• Two completely independent partitions. Many of the features and options in the Spectra System can be independently set for each
partition such as event reporting, entry/exit delay, auto-arming and many more. All zones, the keyswitches and all user codes are
assigned to specific partitions, whichmakes this a true partitioned system.
• Communicationbus facilitates the adding, programming and monitoring of all expansionmodules.
• 1 Installer Code and 48 User Codes (including: 1 System Master, 2 Masters, and 1 Duress)
• 2 on-board, fully programmable outputs (PGMs) and one 5A alarm relay
• Simple, direct and logical programming
• Event Call Direction: The Spectra 1759EX control panel events are divided into 5 groups of events. Each of these event groups can
be programmed with a separatedialing sequence.
• Two32-digit Central Sta tionTelephone Numbers and one 32-digit Backup TelephoneNumber
• Contact ID, Pager Format and many more High-Speed CommunicationFormats
• "False Alarm Prevention"features such as: Intellizone, Auto Zone Shutdown,Beep on Exit Delay, Programmable Delay Before Alarm
Transmissio n,and Recent Closing Report
• Regular Arming, St ayArming, Instant Arming, Force Arming,One-Touch Arming, Auto-Arming, or Keyswitch Arming
• 256 Event Buffer with time stamp
• TelephoneLine Supervision
• Keypadactivated panic alarms
• Compatiblewith Winload Security System ManagementSoftware for Windows®
1.2SPECIFICATIONS
PART 1: INTRODUCTION
1.2.1SPECTRA 1759EX CONTROL PANEL
•AC Power:16Vac transformer with minimum 20VA rating (Rec.: 40VA), 50 to 60Hz
Before mounting the cabinet, push the five white nylon mounting studs into the back of the cabinet. Pull all cables into the cabinet
and prepare them for connection before mounting the circuit board into the back of the cabinet. Select a centralized installation
site on the main floor that isn't easily accessible to intruders and leave at least 2in. (5cm) around the panel box to permit
adequate ventilation and heat dissipation. The installation site should be dry and close to an AC source, ground connection and
telephone line connection. Avoid installation near or in the path of strong RF fields (i.e. neon lights, computers), on or near metal
objects, circuit breaker boxes, air conditioners and heater ducts since they may cause interference and reduce sensitivity. Avoid
installing the 1759EX in the basement.
2.2EARTH GROUND
Connect the zone and dialer ground terminals from the control panel to the metallic enclosure and cold water pipe or grounding
rod as per local electrical codes.
For maximum lightning protection, use separate earth grounds for the zone and dialer grounds as shown in
Figure 2.2 on page 5. For UL installations, the metallic enclosure must be grounded to the cold water pipe.
2.3AC POWER
Do not use any switch-controlled outlets to power the transformer. Connect the transformer as shown in Figure 2.1 on page 4.
Use Table 1 to determine the required transformer.
Table 1:
Transformer Requirements Table
Transformer:Amseco XP-1620 16VAC 20VA
(not verified by UL)
Spectra DC Power Supply rated at:1.2A1.5A
Auxiliary Supply can provide a maximum of:typ: 600mA, max: 700mAtyp: 600mA, max: 700mA
To provide power during a power loss, connect a 12Vdc 4Ah rechargeable acid/lead or gel cell backup battery as shown in Figure
2.1 on page 4. Use a 7Ah battery to comply with UL fire requirements. Connect the backup battery after applying AC power.
When installing verify proper polarity as reversed connections will blow the battery fuse. Also, refer to Battery Charge Current on
page 39.
2.4.1BATTERY TEST
If the battery is disconnected or if the battery fuse is blown, a No/Low Battery failure will appear in the keypads’ Trouble Display
(see page 45). This trouble will also appear if the battery’s capacity is too low or if the voltage drops to 10.5 volts or lower while
the control panel is running on the backup battery. At 8.5 volts or lower, the panel shuts down and all outputs close.
Figure 2.1: AC Power and Backup Battery Connections
Refer to AC Power
and Backup Battery
Connections on
page 4.
