI
O
N
D
IA
G
R
AM
Link 1
Outputs
Gn 12V 1 2 3 4 Gn 12V 1 C 2 3 C54C 6 7 C 8 Tmp Gn 12V Gn
12V
Heatsink
NO
NC
C
EXPANSION
Red
Blk
Line
In
Out
Line
In
Phone
Out
Mains
Earth
LED
Keypad
Optional Listen-in Keypad Connection
Passive Infra-
Red Detector
0v
12v
Tmp
Tmp
Com
N/C
2k2
+
_
+
_
2k2
230V
AC
Input
ELITE S
V9.00
Battery
+
_
TELECOM
2k2
Latching Smoke Detector /
Normally Open Contacts
12v
0v
ZONE 1
ZONE 8
2k2
2k2
2k2
2k2
2k2
2k2
RST
OUTPUT 4
RELAY
CONTACTS
Page 6
2k2
Tamper
4k7 8k2
Tamper
Alarm or Key-sw itch 1 Contact
Alarm or Key-sw itch 2 Contact
NC or NO NC or NO
I
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S
The ELITE S has 9 separate programmable monitored analogue inputs,
8 x Programmable, multi-state detection inputs
1 x Programmable tamper input ( with optional Key-switch functions)
Each input must be terminated with the appropriate value or combination of end-of-line resistors,
even if the input is unused.
ZONE INPUTS - Each of the 8 zone inputs can be assigned one of the following End of Line (EOL) configuration
options,
Zone EOL Type (P125E) Input Resistor Comments
0 (Short circuit) Loop EOL
1 1k (Brown, Black, Red) Single EOL
2 1k5 (Brown, Green, Red) Single EOL
3
(P126E “Vibration Mode” only
supports this EOL value)
2k2 (Red, Red, Red) Single EOL
4 3k3 (Orange, Orange, Red) Single EOL
5 3k9 (Orange, White, Red) Single EOL
6 4k7 (Yellow, Violet, Red) Single EOL
7 5k6 (Green, Blue, Red) Single EOL
8 6k8 (Blue, Grey, Red) Single EOL
9 10k (Brown, Black, Orange) Single EOL
10 12k (Brown, Red, Orange) Single EOL
11 22k (Red, Red, Orange) Single EOL
12 2k2 Tamper, 4k7 Zone Zone & Tamper
13 3k3 Tamper, 6k8 Zone Zone & Tamper
14 2k2 Tamper, 4k7 LowZone, 8k2 High Zone Zone Doubling, with Tamper
15 4k7 LowZone, 8k2 High Zone Zone Doubling, No tamper
Type 1-11 (Single EOL no Tamper)
Type 14 (Zone Doubling with Tamper)
n/c
n/o EOL Resistor
Type 0 (Short/Loop Circuit)
n/c
Type 12-13 (Single Zone with Tamper)
2k2 or 3k3
Alarm Contact
n/c or n/o
4k7 or 6k8
Tamper Resistor
Page 7
Zone
0V
N/C
Short circuit loop, No EOL
N/C
Zone
0V
2k2 EOL, No Tamper
2k2
N/O
2k2
0V
Zone
Type 12 Configuration. Alarm & Tamper monitoring (contacts can be N/C or N/O)
4k7
N/C or N/O
Zone ResistorTamper Resistor
Wiring a Smoke Detector (N/O) for Alarm & Tamper Monitoring
Zone
0V
2k2
4k7 Alarm Contact (N/O)
Smoke Alarm Internal Connections
Alarm
Alarm
0V
+12V12V
0V
Wiring a PIR Detector (N/C) for Alarm & Tamper Monitoring
Zone
2k2
4k7 Alarm Contact (N/C)
PIR Internal Connections
Alarm
Tamp
Tamp
Alarm
0V
+12V
Tamper Contact (N/C)
0V
12V
EXAMP
L
E
S
O
F
Z
O
N
E
W
I
R
I
N
G
O
PTI
O
N
S
Type 15 Configuration.Zone Doubling, NO Tamper (contacts can be N/C or N/O)
4k7
0V
Zone
N/C or N/O
Lo-Zone Resistor Hi-Zone Resistor
N/C or N/O
8k2
Page 8
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cont.
TAMPER - A 24Hr tamper circuit is available for monitoring system tampers. This Tamper circuit is programmable
as either normally closed loop or 2k2 EOL supervision (the default is normally closed loop). Any Tamper alarms on
this input are mapped to alarm outputs in the same manner as for detection zones 1-16. Using Dual-End-of-Line
resistors (Refer to Zone Type 15 on Page 6) the Tamper input can also provide two key-switches. The Low key-
switch (4k7 resistor) will be Key-switch 1 while the High key-switch (8k2 resistor) will be Key-switch 2.
In addition to the Zone & Tamper inputs, you will find the following additional inputs on the control PCB;
AC - Connect the 17VAC yellow wires (no polarity) from the transformer to the terminals marked AC on the PCB.
The panel includes a mains transformer rated at 1.4 amps at 17 VAC.
EARTH - Connect the mains earth to the appropriate terminal on the mains terminal block in the control box
cabinet. Also connect a lead from this earth point to the terminal marked with the Earth symbol (next to AC
terminals) on the panel PCB.
