IDS 805 Installation guide
Installer Training
805 Stock Code: 860-1-B08-MN
805S Stock Code: 860-1-0808M
Training Manual
s
Contents
Features ________________________________________________________________________________________________3
Hardware _______________________________________________________________________________________________4
Serial Output (805S Only) ____________________________________________________________________________ 8
Dialler Progress Mode (805 Only)______________________________________________________________________ 9
Programming __________________________________________________________________________________________ 10
Programming and locations _________________________________________________________________________ 10
Installer Mode _____________________________________________________________________________________ 10
Location 11
Trouble Conditions. ________________________________________________________________________________ 25
User Operation ________________________________________________________________________________________ 26
Understanding the Keypad Indicators _________________________________________________________________ 26
Feedback Indicators _______________________________________________________________________________ 26
Keys 27
Away Arming ______________________________________________________________________________________ 28
Stay Arming_______________________________________________________________________________________ 28
Stay & Go ________________________________________________________________________________________ 28
Bypassing Zones __________________________________________________________________________________ 28
Chime Zones______________________________________________________________________________________ 28
Stay Zones _______________________________________________________________________________________ 29
Buzz Zones _______________________________________________________________________________________ 29
Master User Functions______________________________________________________________________________ 29
Adding General User Codes _________________________________________________________________________ 29
Adding a Maid’s Code ______________________________________________________________________________ 30
Adding a Duress Code _____________________________________________________________________________ 30
Glossary of terms ______________________________________________________________________________________ 31
IDS Analogue Receiver Training __________________________________________________________________________ 32
Features 32
Specifications _____________________________________________________________________________________ 32
Connections___________________________________________________________________________________________ 33
To default Receiver_________________________________________________________________________________ 34
Teach a Remote Transmitter to a user code ____________________________________________________________ 34
Delete a Remote Transmitter_________________________________________________________________________ 35
Button Properties __________________________________________________________________________________ 35
Arm Protect _______________________________________________________________________________________ 35
Relay Pulse or Toggle ______________________________________________________________________________ 36
Relay Pulse Time __________________________________________________________________________________ 36
Relay Retrigger Protection___________________________________________________________________________ 37
Relay Safe and Secure Mode ________________________________________________________________________ 37
Stand-alone Mode _________________________________________________________________________________ 37
Learning remotes __________________________________________________________________________________ 37
Deleting remotes __________________________________________________________________________________ 37
Learning a Panic Remote ___________________________________________________________________________ 38
Features
Four wire keypad operation - up to a maximum of 2 keypads.
Eight, fully programmable, end-of-line (3K3) supervised zones, and 1 dedicated panic zone per
keypad which is not end-of-line supervised.
Telephone line (805 ONLY) and siren monitoring.
Optional tamper and box tamper reporting per zone using double end-of-line resistors (12K and
4K7).
Fully programmable digital telephone communicator which supports most industry standard
formats. (805 ONLY)
Five programmable trigger outputs.
Non-volatile EEPROM memory retains all program and event log data in the event of a total power
failure.
Programmable loop response time for all zones (global).
Up and downloadable using IDS windows based software.
Excellent protection against lightning (provided by specialised zap tracking and transient
suppressors).
Auto-arm - panel can be programmed to arm daily at a predetermined time
Event log (200 events) date and time stamped.
Fax defeat allows download access to the panel with other devices connected to the phone line.
(805 ONLY)
Dual reporting provides for duplicated reporting to two independent central base stations. (805
ONLY)
Programmable silent or audible panic.
Serial output for communicating to reporting devices (805s ONLY)
.
Hardware
Default Button
Dialler Board
Connectors
Radio Tx
Programmable
Output
+12V
Keypad
16V AC
Siren
Neg
Zones
Connectors
Serial
Connector
IDS 805
IDS 805s
The siren connects directly to the siren output on the board with
the positive of the siren to the + terminal, and the negative to the
- terminal.
The output can drive up to a 30 watt siren.
AC
A transformer of no less than 30VA should be used to supply 16V
AC to the IDS805 alarm panel.
