Specifications

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Summary of content (112 pages)

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Safety Warnings • The wiring of your electrical installation is live (230 V) and extremely dangerous. Never connect the module when plugged into the mains. Always turn off the main switch before starting the installation. • This product is for professional use and should be installed by a certified installer. • To prevent short circuits, this product should only be used inside and only in dry spaces. Do not expose the components to rain or moisture. Do not use the product close to a bath, swimming pool etc.
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Table of Contents Safety Warnings ......................................................................................................................................2 Table of Contents ....................................................................................................................................3 Chapter One: Introduction .......................................................................................................................6 1.1: Documentation Conventions ............
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8.5: Exit Restart...............................................................................................................................54 8.6: Arming Tones...........................................................................................................................54 8.7: Home Automation Tones .........................................................................................................55 8.8: System Trouble Tones .............................................................
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Transmitter Specifications.............................................................................................................106 Appendix C: Event Table .....................................................................................................................107 Appendix D: Zone Types .....................................................................................................................109 Declaration of Conformity ..........................................................
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Chapter One: Introduction This manual is designed to help you install the ProGuard800 control panel. We strongly urge you to read through this manual, in its entirety, before beginning the installation process so that you can best understand all that this security system has to offer. This manual is not intended for end user use. End users are encouraged to read the user manual provided with the system. If you have any questions concerning any of the procedures described in this manual please look at www.
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1.
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The panel’s home automation capabilities provide a wealth of features. The Home Automation module interfaces with X-10 units over the powerline network and grants the user appliance control via a number of different media. The following diagram shows the components that make up the system and the system’s interaction with external communication networks. Figure 1.
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1.4: Hardware Layout The aim of this section is to acquaint you with the various circuit boards that make up the system. Apart from the Main Board, each peripheral module is available as an optional extra designed for installation inside the plastic housing. Figure 1.2: System Layout 1. 2. 3. 4. 5.
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1.4.1: The Main Board The Main Board is the brain of the system and connects to various peripheral modules using a number of interface connectors. Additionally, the Main Board includes a programmable output, a hardwire zone input and a USB port for PC programming. Figure 1.3: Main Board 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22.
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1.4.2: PSTN Module The PSTN module provides the system with a standard dialer for communication via the Public Switched Telephone Network (PSTN). 1 Do not use VoIP phone lines for communication to the central monitoring station. In certain cases the system may not transmit alarm signals successfully over the VoIP network. Alternative Telephone Line Socket Option Figure 1.4: PSTN Module 1. 2. 3. 4. 5. 6.
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1.4.4: Cellular Communications Module The Cellular Communications module enables the control panel to communicate via cellular networks. This offers the ability to send or receive SMS messages, perform up/downloading, implement cellular 2-way voice applications. Figure 1.6: Cellular Communications Module 1. 2. 3. 4. 5.
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Chapter Two: System Installation The following chapter explains how to install the system and provides guidelines and tips on how to optimize the installation. It is recommended that you familiarize yourself with the various circuit boards that make up the system – see 1.4: Hardware Layout. 2.1: Pre-Installation Planning Before starting the installation procedure, it is worthwhile to draw a rough sketch of the building and determine the required position for the control panel and each wireless device.
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x The reduction of the RF signals’ strength is directly proportional to the thickness of the obstacle, assuming that the obstacles are of identical material. Figure 2.3: Considering Thickness of Obstacles 2.2: Installation Procedure After unpacking the kit and making certain that you have all the necessary equipment, it is recommended that you install the system as follows: STEP 1: Open the housing. STEP 2: Temporarily power up the system. STEP 3: Register the transmitters.
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2.2.3: Step 3 – Registering Transmitters For the control panel to recognize a device, its transmitter must be registered. In general terms, transmitter registration means sending two transmissions from a device when the control panel is in “Registration” mode. To register a device: 1. Press 3. 2. Enter your Installer code (the default Installer code is 1111). 3. Enter 91 (Programming, Devices) to enter the Devices menu. 4.
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3. Enter 709 (Service, GSM Signal); the signal strength of the cellular network is displayed – see 4.7.9: GSM Signal Strength for further information. 2.2.5: Step 5 – Installing the Control Panel and Transmitters Having chosen and tested the mounting location of the control panel and each transmitter, you are now ready to permanently install the system.
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10. 1 11. 12. 13. 1 14. 15. 16. Mount the control panel to the wall using four screws and insert the back tamper screw if required – see 2.3: Back Tamper. The control panel shall be mounted so that it shall withstand a force of at least three times its own weight. Replace the Main Board and reconnect its peripheral modules. Connect the flat cable connecting the Main board to the front panel keypad and the replace the front cover’s fastening bands. Apply AC power.
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To install HK855 Hardwire LCD Keypads. 1. Disconnect all power, both AC and battery, from the control panel. 2. Remove the back cover of the keypad. To do so, press the two snaps (located at the bottom of the keypad) using a small flat-head screwdriver and carefully pull the back cover away from the front of the housing. 3. Place the back cover of the keypad in position against the wall and mark the upper and lower mounting holes. 4. Install wall anchors in the appropriate positions. 5.