Figure 2.2: Spectra 1759EX Control Panel Overview
To connect the 5A Alarm Relay and the PGMs,
refertoRelay and PGM Connectionsonpage 7.
To connect AC power,refer to AC Power and
Backup Battery Connections on page 4.
RefertoSingleZoneInputson
page 7
For the keypad’s zone, EOL and tamper
configurations, refer to Configuring TheLED Keypads on page 10.
2.5AUXILIARY POWER TERMINALS
The auxiliary power supply terminals can be used to power motion detectors, keypads and other modules or accessories in the
security system. A fuseless circuit protects the power supply against current overload and automatically shuts down if the current
exceeds 1.1A. If this occurs, the Maximum Auxiliary Current failure will appear in the keypads’ Trouble Display (see page 45).
Therefore, the combined current consumption of devices connected to the auxiliary power supply should not exceed 700mA. If
the auxiliary output is overloaded and is shut down, you must disconnect all loads from the output for at least 10 seconds before
reconnecting any load back to the auxiliary output.
Modules with the APR- prefix are compatible with the Spectra 1759EX and Digiplex. Modules with the APR3- prefix are
compatible with the Spectra 1759EX, Digiplex and DigiplexNE.
Table 2:
ModulesCurrent Consumption
Spectra 1686H and 1686V 10-Zone LED Keypad62mA116mA
Spectra 1689 16-Zone LED Keypad50mA117mA
Spectra 1641 LCD Keypad60mA80mA
4-Zone Hardwire Modules (APR3-ZX4/SPC-ZX4)12mA12mA
8-Zone Hardwire Modules (APR3-ZX8/SPC-ZX8)30mA30mA
4-PGM Output Module (APR3-PGM4)13mA150mA
Printer Module (APR3-PRT1)22mA40mA
InTouch Voice-Assisted Arm/Disarm Module (APR3-ADM2)70mA105mA
Motion Detectors (see detector instructions for details)10 to 50mA
2.6TELEPHONE LINE CONNECTION
In order to report system events to the central station, you must connect the incoming telephone company wires into the TIP and
RING connections of the control panel and then run the wires from T1 and R1 to the telephone or telephone system as shown in
Figure 2.2 on page 5.
2.7BELL OUTPUT CONNECTION
The BELL+ and BELL- terminals power bells, sirens and other warning devices requiring a steady voltage output during an alarm.
The bell output supplies 12VDC upon alarm and can support one 30-watt or two 20-watt sirens. The bell output uses a fuseless
circuit and will automatically shut down if the current exceeds 3A. When this occurs the Maximum Bell Current failure will only
appear in the keypads’ Trouble Display (see page 45) during an alarm. If the load on the BELL terminals returns to normal, the
control panel will re-instate power to the BELL terminals during the next alarm. When connecting sirens, please verify correct
polarity. Connect the positive lead to the BELL+ terminal and the negative lead to the BELL- terminal of the control panel as
shown in Figure 2.2 on page 5.
If the BELL output is not being used, the Bell Disconnected failure will remain in the keypads’ Trouble Display
(see page 45). To avoid this connect a 1KΩ resistor across the BELL terminals.
Current Consumption Table
TypicalMaximum
2.8PROGRAMMABLE OUTPUT CONNECTIONS
When a specific event occurs in the system, a PGM can reset smoke detectors, activate strobe lights, open/close garage doors
and much more.
2.8.1ALARM RELAY AND PGMS
The Spectra 1759EX control panel includes two on-board programmable outputs (PGMs). For details on how to program the
PGM, refer to PGM Programming on page 37. PGM1 can support up to 150mA while PGM2 supports up to 2.5A (see Figure 2.3
on page 7) and can be used as a strobe output (see page 38). The PGMs are limited by the power source being used. If powered
by:
•
The
AUX
terminals.
nected to the
nected to the
consumption will not 100mA.
•
An external power supply.
PGM2. If the external power supply’s current consumption limit is less than that of the PGM it is connected to, than the current consumption will not exceed the power supply’scurrent limit.