Radio Tx
Siren
Auxiliary 12V
NOTE:
The IDS805 Alarm Panel can supply 750mA of power to all peripherals,
including keypads and receivers. To check that the power consumption is
not exceeded: add all the device’s current consumptions, except the radio
transmitter, that are connected together and then subtract the total from
750mA. The result is the amount of current available for peripheral devices,
such as passive infrared devices, beams, etc.
Note: If 750mA is exceeded this will take current away from the battery
charging circuit and the battery may never fully charge
Power supply to any radio transmitter
While it may seem unnecessary to some, in order to carry the full
transmit current without any significant volt drop in the cable length
between the battery and the radio, it is necessary to use mains
cable that is rated no less than 5 amps.
(While a few volts dropped from 220VAC may not be significant, a
two volt drop from 12Vdc is a very significant percentage –this is
why a thicker cable is needed.)
Measure the voltage at the radio (NOT across the supply), when
the radio is transmitting, the supply voltage should not drop by
more than a volt. A drop approaching two volts would indicate that
either the cable is not satisfactory or the supply cannot deliver
enough current.
NOTE:
If you are connecting your radio directly to the battery, the dynamic
battery test may fail.
Dialler
PIR
805
NOTE: On all installations a battery cut out board should be used. This will cut the battery at 10.5V
protecting the battery and the system. When AC is restored the battery cut out will reset allowing
the battery to be charged.
Keypad
The keypad has a 3V LED output which mimics the armed LED. I.e. when
the system is armed the LED will come on. If a zone violates and an alarm
condition is registered the LED will flash as the armed LED will do.
There is a panic connection for a panic button and no end of line resistor is
necessary.
Note: Due to no EOL resistor please test frequently
Zones
Devices that are connected to zones are divided into two categories, normally open (NO) or
normaly closed (NC). Some devices have both and the installer can select either, depending on
their preference.
Figure 1: Normally Open
Normally open as seen in the figure, is like a switch that by default is always off
and no electricity can flow through it.
Figure 2: Normally Closed
Normally closed, is like a switch that is by default always on and electricity will
flow through it.
Device
Power Consumption
LED Keypad
90mA
Receiver
115mA
Make sure that when connecting the keypad bus
that Data on the keypad is connected to D on the
805 and the same with CK, that it is connected to C.
Keypad Connector
Keypad Connector
Keypad Connector
Depending if the device is normally open or normally closed, will depend on how the end-of-line
resistor is connected. The end-of-line resistor is what the Alarm Panel looks for to determine if there
has been a violation or not. Therefore, it is very important to connect it correctly!
The end of line resistor must be 3K3(= ohm).
Resistors are identified by the colour bands, each colour represents a different value and the position of
the band represents a different digit or multiplier, as shown below.
Figure 3: Resistor Colours
Calculating the value:
1. The first band is orange which is 3
2. The second band is also orange which equals 3
3. Put the first two bands together which will be 33
4. The third band is red, which is equal to 100
5. To get the value of the resistor multiply the first two digits, 33, with the third digits value, 100
6. The answer is 3300, which can also be 3.3K or 3K3 (K is placed in place of the dot)
7. The value of the above digram is 3K3with a tolerance of 5%
Connecting Resistors to a Zone
Normally open devices are wired in parrallel to the end-of-line resistor
Normally closed devices must be wired in series with the end-of-line
resistor
3K3
Tolerance
1st digit
1
10
100
1000
1K
10000
10K
100000
100K
1000000
1M
1000000
10M
10%
Silver
5%
Gold
1%
Brown
2%
Red
Multiplier
2nd digit
0
Black
0
1
Brown
1
2
Red
2
3
Orange
3
4
Yellow
4
5
Green
5
6
Blue
6
7
Violet
7
8
Grey
8
9
White
9
3K3
Orange
Orange
Red
Gold
Connecting Magnetic Contacts and Panic Buttons to a Zone
Tamper connection
Programmable Outputs
Outputs are used to trigger other devices, with a positive 12V. The output can be either set to pulse
or latch.
Definition:
1. Pulse is when the output will go from no voltage up to 12V and with no intervention goes
back to no voltage. Like a spring if you compress it and then leave it alone it automatically
uncompresses.
2. Latch is when the output will go from zero to 12V and stay there until something else tells it to
go back to zero volts, like a light switch.
