Risco LightSYS Installation And Programming Manual
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Risco LightSYS Installation And Programming Manual

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  • Page 1 Installation and Programming Manual...
  • Page 2 Corporate and individual names and data used in examples herein belong to their respective owners. Compliance Statement Hereby, RISCO Group declares that the LightSYS series of central units and accessories are designed to comply with: EN50131-1, EN50131-3 Grade 2 EN50130-5 Enviromental class II...

  • Page 3: Table Of Contents

    Wiring Internal Bell ..................... 24 Wiring Bell Tamper ..................... 24 Wiring Programmable outputs ................25 Back Tamper (Optional) ....................26 Connecting a telephone line to the LightSYS ............. 26 Placing the Communication Modules ................. 27 GSM/GPRS......................27 Plug-in IP ......................28 Plug-in Fast Modem 2400 ...................
  • Page 4 Step 3: Programming the Bus Detectors Advanced Parameters ....57 Programming bus detectors on a bus expander ............57 Step 1: Adding the Bus Expander to LightSYS ..........58 Step 2: Adding Bus Detector ................58 Step 3: Set Bus Zone Basic Attributes ..............59 Step 4: Programming the Bus Detectors Advanced Parameters ....
  • Page 5 Timers ........................61 Controls ......................... 65 Labels ........................80 Sounds ........................80 Settings ........................81 Automatic Clock ....................83 Service Information ..................... 83 Firmware Update ....................84 2 Zones ..........................84 Parameters ......................85 Zones: Parameters: One By One.............. 85 Zones: Parameters: By Category .............
  • Page 6 Parameters ..................132 Prepay SIM ..................133 IP ....................... 134 IP Config ..................134 Email ....................135 Host Name ..................135 ARC Keep alive (Polling) .............. 135 Radio (LRT)....................137 Alarm Receiving Centre ..................138 Report Type ..................138 Accounts ..................141 Communications Format ..............
  • Page 7 Clock Menu ........................184 Event Log ........................185 Maintenance ......................... 185 Macro..........................187 Stand Alone Keyfobs ....................187 Appendix A Technical Specifications Appendix B LightSYS Accessories Appendix C Wiring Appendix D Library Voice Messages Appendix E Report Codes Appendix F...
  • Page 8 3 -2: Zone Expander board and mounting diagrams ............35 ‎ Figure 3 -3: Zone Expander mounting location inside the LightSYS box ......... 36 ‎ Figure 3 -4: Programmable Output Module PO4 (Showing an Example of PO4 Wiring) ..36 ‎...

  • Page 9: Chapter 1 Introduction

    LightSYS is an integrated security system with unrivalled flexibility and advanced expansion capabilities, yet simple to install, program and maintain. LightSYS provides monitoring and supervision for up to 32 zones. Through its 4-wire bus it can support a variety of optional modules including: assorted keypads, proximity key readers, zone expanders, interactive voice module, 868/433 MHz wireless expansion, supplement power supply, programmable outputs and numerous bus detectors.

  • Page 10: Lightsys Architecture And Capabilities

    Introduction Figure ‎ 1 -1 LightSYS Architecture LightSYS Architecture and Capabilities Feature LightSYS Zones 8 – 32 wired, wireless or RISCO bus in any combination Partitions Groups per partition Zone resistance Fully selectable Programmable outputs 4 onboard expandable to 14...

  • Page 11: Lightsys Features

    Introduction LightSYS Features Main Panel The main panel is the foundation of the system's operation and has the following features: 8 basic hardwired zones 4 Programmable outputs: o 1 x relay (programmable output) (3 Amps) o 3 x 100mA opto-relays Box tamper input (normally open) Bell tamper input (using a 2.2KΩ...
  • Page 12 Transmitter supervision Nominal center frequency: 868.65 MHz or 433.92 MHz Can be installed inside or outside the LightSYS main enclosure When using wireless zones, the LightSYS Wireless expansion modules respond to different wireless detectors, such as: Smoke detectors Door contacts/Door magnet/universal transmitter/door contact +universal...

  • Page 13: Figure ‎ 1 -2 Lightsys-Supported Keypads

    Introduction Keypads The LightSYS can support up to four keypads, wired or wireless (1-way) with a choice of different styles. Model: RP128KCC Model: 432KP Model RP128KP Figure ‎ 1 -2 LightSYS-supported Keypads Each keypad is equipped with: Three emergency key zones (panic, fire, and emergency)
  • Page 14 The Advanced Digital Voice module provides audible information about the status of your LightSYS system and enables any remote, touch-tone (DTMF) telephone to act as a keypad for the system. The advanced digital voice module can be used in the following situations:...
  • Page 15 Recording opening messages or zone descriptors 3 A Power Supply Expansion Module Although the LightSYS's main panel provides 800mA of auxiliary power (300mA for Bell), the use of a number of additional system modules and detectors will likely exceed this limitation.
  • Page 16 LightSYS without the need for power. Local/Remote Configuration Software Remote software upgrade over IP False Alarm Reduction In an effort to deter false alarms, the LightSYS provides various programmable features, including the following: Cross zoning Swinger shutdown Audible/visual entry/exit delays...

  • Page 17: Chapter 2 Mounting And Wiring

    Mounting and Wiring Chapter 2 Mounting and Wiring This chapter covers the installation and wiring of the LightSYS main unit. Due to its modularity, the specific component assembly will depend on your system configuration. The following assembly is presented in the recommended order.

  • Page 18: Wall Mounting The Lightsys Box

    A ppendix A Technical Specifications Wall Mounting the LightSYS Box The LightSYS is housed in a state-of-the-art plastic enclosement, consisting of back and front panels and featuring a plastic click-mounting for all internal components.  To prepare the wall for box mounting Separate the sub-assemblies by pressing the circular locking plastic brackets on either side to release the front cover.

  • Page 19: Figure ‎ 2 -3 Placing The Ac Adapter With Mains Fuse

    Mounting and Wiring Connection to AC must be permanent and connect through the mains- ‎ fuse terminal block (see Figure 2 -3): A. Affix AC adapter as per placement struts. According to the location of the electrical and communication outlets, remove the knockouts to allow cable and wire passage for routing through the right or left-side (default) knockout exit.

  • Page 20: Figure ‎ 2 -4 Placing The Main Panel

    Mounting and Wiring Figure ‎ 2 -4 Placing the main panel Wire all require expansion modules as described in ‎ C hapter 3 Installing Bus Devices. Page 20...

  • Page 21: Main Board Wiring

    Mounting and Wiring Main Board Wiring The LightSYS main board provides plugs, connectors and peripheral module interfaces for all the principal functional expanders. In addition, its terminal connector block offers unparalleled ease and access to the full range of alarm functionality and the board includes communication ports for sound and digital data throughput ‎...

  • Page 22: Zone Inputs Wiring

    4. If connecting remote power supplies, do NOT connect the Red wire (+12v) between the Power Supply Unit and LightSYS. ‎ 5. For long cable runs, please use the correct cable as stated in...

  • Page 23: Wiring Auxiliary Devices

    2. It is recommended that you use an end-of-line resistor at the far end of each hardwired zone (16 x 2.2K resistors are supplied). 3. In the LightSYS you have the ability to define separately the end-of-line resistance of the zones on the main unit and of the wired zones for each eight-unit expander block (Quick key ).

  • Page 24: Wiring Internal Bell

    Mounting and Wiring  To prevent a possible drop in voltage due to current requirements and distances involved, make sure to use the appropriate wire gauge (refer to the table of gauge sizes ‎ A ppendix A Technical Specifications.  To increase your power supply when employing multiple auxiliary devices, you can use the optional power supply expansion module (refer to the Wiring Power Supply Expansion Modules section, page 39)

  • Page 25: Wiring Programmable Outputs

    SAB Unit. Wiring Programmable outputs The LightSYS programmable outputs support a variety of power-line device activation, whether resulting from: time dependency, external input, or device sensor. As detailed in Chapter 4, 3 Outputs, you can program customized device activation powerfully and granularly.

  • Page 26: Back Tamper (Optional)

    The back tamper switch is an optional feature that provides an extra safeguard. In the event that the LightSYS is removed from the wall, the screw causes the perforated section of the plastic and attached tamper mechanism metal plate to break and remain attached to the wall.

  • Page 27: Placing The Communication Modules

    You will have to contact your local cellular provider to unlock the SIM card.  Important: Do not install SIM card while power is applied to the LightSYS.  Do not touch SIM Card connectors! If doing so, you may release an electrical discharge that could damage the SIM card.

  • Page 28: Plug-In Ip

    Mounting and Wiring ‎ Figure 2 -10 Placing the GSM/GPRS panel and antenna Plug-in IP  To activate the Plug in IP Module Place the optional IP communication modem (mounted on its cylindrical ‎ placement struts) as illustrated in Figure 2 -11 Connect the incoming LAN cable in order to enable IP Communication.