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Chapter Three: Basic System Operation 3.1: Front Panel Layout The front panel provides a detailed interface for operating and programming the system. The following diagram will familiarize you with the various elements on the front panel. LCD Display System Status LEDs Arming Keys Menu Navigation Keys Alphanumeric Keypad Figure 3.1: Front Panel 3.2: System Status LEDs The two LEDs, Armed and Power, provide essential information on the status of the system.
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3.3: Front Panel Keypad The alphanumeric keypad on the front panel enables you to perform various operation and programming tasks. Apart from the regular functions of a standard alphanumeric keypad, the keypad offers a number of special functions. These functions are listed in the following table. Key 1 0 2 3 Special function Used to enter symbols in descriptor editing. Used to enter symbols in descriptor editing. Used to cancel the current selection. Used to return to the previous menu level.
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This… DISARMED FULL ARMED PART ARMED PERIMETER ARMED FULL ARMING PART ARMING PERIMETER ARMING PART ARMED INST PERIM ARMED INST PART ARMING INST PERI ARMING INST Means… The system is disarmed. The system has been armed using the displayed arming method. The system is in the process of arming (displayed during exit delay). The system has been armed using the displayed arming method with the Instant arm feature activated. The system is in the process of arming with the Instant arm feature activated.
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3.6: HK855 Hardwire LCD Keypad In addition to the front panel keypad, you can install up to three, individually addressed, HK855 Hardwire LCD Keypads (or two keypads with large LCD). The layout of the HK855 Hardwire LCD Keypad is similar to the front panel keypad and most of the functionality is identical. The following diagram shows the layout of the HK855 Keypad. LCD Display System Status LEDs Menu Navigation Keys Alphanumeric Keypad Arming Keys Menu Navigation Keys Figure 3.
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3.7: Arming/Disarming The following section explains how to arm and disarm the control panel using the LCD keypad. The ProGuard800 offers three arming modes that you can define to suit the application. Figure 3.4 illustrates the three arming modes. In each diagram, the protected area is shaded. Full Part Perimeter Figure 3.4: Arming Modes The arming options are entirely flexible. You can program each sensor to be included in any combination of the three arming modes – see section 7.6.2: Arm Set.
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To partially arm the system using the front panel keypad: 1. Check if the system is ready to arm. 2. Press the Part arming key on the keypad. 3. If One-Key Arming is disabled, enter your user code. To partially arm the system using the HK855 Hardwire LCD Keypad: 1. Check if the system is ready to arm. 2. Press PART on the keypad. 3. Select Part arming. 4. If One-Key Arming is disabled, enter your user code. 3.7.
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Disarming cancels both active arming modes. 3.7.6: Forced Arming Forced arming enables you to arm the system when the system is not ready. For example, if a door protected by a magnetic contact is open, you may arm the system on condition that the door will be closed by the end of the Exit delay. If the door is still open after the exit delay expires, an alarm is generated. Two conditions enable you to perform Forced arming: x Forced arming is enabled – see section 9.3.1: Forced Arm.
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X F 1 u L l Y A r m Z # 1 2 [ 3 4 1 2 1 While the SMS Command Descriptor is optional, you must start the SMS command with the # symbol for the system to accept the command. After an SMS command is executed by the system, you can program the system to return a confirmation message to the sender – see 10.7.5: SMS Confirmation. 3.8.1: Arm Status Reply On receiving an Arm Status request message, the system returns a status message to the sender.
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Figure 3.8: Fire Alarm Activation To activate a Medical alarm from the front panel or HK855 Hardwire LCD Keypad: x Press keys 4 and 6 simultaneously. Figure 3.
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Chapter Four: Advanced System Operation Besides the basic arming functions described in the previous chapter, you can access additional functions via the menu. This chapter describes these functions and the menu navigation procedure. 4.1: Menu Navigation Alphanumeric Keypad Menu Navigation Keys HA Off Key HA On Key Service Call Key Figure 4.
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4.3: Sensor Bypassing/Unbypassing When a sensor is bypassed, it is ignored by the system and does not generate an alarm when triggered. To bypass or unbypass a sensor: 1. From the Bypass Zones menu, select Bypass/Unbyp. [21]. 2. Using the arrow keys, scroll to the sensor you want to bypass or unbypass. 3. Press 3 to change the bypass status. 4. Press 2; Save Changes? is displayed. 5. Press 3 to confirm the changed bypass status. To unbypass all sensors: 1.
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Code 28: Duress Code The Duress code is designed for situations where the user is being forced to operate the system. This user code grants access to the selected operation, while sending a Duress event message to the monitoring station. Code 29: Telecontrol Code The Telecontrol code is designed to enable the user to perform a number of tasks via their telephone using DTMF commands.