Serial Output (805S Only)
The serial connection outputs an IDS serial protocol that can communicate to any device which has the
protocol implemented. The serial connector can also be used to upload and download settings via
IDSwift2 and the IDS USB to Serial convertor.
Ground
Serial Connector Rx
Tx
Magnetic Contact
(NC)
Panic Button
(NO)
The diagram shows a magnetic contact (NC) and a panic button (NO)
connected to a zone
3K3
3K3
LED connected to output
Radio connected to output
Defaulting
To hardware default the IDS805, remove all power from the system. Press and hold the default button
and apply power, either 16V AC or 12V DC. Keep the button depressed for 3 seconds, after the 3
seconds release the button and the system is reset to factory default.
Dialler Progress Mode (805 Only)
When the panel sends data to a central station via telephone, the keypad zone LED’s may be used to
display the progress of such communication.
To view the communication status, proceed as follows:
1. Hold down the [0] key until the keypad buzzer sounds twice.
2. Press the [9] key. The ARMED, READY and AWAY LEDs will flash simultaneously indicating Dialler
Progress Mode has been selected.
3. To exit [#]
Dialler Progress as shown by zone LED’s
Exercise:
Remove power from the 805 alarm, press and hold the default button. While holding the button put
connect the battery leads to the battery. Keep holding for 3 seconds and then release.
Standby
Line
Seizing
Dialling
Waiting for
Kiss-on
Sending
Data
Waiting for
Kiss-off
Standby
Default Button
Programming
Programming and locations
Programming the IDS805 is putting values into a location. A location is an area of memory that stores a
value to control the system when a task needs to be performed. Each location controls different tasks or
a different aspect of a task. The value that is entered is what controls the way that the system performs
the task. There are many locations controlling many functions within the system and understanding what
each of these locations control and how they affect the working of the system is very important.
Installer Mode
To change any values the installer must enter programming mode, also known as installer mode. To do
this an installer code must be entered. This code can be a four or six digit code. (By default: 9999)
Below is a description of the keys to be used when entering data:
Feedback while entering data
1. Single extended beep = correct entry
2. 3 beeps = incorrect entry
By default the installer code is “9999”
To enter installer mode press [#] to clear any previous key presses then
[9] [9] [9] [9]
Exercise:
To exit from installer mode press [#]
Instructions
Key presses
Enter installer mode
[#] [9] [9] [9] [9]
Instructions
Key presses
Exit installer mode
[#]
Enter Key
The * keys function:
1. To save the data that
has been entered
Clear / Exit Key
The # key has two functions:
1. If data is entered incorrectly
press the # key to clear what
was entered.
2. If no data is to be entered and
you want to exit the location or
installer mode
Location
A location is a single tiered location holding a single value. The location is entered and the value is
inserted confirmed by the star key. Once confirmed the location is exited automatically.
The following steps show how to program standard locations.
Keypress
Explaination
Visual Indicator
[9] [9] [9] [9]
Installer code to enter programming
mode.
Ready LED will flash to indicate
programming mode has been entered
[Location No.]
[*]
Enter the location number that belongs to
the option that is to be changed.
Ready keeps flashing. Away will come on.
[Value] [*]
Enter the value that will make the system
do what is required or [#] to exit.
A long beep will be heared if the value is
acceptable. (3 beeps if there is an error).
If correct the ready LED will flash showing
that the location has been exited.
[#]
Once all locations have been changed.
Press [#] to exit programming mode
When programming a location, any attempt to enter invalid data will result in an error beep (3 short
beeps).
The AWAY LED will remain on after the error beeps. Re-enter the correct data. There is no need to press
the [#] key to exit the location.
EXAMPLE:
[INSTALLER CODE] [*] [0] [*] [VALUE] [*]
To read the value that is in a location, each zone is given a value. The values are added up of each zone
that is on. The diagram below shows the given value to each of the zone.
128
64
32
16
8
4
2
1
Value
Examples: on how to read the data in a location.
Exercise:
1. Enter programming.
2. Enter Location 8. What is the value in this location? _______________
Location 0: Defaulting
There are two ways of resetting the system back to factory default, hardware button, described on page
8 or via programming. The programming way gives 3 options, as seen in the table below.