BATTERY - Connect a sealed lead acid rechargeable 12VDC battery to the terminals labelled red and black on the
control panel being careful to observe the correct polarity. The minimum recommended battery capacity is 7 amp
hours. Battery charge current at these terminals is limited to 300mA maximum. The battery connection is protected
against short circuits by a thermal fuse (F1). The panel performs a dynamic load test on the battery every 15
seconds and if it fails the test at anytime it will flash the Battery LED.
LINE IN - These terminals are used to connect the panel to the incoming telephone line. The dialler uses this line
for reporting alarm events. An ADSL filter will be required before the Line In terminals if ADSL is present in the
building.
LINE OUT - These terminals are used to connect telephones and other communication equipment to the incoming
phone line via the panel dialler circuit. The telephone line is passed through the controller to ensure that the line is
available tothe controller when it is required.
O
U
TP
U
T
S
12 VOLT OUTPUTS - There are three 12VDC outputs on the panel PCB. These 12 volt outputs are regulated and
Thermal fuse protected against short circuits. The accessory outputs are marked 12V and 0V, while the keypad
buss 12V supply is labelled “POS” & “NEG”. The 12V outputs are supplied by thermal fuses F2 & F3. The
recommended maximum total load that should be drawn from all of the 12V outputs is 1A.
OUTPUTS 1 & 2 - These fully programmable, high current, open drain (high-going-low) type FET outputs capable
of switching up to 1.5A @ 12VDC. These 2 outputs are normally set as switched outputs, providing power for 12V
sirens or piezos. If required, these outputs can be programmed to be siren outputs designed to drive an 8 ohm 10
watt horn speaker on each output (see P37E option 1). Also if a horn speaker is connected to Output #1 you may
select (Refer to P175E 7E program address) the listen-in feature to this output as well so that the dialling sequence
can be heard at the speaker.
OUTPUT 3&4 - These are low current, open collector (high-going-low) type transistor outputs capable of switching
up to400mA. Like Outputs 1 & 2 they are fully programmable.
NOTE: - Connecting devices that draw current in excess of 400mA to outputs 3 or 4 will damage the output.
OUTPUT 4 Relay - This is a relay output (rated 1A@30VDC) that works in parallel with the transistor output with
single pole changeover contacts. If required, the Common (C) contact of the relay can be connected to either 12V
or 0V via Link 1. Like Outputs 1 & 2 it is fully programmable.
KEYPAD PORT - The terminals marked POS, NEG, CLOCK, & DATA make up the communications port which the
keypads and other intelligent field devices use to talk to the controller. The terminals are connected to
corresponding terminals on the remote devices. The "lin" terminal is only used by the keypads and utilises a fifth
wire to provide a communicator “listen-in” facility. This feature is particularly useful when servicing monitoring
faults. The keypad 12V supply (POS,NEG) is protected by fuse F3.
EXPANSION PORT - The expansion port allows connection of the RS232 serial board, 90 second Voice Board,
DTMF Board or EEPROM data transfer board (DTU). The serial board allows direct connection of a PC running the
Upload/Download software. The 90 second voice board allows voice messages to be programmed for monitoring
purposes. The Voice & DTMF boards allow Touchtone Code remote control via a telephone. The DTU allows for
program “Cloning” from one panel to another.
Page 9
ACCE
SS
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S
INSTALLING RX-16 RADIO RECEIVER
The panel can have wireless capability via the Arrowhead RX-16 receiver module. The receiver will add wireless ca-
pability to your system in the form or wireless PIR detectors, Wireless Radio-key transmitters and wireless reed
switch transmitters.
The RX-16 connects to the same communications port as the keypads. The RX-16 is available in 3 frequencies,
303.875mhz, 433.92mhz or 27mhz. Multiple RX-16’s can be connected tothe panelto increase the coverage range if
desired.
The green LED fitted to the RX-16 receiver will flash at 1 second intervals when in "Learn" mode (see P18E &
P164E). The LED will also turn on when it is receiving an actual radio transmission (On Steady).
INSTALLING 90 SECOND VOICE or DTMF BOARD
The panel can also be fitted with a 90 second Voice Board or DTMF module. The Voice board stores either alarm
event messages for Voice dial monitoring and /or status messages for use with Command Control. The DTMF board
provides decoding of keypad numeric entries from a remote telephone. The panel Voice or DTMF Boards are in-
stalled directly onto the motherboard via the "SERIAL" socket.
Installation procedure for the Voice or DTMF Board module is as follows.
1 Power-down the panel fully before starting the installation procedure.
2 Carefully plug the Voice or DTMF Board into the SERIAL socket (it will only fit in one direction).
3 Power-up the panel.
Speech message programming
Once you have installed the Voice Board you can record your personalised speech messages into the module with
the speech programmer (the programmer plugs onto the 10 way strip connector on the voice board, observe polarity
with the locating pin).
Before programming your voice messages you should work out a list of the messages you would like to be sent for
each alarm type and write them down in order, giving them a message number. These messages should then be
recorded in the same order they are written down so you know what the message number is when programming
alarms to messages.