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4.4.3: User Code Descriptors Each user code can be assigned a 16-character descriptor. These descriptors help to identify users in the event log and in SMS Follow Me messages. To edit a code descriptor: 1. From the main menu, select User Codes [4]. 2. Select a code. 3. From the code’s sub-menu, select Descriptor [#2]. 4. Edit the descriptor using the alphanumeric keypad. 5. Press 3 when you have finished editing. 4.
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Figure 4.2 shows the detailed event log entry for a Fire alarm on November 14th 2007. The event was successfully reported to the monitoring station. 4.6.1: Event Log Authorization Levels Every event that occurs is recorded in the event log. However, certain events are intended for the installer only. Those events include various service messages that are of little interest to the regular user. The View Log function requires you to enter either the Master or Installer code.
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4.7.2: Message Center The ProGuard800 Message Center is designed to allow the user to record a short message that may be played back later by another user. After a message is recorded, Message Waiting is displayed on the LCD until the message is played back. To play back a recorded message: x From the Service menu, select Messages, Play Message [7021]. To record a message: 1. From the Service menu, select Messages, Record Message [7022]. 2. Press 3 to start recording the message. 3. Record your message.
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4.7.6: Walk Test To initiate Walk Test mode: 1. From the Service menu, select Walk Test [706]; a list of registered sensors appears. 2. Trigger each sensor; when the system receives a successful transmission from a sensor, the sensor is removed from the list. 3. When all the sensors are removed from the list, End Walk Test is displayed. 4. Press 2 to exit Walk Test mode. 4.7.7: Transmitters The Transmitters menu offers two utilities that serve as a valuable aid during installation.
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If you enter this function using the Master code, a chime is sounded every time a transmission is received. If you enter this function using the Installer code, a sequence of tones are sounded indicating the transmitter’s signal strength – see Table 4.2. This feature helps you to determine the best location to install a transmitter. Signal Strength 0-2 3-5 6-8 8-9 Tones 1 Tone 2 Tones 3 Tones 4 Tones Table 4.2: Signal Strength Tones To initiate TX Test mode: 1.
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4.7.11: Enable Programming The Enable Programming command enables a user with Master code authorization to grant access to system programming. This feature is relevant only if the Installer Access and/or the RP Access options are programmed as “User Initiated” – see 9.14: Installer Access and 10.4.4: RP Access Options. To grant access to the installer or remote programmer: x From the Service menu, select Enable Prog.
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Chapter Five: Telecontrol and Two-Way Audio The ProGuard800 control panel offers a range of Telecontrol features that provide remote access via the telephone. These features include Two-Way Audio, remote arming/disarming and cancel siren activation. This chapter explains these features and their operation procedures. Telecontrol features can be separated into two fundamental groups; incoming and outgoing calls. These groups differ in their associated features. 5.
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5.1.4: Telecontrol Call Procedure The following procedure explains how to make a Telecontrol call. The conditions and procedure differ when using PSTN or Cellular communication. For further information, read sections 5.1.1, 5.1.2. and 5.1.3 above. To make a Telecontrol call: 1. Call the control panel either using the double call method (PSTN) or directly (Cellular); when the control panel picks up, two DTMF tones are sounded. 2. Enter the Telecontrol code (Code 29) on your telephone within 15 seconds. 1 3.
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5.1.7: Siren Muting The siren is muted during Two-Way Audio communication. At the end of the call, the siren is re-activated (if the Siren Cut-Off has not yet expired). During the call, pressing “9” on your telephone cancels the re-activation of the siren. 5.1.8: Monitoring station Two-Way Audio Monitoring station Two-Way Audio is an alarm verification feature that enables the monitoring station operator to establish Two-Way Audio communication with the control panel within ten minutes of an alarm.
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5.2.2: TWA Alarm Reporting In the event of Burglary, Fire and Medical alarms, the control panel is able to report the events and then stay on the line after ACK 2 is received. This allows the operator to verify the alarm or provide assistance in the event of an emergency. For this feature to function, you must enable Two-Way Audio for both the account and the event group. The sequence for Two-Way Audio during alarm reporting is as follows: 1.
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5.2.4: TWA Follow-Me The TWA Follow-Me feature is designed to establish a Two-Way Audio connection with the user in the event of an alarm. For this feature to function, the account’s protocol must be defined as TWA Follow-Me. The sequence for a Two-Way Audio Follow-me call is as follows: 1. An alarm occurs. 2. The control panel dials the programmed telephone number and sounds two DTMF tones when you pick up the call. 3. Press any key on your telephone; the control panel opens the audio channel. 1 4. 5.
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Chapter Six: X-10 Home Automation Control The purpose of this chapter is to explain the various methods used to control X-10 Home Automation (HA) units installed around the home. For further information on the X-10 protocol and the choice of options that are available in programming, see Chapter Eleven: Home Automation Programming. 6.1: Keypad Control Using either the front panel keypad or the wireless keypad, you can control HA units with the dedicated Home Automation keys – see Figure 6.1.