  • Page 29: Plug-In Fast Modem 2400

    PLUG 4 Voice Used to connect the Advanced Digital Voice Module (RP432EV) to the LightSYS. Connect the Voice module to the VOICE connector (PLUG 4) on the main panel via the supplied cable. This connector transmits signals from the voice module to the telephone line during remote communication and is essential for normal operation of the voice module.

  • Page 30: Jumpers

    Use this outlet to connect to the backup battery (not- supplied), of 12 volts and 7Ah Jumpers The LightSYS is equipped with an internal jumper to configure battery discharge protection. Use the following table to set the jumper. Position Function Battery Discharge Protection is disabled;...

  • Page 31: Dip Switches

     The battery is not supplied with the LightSYS.  The LightSYS Rechargeable battery should be charged for at least 24 hours.  Battery is checked every 1 minute.  There is a risk of explosion if a battery is replaced with an incorrect type.

  • Page 32: Chapter 3 Installing Bus Devices

    If connecting remote power supplies, do NOT connect the red wire (+12v) between the power supply unit and LightSYS. ‎ For long cable runs, please use the correct cable as per...

  • Page 33: Setting Bus Accessory Id Numbers

    Installing Bus Devices Setting Bus Accessory ID Numbers For most devices, a DIP switch number must be set to identify its ID category number. Devices are split into ‘Families’. Each ‘Family’ of devices has sequential identification numbers which are set by the DIP switches. Before setting power on, define each module’s ID number by setting the DIP switches as follows: DIP switches DIP switches...

  • Page 34: Installing Bus Expanders

    Keypads 3A Power Supply Bus Sounders (ProSound / Lumin8) Installing Bus Expanders Keypads The LightSYS supports several types of keypads. Up to 4 bus keypads can be assigned to the LightSYS. Model:RP432KP Model: RP128KP Model RP128KCL  To install LightSYS bus keypads...

  • Page 35: Figure ‎ 3 -2: Zone Expander Board And Mounting Diagrams

    Installing Bus Devices ‎ Figure 3 -2: Zone Expander board and mounting diagrams  To install the 8-zone expander Set DIP switches as follows: Switch Description Switch 1-5 Defines the Zone Expander ID number. Switch 6-7 Not Applicable Switch 8: Tamper omit Instead of a short between the TMP/COM terminal block Wire the zone expander to the bus...

  • Page 36: Programmable Outputs

    Figure 3 -3: Zone Expander mounting location inside the LightSYS box Programmable Outputs The LightSYS programmable outputs support a variety of device activation, based on periodicity or system event. As detailed in Chapter 4, Using the Engineer Programming  Menus Outputs , you can program customized device activation powerfully and granularly.

  • Page 37: Figure ‎ 3 -5: Programmable Output Module E08

    Installing Bus Devices Figure ‎ 3 -5: Programmable Output Figure ‎ 3 -6: Programmable Output Module Module E08 X-10 Notes: Outputs on module EO8: Current consumption: 25 mA, typical / 30 mA, maximum; Contacts; 12V Open Collector, Active Pull-Down, 70 mA, maximum Outputs on module EO4: Current consumption 25 mA, typical / 140 mA, maximum;...

  • Page 38: Wireless Receiver

    Installing Bus Devices Wireless Receiver Up to two Wireless bus expanders (model WL432) can be assigned to the LightSYS. WL Receiver Mounting 1. Optional screw hole Bracket (used to fasten front 1. Screw cap and back covers) 2. Upper mounting hole 2.

  • Page 39: 3A Switching Mode Power Supply

    Installing Bus Devices Wire the wireless expander to the bus. Connect the devices to the outputs terminals (12VDC @ 1A max Dry Contact ‎ 2 -8 and Figure ‎ 3 -4 Relays). See Figure Mount the wireless receiver to the mounting bracket. 10.

  • Page 40: Figure ‎ 3 -9: Smps Inside A Metal Box

    Installing Bus Devices Figure ‎ 3 -9: SMPS Inside a Metal Box Note: Prior to installation, calculate the total current consumption of the connected devices in order not to exceed the power supply’s maximum current consumption! Important: To prevent risk of electric shock, disconnect all power sources before servicing! Under no circumstances should mains be connected to the PCB other than to the main terminal block! Locate the SMPS metal box in a clean and dry location, close to the mains.
  • Page 41 Notes: If one or more of the AUX/BELL/LS outputs is overloaded and the SMPS shuts down, the SMPS must be reset, using the LightSYS software as follows: (User menu > Activities > Advanced > Overload Restore option, or enter and exit the installation-programming mode. If overload still exists,...

  • Page 42: Figure ‎ 3 -10: Smps - Ac & Ground Connection

    When PS/SW4, or PO/SW4 is Off, the ID number defined by SW1-SW3 is not recognized by the LightSYS and can be used for the connection of another accessory of the same category. The PO/PS LED will flash since there is no communication with the main panel.
  • Page 43 Installing Bus Devices Jumper Description Battery discharge protection If a continuous AC power outage occurs, the SMPS automatically disconnects the battery when its backup Protection battery voltage drops below 10.8VDC. This is done to prevent "deep discharge” that may damage the battery The battery may be totally discharged during continuous AC failure (no deep discharge protection).

  • Page 44: Digital Voice Module

    Installing Bus Devices Digital Voice Module Figure ‎ 3 -11: Voice Module PCB  To mount the voice module: Set the voice module DIP switches as follows: Switch Description Usage Omit tamper Instead of a short with the TMP/COM terminal block Not in use Test...

  • Page 45: Figure ‎ 3 -12: Voice Module - Listen/Talk Unit Wiring

    If required, connect the Listen/Talk unit as illustrated in the diagram above. Connect the Voice module to the VOICE connector on the LightSYS main panel (PLUG 4) via the supplied cable, as illustrated below. This connector transmits signals from the Voice module to the telephone line during remote communication, and is essential for normal operation of the Voice module.

  • Page 46: Sounders

    ProSound Figure ‎ 3 -13: ProSound Bus Wiring  To install LightSYS-compatible bus sounders Connect the sounder according to Figure ‎ 3 -13. Set the related DIP switches for bus mode operation. Set DIP switch DIP 1:SW4 should be in ON position for ProSound bus...

  • Page 47: Lumin8

    ProSYS FreeCom Connecting Bus Detectors Up to 32 addressable bus detectors can be assigned to the LightSYS. Bus detectors can be wired to the main bus or to a Bus Zone Expander (BZE). For full installation instructions refer to the instructions supplied with each bus detector.

  • Page 48: Single Zone Expander

    300 meters (1000 feet) of wiring from the BZE to the last bus detector. When connected to LightSYS the Bus Zone Expanders can be defined to support 32 bus zones. UP to 4 Bus Zones Expanders can be connected to the LightSYS .

  • Page 49: Completing The Installation

    Wire the RP128EZ01 zone wires, Black and White, to the detector's terminals according to the required termination. Notes: The Black and White wires are equivalent to zone input terminals in the LightSYS. Completing the Installation  To complete the installation...

  • Page 50: Chapter 4 Engineer Programming

    Configuration Software manual. PTM: Data Storing Device The PTM is a tiny circuit board into which the LightSYS panel can transmit a copy of the system's configuration. The PTM stores this copy and can also transmit the configuration information back to the LightSYS panel.
  • Page 51 Engineer Programming Please wait… Then the keypad returns to the normal initial display. Remove the PTM from the PLUG 1 connector Position the default DIP switch 2 to the OFF position. The PTM now contains a copy of the main panel's configuration ...

  • Page 52: Lcd Keypad

    Engineer Programming LCD Keypad The LCD keypad is a visual interface tool that helps you operate and program the LightSYS main panel. Keypad Programming Key Functions The following table describes the uses of the keypad keys during programming: LCD KP...

  • Page 53: Keypad Timeout

    Accessing Engineer Programming Menu First Time Power Up  To power up LightSYS for the first time: Disconnect all power from the main panel Set SW1 – 2 (Default) to ON position (see page 31). Set SW1 – 4 (Omit Tamper) to ON position (see page 31).

  • Page 54: Regular Operation Mode

    2.2K for EOL and DEOL termination.  When adding a wireless expander, define the “Omit Box Tamper” as YES if the wireless expander is mounted inside the LightSYS housing and not in its own. Page 54...

  • Page 55: Bus Test

    WL Expander) , set the type to WL and press Set the receiver ID (1 or 2) and using If the receiver is mounted inside the LightSYS box select Y to omit the box tamper. Press and move to step 2.

  • Page 56: Step 3: Allocating Wireless Device

     Keyfobs: Quick key: 8) Devices > 2) Keyfob Bus Detectors Programming Workflow The following section describes the flow of adding bus detectors to the LightSYS. Bus detectors can be programmed to the main unit or to a bus zone expander.