To record your messages once the programmer is installed, first press the reset button on the side of the Voice
Board, then hold the programmer about 10 cm away from the mouth and speak clearly at normal level into the micro-
phone while holding down the "REC" button. When you reach the end of your message release the REC button.
(NOTE: Each individual message must be longer that 2 seconds duration). When recording your voice alarm mes-
sage, you must ensure that you clearly identify the origin of the call. You can play the message back through the
programmer by first pressing the reset button then by pressing the "PLAY" button momentarily. Because the panel
can address many individual voice messages you must store individual messages at what is known as recording
slots within the Voice Board. These recording slots are recorded sequentially, one message starting where the other
finishes. Every time you press and release the REC button on the programmer, you create an end of message
marker. These markers are used to define the recording slots within the Voice Board and can be of varying length
according to each message duration.
To re-record your messages you must first press the "RESET" button on the speech module to get back to recording
slot # 1. Once you are at slot # 1 you can re-record your messages in order as required.
NOTE: When recording multiple messages you only press the “RESET” button once at the beginning then record all
messages sequentially as stated above. When you have finished recording all of your messages you can then press
the “RESET” button to allow play-back of the recording messages for verification purposes.
When you have finished recording your alarm messages, unplug the programmer and the process is complete. You
must now go tothe program addresses and assign the individual messages tothe specific functions.
DTMF BOARD
The panel can be supplied from the factory with the DTMF Decoder fitted onto the main control board. If you have
purchased the model with the DTMF Decoder on-board you have all of the features described below for the optional
DTMF Board without having to fit it. However, if the model you have does not have the DTMF Decoder fitted you will
need to fit the DTMF Board to get the features.
The DTMF Board does not have speech capability but does have a decoder to accurately decode the buttons from a
touchtone telephone. The DTMF board can allow remote Arm/Disarming and remote control of the outputs using 4
digit codes. Instead of voice prompts the remote control features are enunciated by one long beep for OFF and three
short beeps for ON.
For example, if you had a code of 1234 for area A remote Arm/Disarm (P63E1E) and you entered this code at the
remote telephone after the panel had answered the call, if Area A was currently Armed the panel would send 3 short
beeps to indicate that it was Armed or On. By now pressing the <*> button on the telephone the panel will disarm
area A and return one long beep to indicate that it is now Disarmed or Off.
Page 10
It will also allow alarms to be kissed off by a 4 digit code to secure the kiss-off procedure when in Domestic Alarm
reporting format. If the on-board DTMF Decoder or the optional DTMF Board are fitted, you must use the <#>
button to kiss-off any Domestic Alarm reports. If a code is programmed at location P175E14E, you must use that
code followed by the <#> button to kiss-off the domestic alarm reports.
If you make a mistake when entering the kiss-off code, pressing the <#> button will clear all previous digits received
at the panel and you can now enter in the correct code.
NO ON-BOARD or OPTIONAL DTMF BOARD
If the panel does not have the on-board DTMF Decoder and the DTMF Board is not fitted, you cannot perform any
remote control functions regarding arming/disarming or outputs but you are still able to kiss-off a Domestic Alarm
report by using any button on a pushbutton (DTMF) telephone.
With no DTMF Decoder on the panel it is unable to decode actual single digits from the telephone but the panel can
differentiate between single tones (as produced by an answer-phone or dial tones) and the complex tones
produced by DTMF telephones.
INSTALLING PROXIMITY READER
There are three proximity readers that can be connected tothe control panel. They are;
1-Arm Reader
2-Proximity only Access Reader
3-Proximity and keypad (PIN) Access Reader.
The ARM Reader is generally to be used for selective arming or disarming of either Area “A” or “B” or both.
By presenting a valid access tag or card to the reader the user can then arm or disarm the panel using the “A” & “B”
buttons on the reader. On presenting a validtag tothe reader, the current status of Areas A & B will be shown on
the two LED’s. The user has 4 seconds to make a new selection before the reader will timeout and the tag will have
to be re-presented again. The Areas allowed to be controlled by the user must be programmed by the installer. If
the User is allowed to fully Arm or arm Stay Mode then they can cycle through the various states (eg Disarmed, Full
Armed, Stay Armed). As the “A” or “B” button is pressed the associated LED will change to indicate the new state,
eg if the Disarmed state was selected the LED will be GREEN, If the Armed state was selected the LED will be
RED and if Stay Mode was selected the LED would be flashing RED. Four seconds after the last button was
pressed the reader will action the new armed status and the LED’s willturn off. If the reader has also been pro-
grammed to allow the “1& 3 PANIC” function at that keypad number a “PANIC” alarm will be generated if the “A” &
“B” buttons are pressed simultaneously (see P72E option 5).
NOTE: From the disarmed state you can select Armed or Stay modes but if already Armed or in Stay Mode you
MUST disarm first (letting the reader timeout) before you can select a new armed state.
The second reader is generally going to be used as an access control reader although if the tag is allowed
to Arm/Disarm the alarm then this will also happen when the tag is presented. For access control, if atag or card is
presented tothe readerthe associated door lock will release via an output on the control panel. There is also an
output at the reader which can be used to unlock the door if desired (see drawing on following page for details).
The output number at the reader follows the keypad address number, eg if the reader has been assigned to keypad
address 5, the output at the reader will follow all programming associated with output 5.