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6.3.2: SMS Command Format Each SMS command contains the following elements: X Y Z [ \ SMS Command Descriptor (up to 43 characters of free text) # (delimiter – separates the descriptor from the actual command) User Code (4 digits) Command (0=Off, 1=On) Device Number (HA Units: 01-16) The following example shows the format of an SMS command to switch on a water boiler controlled by HA unit 8.
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6.4.2: Off Time To edit an HA unit’s “Off” Time: 1. From the main menu, select HA Schedules [8]. 2. Select an HA unit. 3. From the HA unit’s sub-menu, select Off Time [#2]. 4. Enter a time (HH:MM). 5. Press 3 when the desired setting is displayed. 6.4.3: Weekly Schedule To program the days of the week that the schedule is active: 1. From the main menu, select HA Schedules [8]. 2. Select an HA unit. 3. From the HA unit’s sub-menu, select Schedule [#3]. 4. Use keys 1 to 7 to toggle the days on and off.
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Chapter Seven: Devices This chapter explains how to register devices to the system and the programming options for each device. For further information, please refer to the installation instructions included with each device. 7.1: Device Registration For the system to recognize individual devices, each device must be registered to the system. For example, if the device is a wireless transmitter, registration enables the system to identify the source of a received transmission.
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To delete a device: 1. From the Programming menu, select Devices, [91]. 2. Select the type of wireless device you want to delete. 3. From the device’s sub-menu, select Delete. 4. Press 3 to confirm; the device is deleted. 7.4: Supervision Time The sensors in Marmitek’s ProGuard800 supervised wireless range send a supervision signal approximately one hour after its last transmission. If the system does not receive supervision signals from a specific transmitter, the transmitter is regarded as inactive.
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This section explains the sections of programming exclusive to sensors. For information on registration, descriptor editing and deletion, see sections 7.1, 7.2 and 7.3, respectively. 7.6.1: Zone Type The zone type defines the type of alarm the system generates when the sensor is tripped. To program a zone type: 1. From the Programming menu, select Devices, Zones [911]. 2. Select the sensor you want to program. 3. From the sensor’s sub-menu, select Zone Type [#02]. 4.
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4. 1 Select either Enabled or Disabled. Fire zones always activate the siren regardless of what is programmed for this option. If the bell is disabled for Panic zones, this also disables all forms of alarm indication from the on-board keypad in the event of a Panic alarm. If the Bell option is enabled for Environmental or Flood zones, the system sounds trouble tones from the keypad. 7.6.4: Chime When Chime is enabled, triggering the zone when the system is disarmed causes the internal siren to chime.
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7.6.7: Repeater The RP835 repeater is an additional module that extends the range of the wireless transmitters. For a sensor to use the repeater to relay transmissions to the system, you must define the Repeater option for its zone as “Use Repeater”. To program the Repeater option: 1. From the Programming menu, select Devices, Zones [911]. 2. Select the zone you want to program. 3. From the zone’s sub-menu, select Repeater [#09]; the zone’s current Repeater setting is displayed. 4.
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To program buttons B1 and B2: 1. From the Programming menu, select Devices, Keyfobs [912]. 2. Select the Keyfob you want to program. 3. From the keyfob’s sub-menu, select either B1 Assign [#4] or B2 Assign [#5]. 4. Select the HA unit you want the button to control (01-16) or enter 00 to program the button’s default function. The default functions are as follows: B1: Part arming B2: Perimeter arming 7.7.
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7.8.1: Keypad SOS Panic Alarm Activation Using any of the wireless keypads, you can activate an SOS Panic alarm by pressing the Full and Perimeter arming keys simultaneously. Figure 7.4 illustrates how to activate an SOS Panic alarm on the WK820 wireless keypad. 7.9: Repeaters Repeaters are designed to extend the wireless range of the control panel. Up to four repeaters may be registered to the system with a maximum of 32 transmitters associated with each receiver.
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7.10.2: Wireless Siren Delay The Wireless Siren Delay is the period of time during which the wireless siren is not sounded after an alarm is triggered by normal, follower or 24Hr zones. This feature is implemented only when the system is not fully armed. During the Wireless Siren Delay, the control panel’s built-in siren is sounded but the alarm report is not sent until the delay has expired.
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Chapter Eight: Entry/Exit Timers and System Tones This chapter explains how to program the time of the Entry/Exit delays and the tones sounded by the built-in siren and wireless siren during Exit/Entry delays, arming, disarming, home automation operation and when a trouble condition is present. 8.1: Entry/Exit Delay The Entry/Exit delay timers determine the amount of time the user has to arm or disarm the system before an alarm is activated.
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8.4: Entry Deviation Entry Deviation is a pre-alarm feature employed in the event that a sensor defined with the “Normal” zone type is opened during the entry delay. In this case, the control panel’s built-in siren is sounded until the end of the entry delay period. Failure to disarm by the end of the entry delay causes the system to generate an alarm. To program the Entry Deviation setting: 1. From the Programming menu, select Entry/Exit, Ent. Deviation [925]. 2. Select Enabled or Disabled. 8.
