Related Manuals for ABB L240 Series
Summary of Contents for ABB L240 Series
- Page 1 Security Technology KNX-Intrusion Alarm System L240 Installation, Commissioning, Operation...
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Page 3: Table Of Contents
Contents Page Contents Intrusion Alarm System L240 General description Degree of expansion System components System overview Installation Instructions General explanations Wiring Required components to an entry (door) Intrusion Alarm Panel L240 General Installation Connections and technical data Description of the inputs and outputs Commissioning Basic expansion Direct connection of the inputs and outputs... -
Page 4: Address Table L240/Mg 2 And
Contents Operation by the Engineer Functions 7.1.1 Menu 1 “Time/Date” 7.1.2 Menu 2 “Tamp.Reset” 7.1.3 Menu 3 “Test” 7.1.4 Menu 04 “Change PIN” 7.1.5 Menu 5 “Printer” 7.1.6 Menu 6 “Printer” 7.1.7 Menu 7 “Remote” 7.1.8 Menu 8 “Edit” 7.1.9 Menu 9 “Cct Off”... - Page 5 Contents 4-Detector circuit module L840/MG 4 11.1 General 11.2 Circuit diagram 11.3 Description of the inputs and outputs 11.4 DIP switch/jumper settings: 11.5 Addressing 11.6 Commissioning SafeKey Evaluation Module L240/BS 12.1 General 12.2 Wiring 12.2.1 Magnetic reed contact 12.2.2 Lock bolt switching contact 12.2.3 Bolt lock 12.2.4...
- Page 6 Contents Interface Module L208/V.24 14.1 General 14.2 Circuit diagram 14.3 Login 14.4 Serial connection 14.5 Setting the interface parameters LAN Interface L240/IP 15.1 General 15.2 Circuit diagram 15.3 Commissioning 15.4 Setting the IP address of the PC 15.5 Setting the network parameters on the L240 Appendix Overview User / Programming Menu L240 Programming Example...
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Page 7: Intrusion Alarm System L240
General Description Intrusion Alarm System L240 The Intrusion Alarm Panel L240 is a compact emergency signalling centre, General which uses the same base device, and depending on the connected bus description nodes complies with the guidelines of the VdS for class A, B or C, as well as the standards DIN/VDE 0100, 0800 and 0833. -
Page 8: System Components
General Description System components Short Product description designation Panel Intrusion Alarm Panel L240 System components: LCD keypad L240/PT Evaluation module SafeKey, PCB L240/BS Detector circuit module, 2 circuits, for 60 mm flush L240/MG2 mounted switch box Detector circuit module, universal, 4 detector circuits, L840/MG4 Serial interface module (incl. -
Page 9: System Overview
General Description System overview... -
Page 10: Installation Instructions
Installation Instructions Installation Instructions General explanations All electrical work may only be performed when the system is not live. The installation and commissioning may only be carried out by electrical specialists. The installation locations of the panel and keypads must comply with the guidelines of the VdS or the VDE 0833. -
Page 11: Required Components To An Entry (Door)
Installation Instructions Required components to an entry (door) Example switching configuration per access to the secure area Door lock with cabling Wall reader without keypad with cabling Wall reader with keypad with cabling Without switching device Circuit example: Magnetic Bolt switching Wall reader Bolt lock Magnetic... -
Page 12: Intrusion Alarm Panel L240
Installation Instructions Intrusion Alarm Panel L240 The Intrusion Alarm Panel L240 is a modern compact system that is easy to General put into operation. The panel has many programming features and complies with the guidelines of the VdS class A, B and C as well as with the European standards EN 50131 and the German DIN VDE 0833. -
Page 13: Installation
Installation Instructions The panel is connected to the wall with 3 screws. Installation The cable entries are located above the main PCB and can be introduced from the rear with flush panel mounting, or from above with surface panel mounting. If the cables are routed to the panel as flush mounted cables, the cover panel should be fixed in the upper mounting position so that the cable entry is covered off. -
Page 14: Connections And Technical Data
Installation Instructions The connection of the extra-low voltage conductors is implemented using Connections and pluggable screw terminals. technical data Function Connector Number of Number of blocks poles XIB Bus, external CN13 Bus, internal CN11 (keypad 0) 12 V outputs CN16, 18 Detector groups CN2, 3, 4, 25, Transistor outputs... - Page 15 Installation Instructions Circuit diagram: Panel tampert Comm alarm Comm fault Sirens Strobe free Buzzer Relay 2 (walk test) Relay 1 (ext. set) Unset Intern Alarm External ready to set Setting acknowledge Fault Ext. unset Personal attack Intrusion Cct 10, ext. set Cct 9, tampering Cct 8, pers.