The Spectra 1759EX control panel also has a 5A relay. This relay can be connected as shown in Figure 2.3 on page 7. The Alarm
Relay can be programmed to follow the bell output or the activation and deactivation of the Global PGM (see Alarm RelayOptions on page 38).
The current consumption of the
AUX
terminals (i.e. modules and PGMs) cannot exceed 700mA combined. For example, if there are six modules con-
AUX
terminals that are using 600mA and you wish to power the PGM using the
AUX
terminals cannot exceed 700mA. Therefore, whatever devices are con-
If using anexternal power supply, the current consumption cannotexceed 150mA for PGM1 and 2.5A for
AUX
terminals, the PGM’s current
2.9SINGLE ZONE INPUTS
Detection devices such as motion detectors and door contacts are connected to the control panel's zone input terminals. Figure
2.4 (below) demonstrates single zone input terminal connections recognized by Spectra. Once connected, the associated zone's
parameters must be defined. For details refer to Zone Programming on page 14.
Figure 2.3: Relay and PGM Connections
AUX+ or External Power Supply.
See Programmable Output
Connections on page 6
Figure 2.4: Single Zone Input Connections
2.10KEYPA D AN D KEYPAD ZONE CONNECTIONS
To connect the keypads to the control panel, remove the back cover and wire the GRN, YEL, RED, and BLK terminals of each
keypad to the corresponding terminals on the control panel as shown in Figure 2.2 on page 5. There is no limit to the number of
keypads that can be connected to the control panel so long as the current consumption does not surpass 700mA. For details on
Keypad Tamper Supervision see section 11.8 on page 40.
Each keypad has one zone input terminal, allowing you to connect one motion detector or door contact directly to a keypad. The
keypad can then communicate the status of the zone to the control panel. A maximum of two keypad zones can be used with
each control panel. After connecting the device, the zone's parameters must be defined. For details on zone recognition and
Zone Programming refer to page 14. Also, refer to the feature Reassign Keypad Zone 2 on page 14.
Example: A door contact located at the entry point of an establishment can be wired directly to the input terminal of the entry
point keypad instead of wiring the door contact all the way to the control panel.
Figure 2.5: Keypad Zone Connections
2.11KEYSWITCH CONNECTIONS
Keyswitches allow users to arm or disarm a partition by pushing a button or by activating a
switch with a key. Connect the keyswitch as shown in Figure 2.6 directly to the control
panel terminals. Once a keyswitch is connected, it must be assigned to a zone and its
parameters must be programmed (see Zone Programming on page 14 and Keyswitch
Options on page 19).
2.12FIRE CIRCUITS
When a zone is programmed as a Fire zone, the zone becomes normally open and requires
an EOL resistor. If a line short occurs or if the smoke detector becomes active, whether the
system is armed or disarmed, the control panel will generate an alarm. If a trouble occurs on a
Fire zone, the Fire Loop Trouble will appear in the keypads’ Trouble Display (see page 45) and
the control panel can transmit the Fire Loop Trouble report, if programmed, in section [206].
2.12.14-WIRE INSTALLATION:
Any on-board zone can be defined as a Fire Zone (see page 16) when using the 4wire installation. Connect the smoke detectors as shown in Figure 2.7 directly to the
control panel terminals. Program the PGM with the “[
Activation Event (see page 37) so the smoke detectors can be reset by pressing the
[
PG]or[FNC1] key. Pressing the [PG]or[FNC1] key will interrupt power to the smoke
detectors for 4 seconds (see PGM Delay on page 38).
Figure 2.6: Keyswitch
Figure 2.7: Fire Zones
PG]/[FNC1] Key was Pressed”
PART 3: PROGRAMMING METHODS
3.1WINLOAD SOFTWARE FOR WINDOWS
Program the Spectra Series control panels remotely or on-site using the Winload Software for Windows®. For more information,
contact your local Paradox Distributor or visit our web site at http://www.paradox.ca. If you are using the WinLoad software, you
must program the features explained on pages 43 and 44.