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2. Select Enabled or Disabled. To program tones sounded by the built-in siren on arming: 1. From the Programming menu, select Tones, Arm Tones, Siren [9332]. 2. Select Enabled or Disabled. 8.6.4: Disarming Tones To program tones sounded by the wireless siren on disarming: 1. From the Programming menu, select Tones, Disarm Tones, WL Siren [9341]. 2. Select Enabled or Disabled. To program tones sounded by the built-in siren on disarming: 1.
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To program the Fire Trouble Tones option: 1. From the Programming menu, select Tones, Fire Trb. Tones [938]. 2. Select Enabled or Disabled. 1 It is not necessary to program the Telephone Trouble Tones and Fire Trouble Tones options if the Trouble Tones option is programmed as disabled. 8.9: Tones Options 8.9.1: Tones Output The Tones Output option enables you to determine whether the tones sounded when arming and disarming are sounded by the control panel’s built-in siren or its built-in speaker.
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Chapter Nine: System Options As the name suggests, System Options are settings that affect the entire system. This chapter offers explanations and programming instructions for each of these options. 9.1: Swinger Setting A sensor defined as Swinger enabled can generate only a limited number of alarms during a specific time period or during an arming period.
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9.3.2: One-Key Arming You can arm the system by pressing any of the three arming keys on the keypad. If OneKey Arming is enabled, the system does not prompt you for a user code. To program the One-Key Arming setting: 1. From the Programming menu, select System Options, Arm/Disarm, OneKey Arming [94032]. 2. Select Enabled or Disabled. 9.3.3: Supervised Arm The Supervised Arm option is a feature designed to supervise intrusion sensor activity before you arm the system.
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9.3.6: Keyfob Arm The Keyfob Arm option offers two options concerning the behaviour of the system when arming with a Keyfob. These options are as follows: x x With Exit Delay – when arming with a Keyfob, the system initiates the Exit delay of the chosen arming method. No Exit Delay – when arming with a Keyfob, the system arms instantly without initiating the Exit delay. To program the Keyfob Arm option: 1. From the Programming menu, select System Options, Arm/Disarm, KF Arm [94036]. 2.
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9.6: Display Options The following options relate to the information the system displays on the LCD keypad. 9.6.1: Arm Status Display The Arm Status Display includes the current arm status and any trouble conditions that may exist within the system. You can program the system to display this information at all times or only for two minutes after arming or disarming the system. To program the Arm Status Display options: 1. From the Programming menu, select System Options, Display, Arm Status [94061]. 2.
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9.7: PGM Output Options The PGM is a programmable output that is triggered according to specific system status conditions. 9.7.1: Output Trigger The Output Trigger option determines the conditions that activate and deactivate the PGM output. To program the Output Trigger: 1. From the Programming menu, select System Options, PGM Options, Output Trigger [94071]. 2. Select an Output Trigger option from the following table.
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9.7.3: Polarity You can determine the polarity of the PGM output from the following two options: x x Active High: The output is normally off and is switched on when activated. Active Low: The output is normally on and is switched off when activated. To program the Output Type: 1. From the Programming menu, select System Options, PGM Options, Polarity [94073]. 2. Select Active High or Active Low. 9.7.4: PGM Cut-off The PGM Cut-off is the duration for which the PGM is activated.
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9.11: “No Motion” Time The No Motion feature is designed to monitor the activity of disabled or elderly people. If a sensor defined as “No Motion” (see 7.6.1: Zone Type) has not detected within a predefined period of time, a No Motion event message is sent to the monitoring station. To program the No Motion time: 1. From the Programming menu, select System Options, No Motion [9411]. 2. Select 6 Hours, 12 Hours, 24 Hours, 48 Hours, 72 Hours or Disabled. 9.
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9.16: Daylight Savings Using the Daylight Savings option, the system is able to automatically adjust its clock twice a year according to the national adjustment to Daylight Saving Time. Two options are available: x x 1 Europe – the clock is adjusted forward 1hr on the last Sunday in March at 2am, the clock is adjusted back 1hr on the last Sunday in October at 3am.
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9.19: Cross Zoning (for future use) Cross Zoning is a future option that is not available in the current firmware. The default setting for this option is disabled. Marmitek recommends that you do not change this setting. 9.20: Verified Fire The Verified Fire feature is an option that is designed to delay Fire alarm reports to the monitoring station until the alarm condition has been verified.
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Chapter Ten: Communications This section explains how to determine the way the control panel communicates via the GSM and PSTN modules. 10.1: Monitoring station Reporting The control panel supports three customer accounts for monitoring station reporting. Each account has its own telephone number and communications options. An explanation of each of these options is included in this section. 10.1.1: Telephone Number To edit an account’s telephone number: 1.
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10.1.5: Call Attempts The Call Attempts option determines the number of times the system tries to call a telephone number before moving on to the next number in sequence. To program the number of call attempts for an account: 1. From the Programming menu, select Communications, Accounts [951]. 2. Select a CS account (1-3). 3. From the account’s sub-menu, select Call Attempts [#5]. 4. Enter a value between 01 and 15. 5. Press 3 when the desired setting is displayed. 10.1.