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Page 16: Description Of The Inputs And Outputs
Installation Instructions Terminal designation in a clockwise direction commencing at the top left Description of the inputs (P) = programmable and outputs Terminal Designation Function (delivery state) Remark: CN17 + 12 V + 12 V DC buffered voltage for Fuse: FS1 0.8 A quick-blow external devices CN18... - Page 17 Installation Instructions Terminal Designation Function (delivery state) Remark: CN14 Relay 1 (NO) External set Relay switches with external set Relay 1 (NC) Relay 1 (common) CN12 Relay 2 (NO) Walk test (P) Relay switches, if the walk test function on the keypad has been activated Relay 2 (NC) Relay 2 (common)
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Page 18: Commissioning
ABB L240 V4.70A The description of the buttons on the keypad can be found in chapter 5. Connect the temperature sensor for the battery and fix to the battery (e.g. -
Page 19: External Connection Of The Inputs And Outputs
Remove the terminating resistor for the strobe lights on the terminal block of the panel (tampering alarm is triggered!). • Connect the cable to the ABB strobe light. The terminating resistor is already integrated into the strobe lights and connection of an additional resistor is not necessary. -
Page 20: Expansion Of The Panel With Bus Nodes
Commissioning Note: • If a telephone-dialling device is not connected, the inputs comm fault and comm alarm must be connected by jumper to 0 V. • If detector circuits are not assigned, a terminating resistor must be inserted. • In the default delivery state the reset of a tamper alarm is enabled. The basic panel configuration can be expanded by many bus modules. - Page 21 Commissioning Jumper link contact of the panel tamper during commissioning All modules feature panel tamper contacts and signal a tamper alarm if they are not actuated. For this reason, we recommend that you apply a short circuit to the panel tamper during commissioning with the provided DIP switch or jumper.
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Page 22: Keypad L240/Pt
Operation of the L240 Keypad L240/PT General description Keypad L840/PT can be used both by system users for comfortable operation as well as by Engineers to perform maintenance work or programming of the system. The messages are shown in plain text on the two line LCD display panel. -
Page 23: Connection
Operation of the L240 The Intrusion Alarm Panel can be operated with up to 7 keypads L208/PT. Connection The keypads are connected to the external bus of the panel CN13 (+ – A B) with a 4-core cable. Each keypad must be assigned with its own address in the range from 1 to 7 when it is initially commissioned. -
Page 24: Operation With Keypad L240/Pt
Operation of the L240 Operation with Keypad L240/PT The display and the buttons are illuminated as soon as a button is operated. General information The lighting switches back off as soon as button is pressed. The operation/programming is divided into different levels: Operation by the operator without previous entry of the PIN code (access level 0) Operation by the operator with previous entry of the PIN code... - Page 25 Operation of the L240 The fault of a transmission device/telephone dialling device is signalled to the panel using its fault relay on terminal 33 “comm fault”. With a comm fault, the Status LED lights up and the buzzers in the keypads sound. The panel can not be set externally, internal arming is however possible.
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Page 26: Operation Without Pin Code (Access Level 0)
Operation of the L240 In access level 0, the user can operate the panel without entering the PIN Operation without PIN beforehand. All functions can be inhibited by the user without previous entry code (access level 0) of the PIN (e.g. public access). In the unset state, the time, the date and the system state are displayed: 20:01 28 Nov 08 Int Unset... -
Page 27: Button 3 "Disp Cct Off
Operation of the L240 shows when the detector circuit is switched off. Both the internally 6.2.3 Button 3 “Disp Cct Off” Button set as well as the externally set switched off circuits are displayed. You can >< page using the buttons. -
Page 28: Operation With Pin Code (Access Level 1)
Operation of the L240 In access level 1, the user can only operate the panel after entering the PIN Operation with PIN code 4 (code) beforehand. After pressing button entering a valid 4-digit PIN code (access level 1) and pressing button , you are in access level 1. -
Page 29: Menu 01 "Int Set
Operation of the L240 Menu 01 “Int Set” complies with the function of button “Int Set” on 6.3.1 Menu 01 “Int Set” access level 0 (see chapter 6.2.1 Button 1 “Int Set”). User-PIN 01 = Int Set 02 = Cct Off 03 = Disp Cct Off 04 = Change PIN 05 = Disp CctFault... -
Page 30: Menu 05 "Disp Cct Fault
Operation of the L240 Re-enter PIN Input PIN: Enter the new user PIN again and press button Menu 05 “Disp Cct Fault” complies with the function of button 6.3.5 Menu 05 “Disp Cct “Disp Cct Fault” on access level 0 (see chapter 6.2.5 Button 5 “Disp Cct Fault”). Fault”... -
Page 31: Menu 08 "Log
Operation of the L240 Menu item 08 “Log”: In menu item “08=Log“ the event memory and the 6.3.8 Menu 08 “Log” access memory can be read out into an Evaluation Module L240/BS or User-PIN printed via the printer interface. In the event memory, the last 250 security relevant events (e.g. - Page 32 Operation of the L240 Example 4: External alarm 17:30:54 Cct 3 < button Restore The circuit group stored after an external alarm has been deleted 22:17:44 Area1 < button Reset A reset was undertaken in area 1 22:15:38 Area1 < button Unset Area 1 was unset at 22:15...