3.2PROGRAMMING USING A KEYPAD
Use the supplied Spectra 1759EX Programming Guide to keep track of which sections were programmed and how. We
recommend you read this entire manual before you begin programming.
How Do I Enter Programming Mode?
STEP 1: Press [
STEP 2: Enter your [
STEP 3: Enter 3-digit [
STEP 4: Enter required [
3.2.1SINGLE DIGIT DATA ENTRY METHOD (HEXADECIMAL AND DECIMAL)
Single Digit Data Entry is used in all sections except those specified in the Feature Select Programming Method. After
entering the programming mode as described in the shaded box above, some sections will require that you enter
Decimal values from 000 to 255. Other sections will require that you enter Hexadecimal values from 0toF.The
required data will be clearly indicated in this manual as well as in the Spectra 1759EX Programming Guide. When
entering the final digit in a section, the control panel will automatically save and advance to the next section. Except
sections 001 to 016, after entering the first two digits the control panel will switch to Feature Select Programming.
ENTER]
INSTALLER CODE] (default: 000000)
SECTION] you wish to program
DATA]
Table 3:
Decimal and Hexadecimal Programming Table
Value or ActionWhat Do I Press?What Do I See?
Values1to9[1]to[9]
A (hexa only)[0][0 (10)][10]0
B (hexa only)[
C (hexa only)[
D (hexa only)[
E (hexa only)[
F (hexa only)[
Exit Without Saving[
Insert Blank Digit[
Save Data[
CLEAR][ENTER] flashes[ARM1] & [STAY1] flash“SECTION []”
FORCE]Displays next digit or next section
ENTER]Advances to the next section
3.2.2FEATURE SELECT PROGRAMMING METHOD
After entering sections [001] to [016], [126] to [138], and [302] to [348], each option from [1] to [8] represents a specific
feature or option. Press the key corresponding to the desired option and the corresponding light will illuminate or the
option number will appear in the LCD display. This means the option is on. Press the key again to extinguish the
corresponding light or remove the digit from the LCD display, thereby, turning off the option. Press the [
set all 8 options to off. Press the keys until the current section’s options are set. When the options are set, press the
[
ENTER] key to save and advance to the next section.
3.2.3DATA DISPLAY MODE (LED KEYPADS ONLY)
In the Data Display Mode you can view the programmed contents of each section one digit at a time. After entering the
desired 3-digit section (see step 3 of the shaded box on page 9), press the [Mode (will not function with sections using Multiple Feature Select Programming).
10-Zone LED16-Zone LEDLCD
[1]to[9][1]to[9][1]to[9]
FORCE] key to
ENTER] key to access the Data Display
Figure 3.1: Data Display Mode (LED Keypads Only)
To access the Data Display Mode, press the [enter] key after entering a section and before entering any data. The three LEDs as indicated will begin
to flash indicating that you are in the Data Display Mode.
1686H
1686V1689
Each time the [ENTER] key is pressed, the keypad will display the next digit in the current section and will continue through all the following sections
one digit at a time without changing the programmed values. Not available for sections using the Multiple Feature Select Method. Press the [CLEAR]
key at any time to exit the Data Display Mode.
3.3CONFIGURING THE LED KEYPADS
Depending on the version of the keypad, two methods can be used to configure the LED keypads (1686H, 1686V and 1689):
3.3.1CONFIGURING THE 1686H, 1686V AND 1689 KEYPADS V2.0 OR HIGHER
The keypad’s zone number, EOL definition and tamper switch are programmed through the control panel’s
programming mode. To do so:
How Do I Configure The Keypad?
STEP 1: Press [
STEP 2: Enter your [
STEP 3: Press the [
STEP 4: Press the desired key ([1] to [3]. See below)
STEP 5: Press [
PLEASE NOTE: After two minutes, the keypad exits programming mode.
Key [1] - Keypad Zone Selection
Key [1] determines whether the keypad’s zone is Keypad Zone 1 or Keypad Zone 2. When key [1] is OFF (not
illuminated), the keypad’s zone is Keypad Zone 1. When key [1] is ON (illuminated), the keypad’s zone is Keypad Zone 2.