  • Page 57: Programming Bus Detectors On The Main Bus

    Using bus expanders you can create a separate bus loop that is used only for the bus detectors connected to it. The separate bus loop increases the total system security in case a certain bus detector is sabotaged. Up to four bus expanders can be added to the LightSYS Page 57...

  • Page 58: Step 1: Adding The Bus Expander To Lightsys

    ...Up to 300m ...Up to 300m (1000 ft) (1000 ft) Step 1: Adding the Bus Expander to LightSYS Note: If you already performed Auto Settings skip to Step 2 below: Assign Bus Detectors to a Zone ID and set basic parameters.

  • Page 59: Step 3: Set Bus Zone Basic Attributes

    Engineer Programming Step 3: Set Bus Zone Basic Attributes From the main Engineer menu select [1] Zones > [1] Parameters > [1] One by One . Select the zone number that the bus zone was assigned to and press Configure the parameters for the relevant bus detector. Note: In the zone designation XY:ZZ the X represent the Bus Expander ID as set by its dip switches.

  • Page 60: Using The Engineer Programming Menus

    Engineer Programming Using the Engineer Programming Menus Engineer Programming Menu Conventions The following typographical conventions are used throughout this chapter:  Numeric keys are represented as unless they are the final keys in a  programming sequence, in which case they are represented as Screen text is presented in déjà...

  • Page 61: System

    Engineer Programming 1 System The System menu provides access to submenus and their related parameters that are used for programming configuration settings applicable to the entire system. After you access the System menu from the main Engineer Programming menu, as described in this section, you can access the following sub-menus: ...
  • Page 62 Jamming Time None 30 seconds Specifies the period of time that the LightSYS's wireless module tolerates unwanted radio frequencies capable of blocking (jamming) signals produced by the system's transmitters. Once the specified time is reached, the main panel sends a report code to the alarm receiving center. (Refer to Jamming Fault, page 199.)
  • Page 63 Engineer Programming Quick Keys Parameter Default Range  RX Supervise 0-7 Hours Specifies how often the system expects to get a signal from the systemʹs transmitters. If a signal from a zone is not received during the specified time the zone will be regarded as lost, the system will send a report code to the alarm receiving centre, and the system status will be "Not Ready".
  • Page 64 Engineer Programming Quick Keys Parameter Default Range  01-99 seconds Buzzer at Part Set Defines how much time keypads buzzer will sound before the external sounders start to operate while an alarm occurs in PART SET mode. The timer is relevant only if the system control Bell>Buzzer is defined ed as Yes.

  • Page 65: Controls

    Engineer Programming Quick Keys Parameter Default Range  0-255 minutes Inactivity Timer This timer relates to Automatic Set/Unset scheduler. If there is no signal from any of the zones located in a partition that is defined under an Set/Unset scheduler for the time defined as Inactive Timer then the automatic schedule will be activated and the relevant partitions will be auto set (according to the schedule definition).
  • Page 66 Engineer Programming Quick Keys Parameter Default Range   Yes/No False Code Fault YES: A false code report is sent to the alarm receiving centre after three successive attempts at arming or disarming in which an incorrect user code is entered. No alarm sounds at the premises, but a fault indication appears on the wired keypads.
  • Page 67 Engineer Programming Quick Keys Parameter Default Range   Yes/No Audible Jamming Relates to the Jamming Time parameter, described on page 62 YES: Once the specified time is reached, the Main Panel activates any internal sounders and sends a Report Code to the ARC. NO: Same as above, except the internal sounders do not operate.
  • Page 68 Engineer Programming System: Controls: Advanced Quick Keys Parameter Default Range  Advanced Yes/No This section refers to the advanced controls in the system.   Double Verification Yes/No of Fire Alarms YES: Implemented on detection of smoke or fire for verification. Power to the smoke detector(s) in the affected zone is cut off and restored after the time defined in the Switch Aux Break delay (page 62).
  • Page 69   Yes/No Summer/Winter YES: The LightSYS automatically sets its Time of Day clock one hour ahead in the spring (on the last Sunday in March) and one hour back in the Autumn (on the last Sunday in October). NO: No automatic time accommodation is made.
  • Page 70 Engineer Programming Quick Keys Parameter Default Range   Yes/No Engineer Tamper YES: After a tamper alarm, the system is not ready to set and the tamper indication ( ) LED is not restored. This requires the intervention of the alarm company.
  • Page 71 Engineer Programming Quick Keys Parameter Default Range   Yes/No IMQ Install YES: Causes the following parameters to function as follows:  Auto Set Omit: If there is an open zone during the auto set process, the system will be set, and a silent alarm will be activated (unless the open zone is closed).
  • Page 72 Engineer Programming Quick Keys Parameter Default Range   Yes/No Disable Keypad When Auto Unset Exists YES: When a partition is set manually or in auto set mode, and an auto unset time is defined, this parameter specifies that all the keypads that are masked to this partition will not function and that it will be impossible to unset the relevant partition.
  • Page 73 Engineer Programming Quick Keys Parameter Default Range   Yes/No Error Speaker Time Out This option determines the duration of the alarm that is generated via the internal sounders (speakers) when the exit door is programmed as “Final Exit”, and it is not closed once the exit time expires (an “EXIT ERROR”). YES: The “EXIT ERROR”...
  • Page 74 Engineer Programming Quick Keys Parameter Default Range   Yes/No Part Set Strobe YES: For Part Set or group arming, a squawk indication will be made by the strobe activated by an output (Utility output >Follow Partition > Strobe Trigger) at the end of the exit delay time. NO: For Part Set or group setting, no indication will be made by the strobe at the end of the exit delay time.
  • Page 75 Configuration Software (U/D) Enable YES: Enables communication between the alarm company and the LightSYS main panel using the configuration software. This enables modifying an installation's configuration, obtaining status information, and issuing main panel commands, all from a remote location. NO: Disables communication, as detailed above.
  • Page 76 NO: Prior to setting, the system will not check whether a zone did not send a signal for more than 20 minutes.   Yes/No Attenuation YES: The LightSYS receiver will be attenuated by six dB during the communication test. NO: The LightSYS receiver works in normal operation mode. Page 76...
  • Page 77 Engineer Programming System: Controls: DD243 Quick Keys Parameter Default Range  DD243 Yes/No This section refers to controls that apply to DD243 approvals.   Yes/No Omit Exit/Entry YES: It is possible for the user to omit an Exit/Entry zone. NO: An Exit/Entry zone cannot be omitted.
  • Page 78 Engineer Programming Quick Keys Parameter Default Range   Yes/No Key Switch Lock YES: Only a latched key switch zone can set or unset the system. Note When the system has more than one zone defined as latch key switch, the set/unset operation will occur only after all these zones are set or unset.
  • Page 79 Engineer Programming Quick Keys Parameter Default Range   Yes/No Auto Part Set This parameter is used to define the system’s setting mode when using a keypad and no exit/entry zone is tripped during exit mode. YES: If no exit/entry zone is tripped during exit time the system will be set in PART SET mode.

  • Page 80: Labels

    Engineer Programming Quick Keys Parameter Default Range   Yes/No Sounder Auxiliary = Tamper This parameter relates to the bus sounder. YES: A sounder auxiliary fault will be regarded as tamper alarm by the system. NO: A sounder auxiliary fault will be regarded as fault by the system. ...

  • Page 81: Settings

    Engineer Programming Quick Keys Parameter Default Range   – During Set Bell only Set the sound produced by tamper violation while the system is set  Speaker Volume Sets the volume of internal sounder (speaker) connected to the Bells+/LS- terminal according to different system modes. The volume range is between 0 (Silent) and 9 (Max volume).
  • Page 82 DIP 2 Enable Enable/Disable Used to determine whether the LightSYS default switch SW1-2 is enabled or disabled. Enabled: When power to the main panel is switched off and then on and SW1-2 is in ON position , the Engineer, Sub-Engineer and Grand-Master codes will return to the original, factory default values.

  • Page 83: Automatic Clock

    Engineer Programming Quick Keys Parameter Default Range Sets the system language (Email, SMS and keypad interface language)  Text –Change the interface keypad language  – Voice Change the voice language. (This option is only available if a voice module is assigned to the system ...

  • Page 84: Firmware Update

    Via GPRS 2 Zones The LightSYS supports up to 32 zones. Each zone can be defined to be a wired zone, a wireless zones or a bus zone. The attributes for each zone vary according to the zone’s type (wired, wireless or type of bus zone).