Value
Description
0
Resets all locations to the factory default values as shown in the
DEFAULT column in the programming list. All user codes will also be defaulted and
the master user code will become 1234. (Same as a hardware reset)
1
Will default the master user code to 1234 only. Nothing else will be defaulted.
2
Will reset all reporting codes to 0. If a communicator format other than Contact ID is
used, the reporting codes need to be reprogrammed. It is advisable to default all
reporting codes to 0 prior to reprogramming the codes.
Note: In all locations where a table is shown the value column is what must be entered.
Exercise:
[9] [9] [9] [9] [0] [*] [0] [*]
Installer Code Location Value
+2
1
Value 3
+ 8
2
Value 10
Location 1 to 8: Zone Types
A zone type is how a zone acts when the alarm is armed or disarmed. A value is associated with each
zone type and when entered into the zones location it changes that zone to the type it represents.
Value
Type
Explanation
0
Disable
It is suggested that a 3k3 resistor is placed across the zone
1
Entry / Exit
An entry/exit zone is a zone that allows entry into the building when
the alarm is armed and allows the exiting of the building during
arming
2
Follower
A follower zone is disabled during arming until the system is armed,
then once armed the zone is active and will violate as soon as a
violation occurs. When the system is armed and an entry / exit zone is
triggered a follower zone is disabled, until a valid user code is
entered, if not then it will become active again.
3
Audible
Priority
Regardless of whether the panel is armed or not, a violation of an
Audible Priority zone will cause the control panel to register an alarm
condition and sound the siren.
4
Audible
Instant
If the panel is armed, the violation of an instant zone will cause the
control panel to immediately register an alarm condition and sound
the siren.
5
Arm /
Disarm
A violation of an Arm/ Disarm zone will cause the panel to arm or
disarm depending on its current state. The end-of-line resistor is
required.
6
Silent
Priority
Regardless of whether the panel is armed or not, violation of a Silent
Priority zone will not cause the siren to sound but will report the
appropriate code programmed into the relevant locations to the
central station.
7
Silent
Instant
If the panel is armed the violation of a Silent Instant zone will cause
the control panel to immediately register an alarm condition but the
siren will not sound
8
Secondary
Entry / Exit
A secondary entry/exit zone is the zone that allows entry into the
building when the alarm is armed and allows the exiting of the
building during arming.
10
Fire Zone
Violation of a Fire zone will cause the siren to sound regardless of
whether the panel is armed or not. The siren will sound intermittently
(one second on, one second off
12
Push to
Arm
If the entry / exit is set to 21 minutes; once the exit delay has
commenced, a violation of the push to arm zone will immediately arm
the panel
Default values in locations 1 to 8. Each location is assigned to a zone.
Zone
Value
Loc
Discription
1
1
1
Entry / Exit
2
2
2
Follower
3
4
3
Instant
4
4
4
Instant
5
4
5
Instant
6
4
6
Instant
7
4
7
Instant
8
3
8
Panic
Location 9: Entry / Exit Options
This location changes the way the alarm reacts when the alarm needs to be armed. If any of the options
below are chosen and are not met, the alarm will not be ready to arm.
Value
Entry / Exit
zones must be
clear
Follower
zones must
be clear
Entry / Exit
delay
enabled
Explanation
0 - 7
Instant Arm and all zones must not be violated
8
Off
Off
On
All entry exit and follower zones can be
open and the entry / exit delay is
operational.
9
On
Off
On
Entry exit zones must be closed,
followers can be open and the entry /
exit delay is operational.
10
Off
On
On
Entry / exits can be open, followers
must be closed and the entry exit delay
is operational
11
On
On
On
All zones must be closed and the entry /
exit delay is operational
12
Off
Off
On
All entry exit and follower zones can be
open and the entry / exit delay is
operational.
13
On
Off
On
Entry exit zones must be closed,
followers can be open and the entry /
exit delay is operational.
14
Off
On
On
Entry / exits can be open, followers
must be closed and the entry exit delay
is operational
15
On
On
On
All zones must be closed and the entry /
exit delay is operational
Location 10: Secondary Entry Delay
This is the time the alarm will allow between the secondary entry zone, being opened and a valid user
code being entered, before the alarm is activated.