Key [1] OFF - Keypad Zone 1 (default)
Key [1] ON - Keypad Zone 2
Key [2] - EOL Definition
Key [2] determines the keypad zone’s EOL definition. When key [2] is OFF (not illuminated), EOL is disabled and the
keypad zone will use the on-board EOL resistor. When key [2] is ON (illuminated), EOL is enabled and the keypad
zone requires that an external EOL resistor be connected (refer to Spectra 1759EX Control Panel Overview on page 5
for more details).
Key [2] OFF - EOL disabled
Key [2] ON - EOL enabled (default)
ENTER]
INSTALLER CODE] (default: 000000)
PG] (1686H/V) / [FNC1] (1689) key and hold it for 3 seconds.
ENTER] to exit programming mode
Key [3] - On-Board Tamper
Key [3] enables or disables the keypad’s on-board tamper switch. When key [3] is OFF (not illuminated), the tamper
switch is disabled. When key [3] is ON (illuminated), the tamper switch is enabled.
Key [3] OFF - On-board tamper switch disabled
Key [3] ON - On-board tamper switch enabled
PLEASE NOTE: The keypad can be ordered with or without a tamper switch. If the keypad has no
tamper switch, key [3] will be OFF by default. If the keypad has a tamper switch, key [3] will be ON by
default.
3.3.2CONFIGURING THE 1686H, 1686V AND 1689 KEYPADS PRIOR TO V2.0
The keypad’s zone number and EOL definition are defined through the jumpers located on the PCB board. The
jumpers are as follows:
J1 - Keypad Zone Select Jumper
Jumper J1 determines whether the keypad’s zone is Keypad Zone 1 or Keypad Zone 2. When the jumper is OFF, the
keypad’s zone is Keypad Zone 2. When the jumper is ON, the keypad’s zone is Keypad Zone 1.
J1 OFF - Keypad Zone 2
J1 ON - Keypad Zone 1
J2 - EOL Definition Jumper
Jumper J2 determines the keypad zone’s EOL definition. When the jumper is OFF ,EOL is disabled and the keypad zone
uses the on-board EOL resistor. When the jumper is ON, EOL is enabled and the keypad zone requires that an external
EOL resistor be connected (refer to Spectra 1759EX Control Panel Overview on page 5 and more details).
J2 OFF - EOL disabled
J2 ON - EOL enabled
3.4PROGRAMMING USING A PARADOX MEMORY KEY
Copy the sections of one Spectra control panel into the Paradox Memory Key (PMC-3). Then copy the contents of the Memory
Key into as many Spectra control panels as needed. Each panel is programmed in less than 3 seconds.
Download to DESTINATION Control Panel
1) Remove AC and battery power from the control panel.
2) Place the Memory Key on the serial connector labeled KEY of the Spectra Control Panel that is
to receive the contents of the Memory Key.
3) Reapply AC and battery power.
4) In installer programming mode, enter section [900], then press [
5) When the keypad emits a Confirmation Beep, remove the Memory Key.
6) Enter section [750] to reprogram the modules with the information downloaded from the
Paradox Memory Key.
Copy to Memory Key from SOURCE Control Panel
1) Remove AC and battery power from the control panel.
2) Place Memory Key on the serial connector labeled KEY of the Spectra Control Panel that you
want to copy. Make sure the write protect jumper of the Memory Key is on.
3) Reapply AC and battery power.
4) In installer programming mode, enter section [902], then press [
5) When the keypad emits a Confirmation Beep, remove the Memory Key. Remove the Memory
Key’s jumper if you do not wish to accidentally overwrite its contents.
Figure 3.2: Paradox Memory Key
ENTER] to acknowledge.
ENTER] to acknowledge.
PART 4: ACCESS CODES
The Spectra 1759EX control panel supports the following access codes:
INSTALLER CODE:Used to program all control panel settings except User Access Codes.