  • Page 85: Parameters

    Engineer Programming The Zones menu provides access to submenus and their related parameters that are used for programming the characteristics of each of the system's protected zones. After you access the Zones menu from the main Engineer Programming menu, as described in this section, you can access the following submenus: ...
  • Page 86 Engineer Programming 3. From with the Parameters sub-menu, Press the 1) One by One menu option. The following display appears: ZONE ONE BY ONE ZONE#=01 (XY:ZZ) Note The display next to the selected zone number defines the type of zone and its location in the system in the format XY:ZZ X: Zone physical type (E=Wired zone, W=Wireless zone, B=Bus zone, I=Input zone or single BUS zone expander)

  • Page 87: Zones: Parameters: By Category

    Engineer Programming 8. Press to confirm and proceed to the zone type category, displayed as follows: Z=01 TYPE: 01)EX/EN1  (and subsequently sound (page 94), termination (page 95) and loop response (page 95).  Zones: Parameters: By Category Use this option to modify settings of a specific parameters to all zones. Quick Keys Parameter Default...
  • Page 88 Engineer Programming Default Range Quick Keys Parameter Used for Exit/Entry doors. Violated Exit/Entry zones do not cause an intrusion alarm during the Exit/Entry Delay. If the zone is not secured by the end the delay expires it will trigger an intrusion alarm. To start an arming process, this zone should be secured.
  • Page 89 Engineer Programming Default Range Quick Keys Parameter an set premises.  If the system is set in the PART SET mode, the zone is omitted. Important: For greater security when arming in the PART SET mode, it is possible to eliminate the Entry Delay period associated with any zone(s), classified as Exit/Entry Delay 1 by pressing the key twice, one after another.
  • Page 90 Engineer Programming Default Range Quick Keys Parameter  In PART SET mode, the zone will be omitted.   I + Intruder (Interior + Intruder) Usually intended for non-exit/entry doors, window protection, shock detection and motion detectors.  In FULL SET mode behaves as an intruder zone. ...
  • Page 91 Engineer Programming Default Range Quick Keys Parameter  If violated, it causes an immediate fire alarm, and the Fire/ LED is lit (steady).  A fault in the wiring (wire open) to any fire zone causes a Fire Fault signal (a rapid flashing of the keypads' FIRE / LED).
  • Page 92 Engineer Programming Default Range Quick Keys Parameter unsetting using the keypad, the related partitions will be unset. In order to set the partition using the keyswitch again, turn the key to the unset position and then to the set position. ...
  • Page 93 Engineer Programming Default Range Quick Keys Parameter Note: For this zone type the zone sound is determined according to the Tamper Sound defined under 1) System 4) Sound  1) Tamper   Technical This zone operates the same as 24 hours zone, its report code should be manually set according to the relevant detector connected to the zone.

  • Page 94: Sound

    Engineer Programming Default Range Quick Keys Parameter When using this zone you should connect the alarm wiring of this zone (usually the auxiliary contact of a door) to an external key box and the tamper wiring to the housing switch. ...

  • Page 95: Termination

    Engineer Programming   At Part Set Set the sound produced when a system's zone triggers an alarm while the system is set in PART SET.   At Unset Set the sound produced when a system's zone triggers an alarm while the system is Unset.

  • Page 96: Advanced

    Engineer Programming Quick Keys Parameter Default Range   Advanced  Forced Setrting This option enables or disables the use of forced setting for each of the system's zones, as follows: 1. If forced setting is enabled for a particular zone, it allows the system to be set even though this zone is faulty.

  • Page 97: Bus Zones Configuration

    Engineer Programming Quick Keys Parameter Default Range  Bus Zones Configuration   The Bus Zone Parameters menu contains parameters that enable you to program the special parameters of a bus zone. The options are determined according to the bus detector type: ...
  • Page 98 Engineer Programming  To configure the Bus Zone detector parameters: From the Miscellaneous menu, press [3] to access the Bus Zone parameters menu options. The following display appears: Select the zone that the bus zone detector was assigned to and press .
  • Page 99 REMOTE (Manual) - The remote self test is performed by the system when a user manually selects the Diagnostics option from the Maintenance menu via the LightSYS User Functions menu LOCAL (automatic) - Once an hour, the detector automatically checks that the detector’s channels are functioning properly.
  • Page 100 Engineer Programming Bus Zone: Lunar Grade 3/iWISE DT Grade 3 Quick Keys Parameter Default Range ZZ LEDS Defines the LEDS operation mode. OFF - Disables the LEDS operation.  ON – Enables the LEDS operation. ZZ MW (Microwave) Range Trimmer Defines the microwave channel range.
  • Page 101 REMOTE (Manual) - The remote self test is performed by the system when a user manually selects the Diagnostics option from the Maintenance menu via the LightSYS User Functions menu LOCAL (automatic) - Once an hour, the detector automatically checks that the detector’s channels are functioning properly.
  • Page 102 REMOTE (Manual) - The remote self test is performed by the system when a user manually selects the Diagnostics option from the Maintenance menu via the LightSYS User Functions menu LOCAL (automatic) - Once an hour, the detector automatically checks that the detector’s channels are functioning properly.
  • Page 103 Engineer Programming Bus Zone: ODT15 (WatchOUT DT) Quick Keys Parameter Default Range ZZ LEDS 3 LEDS Defines the LEDS operation mode. OFF - Disables the LEDS operation.  RED ONLY - Only the Red LED will operate. This option is highly recommended to avoid the possibility that an intruder will “Learn”...
  • Page 104 Engineer Programming Bus Zone: WatchIN DT Grade 3 Quick Keys Parameter Default Range ZZ LEDS 3 LEDS Defines the LEDS operation mode. OFF - Disables the LEDS operation.  RED ONLY - Only the Red LED will operate. This option is highly recommended to avoid the possibility that an intruder will “Learn”...

  • Page 105: Testing

      Resistance In the LightSYS you have the ability to define separately the end-of-line resistance of the zones on the main unit Selection is done by the software with the following available options Specify here the optional circuit resistance configuration.
  • Page 106 Engineer Programming Quick Keys Parameter Default Range  Self Test This feature provides an automated self-test for a selected group of localized intrusion sensors (for example, glass break detectors, sound discriminators and shock sensors) which respond to an artificial source of noise and/or vibration.

  • Page 107: Cross Zones

    This type of linking is used with motion detectors in hostile or false-alarm prone environments. The LightSYS allows 10 unique sets of zone links (pairs of zones), which can be manually specified, as required. Zones crossed with themselves are valid pairs. They need to register a violation twice to trigger the alarm.
  • Page 108 Press to display the correlation type screen: PAIR: 01,02 1)NONE Determine how the LightSYS will process violations of the paired zones. 1) NONE– Not correlated: Temporarily disables any associated zone pairings ORDERED–Correlated: Effects an alarm so the first listed zone is tripped before the second NOT ORDERED–Correlated: Effects an alarm in which either...

  • Page 109: Alarm Confirm

    Engineer Programming Quick Keys Parameter Default Range Enter the time slot, meaning the maximum amount of time allowed between the triggering events for them to be considered a valid violation (XX,YY indicate the crossed zones). Default: 1 min Range: 1 to 9 minutes Repeat the entire process, as required, for any additional zone links (up to 10).

  • Page 110: Outputs

    Engineer Programming 3 Outputs The Programmable output menu provides access to submenus and their related programming parameters that enable you to choose the event that will trigger a selected Programmable output, as well as the manner in which the output will be applied. Adding one or more Programmable output expansion modules to the system makes an extensive list of switched output possibilities available.

  • Page 111: Follow System

    AC Off Delay Time parameter (refer to page 63).   Sensors Test Relates to the LightSYS Zone Self-Test (Quick Keys ) This option is selected if the designated programmable output is part of the circuit providing switched power for the source of noise (or vibration) used in the sensors test procedure.
  • Page 112 The programmable output will follow the predefined time programming that is defined in the scheduler of the weekly programs for programmable output activation. For additional details, refer to the LightSYS User's Manual.   Switched Aux Activates the programmable output when a fire zone is activated (for fire detection) according to the time defined in double verification of fire alarms, page 68.
  • Page 113 Engineer Programming Quick Keys Parameter   Installation Activates the output following the system installation status. It activates when the system is in engineer programming mode and deactivates when exiting engineer’s mode.   Walk Test Activates the output when the “Walk Test” option is selected (see page 185) and deactivates when the “Walk Test”...

  • Page 114: Follow Partition

    Engineer Programming  Follow Partition The Partition menu contains Programmable output parameters that follow the Partition Event. The Programmable output can follow any partition(s) combination  To access the Partition sub-menus: 1. Access the Outputs menu, as described on page 110. 2.
  • Page 115 Engineer Programming Quick Keys Parameter   Special Emergency Follow Activates the programmable output when a special alarm is triggered in the selected partition(s) from the keypads or a zone defined as Special   Buzzer Follow Activates the output when a keypad in the selected partition(s) sounds its buzzer during auto setting, Exit/Entry delays, and alarm conditions.
  • Page 116 Engineer Programming Quick Keys Parameter   Bell Follow This output enables the connection of different external sounders to different partitions. Activates the output when one of the defined partitions is in alarm mode and the bell is triggered. It will be activated for the programmed bell time or until the alarm is unset.
  • Page 117   Confirm Alarm The output activates when a confirmed alarm occurs in a partition and deactivates at the restore of the alarm confirmation. RISCO recommends that you use this output for the Red-Care STU Confirmed Alarm channel.  ...