The third reader is generally going to be used as an access control reader as well although if the tag is al-
lowed to Arm/Disarm the alarm then this will also happen when the tag is presented. This reader combines a prox-
imity reader with a full keypad. Depending on program optionsthe reader can be set-up to operate on a proximity
tag or card only, on entering of a valid user code only, or on presentation of the tag/card followed by the user code
(PIN). If the presented tag requires a PIN number to be entered, the LED on the reader will flash for 5 seconds after
a valid tag to indicate that the PIN number should now be entered. There is also an output available on this reader
that follows the same addressing functionality as described above.
If the two button “PANIC”, “FIRE” or “MEDICAL” functions are programmed tothe keypad (see P72E Options 5,6 &
7) these manual alarms can be generated at the reader by pressing “1” & “2” for “PANIC”, “3” & “4” for “FIRE” and
“5” & “6” for “MEDICAL” alarms.
On each of the three readers there is an optional input (see drawings on following page). This input is not EOL
monitored so it should only be used for non-critical monitoring functions, eg monitoring an exterior gate to show if it
is currently opened or closed. A zone can be programmed to use this input for its trigger (see P122EOption 4) so
that the state of the input can be displayed on a keypad. The inputs are linked to the selected keypad address pro-
grammed into the reader. For example if the reader being used was programmed as keypad # 1, then the input can
be assigned to zone 1 or 9 (at location P122E), if the keypad address was # 8, the input can then be assignedto
zone 8 or 16.
Also, the LED on readertypes 2 & 3 can be linked to an output so that special functions may be displayed at the
reader if desired (see P98E).
Each reader must have a unique keypad address number from 1-8 assigned so that the various program options
can be assigned. This is explained in detail on Page 65.
NOTE: The proximity readers flash out the assigned keypad address number on the LED whenever the panel is in
“Installer Program” Mode. This allows quick identification of the assigned address for each reader.
Page 11
P
R
O
XIMITY
R
EA
D
E
R
S
RED
ORANGE
GREEN
BROWN
BLUE
BLACK
YELLOW
WHITE
RED
ORANGE
GREEN
BROWN
BLUE
BLACK
YELLOW
WHITE
A B
PANIC
RED
ORANGE
GREEN
BROWN
BLUE
BLACK
YELLOW
WHITE
1
3
5
7
9
#
2
4
6
8
0
*
Proximity Arming Reader
Proximity Reader Only
Proximity & PIN Reader
DIODE
Control Panel
12V
0V
KP CLOCK
KP DATA
N/O Input
Electric Lock
12V0V Lock Supply
12V
0V
DIODE
Control Panel
12V
0V
KP CLOCK
KP DATA
N/O Input
Electric Lock
12V0V Lock Supply
12V
0V
DIODE
Control Panel
12V
0V
KP CLOCK
KP DATA
N/O Input
Electric Lock
12V0V Lock Supply
12V
0V
Page 12
N
I
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H
TM
O
N
IT
O
R
KEYPA
D
The Night Monitor Keypad is designed to be a simple night arming station typically used in a bedroom situation.
By pressing either of the <Night Monitor> buttonsthe alarm Stay Mode can be armed or disarmed. If both buttons are
pressed simultaneously, a Panic Alarm can be generated. A 4 way DIP switch on the rear of the unit sets various
options. The DIP switch functions and the programming requirements are detailed below.
The Night Monitor keypad can be set to keypad addresses 5-8 by using Switches 1 & 2. Refer to chart below.
Switch 3 is unused on the ELITE S. It is used to force the armed LED to follow area A or B on other control panels.
Switch 4 MUST be OFF (if Switch 4 is ONthe unit will work with earlier version 4 & 5 control panels).
Night Monitor Panel Programming
The Night Monitor button is designed to arm or disarm Stay Mode.The Stay Mode Area is assigned tothe keypad at
location P76E.
The functions of the button are programmed at location P77E (eg for the button to Arm Stay Mode and be able to
Disarm Stay Mode at all times you must have options 2 & 4 ON).
The “ARMED” LED function is programmed at location P71E. For example if the Night Monitor keypad is only as-
signed to area A and you only want the Armed LED to show the status of area A you should turn on Option 1 (Area
A) at location P71E for the address assigned tothe Night Monitor keypad.
If both Night Monitor buttons are pressed simultaneously, it is possible to generate a “PANIC” alarm. To enable the
panic alarm function for the keypad number assigned you must have option 3 turned on at location P72E.
POS
NEG
CLK
DAT
12 3 4
ON
A B C
Rear View
PANIC
READY ARMED
Night
Monitor
Night
Monitor
Front View
DIP Switch 1 2
KP No: 5 OFF OFF
KP No: 6 ON OFF
KP No: 7 OFF ON
KP No: 8 ON ON
Page 13
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FOR OEM LED KEYPAD INFORMATION SEE PAGE 112
Standard ELITE S Keypad Window Layout
When the Panel is displaying codes and address values in program mode it may be necessary to display the
0 digit. As there is no Zone indicator for 0 the "AUX (0)" indicator is used to show the number “0”.
The Chart below gives details on the various indicators on the LED keypad and what they mean.