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10.2.2: Report Cycles The system’s attempts to report events are organized in cycles. A report cycle is a set of call attempts. If the system does not succeed in sending a report to any of the telephone numbers, it tries to dial the entire report cycle again until it sends a successful report. You can determine the number of times the system attempts to dial this sequence by programming the Report Cycle option. To program the number of Report Cycles: 1.
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The sequence for a vocal message call is as follows: 1. An event occurs and the control panel calls the telephone number of VM Account 1. 2. When the user answers the call, the Home ID message and the relevant event message are played. 3. The user presses 1 on their telephone; if there are additional events to report the next message is played. Otherwise, “No Further Messages” is announced.
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1. 2. 3. 5. From the Programming menu, select Communications, Accounts [951]. Select a CS account (4-6). From the account’s sub-menu, select Two-Way Audio [#3]. Select Enabled or Disabled. 10.3.4: Home ID The Home ID is a short message that is played at the beginning of a vocal message call in order to identify the system to the user. For example, at the beginning of the vocal message call, the message “Michael’s House” shall be played before the event messages.
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To edit the Call-back telephone number: 1. From the Programming menu, select Communications, Remote Prog., Call-Back # [9521]. 2. Enter up to 16 digits. Use the key to enter “*”, “#”, “,” (pause), “T” (switch to DTMF tone dialling), “P” (switch to pulse dialling) or “+” (international code). Use the key to delete one character at a time. 3. Press 3 when you have finished editing.
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10.5: Service Call The Service Call feature is designed to enable the user to call the monitoring service at the push of a button. When the user presses and holds down the Service Call button (0) for a few seconds, a two-way audio connection is established with the monitoring station. 10.5.1: Service Call Telephone Number To edit the Service Call telephone number: 1. From the Programming menu, select Communications, Service Call, Phone Number [9531]. 2. Enter up to 16 digits.
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1 The Periodic Test event message is an unclassified event. This means that it does not belong to any event group. If the Periodic Test Interval is programmed with any value other than 000, the event message shall be sent. To program the Periodic Test Interval: 1. From the Programming menu, select Communications, Comm. Options, Test Interval [95402]. 2. Enter the test interval (001-254 hours) or 255 for an automatically calculated test interval. 3. Press 3 when the desired setting is displayed.
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10.6.7: PSTN Country In order to meet the requirements of local telecommunications authorities, default telephone line parameters have been chosen for a number of different countries. To program the PSTN Country: 1. From the Programming menu, select Communications, Comm. Options, PSTN Country [95407]. 2. Select your country from the options available. 1 Marmitek offers custom telephone line parameter settings for countries that do not appear in the list of pre-defined options.
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To program the Telecontrol/Vocal Message Timeout: 1. From the Programming menu, select Communications, Comm. Options, TC/VM Timeout [95411]. 2. Enter a time (001-255 seconds). 3. Press 3 when the desired setting is displayed. 10.6.12: TWA Mode The Two-Way audio features offer a choice of two operation modes: x Duplex – both parties may speak at once just like a regular telephone. x Simplex – one party may speak while the other party listens. To program the TWA mode option: 1.
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10.7.4: SMS Command The SMS Command option enables you to enable or disable the ability to send commands to the system via SMS. For further information on SMS commands, see 3.8: Remote Arming/Disarming via SMS and 6.3: Telephone Control To enable/disable SMS commands: 1. From the Programming menu, select Communications, Comm. Options, GSM Options, SMS Command [954134]. 2. Select Enabled or Disabled. 10.7.
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To program the TWA Event option: 1. From the Programming menu, select Communications, Comm. Options, TWA Event Rept. [95414]. 2. Select Enabled or Disabled. 10.8.2: TWA Time Report If the TWA Time Report option is enabled, the last three digits of the TWA Event Report are replaced with the amount of seconds programmed for the TC/VM Timeout – see 10.6.11: Telecontrol/Vocal Message Timeout.
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4. Select Enabled or Disabled. 10.9.3: Two-Way Audio For Burglary, Fire and Medical event groups, there is an additional option that enables Two-Way Audio for that event group – see 5.2.2: TWA Alarm Reporting. To enable/disable Two-Way Audio for an event group: 1. From the Programming menu, select Communications, Event Options [955]. 2. Select an Event Group (Burglary, Fire or Medical). 3. Select TWA [#3]. 4. Select Enabled or Disabled. 10.
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x x x Arm [#6] o Full Arm o Part Arm o Perimeter Arm Disarm [#7] o Disarm o Disarm after Alarm Water [#8] o Zone Water Alarm (Flood) To enable/disable the vocal message for an event group: 1. From the Programming menu, select Communications, VM Event Opt. [956]. 2. Select an event group. 3. Select Enabled or Disabled.