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Page 33: Menu 09 "Ext Set
Operation of the L240 Menu 09 “Ext Set” VdS: If the Intrusion Alarm System is operated without 6.3.9 Menu 09 “Ext Set” an external switching or setting device (e.g. SafeKey, contact lock or non- contact switching device), an external setting within the security area can be User-PIN implemented via a Keypad L240/PT. -
Page 34: Menu 11 "Log Eng On
Operation of the L240 Menu item 11 “Log Eng On” To gain use of access level 2 it is necessary 6.3.11 Menu 11 “Log Eng On” to enter the 6-digit Engineer PIN and confirm it with the button. Each User-PIN access is stored along with the user no. -
Page 35: Operation By The Engineer
Operation by the Engineer Operation by the Engineer Engineer menu access level 2 11:30 08 Okt 2008 1 = Time Int Unset 2 = Date 1 = Print without PIN without PIN 2 = Circuits 3 = Sounders 1 = Int Set 4 = Strobe 2 = Cct Off 5 = L240/B/BS... -
Page 36: Menu 1 "Time/Date
Operation by the Engineer Menu item 1 “Time/Date” complies with the function of menu 7.1.1 Menu 1 “Time/Date” “10=Time/Date” in access level 1 (see chapter 6.3.10). Engineer-PIN 1 = Time/Date 2 = Tamp.Reset 3 = Test 4 = Change PIN 5 = Printer 6 = Service 7 = Remote... - Page 37 Operation by the Engineer In submenu “2=Circuits” all the individual circuits or single circuits can be Submenu selected and switched for testing in the one-man inspection. When a “2=Circuits” detector triggers (e.g. motion detectors or glass break sensor), the output “internal alarm”...
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Page 38: Menu 04 "Change Pin
Operation by the Engineer In submenu “5=L240/B/BS” the setting unit (evaluation module L240/BS) Submenu can be tested, without the Intrusion Alarm Panel being in the ready to set “5=L240/B/BS” state. Test of an Evaluation Module L240/BS: See product manual “SafeKey Evaluation Module L240/BS”. L240/B/BS On Test In submenu “6=System”... -
Page 39: Menu 5 "Printer
Operation by the Engineer Menu item “5=Printer”: The complete configuration of the Intrusion Alarm 7.1.5 Menu 5 “Printer” Panel (incl. the SafeKey chip key/keypad code) can be printed out, and the print parameters can be set. A serial Interface Module L208/V.24 and a Engineer-PIN serial printer are required for printing. -
Page 40: Menu 6 "Printer
Operation by the Engineer In submenu “5=Key/Code” the authorizations (e.g. access, Submenu setting/unsetting) for the keypad code or chips key and the Evaluation “5=Key/Code” Module L240/BS can be printed out. This module is only available if at least one Evaluation Module L240/BS is registered. Further information relating to printing can be found in the product manual “SafeKey Evaluation Module L240/BS”. -
Page 41: Menu 7 "Remote
Operation by the Engineer Menu item “7=Remote” VdS: Communication between the panel and a 7.1.7 Menu 7 “Remote” PC/Laptop can occur (e.g. programming using software). Different Engineer-PIN parameters must be set for this purpose. 1 = Time/Date 2 = Tamp.Reset 01=Connection 3 = Test 02=Operations... - Page 42 Operation by the Engineer In submenu “04=SiteID” a 4-digit customer number must be entered for the Submenu panel. This customer number in the panel must be identical with the “04=SiteID” customer number in the database of the PC Software (WIN-PC). When communication is established both customer numbers are compared, and communication will only be possible if they are identical.