  • Page 118: Follow Zone

    Engineer Programming Note: The XX in the PO=XX refers to the number of the Programmable output currently being programmed. key to toggle between Y Yes and N No to designate the partition(s) Use the that will activate the selected Programmable output (PO), -OR- Press the partition number [1 to 4] to select or deselect it Press...

  • Page 119: Follow Code

    ACTIVITIES/UTIL OUTPUT, enters an authorized user code and presses . The engineer designates the user code(s) for triggering the selected PO. Refer to the LightSYS User's Manual for additional details about triggering programmable output(s) via user codes. Note: The programmable output is activated by entering a user code only if the Quick PO parameter under System Control is defined as Disabled.
  • Page 120 Engineer Programming Programmable output: Pattern of Operation Quick Keys Parameter Default Range  Pulse N/C 05 seconds 01-90 seconds The programmable output is always activated (N/C) before it is triggered (pulled down to negative). When triggered, it deactivates for the pulse duration specified below and then reactivates automatically.

  • Page 121: Codes

    Engineer Code: Used by the LightSYS installation company technician to program the main panel.  Sub-Engineer Code: Used by a technician sent by the LightSYS installation company to carry out restricted tasks defined at the time of system installation by the installation Page 121...

  • Page 122: User

    Engineer Programming technician. The Sub-Engineer can access with his code only those programming menus predefined for his access. This section describes how to perform the following:  Determine the authority level of each user code  Assign partition(s) to a specific code ...
  • Page 123 Engineer Programming Quick Keys Parameter Default Range   Authority Level The Authority menu enables you assign the Authority Level of each User Code. There are seven Authority Levels to match the needs of various users, as described in Authority Levels, below Toggle through the set of available user definitions using the key: ...

  • Page 124: Grand Master

    Default: 1111 The Engineer Code provides access to the Engineer Programming menu, allowing modification of all system parameters. The Engineer Code is used by the LightSYS installation company technician to program the system. The Engineer can change the Engineer Code.

  • Page 125: Sub Engineer

    Engineer Programming  Sub Engineer Default: 2222 The sub-engineer code allows limited access to selected parameters from the engineer programming menu. We recommend changing the factory default to a code unique to the main panel and/or to those who may serve as sub-engineers in your ARC, as described in the following procedure. The Sub‐Engineer is prohibited to access the following parameters: ...

  • Page 126: Communication

    Configuration Software, page 147  Follow Me, page 150  Method This option allows you to configure the parameters of the communication methods (channels) of the LightSYS, with three available communication types:  PSTN    Radio (Long Range radio)
  • Page 127 Alarm Phone Line Cut YES: Activates the external sounders if the land line, connected to the LightSYS panel is cut or the telephone service is interrupted for the time defined in the PSTN Lost time parameter. NO: No activation occurs.

  • Page 128: Gsm

    Engineer Programming Quick Keys Parameter Default Range   Area Code The system area telephone code. This code will be deleted from a telephone number while the system tries to dial the number through the PSTN network.   PBX Prefix A number dialed to access an outgoing line when the system is connected to a Private Branch Exchange (PBX) and not directly to a PSTN line.
  • Page 129 Engineer Programming Quick Keys Parameter Default Range  10 minutes 001–255 minutes GSM Network Loss The time after which the Panel will send a report of GSM network loss to the ARC.  0 months 00–36 months SIM Expire A pre-paid SIM card has a defined life length defined by the provider. After each charging of the SIM, the user will have to manually reset the expiration time of the SIM card.
  • Page 130 Engineer Programming Quick Keys Parameter Default Range Call All Primary Primary Primary 1st Backup Primary If (ARC 1 is OK) Secondary else (ARC#1 Fails) Backup If (ARC#1 is OK) If (ARC#2 is 1st Backup Primary Secondary 2nd3rd else (ARC#1 Secondary Fails) else (ARC#2 Fails)
  • Page 131 Name) code is required. The APN code differs from country to country and from one provider to another (the APN code is provided by your cellular provider). The LightSYS supports an APN code field of up to 30 alphanumeric characters and symbols (!, &, ? etc). ...

  • Page 132: Controls

    Engineer Programming Quick Keys Parameter Default Range   SMTP User Name A name identifying the user to the SMTP mail server The user name field can include up to 10 alphanumeric characters and symbols (!, &, ? etc)   SMTP Password The password authenticating the user to the SMTP mail server The password can include up to ten alphanumeric characters and...

  • Page 133: Prepay Sim

    Engineer Programming Quick Keys Parameter Default Range   Disabled/Low/High GSM Network Sensitivity (RSSI) Set the minimum acceptable network signal level (RSSI level). Options: Disabled (No faults for low signal reception) / Low signal / High signal  Prepay SIM Allows programming parameters that will be used when a prepaid SIM card is used in the system.

  • Page 134: Ip Config

    The IP menu contains parameters for the communication of the system over the IP network  Obtain Automatic IP Defines whether the IP address, which the LightSYS refers to, is dynamic or static.  Dynamic IP The system refers to an IP address provided by the DHCP.

  • Page 135: Email

    10 alphanumeric characters and symbols (!, &, ? etc).  Up to 32 Characters Host Name IP address or a text name used to identify the LightSYS over the network. Default: Security System  ARC Keep alive (Polling)
  • Page 136 Engineer Programming Quick Keys Parameter Default Range options.) ARC report ARC 1 ARC 2Polling ARC 3 Polling Urgent Polling State State State events Do not call Call 1st Primary Call 2nd Primary Call 3rd Primary Call All Primary Primary Primary 1st Backup Primary If (ARC 1 is...

  • Page 137: Radio (Lrt)

    Engineer Programming Quick Keys Parameter Default Range Polling through the IP network using the IP module will occur every 30 seconds according to the primary time interval to ARC 1 and every 3600 seconds (1 hour) according to the secondary time interval to ARC 2. When communication to ARC 1 fails, polling occurs every 30 seconds according to the backup interval to ARC 2.

  • Page 138: Alarm Receiving Centre

     Disable Low Battery Yes/No YES: [For use when LRT is housed in the main LightSYS box] LRT low battery fault condition will not be regarded. NO: [For use when LRT is housed remotely in its own box] LRT low battery fault condition will be regarded.
  • Page 139 Encrypted events are sent to the alarm receiving centre over the IP or GPRS network using TCP/IP protocol. 128 BIT AES encryption is used. RISCO Group's IP/GSM Receiver Software located at the ARC site receives the messages and translates them to standard protocols used by the alarm receiving centre applications (For example;...
  • Page 140 The IP/GSM Receiver translates the SMS messages to standard protocols used by the alarm receiving centre applications (For example; contact ID).This channel requires that RISCO Group’s IP/GSM receiver has to be used at the ARC side. Enter the relevant phone numbers for the ARC that will receive reports from the system.

  • Page 141: Accounts

    Engineer Programming Quick Keys Parameter Default Range  Accounts The number that recognizes the customer at the alarm receiving centre. You can define an account number for each alarm receiving centre. These account numbers are the 6-digit numbers assigned by the central station Notes: Notes for Account Number in contact ID Communication Format: ...

  • Page 142: Controls

    Engineer Programming Quick Keys Parameter Default Range  Controls Allows to program controls related to operation with the alarm receiving centre  Yes/No Call Save YES: For reducing ARC traffic congestion, the system holds all non- urgent events (for example, opening/closing reports, test transmissions) for up to 12 hours (programmable) and sends them as a batch at a less busy time, for example, at night.

  • Page 143: Parameters

    Allows to program parameters related to operation with the Alarm Receiving Centre  ARC Retries 01–15 The number of times the LightSYS redials the ARC after failing to establish communication.  Alarm Restore Specifies under what conditions an Alarm Restoral is reported. This option informs the ARC of a change in the specified condition(s) during an alarm restore.
  • Page 144 Engineer Programming Quick Keys Parameter Default Range Use the table below to specify the daily testing intervals (D)-effective from the day of programming: Meaning Never Every hour Every day Every other day Every 3 Every 4 Every 5 Every 6 Once a week ...

  • Page 145: Report Split

    Engineer Programming Quick Keys Parameter Default Range  Confirmation The confirmation times relate to the Zone Sequential Confirmation ) (Alarm Confirmation, see  1–120 minutes Confirm Start (Confirm delay time) Specifies that the system cannot start a sequential confirmation process until the timer has expired.
  • Page 146 Engineer Programming Quick Keys Parameter Default Range  1st Backup 3rd Call 2 : Reports ARC 1. If communication is not established calls to ARC 3. In addition it will also call ARC 2.  2nd Backup 3rd Call 1st: Reports to ARC 2. If communication is not established calls ARC 3.