LIGHT\INDICATION
OFF
ON STEADY
FLASHING
READY Zone Unsealed All Zones Sealed -
MEMORY Normal Memory Display Mode New Memory Event
BYPASS Bypass Off Zone Bypass Mode Active Zone/s Bypassed
PROGRAM Run Mode Client Program Mode Installer Program Mode or
Control Function Active
AUX (0) Chime Mode ON Chime Mode OFF -
MAINS - Mains (AC) OK Mains (AC) Fail
BATTERY - Battery OK Battery Low
TROUBLE Normal Trouble (Tamper) Alarm
Active
NewTrouble (Tamper) Alarm
LINE Telephone line is OK Dialler is currently making a
call
The Telephone line has been
cut or the call was not
completed
CONTROL Control Function Off Control Mode On
ZONES 1-16 Zone Secure Zone Unsealed (Not Ready) Zone in Alarm
ARMED A Partition A Disarmed Partition A Armed Partition A Stay Mode
ARMED B Partition B Disarmed Partition B Armed Partition B Stay Mode
ARMED C Spare
ARMED D Spare
1
2
3
4
5
6
7
8
Ready
Memory
Bypass
Program
Aux (0 )
Mains
Battery
Trouble
Line
Control
ELITE S
A B
9
10
11
12
13
14
15
16
C D
ARMED
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READY
TROUBLE
¡ARM MEMORY£ PANIC¢
STAY ⁄
BYPASS
CONTROL
PROGRAM
1 2abc 3def
4ghi 5jkl 6mno
7pqr 8stu 9vwx
0yz - ENTER -
A
B
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BYPASS
SYSTEM
ELITE S
TUE 28-MAR 10:30
AREA
LIGHT\INDICATION
OFF
ON STEADY
FLASHING
READY Zone Unsealed All Zones Sealed -
TROUBLE Normal Trouble (Tamper) Alarm
Active
NewTrouble (Tamper) Alarm
BYPASS Bypass Off Zone Bypass Mode Active Zone/s Bypassed
SYSTEM Normal Current System Alarm New System Alarm
ARMED A Partition A Disarmed Partition A Armed Partition A Stay Mode
ARMED B Partition B Disarmed Partition B Armed Partition B Stay Mode
ARMED C Spare
ARMED D Spare
Zones 1-16 Zone status (unsealed) is indicated on the LCD module
The Chart below gives details on the various LED indicators on the keypad and what they mean.
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CURRENT SYSTEM ALARMS
When viewing the memory event buffer at the keypad by pressing the “MEMORY ” button, the first thing that will
always be displayed are any Current System Alarms that are active. The Current System Alarms are indicated by
the Memory/Mains & Battery LEDS being on plus a zone LED from 1-8 to indicate the system alarm/s present. If
no Zone LED’s are on at this time, it meansthat there are no current system alarms. If a zone LED or LED’s are
On then this indicates system alarms that have not yet cleared. The zone LED’s 1-8 are pre-defined as to what
system alarm they will display. These system alarm indications are shown in the table below. Following the dis-
play of current system alarms the panel willthen sequence through the 255 historical memory events starting at
the most recent event.
HISTORICAL MEMORY EVENTS
Following the “Current System Alarms” the panel will display the historical memory events. The panel stores the
most recent events, (up to approx 256), including all alarm events, all system events such as mains failure etc as
well as arming by Area. The memory events are displayed via the standard keypad with the most recent event
shown first and subsequent events following in descending order from newest to oldest.
The "MEMORY" light will be on while the memory display mode is active. To view events simply press the
“MEMORY ” button. The keypad will beep and the display is advanced to the next event every time the
“MEMORY ” button is pressed. When all events in memory have been displayed the keypad will exit memory
mode and return to the normal idle state. To cancel the memory display just press “ENTER”. If the “ENTER” but-
ton is not pressed and the display mode is not advanced to the last memory event, the keypad will automatically
exit memory display mode after approximately 20 seconds. The memory light will turn off once the memory dis-
play mode has been exited. The MEMORY LED flashes when there is a new event in memory and it will stop
flashing once the event has been viewed or the panel is armed.
The Chart below gives details on the various alarms and what LED indicators are used to display them.