SYSTEM MASTER CODE (001)Provides full access. Arm and disarm using any method described in the User Code Options
in section 4.4 as well as program the User Access Codes.
Master Code 1 (002):Permanently assigned to partition 1. Same as a regular User Code except it can also
program access codes for User Codes assigned to partition 1.
Master Code 2 (003):Permanently assigned to partition 2. Same as a regular User Code except it can program
access codes for User Codes assigned to partition 2. If the system is not partitioned Master
Code 002 will be assigned to partition 1.
45 User Codes (004 to 048):Can arm and disarm as per User Code Options in section 4.4.
4.1ACCESS CODE L ENGTH
Section [127]: System Options
Option [2] OFF = 6-Digit Access Codes
Option [2] ON = 4-Digit Access Codes (default)
All access codes can be set to lengths of either 4- or 6-digits. When the 4-digit option is selected, entering a 4-digit code will allow
access. Using the 6-digit option, entering 6 digits is required to allow access.
If the Access Code Length is changed from four digits to six digits when access codes have already been
programmed, the control panel will automatically add the last 2 digits by using the first 2 digits. For example, if
the access code is 1234 and you switch to 6 digits, the code will become 123412. Be sure to verify the access
codes after switching from 4-digit access codes to 6-digit codes. When switching from six digits to four digits,
the control panel will simply remove the final two digits of the access code. For example, 123456 will become
1234.
4.2INSTALLER CODE (Default: 000000)
The Installer Code is used to enter the control panel's programming mode (see page 9), which allows you to program all the
features, options and commands of the control panel. The Installer Code can be 4- or 6-digits in length (see above) where each
digit can be any value from 0 to 9. The Installer Code cannot be used to program Master Code 1, Master Code 2 or User AccessCodes. To program the Installer Code press:
[
ENTER] + [CURRENT INSTALLER CODE] + [281] + new 4- or 6-digit Installer Code
4.3SYSTEM MASTER CODE (Default: 123456)
The Installer Code canbeusedtoprogramtheSystem Master Code. With the System Master Code a user can use any arming
method and can program any User Access Code, but not the User Code Options.TheSystem Master Code canbe4or6digits
in length (see section 4.1), where each digit can be any digit from 0 to 9. To change the System Master Code press:
[
ENTER] + [INSTALLER CODE] + [301] + new 4- or 6-digit System Master Code
4.4USER CODE OPTIONS
Sections [302] to [348]: Options [1] to [7]
The User Code Options define which arming methods each user can use to arm or disarm the system. Regardless of these
settings, all users can Regular Arm assigned partitions and all users except those with the Arm Only option can disarm an
assigned partition, regardless of how it is armed. Select one or more of the options described on the following pages for each
User Access Code, where sections [302] to [348] represent User Access Codes 002 to 048. For information on how User Access
Codes are programmed, please refer to page 46.
4.4.1PARTITION 1ASSIGNMENT
Sections [302] to [348]: User Codes 002 to 048
Option [1] OFF = Den y access to partitio n 1
Option [1] ON= User code has access to partition 1 (default)
If Partitioned (see page 39), user codes with this option enabled can arm and disarm partition 1.
If the system is not partitioned, you must assign partition 1 to the User Access Code. Otherwise, the
User Access Code will be considered disabled.
4.4.2PARTITION 2ASSIGNMENT
Sections [302] to [348]: User Codes 002 to 048
Option [2] OFF = Deny access to partition 2 (default)
Option [2] ON= User code has access to partition 2
If the system is partitioned (see page 39), user codes with this option enabled can arm and disarm partition 2. If the
system is not partitioned, the control panel ignores this option.
4.4.3BYPASS PROGRAMMING
Sections [302] to [348]: User Codes 002 to 048
Option [3] OFF = Bypass Programming Disabled
Option
User codes with this option enabled can perform Bypass Programming in assigned partitions.
[3]
ON= Bypass Programming Enabled (default)
4.4.4STAY ARMING
Sections [302] to [348]: User Codes 002 to 048
Option [4] OFF = Stay Arming Disabled
Option
User codes with this option enabled can Stay Arm assigned partitions.