Value
Delay
Value
Delay
0
0.25
8
4
1
10
9
5
2
20
10
10
3
30
11
15
4
45
12
18
5
1
13
21
6
2
14
24
7
3
15
27
Location 11: Tamper per Zone
Tamper is a way of monitoring a device for any type of interference, without having to use extra cable.
Tamper is always active even when the alarm is disarmed.
Value
Description
0
Disable
1
Enable
When enabling tamper per zone the 3k3 end of line resistor is replaced by 12K and
4K7 ohm resistors, which are placed in parallel, as can be seen in the diagram
below.
The 4K7 ohm resistor represents the zone and the 12K represents the tamper.
Note: When tamper per zone is enabled it is enabled for all the zones.
Location 12: Arming Options
These options determine how the system will arm and if the system should arm depending on two
conditions.
Quick Arm: The ability to arm the system by holding the [1] key down until the systems begins to arm.
Entry / Exit delay with arm zone: When a zone is an arm/disarm zone and a key switch or a remote receiver
transmitter are being used to arm the system.
Forced Arming: This option is to be used with much caution! This will allow the system to arm even when
there a zones violated. (Use with caution.)
Engineer Reset: If an alarm is triggered, this option will not allow the system to be armed again, until the
installer code has been entered.
Value
Quick
Arm
Entry/Exit
delay with
arm zone
Forced
Arming
Engineer
Reset
0
Off
Off
Off
Off
1
On
Off
Off
Off
2
Off
On
Off
Off
3
On
On
Off
Off
4
Off
Off
On
Off
5
On
Off
On
Off
6
Off
On
On
Off
7
On
On
On
Off
8
Off
Off
Off
On
9
On
Off
Off
On
10
Off
On
Off
On
11
On
On
Off
On
12
Off
Off
On
On
13
On
Off
On
On
14
Off
On
On
On
15
On
On
On
On
12K
4K7
805
PIR
Location 13: Stay Arming Options
Stay arming is the ability to arm the system and at the same time have selected zones bypassed
automatically. All active zones will be instant zones, including entry/exit zones.
To stay arm, press and hold [5] until armed light comes on.
Location 14: Silent Keypad Panic Options
If this option is enabled then when the panic key [P] is pressed a panic will be registered but the siren will
not sound. If the system is communicating to a security company the signal will be sent.
Value
Action
0
Disable
1
Enable
Location 15: Silent Alarm
This option will register an alarm but the siren will not sound and if connected a signal will be sent to the
security company.
Value
Action
0
Disable
1
Enable
Location 16: Siren Toot on Arm and Disarm
When the alarm is away armed the siren will sound once and when disarmed from the away armed state
it will sound twice
Value
Siren toot
on Arm
Siren toot
on Disarm
0
Off
Off
1
On
Off
2
Off
On
3
On
On
Location 17: Siren Time-out Period
How long the siren will sound once an alarm has been triggered and a user code is not entered to cancel
the alarm.
Value
Action
0
The alarm will automatically arm in the stay mode if a user code is entered but
no entry exit zone is triggered
1
The alarm will always arm in the away mode. The quick stay key [5] will be
disabled
2
The alarm will always arm in the away mode. The quick stay key [5] will be
enabled
Value
Time-out
Value
Time-out
Value
Time-
out
0
0.25 sec
6
2 min
12
18 min
1
10 sec
7
3 min
13
21 min
2
20 sec
8
4 min
14
21 min
3
30 sec
9
5 min
15
21 min
4
45 sec
10
10 min
5
1 min
11
15 min
Location 18: Exit Delay Period
This is the time a person has from entering their code or using the quick arm key, [1], to exiting the
building through the entry exit zones, without setting the alarm off.
Location 19: AC Fail and Restore Time
This is the time the alarm system waits for the AC to be off or back on, before it reports back to the alarm
monitoring company. The trouble light will begin to flash immediately.