  • Page 147: Report Codes

    Engineer Programming Quick Keys Parameter Default Range  1st Backup 2nd3rd: Reports to ARC 1. If communication is not established calls ARC 2. If communication is not established again calls the ARC.  1st Backup 3rd Call 2 : Reports ARC 1. If communication is not established calls to ARC 3.
  • Page 148 Engineer Programming Quick Keys Parameter Default Range  5678 Access Code Enables you to define an up-to six-alpha-numeric-character installation access code. In order to enable communication between the alarm company and the system the same access code must subsequently be entered into the corresponding account profile created for the installation in the configuration software For successful communication, the access code along with the ID code...
  • Page 149 Engineer Programming Quick Keys Parameter Default Range  0001 Call Back Phones Define three numbers that the panel can call to perform Configuration Software communication. If no numbers have been defined, a call back can be performed to any phone. The engineer will enter a phone number when establishing communication to the panel.

  • Page 150: Follow Me

     Follow Me In addition to reporting to the alarm receiving centre, the LightSYS has a Follow-Me feature which enables reporting system events to predefined follow me destinations using a voice message, SMS message or Email. Up to 16 Follow Me destinations can be defined in the system.
  • Page 151 Engineer Programming Quick Keys Parameter Default Range  Voice Report to follow me will be done by voice message thorough the PSTN or  GSM network. (See Channel For Voice Messaging below). Enter the telephone number including area code or special letters for Follow Me defined as SMS or Voice.

  • Page 152: Partition

    Engineer Programming Quick Keys Parameter Default Range  Report to Follow Me will be done by SMS. Each event message contains information including the system label, event type and time. Enter the telephone number including area code or special letters. ...
  • Page 153 Engineer Programming Event Description Default  Low battery indication from the LightSYS main Main Low panel (below 11V) Battery  Low battery indication from any wireless device in Wireless Low the system Battery  Jamming indication in the system WL Jamming ...

  • Page 154: Restore Events

    Intruder Alarm  Tamper alarm in the system restored Tamper  Faults  Low battery indication from the LightSYS main Main Low panel restored Battery  Low battery indication from any wireless device in WL Low the system restored Battery ...

  • Page 155: Remote Control

    Remote program Enables the user of the Follow Me phone to enter the remote operation menu and perform all available programming options. For more details see the LightSYS User Manual.  Controls Allows to program control related to operation with the Follow Me...

  • Page 156: Parameters

    Engineer Programming Quick Keys Parameter Default Range  Yes/No Unset Stop Follow Me YES: Unsetting the system will stop the Follow Me communication NO:Unsetting the system will not stop the Follow Me communication. (Default).  Yes/No Disable Report at Part YES: When Part Set, communication to an ARC will not be performed NO: When Part Set, communication to an ARC will be performed ...

  • Page 157: Messages

    Engineer Programming  Messages Quick Keys Parameter Default Range  Messages Use this menu to customize the spoken messages of Zones, Partitions, Outputs , Macro's and Opening Message that the Voice module announces when you access the system from a remote telephone or you hear on the premises.

  • Page 158: Local Announcements

    Engineer Programming Quick Keys Parameter Default Range   Zone Message User-defined name for the zone in which the event occurred, for example, Kitchen. The Zone message can be up to 2 seconds long, and is only announced when the Event announcement message concerns a zone. ...
  • Page 159 System in exit or entry Entry / Exit delay  System in auto set Auto set process  Output activated or Output On/Off deactivated  Walk test. The LightSYS Walk test will sound the zone number and description Page 159...

  • Page 160: Install

    4-wire BUS, as described in the following sections: This menu option allows you to set the of the LightSYS installation device, module and expander parameters and to verify the full operational functionality of installed hardware ...

  • Page 161: Bus Devices: Manual Setting

    Engineer Programming Quick Keys Parameter Default Range for each one). If a device does not appear, ensure that you have given it a unique ID. Press to accept what is being displayed, to progress through configuration screens and to advance on to the next device found.
  • Page 162 Engineer Programming Quick Keys Parameter Default Range display appears: ASSIGN TO PAR: KEYP=01 PAR=1 Assign keypad 01 to the selected partition using the [1 to 4] keys. This partition specifies the location of the keypad and is mainly used for quick arming. Pressing the Set Key automatically arms the partition Note: 1.
  • Page 163 Engineer Programming Quick Keys Parameter Default Range Zone Expander's ID number for which you want to assign (or delete). The first zone expander must be assigned to the first ID number, which is 01. Note: Make sure that the Zone Expander's physical ID number has been "dip switch"...
  • Page 164 Engineer Programming Quick Keys Parameter Default Range  NONE  PO04 (a 4-Output Relay-Type Unit)  PO08 (an 8-Output Solid-State Type Unit)  XO08 (the X-10 Transmitting Module)  PO02 (2-Output Relay Type located on the 3A switched power supply expansion module or wireless expander) Press to confirm (and store) your choice.
  • Page 165 Press to confirm.   Wireless Expander The LightSYS can support up to two wireless modules. Each module can support up to 32wireless zones and 16 multi function key fobs (For additional information refer to LightSYS Wireless Receiver Installation Manual.) ...
  • Page 166 Range The following display appears: WME=X: OMIT BOX TAMPER ? If the receiver is mounted inside the LightSYS box select Y to omit the box tamper. Confirm with Repeat the process for the second wireless expander   Proximity Key Reader ...
  • Page 167 Engineer Programming Quick Keys Parameter Default Range  If No, no Set status indication will be indicated on the reader  SHOW PART SET?  If YES, the Part Set status will be indicated on the reader.  If No, no Part Set status indication will be indicated on the reader ...
  • Page 168 12. Repeat above steps for other sounders if needed.   BUS Zones Up to 32 addressable bus detectors can be assigned to the LightSYS. Bus detectors can be wired to the main bus or to a Bus Zone Expander (BZE).
  • Page 169 Engineer Programming Quick Keys Parameter Default Range (0:01)TYPE=NONE Note: The display "(x:yy) Type: None" represent the BUS detector location in the system. In the 0:yy designation, the 0 represents that the bus detector is on the main unit and is not assigned to a Bus Zone Expander.
  • Page 170   Modem The Fast PSTN Modem enables PSTN communication at 2400 Bps between a remote PC and the LightSYS security panel when programming the system using the Configuration Software.  To specify and configure an installed fast PSTN modem...

  • Page 171: Bus Devices: Testing

    Bus Expander The BUS Zone Expander enables to expand the number of BUS detectors connected to the LightSYS to 32. Up to 4 Buz expanders can be defined. Each BUS Zone Expander creates a separate BUS loop that is used only for the BUS detectors connected to it.
  • Page 172 Quick Keys Parameter Default Range  Bus Test The Bus Test menu enables the LightSYS to check the communication between the main panel and each of the system's expansion modules.  To perform BUS test  Through the menu selection...

  • Page 173: Wireless Devices

    Engineer Programming Quick Keys Parameter Default Range  Verify Module The Verify Module menu provides a verification list of the modules in  accordance with the modules you defined in the Bus Device menu (page 160) automatically or manually.  To verify the bus’s recognition of each programmed device and its address Through the menu selection, the following display appears:...
  • Page 174 Step 3: Allocation , below The calibration measurement shows the amount of background ‘noise’ that the receiver can ‘hear’ on the same frequency as the RISCO wireless devices. This ‘noise’ could be neighboring devices of another system or other devices operating on the same frequency nearby. These are ‘unwanted’...
  • Page 175 LightSYS supports up to two wireless expanders. If two WL receivers are allocated in the system, the first screen in the wireless devices allocation menu series requires you to specify to which receiver the device should be...

  • Page 176: Devices

    Engineer Programming 8 Devices The Devices menu provides access to submenus and their related parameters that enable you to manually configure and modify installed system devices. The Devices menu is divided into the following sub-menus (as per your set of system- installed-devices): ...

  • Page 177: Keyfob

    Button 4: None, Set. Part Set, Group, PO  Sounder The Sounder menu enables to define all parameters of external sounder that can be connected to the LightSYS as a bus accessory. The Sounder menu is divided into the following sub-menus  Parameters ...
  • Page 178 Engineer Programming Note Access to this sub-menu requires that a sounder device is installed on your site. For details, see page 160 Quick Keys Parameter Default Range  Parameters Use this menu to define all parameters of the sounder. Note that some parameters are only relevant to a specified sounder.
  • Page 179 FLASH (Only for Lumin8) — The status LEDs will constantly flash   Battery Load Test Every 24 Hours Enables to set the time period that the LightSYS will automatically generate a Load test on  NEVER: The system will not set a battery load test ...
  • Page 180 Engineer Programming Quick Keys Parameter Default Range   Lamp Use this menu to define parameters of the sounder external Lamp.  Type  Defines the way the external lamp will be operated.  ALWAYS ON–The lamp is always on. ...