[4]
ON= Stay Arming Enabled for selected User Code (default)
4.4.5FORCE ARMING
Sections [302] to [348]: User Codes 002 to 048
Option [5] OFF = Force Arming Disa b led (default)
Option [5] ON= Force Arming Enabled for selected User Code
User codes with this option enabled can Force Arm assigned partitions.
4.4.6ARM ONLY
Sections [302] to [348]: User Codes 002 to 048
Option [6] OFF = Arm Only Disabled (default)
Option [6] ON= Arm Only Enabled for selected User Code
The user code with this option enabled can arm assigned partitions, but cannot disarm any partitions. The type of
arming is dependent on the other User Code Options selected. Please note that with the Arm Only option, the user can
cancel a recently armed system by re-entering the access code before the end of the Exit Delay.
4.4.7PGM ACTIVATION
Sections [302] to [348]: User Codes 002 to 048
Option
Option [7] ON= User Code can activate a PGM only
With option [7] off, entering the access code will arm or disarm according to the programmed User Code Options as
well as activate or deactivate a PGM. The appropriate PGM Activation/Deactivation Event must also be programmed
(see page 37). With option [7] on, the control panel will ignore all other User Code Options. Therefore, entering the
access code will only activate or deactivate the PGM.
[7]
OFF= User Code follows User Code Options and can activate a PGM (default)
4.5LOCK MASTER CODE
Section [127]: System Options
Option [4] OFF = Lock System Master Code Disabled (default)
Option [4] ON = Lock System Master Code Enabled
With this feature enabled, the control panel will lock the System Master Code (001). This means that the System Master Code
cannot be deleted, but it can be changed.
4.6DURES S CODE
Section [127] = System Options
Option [6] OFF = Duress Code Disabled (default)
Option [6] ON = User Code 048 becomes a Duress code
With this feature enabled, User Code 048 becomes a Duress Code. When forced to arm or disarm their system, users can enter
a Duress Code (User Code 048) to arm or disarm the system which can immediately transmit a silent alert to the Central Station,
transmitting the duress report code programmed in section [196].
PART 5: ZONE PROGRAMMING
The Spectra 1759EX control panel’s zone assignment depends on where the detection devices are connected (see Table 4).
An expansion input allows you to connect modules to the system to increase the number of zones available up to 15 zones. Each
hardwired input on a zone expansion bus module or wireless transmitter can be assigned to an expansion input. The expansion
inputs can be used in any combination. For example, 5 wireless transmitters and 3 hardwire inputs can be assigned to the
expansion inputs. Spectra control panels cannot support more than eight expansion inputs. Refer to the appropriate module’s
Instruction Sheet for details.
Do not assign inputs from different modules to the same expansion input.
5.2REASSIGN KEYPAD ZONE 2
Section [126]: General Options
Option [7] OFF = Reassign Keypad Zo ne 2 Disabled (default)
Option [7] ON = Reassign Keypad Zone 2 Enabled
Reassign Keypad Zone 2 changes the keypad zone into an expansion input. In Table4 above, the effects of enabling this feature
are shown. For example, when option [7] is enabled, Zone 4 moves to Expansion Input 1 (see Table 5 on page 15). Then, you are
able to use Expansion Input 1.
When Reassign Keypad Zone 2 is enabled, the Keypad Tamper Supervision (see page 40) for keypad zone 2 is
lost. Keypad Tamper Supervision will
ONLY function on Keypad Zone 1.