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Chapter Eleven: X-10 Home Automation Programming This chapter explains the programmable options for the system’s home automation features. The Home Automation module is an add-on optional extra that you can install inside the panel’s plastic housing. 11.1: X-10 Overview The control panel’s home automation feature employs the X-10 protocol and this enables compatibility with a wide variety of readily available home automation products.
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11.2.2: On by Zone The On by Zone feature allows you to choose two zones that activate the HA unit when triggered. When either one of these zones is triggered, the system sends an On command to the HA unit according to the unit’s programmed Pulse Time – see 11.2.8: Pulse Time. For example, you have a magnetic contact installed above the front door. When the door is opened, the hall light is lit. To select the sensors that activate an HA unit: 1.
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2. 3. 4. Select an HA unit (01-16). From the HA unit’s sub-menu, select KF Ctrl [#07]. Select Enabled or Disabled. 11.2.6: Telephone Control Via SMS or DTMF, you can send commands to the system in order to control various HA units. This option allows you to enable or disable this feature for each HA unit. To program the SMS control option for an HA unit: 1. From the Programming menu, select HA Programming, HA Units [961]. 2. Select an HA unit (01-16). 3. From the HA unit’s sub-menu, select TEL CTRL [#08].
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11.3: House Code The House code is part of the identification code of each HA unit. For the Home Automation features to function correctly, the House code on each HA unit must be identical to the House code programmed in the system’s memory. To program the system House code: 1. From the Programming menu, select HA Programming, House Code [962]. 2. Using the arrow keys, select a House code from the options available (A-P). 11.
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Chapter Twelve: System Initialization The Initialization menu offers a number of options that enable you to reset the system. This menu is particularly useful when re-installing a panel at a new site. The Initialization function clears the entire system. This restores programming defaults, clears the log, user codes and the transmitter register. Options are also available that enable you to clear a specific section of the system’s memory separately. 12.
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12.4: Clear Wireless Transmitters The Clear Wireless Transmitters function enables you to delete all registered transmitters at once. To clear the transmitter register: 1. From the Programming menu, select Initialize, Clear Wireless [974]; the system prompts you for confirmation. 2. Press 3 to confirm; the transmitter register is cleared. 12.5: Find Modules The Find Modules function runs a diagnostic test that identifies the modules and keypads that are connected to the system bus.
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ProGuard800™ -87-
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ProGuard800™ -89-
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ProGuard800™ -91-
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Appendix B: Transmitter Installation PIR Sensors (MS845) The MS845 are intelligent wireless PIR sensors for use with the ProGuard800 system. All of these sensors implement a feature to combat the problem of multiple transmissions, which drastically reduce the life of the batteries. After each transmission, there is a four-minute delay during which further transmissions will not be sent. The MS845 are designed for installations prone to nuisance alarms caused by pets or small animals.
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x x x x Mount the center of the unit at a height of 2m with the PCB vertical setting at -4. Set the pulse counter to 2. Do not aim the detector at stairways that can be climbed by an animal. Avoid a location where an animal can come within 1.8m of the detector by climbing on furniture, boxes or other objects. INSTALLATION PROCEDURE To install PIR sensors: 1. Open the housing by removing the front cover.
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Vertical Adjustment To position the PCB, turn the Easy Lock counterclockwise and slide the PCB up or down to the required setting using the vertical adjustment scale. The detector’s coverage area is 12m x 12m when the PCB is positioned at 0. Slide the PCB up towards the -8 position to decrease the coverage area bringing the beams closer to the mounting wall. Walk Test Mode A walk test is performed in order to determine the lens coverage pattern of the detector – see Figure B.2.
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Antenna Magnetic Contact (DS831) The DS831 is a magnetic contact designed for installation on doors and windows. LED Indicator INSTALLATION PROCEDURE Battery Holder To install magnetic contacts. 1. To open the housing, insert a small screwdriver at the bottom of the unit between the front and back cover and twist the screwdriver to release the cover. Tamper Switch Loop Terminals 1cm max Operation Mode Jumper PCB Release Tab Location of wiring knockout Figure B.3: DS831 (cover off) 2.
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11. Mount the back cover of the magnet using two screws. Make sure that the guideline on the magnet is correctly aligned with the guideline on the transmitter. 1 Do not install the magnet further than 1cm from the transmitter. 12. Test the transmitter, making certain that the LED is lit when opening the door/window and again when closing. 13. Close the front covers of the transmitter and the magnet.
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Universal Transmitter (US832) The US832 is a universal transmitter that includes a single output for use in a wide range of wireless applications. Installation Procedure Antenna Battery Holder To install universal transmitters: LED 1. To open the housing, insert a small Indicator screwdriver at the bottom of the unit between the front and back cover and twist the screwdriver to release Tamper the cover. Switch 2. Remove the divider separating the battery from the contacts on the battery holder.
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Glass break Sensor (GB843) The GB843 is an intelligent acoustic glass break sensor with an incorporated wireless transmitter. Mounting Considerations The GB843 acoustic sensor is omnidirectional, providing 360º coverage. The coverage is measured from the sensor to the point on the glass farthest from the sensor. The sensor can be mounted as close as 1m from Figure B.6: Acoustic Sensor Range Measurement the glass.