  • Page 181: Proximity Key Reader

    This menu enables to define or modify parameters of Proximity Key Reader that can be connected to the LightSYS as a bus accessory. Up to 8 PKR's can be connected to the LightSYS. From the menu Select a PKR and press Note Access to this sub-menu requires that a Proximity Key reader device is installed on your site.
  • Page 182 Engineer Programming From the menu Select a power supply and press Quick Keys Parameter Default Range  Masking Specifies the partitions that the power supply is assigned to. Press to display the partition application screen: P=1234 PS=1 YYYY key to toggle Y/N to set the partitions. Use the ...

  • Page 183: Chapter 5 Using The Engineer Non-Programming Menus

    This chapter describes the parameters and programming options available to the engineer that are not under the Programming Menu. . Your LightSYS comes with a variety of selectable functions available to the engineer, user and Grand Master. This section lists the complete menu of engineer-configurable functions, the most frequently used of which are described in detail in previous chapters of this manual.

  • Page 184: View Menu

    Allows the display of any previously entered service information and the system version. IP Address Use this option to view the IP address of the LightSYS. This option is available only if IP module is defined in the system. Clock Menu Clock Time &...

  • Page 185: Event Log

    Using the Engineer Non-Programming Menus Scheduler Weekly — Enables you to define up to four weekly programs with up to two time intervals per day, during which the system automatically set/unset, activates programmable output, or prevents users from disarming. One Time — Enables a one-time operation of automatic set/unset of the system at a specific time within the next 24 hours.
  • Page 186  Version: Displays information regarding the GSM module version  IMEI: View the IMEI number of the GSM module. This number is used for identification of the LightSYS at the RISCO IP receiver when using GSM or GPRS communication. IP: Performs a diagnostic test for the following parameters of the plug in IP module: ...

  • Page 187: Macro

    For more information refer to LightSYS User Manual. Stand Alone Keyfobs Stand Alone Keyfob LightSYS enables the engineer or Grand Master to assign up to 200 keyfobs that can be used for gate control. For addition information refer to LightSYS User Manual. Page 187...

  • Page 188: Appendix A Technical Specifications

    Technical Specifications Appendix A Technical Specifications Main Technical Information Input Power: AC/DC Adaptor 100-240V 50/60Hz 14.4V—1.5A Current Consumption: 60 mA, typical / 70 mA, maximum Rechargeable Standby 12 Volts up to 7 Amp-Hours (AH), typical Battery: Power Outputs: Auxiliary Power: 12 Volts DC @ 800 mA, maximum (from all AUX terminals) Bell/LS (External): 12 Volts DC @ 600 mA, maximum Programmable outputs:...
  • Page 189 Technical Specifications Dimensions 16.2 cm x 12.2 cm x 3 cm (6.37" x 4.8" x 1.18") Zone Expander (RP432EZ8) Voltage 13.8VDC +/-10%; Current 25 mA, typical / 30 mA, maximum Main Panel Connection 4-wire BUS, up to 300 m (1000 ft) from Main Panel Dimensions 10.5 cm x 6.6 cm x 1.8 cm Programmable output Expanders...
  • Page 190 Technical Specifications Wireless Expander (RP432EW) Voltage 12-14.4V DC VDC Current Typical: 40 mA; 65mA maximum Frequency RW432EW8 – 868.65 MHz RW432EW4 – 433.92 MHz RF immunity: According to EN50130-4 Range (L.O.S) 300 meters Relay outputs 12VDC @ 1A max Dry Contact Relays Operating temperature: 0°C to 49°C (32°F to 120°F) Storage temperature:...
  • Page 191 Technical Specifications * Lumin8 ( RS200WA, RS200WAP) Input DC Power Regulated 13.0- 14.2V Current Consumption Single piezo: 350mA (Regulated) Twin piezo: 450mA (Regulated Battery charging current 15 mA maximum Speaker Sound level Single piezo: 111dbA Twin piezo: 114dbA) Main Panel Connection 4-wire BUS, up to 300 m (1000 ft) from Main Panel * For full technical information refer to the manual of the sounder Singe Bus Zone Expander (RP128EZ01)

  • Page 192: Appendix B Lightsys Accessories

    LightSYS Accessories Appendix B LightSYS Accessories Keypads Description RP432KP LightSYS LCD keypad, slim RP432KPP LightSYS LCD keypad with proximity, slim (13.56 MHz) RP128KP02 Touch screen keypad, white RP128KPP2 Touch screen keypad with proximity (13.56 MHz) RP128KCL LCD keypad RP128KCLP LCD keypad with proximity (125 KHz) RP200KT Proximity tags (13.56 MHz)
  • Page 193 Wireless WatcHOUT RWSALKWL0100A RWSALKWL0100H Wireless Keypad Power Supply Description Expanders RP432PS0000A LightSYS Power Supply, EU RP432PS00USA LightSYS Power Supply, USA RP128EPS 3A Switched Power Supply Expansion Module module RP128EPSPUKA 3A Switched Power Supply Expansion Module in tamper box (Medium UK )
  • Page 194 DT AM Grade 2 , 15m RK825DTB200A iWISE DT AM Grade 2 , 25m RK800Q0B200A iWISE Quad 15m AM Grade 2 Boxes Description RP432B LightSYS Polycarbonate housing RP128B5 Plastic accessories box + tamper Main panel Description RP432M LightSYS Main Board Page 194...

  • Page 195: Appendix C Wiring

    The proper use of wire and cable is necessary for the successful installation and operation of the LightSYS system. It is important to select wire of the correct thickness to minimize power loss and ensure reliable system operation. Take into account both the installation's current requirements and the wiring distances involved.
  • Page 196 For maximum system stability, it is best NOT to exceed a total of 300 meters (1000 feet) of wire when wiring the Expansion bus. For a distance of more than 300 meters, refer to RISCO Group technical support service for detailed information.
  • Page 197 Meter Feet Meters Feet draw per branch) 100mA 200mA 300mA 400mA 500mA 650mA Table A-5: Maximum External Sounder Current Note: The wire lengths indicated represent the one-way distance between the LightSYS and the external sounder in the branch. Page 197...

  • Page 198: Appendix D Library Voice Messages

    Library Voice Messages Appendix D Library Voice Messages (Custom) Store (Custom) East Macro Student room (Custom) Elevator Magnet Study (Custom) Emergency Main (Custom) Entrance Master Technical Entry Middle Temperature Executive Motion Third Above Exit Air conditioner External Near Family North Apartment Fence Nursery...

  • Page 199: Appendix E Report Codes

    Report Codes Appendix E Report Codes Report Codes Parameter Contact ID Report Category Alarms Panic alarm Urgent Panic alarm restore Urgent Fire alarm Urgent Fire alarm restore Urgent Medical alarm Urgent Medical alarm restore Urgent Duress alarm Urgent Duress alarm restore Urgent Box tamper Urgent...
  • Page 200 Report Codes Report Codes Parameter Contact ID Report Category IP Network fault restore Non- urgent Set/Unset User Set Set/Unset User Unset Set/Unset Part Set Set/Unset Unset after alarm Set/Unset Keyswitch Set Set/Unset Keyswitch Unset Set/Unset Auto Set Set/Unset Auto Unset Set/Unset Remote Set Set/Unset...
  • Page 201 Report Codes Report Codes Parameter Contact ID Report Category Water (Flood) alarm restore Urgent Gas alarm Urgent Gas alarm restore Urgent Carbon Monoxide alarm Urgent Carbon Monoxide alarm restore Urgent Environmental alarm Urgent Environmental alarm restore Urgent Low Temperature (Freeze alarm) Urgent Low Temperature restore Urgent...
  • Page 202 Report Codes Report Codes Parameter Contact ID Report Category Zone confirm alarm restore Urgent No activity Urgent No activity restore Urgent Wireless Keypad Tamper Urgent Tamper restore Urgent Low battery Non- urgent Low battery restore Non- urgent Keypad lost Urgent Keypad lost restore Urgent Wireless Keyfob...
  • Page 203 Report Codes Report Codes Parameter Contact ID Report Category RF Jamming restore Urgent Miscellaneous Enter programming (local) Set/Unset Exit programming (Local) LS (LX ) Set/Unset Enter programming (Remote) Set/Unset Exit programming (Remote) Set/Unset ARC periodic test Non- urgent ARC keep alive (polling) Urgent Call back Non- urgent...