5.3REASSIGN ZO NES TO EXPANSION INPUTS
Section [126]: General Options
Option [8] OFF = Reassign Zones to Expansion Inputs Disabled (default)
Option [8] ON = Reassign Zones to Expansion Inputs Enabled
Reassign Zones to Expansion Inputs changes the zone numbering to increase the number of expansion inputs that can be
displayed on 10-Zone LED Keypads. In installations that require using mostly the expansion inputs, such as using wireless
zones, the 10-Zone LED Keypads may be unable to display some of the zones. In the following table, the effects of enabling this
feature and Reassign Keypad Zone 2 ( see section 5.2 on page 14) are shown:
Zone 1Zone 1Zone 1Zone 1
Zone 2Zone 2Zone 2Zone 2
Zone 3N/AN/AN/A
Zone 4N/AN/AN/A
Zone 5N/AN/AN/A
Zone 6Zone 3Zone 3Zone 3
Zone 7Zone 4Zone 4N/A
Zone 8Zone 5Zone 5Zone 4
Zone 9Zone 6Zone 6Zone 5
Zone 10Zone 7Zone 7Zone 6
Zone 11Zone 8Zone 8Zone 7
Zone 12Zone 9Zone 9Zone 8
Zone 13Zone 10Zone 10Zone 9
Zone 14Zone 11Zone 11Zone 10
Zone 15Zone 12Zone 12Zone 11
(Reassign Keypad Zone 2)
= not displayed on 10-Zone LED Keypads
5.4ZONE PROGRAMMING
After connecting a hardwired detection device to one of the control panel's or zone expansion bus module’s input terminals or
after setting up any wireless transmitters, define the associated zone's parameters. The Zone Parameters define the type of
zone, the zone's partition assignment and how the control panel will react when an alarm condition occurs on that zone. These
Zone Parameters are programmed into one section as detailed in Figure 5.1 on page 16.
Only the control panel’s on-board inputs can be defined as a Fire, Delayed Fire or a Keyswitch zone. The onboard zones are zones 01 to 05.
As demonstrated in Figure 5.1, sections [001] to [015] represent zones 1 through 15 respectively, where the first digit in each of
these sections represents the zone's definition. Also, refer to Zone Speed on page 20. To disable a zone, clear the contents of
the section corresponding to the desired zone by pressing the [
Zone Definitions, which are described as follows.
Select
one
Key in 3-digit
[SECTION]
Zone Definition
First Digit
Zone Partition
Assignment
Second Digit
Keypads beep twice
Zone Options
Feature Select
Press [ENTER]
Zone Partition Assignment
1-Zone Assigned to Partition 1
2-Zone Assigned to Partition 2
3-Zone Assigned to both Partitions
Select
one
[1] Auto Zone Shutdown Enabled
[2] Bypass Enabled
[3] Stay Zone
[4][5]Zone Alarm Type
OFF OFF Audible Alarm (steady)
OFF ON Audible Alarm (pulsed)
ON OFF Silent Alarm
ON ON Generates only a report
[6] Intellizone
[7] Delay alarm transmission
[8] Force Zone
Zone Options
Keyswitch Options
[1]OFF= Maintained
ON = Momentary
[2]OFF = Regular Arm
ON = Stay Arm
FORCE] key 3 times and pressing [ENTER]. There are 9 available
5.5.1ENTRY DELAY 1
Sections [001] to [015]: Zones 1 to 15, First Digit = 1
When the system is armed and a zone defined with Entry Delay 1 opens, the control panel will generate an alarm after
the programmed Entry Delay 1 Timer elapses. This is to provide users with enough time to enter the protected area
and disarm the system. To program the Entry Delay 1 Timer, key in the desired 3-digit delay value (000 to 255
seconds, Default = 45 seconds) into section [069]. Entry Delay zones are commonly used at the entry/exit points of the
protected area (i.e. front/back door, garage, etc.). Using different Entry Delays (see Entry Delay 2) is useful when, for
example, one entry point requires a longer delay than the other entry point or in a partitioned system where each
partition may require a different Entry Delay.
5.5.2ENTRY DELAY 2
Sections [001] to [015]: Zones 1 to 15, First Digit = 2
Entry Delay 2 zones are identical to the Entry Delay 1 zones (see section 5.5.1), except it uses a separate Entry Delay
Timer. To program the Entry Delay 2 Timer, key in the desired 3-digit delay value (000 to 255 seconds, Default = 45
seconds) into section [070].
This timer is also used as the Stay Delay timer (see section 7.2).
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