Value
Time-
out
Value
Time-
out
0
1 min
8
9 min
1
2 min
9
10 min
2
3 min
10
11 min
3
4 min
11
12 min
4
5 min
12
13 min
5
6 min
13
14 min
6
7 min
14
15 min
7
8 min
15
16 min
Location 20: Primary Entry Delay
The time period from opening a primary entry / exit zone to a person having to entering a valid user code,
before the alarm is triggered.
Location 21: Hardware Reset Switch Enable / Disable
If this option is enabled the alarm system cannot be defaulted via the hardware default button. The only
way to default would be via the installer code and location 0.
Note: Please make sure the installer code is changed and correct before enabling this option.
Value
Action
10
Disable
15
Enable
Value
Time-out
Value
Time-out
Value
Time-
out
0
0.25 sec
6
2 min
12
18 min
1
10 sec
7
3 min
13
21 min
2
20 sec
8
4 min
14
21 min
3
30 sec
9
5 min
15
21 min
4
45 sec
10
10 min
5
1 min
11
15 min
Value
Time-out
Value
Time-
out
0
0.25 sec
8
4 min
1
10 sec
9
5 min
2
20 sec
10
10 min
3
30 sec
11
15 min
4
45 sec
12
18 min
5
1 min
13
21 min
6
2 min
14
21 min
7
3 min
15
21 min
Location 22 –40: Programmable Output Options
Outputs are used to trigger many different devices, the most common being a radio transmitter which
transmits signals back to the alarm monitoring company.
The IDS 805 has 5 positively triggered outputs. Each output triggers with, direct current (DC) 12V and
can supply approximately 100mA of current. If more current is required please use a 12V positively
triggered relay to supply current from a different power source.
Outputs can be set to pulse or latch.
Pulse: The output will rise from 0V to 12V remain at 12V for 3 seconds and return to 0V.
Latch: The output will rise from 0V to 12V and remain in this state until another trigger forces it to go
back to 0V. A light switch is an example of latching as once switched on the light will only go off
again when the switch is returned back to the off position.
Output
Value
Pulse
Latch High
Latch Low
1
1
6
11
2
2
7
12
3
3
8
13
4
4
9
14
5
5
10
15
Locations and their default values
Location
Event
Value
Action
Output
Explanation
22
Alarm
2
Pulse
2
Burglar alarm registered
23
Panic
1
Pulse
1
Panic triggered
24
Low
Battery
0
Battery needs checking
25
Auto-test
0
Panel does a test to the monitoring company
26
Duress
1
Pulse
1
A duress code can be entered
27
AC Fail
0
Alarm loses the 16V AC
28
Close
(Arm)
8
Latch
on
3
Away armed
29
Open
(Disarm)
13
Latch
off
3
Alarm is disarmed
30
AC
Restore
0
16V AC is restored
31
Cancel
0
The alarm has triggered and a valid user code has
been entered
32
Fire
0
Triggered when the [F] key is pressed or a fire zone
triggers
33
Medical
0
[M] key is pressed
34
Strobe
0
This output will latch when an alarm is registered
and will only unlatch once a valid user code is
entered
35
Tamper
0
If tamper per zone or a zone is made a tamper
zone and the tamper condition is triggered will this
output be triggered
36
Silent
Panic
1
Pulse
1
The siren will not sound but this output will trigger
once programmed to alert the monitoring
company.
38
Chime
0
If a chime zone is triggered in the unarmed state,
this output will trigger
39
Communi
cation
Fail
0
If the alarm cannot communicate via the phone
line, this output can trigger another device to alert
the monitoring company of a problem
Location 42: Phone Number Options and Dialling Options (805 Only)
These options guide the alarm when it is required to communicate using the telephone line. Each
telephone number has 16 locations, for 16 digits per number. If this is not enough digits the the two
numbers can be joined together to create a 32 digit number if required.
Value
Join
Dial
Mode
Reporting
Explanation
0
No
Pulse
Single
Telephone number locations will not be joined.
Pulse telecommunication mode will be used.
Only one report to be sent
1
No
Tone
Single
Telephone number locations will not be joined.
Tone telecommunication mode will be used.
Only one report to be sent
2
No
Pulse
Dual
Telephone number locations will not be joined.
Pulse telecommunication mode will be used.