LED # 1 Battery Low LED # 5 Radio Pendant Battery Low
LED # 2 Mains, 12V Fuse or Output Failure LED # 6 Supervised Detector Failure
LED # 3 Telephone Line Failure LED # 7 SensorWatch or Delinquency Alarm
LED # 4 Radio Detector Battery Low LED # 8 Dialler Kiss-off Failure
CURRENT SYSTEM ALARMS
HISTORICAL EVENT DISPLAY CHART
EVENT DEVICE INDICATOR STATUS
ACTIVATION Zones 1-16 LED's 1-16 On Steady
BYPASS Zones 1-16 BYPASS
LED's 1-16
On Steady
On Steady
DETECTOR TAMPER
(SHORT CIRCUIT)
Zones 1-8 TROUBLE
LED's 1-8
Flashing
On Steady
DETECTOR TAMPER
(OPEN CIRCUIT)
Zones 9-16 TROUBLE
LED's 9-16
Flashing
On Steady
CABINET TAMPER Cabinet or Satellite Siren TROUBLE Flashing
WRONG CODE ALARM
Code Tamper at
Keypad #
TROUBLE
LED’s 1-8
Flashing
On Steady
CROW KEYPAD TAMPER SWITCH
ACTIVATED
Keypad Tamper Alarm at
Keypad #
TROUBLE
LED’s 1-8
On Steady
On Steady
LOW BATTERY Controller Battery BATTERY Flashing
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HISTORICAL EVENT DISPLAY CHART-Continued
EVENT DEVICE INDICATOR STATUS
MAINS FAILURE Controller Mains Supply MAINS Flashing
12VOutput FAILURE (F2 or F3) Controller on-board
Thermal fuses activated
MAINS
LED 1
Flashing
On Steady
OUTPUT 1 or 2 FAIL
(Only applies if sirenor strobe
connected)
Wires toOutput 1 or 2
have been cut
LED’s 1 or 2
TROUBLE
MAINS
On Steady
On Steady
On Steady
LOW BATTERY-ZONE
(Wireless detector)
Radio Zone
Zone 1-16
BATTERY
LED's 1-16
Flashing
On Steady
LOW BATTERY-PENDANT
(wireless Transmitter)
Radio Key
User 21-100
BATTERY
LINE
CONTROL
Flashing
Flashing
On Steady
SENSORWATCH TIMEOUT Zone 1-16 LED’s 1-16
TROUBLE
CONTROL
On Steady
Flashing
Flashing
SUPERVISED RADIO TIMEOUT Zone 1-16 LED’s 1-16
TROUBLE
BYPASS
On Steady
Flashing
Flashing
RF FAILURE No RF Activity TROUBLE
AUX (0)
Flashing
Flashing
ARM DELINQUENCY ALARM Area A or B not armed within
programmed number of days
TROUBLE
CONTROL
Flashing
Flashing
DURESS ALARM Duress Alarm
(at Keypad #)
TROUBLE
LINE
LED’s 1-8
Flashing
Flashing
On Steady
KEYPAD PANIC Panic Alarm at Keypad LINE
LED’s 1-8
Flashing
Flashing
PENDANT PANIC Radio Panic Alarm LINE
LED’s 9-16
Flashing
On Steady
KEYPAD FIRE Fire Alarm at Keypad LINE
CONTROL
LED’s 1-8
Flashing
Flashing
On Steady
KEYPAD MEDICAL Medical Alarm at Keypad LINE
BYPASS
LED’s 1-8
Flashing
Flashing
On Steady
ARMED Area "A" Armed "A" On Steady
ARMED Area "B" Armed "B" On Steady
STAY MODE ON Area "A" in Stay Mode "A" Flashing
STAY MODE ON Area "B" in Stay Mode "B" Flashing
TELEPHONE LINE FAIL Panel Dialler LINE On Steady
EXCESSIVE RE-TRIES Panel Dialler LINE
LED 1
On Steady
On Steady
FAILURE TO GET A KISSOFF Panel Dialler LINE
LED 2
On Steady
On Steady
WALKTEST MODE Manual Walk-test Mode MAINS
BATTERY
LINE
LED’s 1-16
On Steady
On Steady
On Steady
On Steady
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The LCD Keypad has similar operational functionstothe LED keypad with one notable exception, when displaying
Memory Events in “Memory Mode” it will display the events using plain text messages with the Time & date that the
event occurred.
This makes the fault diagnosis much easier. On an LED keypad only the ARM indications are displayed (the disarm
is removed from the display) but with the LCD keypad all events can be displayed (including when the system was
disarmed and by who).
To access “Memory Mode” using the LCD keypad, press the “MEMORY ” button.
There are two parts to the Memory Display Mode. They are;
CURRENT SYSTEM ALARMS
If there are any current “SYSTEM” alarms, they will be displayed first underthe heading of “CURRENT ALARMS”.
There are up to 8 “system alarms” that can be displayed at this point. They are listed in the “Current System Alarms”
table on page 15. The current system alarms will be displayed in plain text to describe the actual problem. If there is
more than one current problem the keypad will display event alarm sequentially with the heading of “CURRENT
ALARMS” on the top line and the alarm on the bottom line.
Each time the “MEMORY ” button is pressed, the next alarm will be displayed.
If there are no system problems with the panel the display will show “NO FAULTS”.
When all current system alarms have been displayed the keypad willthen start to showthe historical memory events.
HISTORICAL MEMORY EVENTS
Following the “Current System Alarms” the panel will display the historical memory events. The panel stores the most
recent events, (up to 255), including all alarm events, all system events such as mains failure etc as well as arm/
disarm by User & Area.The memory events are displayed via the LCD keypad with the most recent event shown first
and subsequent events following in descending order from newest to oldest.
During the “Historical Memory Event” display mode the LCD display will showthe type of event on the top line eg
“Area A armed by User 1” and the actualtime and date that the event occurred on the bottom line.
To view events simply press the “MEMORY ” button. The keypad will beep and the display is advanced to the next
event every time the “MEMORY ” button is pressed.
If you wish to go back and look at an earlier event you can use the “ ” or “STAY ” buttons to go back to an earlier
event. Each time the Down arrow is pressed the memory will go back one event.