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x x Do not define the zone as 24hr. It is recommended to register the GB843 to a perimeter arming group that arms the perimeter doors and windows of the premises. Avoid humid rooms – the GB843 is not hermetically sealed. Excess moisture can eventually cause a short and a false alarm.
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7. 8. 9. 10. 11. Before permanently mounting the unit, test the acoustic sensor and the transmitter from the exact mounting position. For further information on testing the acoustic sensor, refer to the following section, Hand Clap Test. Knock out the required mounting holes on the back cover. Mount the unit to the wall using the mounting screws provided. Write the number of the zone on the sticker provided and affix the sticker inside the front cover for future reference.
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Smoke Detector (SD833) The SD833 is a brand-name smoke detector with an integrated Marmitek transmitter. Installation Procedure The following procedure explains the installation of the SD833 wireless smoke detector and its registration to the receiver. For further information regarding the smoke detector’s location, test procedures, maintenance and specifications, refer to the manufacturer’s installation instructions provided with this product. To install smoke detectors: 1.
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Keyfobs (PR811/KR814) The PR811 and KR814 are keyfob transmitters that are supported by the system. REGISTRATION PROCEDURE To register keyfobs: 1. From the Programming menu, select Devices, Keyfobs [912]. 2. Select the keyfob you want to register; the system initiates Registration mode. 3. Press a button, making sure that the keyfob’s LED lights up when the button is pressed. 4. Press the same button again. When Save? appears on the panel’s LCD display, press 9.
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Wireless Keypads (WK820/RC840) INTRODUCTION The WK820 and RC840 are one-way wireless keypads primarily designed as additional arming stations, including three arming keys that enable Full, Part or Perimeter arming modes. Pressing the Full and Perimeter buttons simultaneously generates an SOS panic alarm. Additionally, the keypad may be used to control Home Automation modules. Figure B.
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BATTERY REPLACEMENT (RC840) When the battery is low, the RC840’s LED flashes during transmission. To replace the battery: 1. Remove the battery cover located at the rear of the unit. To do so, press the release tab using a small screwdriver and lift the cover away from the RC840’s plastic housing. 2. Observing correct polarity, replace the battery (9V, alkaline). 3. Replace the battery cover making sure that it clicks shut. 9V Alkaline Battery Figure B.
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Transmitter Specifications The technical specifications for the transmitters that appear in this appendix are listed below. All transmitters are available in 868.35 MHz FM frequencies. Specifications may be modified without prior notice. MS845 Antenna: Built-in Whip Power: 3.
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Appendix C: Event Table Burglary Description Restore Alarm from Zone Zone Alarm Restore Contact ID Address Field NBA 1130 Device Number NBR 3130 Device Number NUB 1570 Device Number NUU 3570 Device Number NTA 1137 Device Number Zone Bypassed Zone Unbypassed SIA Zone Tamper NTR 3137 Device Number NPA 1120 Device Number NPR 3120 Device Number Panic Alarm NPA 1120 Device Number Tamper NTA 1137 Device Number Device Number Zone Tamper Restore Zone Pa
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Power Description Restore Battery Low Battery Restore Transmitter Low Battery Transmitter Battery Restore AC Loss AC Restore SIA Contact ID Address Field NYT 1302 Device Number NYR 3302 Device Number NXT 1384 Device Number NXR 3384 Device Number NAT 1301 Device Number NAR 3301 Device Number NLT 1351 Device Number NLR 3351 Device Number NET 1330 Device Number Peripherals Media Loss Media Loss Restore Device Trouble Device Trouble Restore Transmitter O
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Appendix D: Zone Types Normal A Normal zone is active when the system is armed. This zone generates a Burglary alarm instantly when triggered. Normal zones are designed for detectors installed inside the protected site or doors/windows that are never used to enter the premises. Event Group: Burglary Entry/Exit When the system is armed, Entry/Exit zones initiates the entry delay when triggered. If the system is not disarmed by the time the entry delay expires, a Burglary alarm is generated.
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24Hr-X The 24Hr-X zone is a future option that is not available in the current firmware. Event Group: Not applicable Gas Gas zones are always active. In the event of a gas leak, these zones generate a Gas alarm. Gas zones are typically used with methane/propane/butane or carbon monoxide gas detectors. Gas alarms sound a distinctive siren pattern to easily distinguish them from other alarms. A gas alarm causes the siren to sound until the alarm is restored; the siren cut-off does not apply to gas alarms.
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Declaration of Conformity Hereby, Marmitek BV, declares that this PROGUARD800 is in compliance with the essential requirements and other relevant provisions of the following Directives: Directive 1999/5/EC of the European Parliament and of the Council of 9 March 1999 on radio equipment and telecommunications terminal equipment and the mutual recognition of their conformity Council Directive 89/336/EEC of 3 May 1989 on the approximation of the laws of the Member States relating to electromagnetic compatibili
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