Reports on both telephone numbers
3
No
Tone
Dual
Telephone number locations will not be joined.
Tone telecommunication mode will be used.
Reports on both telephone numbers
4
Yes
Pulse
Single
Both phone numbers are joined to create a single
number using pulse dialling.
5
Yes
Tone
Single
Both phone numbers are joined to create a single
number using tone dialling
Location 43 to 46: Primary Communicator Account Code
This is a four digit code that identifies the alarm to the monitoring company when using the telephone
line to communicate. Any number shorter than four digits must have 0’s entered before it.
Rules to follow when entering digits for account codes:
1. The account code must be 4 digits long.
2. Zeros [0] must be entered as tens [1][0]
3. Sescoa Superfast does not support account codes higher than 3374
4. The account code is not converted to hexadecimal value by the panel when Sescoa Superfast is
used.
Below is a table showing hexadecimal numbers and how they relate to normal numbers.
Number
Value
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Hexadecimal
Value
1
2
3
4
5
6
7
8
9
A
B
C
D
E
F
Example of entering an account code 0038
[4][3][*] [1][0][*] [4][4][*] [1][0][*] [4][5][*] [3][*] [4][6][*] [8][*]
40
Phone
No. 2
dialled
0
If both numbers are entered and the second
number is dialled, this output could be triggered
41
D/L
Complete
0
Download via software is complete.
Location 47: Primary Communicator Format
For 805:
This is the communication language that the alarm system must use to communicate with the device at
the alarm monitoring company.
Tx = Transmit HS = Handshake PPS = Pulse per Second
Note: Contact ID and Sescoa Superfast are the only formats that when chosen will enter all the reporting
codes, into the locations.
For 805s:
The serial communication is Contact ID only and must be enabled when needed.
Location 48 to 63: Primary Telephone Number (805 Only)
Rules when entering telephone numbers:
1. If the number contains any zeros, all zeros [0] must be entered as tens [1][0].
2. To dial a [*] enter a eleven [1][1]
3. To dial a [#] enter a twelve [1][2]
4. A 12 second pause, enter a fourteen [1][4]
5. A 4 second pause, enter a fifteen [1][5]
6. To end the number in the next location after the last digit of the number being dialled, enter a zero,
[0].
Example of entering a phone number:
Number to be dialled: 0 to get a line, 4 second pause, 08607051373.
Location
48
49
50
51
52
53
54
55
56
57
58
59
60
61
Digits
10
15
10
8
6
10
7
10
5
1
3
7
7
0
NB: Location 61 has a zero to terminate the telephone number.
Location 64 to 79: Secondary Telephone Number/Serial Telephone Number
805: This is the second number that can be dialled as a backup for the primary number should there be
a failure to communicate on that number. The same rules apply as the primary telephone number.
805s: This is the number that the serial device will dial to make the connection to a receiving unit, if the
serial device is made to use a telephone number.
Value
Action
Description
0
Sescoa Superfast
1.8kHz Tx, 2.3kHz HS
1
Ademco Express
Dual Tone HS, DTMF
2
FBI 4 x 2 (No Parity)
1.8kHz Tx, 2.3kHz HS, 20PPS
3
FBI 4 x 2 (Parity)
1.8kHz Tx, 2.3kHz HS, 40PPS
4
Sescoa / Franklin Fast
1.8kHz Tx, 2.3kHz HS, 20PPS
6
Contact ID
Dual Tone HS, DTMF
7
Domestic Reporting
1.8kHz Tx, Blind, 20PPS
12
Silent Knight 4 x 2 Fast
1.9kHz Tx, 1.4kHz HS, 20PPS
Value
Action
0
Off
6
On
Other manuals for 805
1
This manual suits for next models
3
Table of contents
Other IDS Control Panel manuals
Popular Control Panel manuals by other brands
kunzel
kunzel TS 614 Installation and operating manual
GST
GST GST-FT40N Installation and operation manual
DUYAR
DUYAR DISEL Installation, maintenance and operation guide
Gossen MetraWatt
Gossen MetraWatt PROFITEST MBASE+ Short-form operating instructions
BFT
BFT Q.BO PAD Installation and user manual
RCS
RCS UPM-431B operating instructions