When all events in memory have been displayed the keypad will exit memory mode and return to the normal idle
state. To cancel the memory display just press “ENTER”.
If the “ENTER” button is not pressed and the display mode is not advanced to the last memory event, the keypad will
automatically exit memory display mode after approximately 20 seconds.
Whenthere is a new event in memory the words “ NEW MEM EVENT” will be shown on the LCD display.
The “ NEW MEM EVENT” display will be reset once the event has been viewed or the panel is armed.
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INSTALLATION
Separate the two keypad halves of the Arrowhead Keypad by carefully inserting a small screwdriver into the
release slots on the bottom edge of the keypad front half and applying a gentle pressure. This will release the
bottom edge of the housing enough for you to unclip the top.
To separate the two keypad halves of the Crow Slim-line LED Keypad, unscrew the fastening screw at the
bottom of the keypad.
Screw the base tothe wall using the mounting holes provided. These holes will match the standard single switch
plate spacing. Ensure the base is mounted right side up. It is marked with the word "TOP", on the Arrowhead
keypad base, or the screw should be at the bottom on the Crow keypad base. When fixing the base to the wall
make sure the top of the screw heads will not touch or short out the underside of the PCB when the top half of
the keypad is reinstalled. Bring the cables through the centre of the base.
Connect the 4 wires to the 5 way terminal block on the rear of the keypad PCB making sure to match the cables
up with the terminals as marked on the control panel's keypad port. The 5th wire is an optional “Listen-in“
connection. It is connected from the "LIN" terminal of the keypad to the "Lin" terminal of the panel keypad port.
With the Listen-in wire connected the user can hear the call progress during dialling at the keypad (provided the
desired program options at address P175E 6E are turned on).
Once the cables have been terminated and the required address allocated (see section below) fit the front half of
the keypad onto the base.
The maximum recommended cable distance using standard 0.2mm security cable is 50m. Cable runs exceeding
this distance may require 0.5mm cable. Always use good quality cable. Some installations may require CAT5
data cable to ensure data integrity in noisy sites.
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A total of 8 devices (keypads or proximity readers) can be connected to the panel. Each keypad must be
addressed individually to avoid BUS
conflicts when multiple users are operating different keypads simultaneously. By default, each keypad comes
addressed as KP # 1.
Setting the LED keypad address is done in “Local Program Mode”.
To enter “Local Program Mode” on the LED Keypad you must press and hold the <CONTROL> button down
and within 2 seconds, press the <BYPASS> button.
The “PROGRAM” LED willturn on plus the current keypad address will be displayed on the zone LED’s.
The default setting is address 1 so zone LED 1 will also be on.
To change the keypad address so that it is different to others connected to the panel press a number on the
keypad from 1-8 relating to the address you wish to assign to the keypad, e.g. if the keypad is the second one
connected to the panel and the other keypad is set to address 1, press 2 to select keypad address 2 for this
keypad. The selected address will be displayed on the zone LED’s (in this example LED 2 would be on).
To Exit “Local Program Mode” press the <ENTER> Button.
The “PROGRAM” LED willturn off and the display will return to normal with the mains & battery LED’s on.
If you do not assign a unique address to every keypad and reader connected to the keypad buss, a
conflict will exist that will cause erratic operation. Each reader or keypad MUST have a different address.
LED KEYPAD TAMPER SWITCH
Some LED keypads may have a tamper switch fitted.If the switch is fitted, the tamper monitoring is inhibited
until the tamper switch is closed for the first time. After that if the switch is opened a keypad tamper alarm will be
generated. If the keypad has provision for a tamper switch but the switch is not fitted, the keypad tamper alarm
will be permanently inhibited because it can never be closed to start the tamper monitoring.
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INSTALLATION
Separate the two keypad halves of the Arrowhead LCD Keypad by carefully inserting a small screwdriver into the
release slots on the bottom edge of the keypad front half and applying a gentle pressure. This will release the bottom
edge of the housing enough for you to unclip the top.
To separate the two keypad halves of the Crow LCD Keypads, unscrew the fastening screw at the bottom of the
keypad.
Screw the base to the wall using the mounting holes provided. These holes will match the standard single switch
plate spacing. Ensure the base is mounted right side up. It is marked with the word "TOP", on the Arrowhead keypad
base, or the screw should be at the bottom on the Crow keypad base. When fixing the base tothe wall make sure the
top of the screw heads will not touch or short out the underside of the PCB when the top half of the keypad is rein-
stalled. Bring the cables through the centre of the base.
Connect the 4 wires to the 5 way terminal block on the rear of the keypad PCB making sure to match the cables up
with the terminals as marked on the control panel's keypad port. The 5th wire is an optional “Listen-in“ connection. It
is connected from the "LIN" terminal of the keypad to the "Lin" terminal of the panel keypad port. With the Listen-in
wire connected the user to hear the call progress during dialling at the keypad (provided the desired program options
at address P175E 6E are turned on).
Once the cables have been terminated clipthe front half of the keypad onto the base.
The maximum recommended cable distance using standard 0.2mm security cable is 50m. Cable runs exceeding this
distance may require 0.5mm cable. Always use good quality cable. Some installations may require CAT5 data cable
to ensure data integrity in noisy sites.