  • Page 204: Appendix F Engineer Event Log Messages

    Engineer Event Log Messages Appendix F Engineer Event Log Messages Event Message Description AC Low PS=y Loss of AC power from power supply ID=y AC RST PS=y AC power restore on power supply ID=y Activate PO=xx PO XX activation Actv PO=xx KF=zz PO XX is activated from remote control ZZ Alarm Z=xx Alarm in zone no.
  • Page 205 Bus communication restore with zone expander ID=Y Comm OK ZE=y Comm. OK GSM Communication OK between the LightSYS and GSM Comm.OK LRT Communication OK between the LightSYS and the long range transmitter Conf. Z=xx Confirmed alarm occurred from zone XX Conf. alarm P=y...
  • Page 206 Engineer Event Log Messages Event Message Description Set by scheduler of group C on partition Y Day c:p=y Set by scheduler of group D on partition Y Day d:p=y Day dis:P=y Daily unset on partition Y Day hom:P=y Daily PART SET or GROUP arming in partition Y DC fault restore in Bus zone XX DC Restore Z=XX DC fault in Bus zone XX...
  • Page 207 IP connection OK GSM:IP Fault IP address is incorrect GSM:Mdl comm.OK Communication between the GSM/GPRS Module and the LightSYS is OK GSM: Module comm. Internal GSM/GPRS bus module fault GPRS communication to the ARC is OK GSM:ARC OK GPRS communication failure to the ARC GSM:ARC fault GSM:NET avail.
  • Page 208 Engineer Event Log Messages Event Message Description IP Card generated a hardware error IPC: hardware error IP Card generated a mail error IPC: mail error IP Card mail is OK IPC: mail OK IP Card Monitoring station ID=Y generated an error IPC:ARC=y error IP Card Monitoring station ID=Y was OK IPC:ARC=y OK...
  • Page 209 Failure in the S. Aux power on zone expander Y No aux ze=y Bell fault in power supply ID=Y No bell ps=y No Com IPC Communication failure between the LightSYS and IP card Communication failure between the LightSYS and keypad ID=Y No com kp=y Page 209...
  • Page 210 Engineer Event Log Messages Event Message Description Communication failure between the LightSYS and Key Reader No com kr=y ID=Y Communication failure between the LightSYS and the No com voice Advanced Voice module Communication failure between the LightSYS and wireless No com WME=y...
  • Page 211 Engineer Event Log Messages Event Message Description Fail in the proximity anti approach protection in sounder Y PROX FAIL S=y Proximity anti approach protection is restored in sounder Y PROX OK SOUNDER=y Proximity tamper restore from sounder ID =Y PROX TMP RS S=y Proximity tamper from approaching sounder ID=Y PRX TMP SOUNDER=y Overload in 3A SMPS Y.
  • Page 212 Engineer Event Log Messages Event Message Description Tamper alarm restore from power supply expander ID=Y TMP RS PS=y Tamper alarm restore from PO expander ID=Y TMP RS PO=y Tamper alarm restore from Advanced Voice module TMP RS VOICE Tamper alarm restore from wireless module expander ID=Y TMP RS WME=y Tamper alarm restore in zone expander ID=Y TMP RS ZE=y...

  • Page 213: Appendix G Engineer Programming Maps

    Engineer Programming Maps Appendix G Engineer Programming Maps 1) Programming See programming menu on page 214 2)Activities Keypad Sound Chime Buzzer On/Off Follow Me View Fault Alarm Memory Partition Status Zone Status Service Information Engineer System Version Clock Time and Date Scheduler Vacation Event Log...
  • Page 214 Engineer Programming Maps Engineer Programming Menu 1) System 1) Timers 01) Ex/En Delay 1 06) Wireless 11) Last Exit Sound 02) Ex/En Delay 2 061) Jamming Time 12) Buzzer at Part Set 03) Bell Timeout 062) RX Supervise 13)Status Timer 04) Bell Delay 07) AC Off Delay 14) Service Timer...
  • Page 215 Engineer Programming Maps 2) Proximity Anti Mask = Tamper 3) Audible Proximity Tamper 3) Labels 1) System 3) Partition 2 5) Partition 4 2) Partition 1 4) Partition 3 4) Sounds 1) Tamper Sound 1) During Unset 2) During Set 1)Silent 1)Silent 2) Bell...
  • Page 216 Engineer Programming Maps 2) Zones 1) Parameters 1) One By One 2) By Category 1) Label 2) Partition 3) Type 00) Not Used 18) Special 01) Exit/Entry 1 19) Pulsed Keyswitch 02) Exit/Entry 2 20) Final Exit 03) Exit(OP)/Entry 1 21) Latch Keyswitch 04) Exit(OP)/Entry 2 22) Entry Follwer+ Part Set...
  • Page 217 Engineer Programming Maps 3) Outputs 0) Nothing 1) Follow System 01) Bell 09) Bell Burglary 17) Panic 02) No Telephone Line 10) Scheduler 18) Fire 03) Comm. Failure 11) Switched Aux 19) Special 04) Fault 12) GSM Error 20) 24 Hours 13) Bell Test 05) Main Low Bat 06) AC Loss...
  • Page 218 Engineer Programming Maps 5) Communication 1) Method 1) PSTN 1) Timers 1) PSTN Lost Delay 2) Wait Dial Tone 2) Control 1) Alarm Phone Line 2) Answering machine override 2) Parameters 1) Dial Method 2) Rings To Answer 3) Area Code 4) PBX Prefix 5) Call Wait 2) GSM...
  • Page 219 Engineer Programming Maps 1) Mail Host 2) SMTP Port 3) Email Address 4) SMTP Name 5) SMTP Password 3) Host Name 4) ARC Polling 1) Primary 2) Secondary 3) Backup 4) LRT 1) Account 2) System 3) Periodic Test 4) No Comm Parm 5) Control 1) Disable Low Battery 2) Alarm Receiving...
  • Page 220 Engineer Programming Maps 2) Abort Alarm 3) Cancel Delay 4) Listen In 5) Confirmation 7) Report Split 1) ARC Set/Unset 2) ARC Urgent 3) ARC Non Urgent 8) Report Codes 1) Edit Codes 2) Delete All 3) Configuration Soft. 1) Security 1) Access code 2) Remote ID 3) ARC Lock...
  • Page 221 Engineer Programming Maps 7) Install 1) Bus Device 1) Automatic 2)Manual 01) Keypad 09) Bus Zone 02) Zone Expander 10) GSM 03) Programable output 11) IP 04) Power Supply 12) Modem 05) Wireless Expander 13) Bus Expanderr 06) Proximity Key Reader 14) LRT 07) Voice Module 08) Sounder...

  • Page 222: Appendix Hen 50131 And En 50136 Compliance

    EN 50131 and EN 50136 Compliance Appendix H EN 50131 and EN 50136 Compliance Compliance Statement Hereby, RISCO Group declares that the LightSYS series of central units and accessories are designed to comply with: EN50131-1, EN50131-3 Grade 2 EN50130-5 Environmental class II...
  • Page 223 Level 2 Each Keyfob has 24 bit identification code comprising 2^24 options. A Keyfob has to be recognized and registered by the LightSYS, therefore, a "write" process must be performed. A valid Keyfob is one "Learned" by the panel and allowing Set/Unset A non valid Keyfob is one not "Learned"...
  • Page 224 From the [1] System menu select [5] to access the Settings menu. From the Settings menu select [4] to access the Standard option. Select EN 50131. Once selected, the following changes will occur in the LightSYS software: Report Codes Feature...

  • Page 225: Appendix I Remote Software Upgrade

    Remote Software Upgrade Appendix I Remote Software Upgrade This appendix explains how to perform remote upgrade of your LightSYS main panel software using the LightSYS keypad or SMS command. Remote software upgrade is performed via IP or GPRS. Notes: 1. It is recommended to perform the upgrade process from keypad 1 (Not wireless keypad) 2.
  • Page 226 Via GSM (GPRS) 97239637777GSMFILE212.150.25.223:80. Once selected, the LightSYS will start downloading the required files. The upgrade procedure may take approximately 40 minutes to complete. This will vary according to whether the procedure is performed via GPRS or IP. Once the files are downloaded the panel automatically starts with the upgrade procedure of the units connected to the system.
  • Page 227 Conformity please refer to our website: www.riscogroup.com. RISCO Group Limited Warranty RISCO Group and its subsidiaries and affiliates ("Seller") warrants its products to be free from defects in materials and workmanship under normal use for 24 months from the date of production. Because Seller...
  • Page 228 Contacting RISCO Group RISCO Group is committed to customer service and product support. You can contact us through our website (www.riscogroup.com) or at the following telephone and fax numbers: United Kingdom Brazil Tel: +44-(0)-161-655-5500 Tel: +55-11-3661-8767 E-mail: support-uk@riscogroup.com E-mail: support-br@riscogroup.com...

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