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A total of 8 devices (keypads or proximity readers) can be connected to the panel. Each keypad must be addressed
individually to avoid BUS conflicts when multiple users are operating different keypads simultaneously. By default,
each keypad comes addressed as KP # 1.
Setting the LCD keypad address is done in “Local Program Mode”.
There are two types of LCD keypad that can be connected to the panel, the Arrowhead or the Crow LCD keypad.
Accessing “Local Program Mode” is different for each keypad.
To enter “Local Program Mode” on the Arrowhead LCD Keypad you must press and hold the <CONTROL> button
down and within 3 seconds press and also hold the <ARM> button until the display shows “Local Mode”.
To enter “Local Program Mode” on the Crow LCD Keypad you must press and hold the <CONTROL> button down
and within 3 seconds press and also hold the <ARM> button until the display shows “Local Mode”..
When in Local Program Mode the display will showlocal mode kb 1 with the number 1 meaning the keypad
address is currently 1.
To change the keypad address to be different to others connected on the panel press;
<PROGRAM> 996 <ENTER>
The display will now show;
Keypad number
1
Select an unused address, eg “2” then press <ENTER> to save.
To exit “Local Program Mode” press and hold the <PROGRAM> Button for two seconds.
You can select the program location directly as shown above or there is also a menu function to navigate the various
options in “Local Edit Mode”that is described in detail on page 21.
If you do not assign a unique address to every keypad and reader connected to the keypad buss, a conflict
will exist that will cause erratic operation. Each reader or keypad MUST have a different address.
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ADJUSTING THE LCD KEYPAD BACKLIGHTING
The user can independently adjust the backlight level of the LCD display and the Keypad Buttons from off to on with
16 steps in between. The Buttons used for these special functions vary depending on the LCD keypad. There are two
types of LCD keypad that can be used, the “AAP” keypad and the “Crow” keypad. The Crow keypad can be identified
by the extra buttons “A”, “B” & “CHIME”.
To increase the AAPLCD backlight level Press “CONTROL” followed within 2 seconds by “ARM”. By holding down
the “Control” button and repeatedly pressing the “ARM (Left Arrow)” button you can increase the LCD backlight level
to the maximum.
To reduce the AAP LCD backlight level Press “CONTROL” followed within 2 seconds by “PANIC”. By holding down
the “Control” button and repeatedly pressing the “PANIC (Right Arrow)” button you can decrease the LCD backlight
level until it is off.
To increase the AAP Keypad Button backlight level Press “CONTROL” followed within 2 seconds by MEMORY”.
By holding down the “CONTROL” button and repeatedly pressing the “MEMORY (Up Arrow)” button you can in-
crease the Keypad LED backlight level to the maximum.
To reduce the AAP Keypad Button backlight level Press “CONTROL” followed within 2 seconds by “STAY”. By
holding down the “CONTROL” button and repeatedly pressing the “STAY (Down Arrow)” button you can decrease
the Keypad LED backlight level until it is off.
To increase the Crow LCD backlight level Press “CONTROL” followed within 2 seconds by “STAY”. By holding
down the “Control” button and repeatedly pressing the “STAY (Left Arrow)” button you can increase the LCD back-
light level to the maximum.
To reduce the Crow LCD backlight level Press “CONTROL” followed within 2 seconds by “BYPASS”. By holding
down the “Control” button and repeatedly pressing the “BYPASS (Right Arrow)” button you can decrease the LCD
backlight level until it is off.
To increase the Crow Keypad Button backlight level Press “CONTROL” followed within 2 seconds by “MEM ”.
By holding down the “CONTROL” button and repeatedly pressing the “MEM (Up Arrow)” button you can increase
the Keypad LED backlight level to the maximum.
To reduce the Crow Keypad Button backlight level Press “CONTROL” followed within 2 seconds by “ ”. By hold-
ing down the “CONTROL” button and repeatedly pressing the “ (Down Arrow)” button you can decrease the Key-
pad LED backlight level until it is off.
ADJUSTING THE KEYPAD BUZZER TONE
The user can adjust the frequency (tone) of the LCD keypad buzzer within a range of 16 steps. By adjusting the
frequency the volume of the tone produced at the buzzer varies as well.
To increase the frequency of the AAPLCD buzzer Press “CONTROL” followed within 2 seconds by “1”. By hold-
ing down the “CONTROL” button and repeatedly pressing the “1” button you can increase the frequency of the
buzzer tone.
To decrease the frequency of the AAPLCD buzzer Press “CONTROL” followed within 2 seconds by “2”. By hold-
ing down the “CONTROL” button and repeatedly pressing the “2” button you can decrease the frequency of the
buzzer tone.
To increase the frequency of the CROW LCD buzzer Press “CONTROL” followed within 2 seconds by “A”. By
holding down the “CONTROL” button and repeatedly pressing the “A” button you can increase the frequency of the
buzzer tone.
To decrease the frequency of the CROW LCD buzzer Press “CONTROL” followed within 2 seconds by “B”. By
holding down the “CONTROL” button and repeatedly pressing the “B” button you can decrease the frequency of the
buzzer tone.
Other manuals for Elite S V9
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