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Page 43: Menu 8 "Edit
Operation by the Engineer In submenu “07=Gateway IP” the connection to the panel via a gateway Submenu “07=Gateway IP” can be entered, here the Gateway IP address (dependent on the local Ethernet settings). If the panel is connected via a local network or directly to the PC (crossover cable), the value “0”... -
Page 44: Configuration And Programming
Operation by the Engineer Configuration and programming In the “Programming” submenu, the Intrusion Alarm Panel L240 can be fully Overview programmed by the Engineer. The panel is pre-programmed ex-works and can be immediately operated without being programmed beforehand. The changes must only be undertaken in a few of the programming steps in the corresponding submenus. - Page 45 Configuration and Programming by the Engineer Fig. 8.1 Overview of the configuration and programming Engineer-PIN (6-digit) 01 = System Size 1 = Time/Date 02 = Area Opts 2 = Tamp.Reset 03 = Circuits 3 = Test 04 = Relay 4 = Change PIN 05 = Alarm Times 5 = Printer 06 = Keypads...
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Page 46: Menu 01 "System Size
Configuration and Programming by the Engineer Menu item “01=System Size”: The bus devices connected to the XIB 8.1.1 Menu 01 “System Size” security bus (e.g. modules and keypads) must be logged on. After login, the Engineer-PIN bus devices are monitored by the panel. If bus modules are logged off again, 8 = Edit they must be disconnected from the XIB security bus. -
Page 47: Menu 02 "Area Opts
Configuration and Programming by the Engineer L208/A/R (reserved for future applications): System Size OPM-0 Reserved for future applications: Please do not change the number 0. KNX (EIB) – Interface: System Size (0 or 1) XS/S1.1 KNX-1 The Interface XS/S 1.1 integrates the Intrusion Alarm Panel L240 into the EIB/KNX intelligent installation system. - Page 48 Configuration and Programming by the Engineer The independence of the areas from one another should be predefined in every area: Area-1 Masters Area 2-Off Area 1 is not a sub-area of area 2 (off) and Area-2 Masters Area 1-Off Area 2 is not a sub-area of area 1 (off) There are also applications where the sequence of the setting/unsetting operations of the individual areas must always be the same.
- Page 49 Configuration and Programming by the Engineer The apartment (area 2/main area) can only be set if the office (area 1/sub- area) has been set. This ensures that setting of the office area cannot be forgotten when leaving the building. On returning home the apartment must be unset and only then can the office be unset.
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Page 50: Menu 03 "Circuits
Configuration and Programming by the Engineer Menu item “03=Circuits”: In this menu, the circuit types and the properties 8.1.3 Menu 03 “Circuits” of the circuits of the panel and the connected detector circuit modules and Engineer-PIN bus modules for motion detectors can be programmed. 8 = Edit In the default delivery state, the detector circuits 1-10 of the Intrusion Alarm 01 = System Size... - Page 51 Configuration and Programming by the Engineer 13=Log On 14=Ext Set Intrusion circuit Intrusion circuit “01=NA” On an intrusion circuit the sensors and contacts for exterior surveillance (e.g. “01=NA” magnetic reed contacts or glass break sensors) and monitoring of the interior (motion detectors) are connected. The circuits for motion detectors are switched off with internal setting (occupants can move freely through the building without triggering an internal alarm).
- Page 52 Configuration and Programming by the Engineer Tamper circuit “02=Tamper” Tamper circuit “02=Tamper” A tamper circuit is used for monitoring the enclosures of connected components. Depending on the classification of the risk, it is necessary to include the cover contact of the external sirens and the setting device in the tampering circuit.
- Page 53 Configuration and Programming by the Engineer Personal attack circuit Personal attack circuit “03=PA” Panic buttons are connected to the personal attack circuit and are always “03=PA” set. In the default state, it will only trigger a silent alarm (output “Personal attack”).
- Page 54 Configuration and Programming by the Engineer Lock circuit “04=Lock” Lock circuit “04=Lock” The lock engaging contacts and lock monitoring must be connected to the lock circuit. Thus, the locking state (locked/unlocked) of doors and windows are monitored. The lock circuits are used exclusively to prevent setting (if the doors or windows are not locked) and do not lead to alarms.
- Page 55 Configuration and Programming by the Engineer If someone enters the building and the EnEx circuit is opened by the lock bolt contact, the entrance time will start. During this time, the buzzer on the keypad sounds and an entrance circuit (e.g. motion detector in the entrance area) may indicate a fault without triggering an alarm.
- Page 56 Configuration and Programming by the Engineer Tamper reset circuit “11=Eng Rst” VdS Tamper reset circuit “11=Eng Rst” A brief interrupt of this group (e.g. with a key switch) causes the stored alarms (e.g. internal, intrusion or personal attack alarms) to be deleted including a tampering alarm.
- Page 57 Configuration and Programming by the Engineer Area assigned to the circuit (only if circuit = EIB/KNX). Int Set Off Circuit-0xx 0=Off; 1=On Int Set Off-Off The enable for shutdown of a circuit with internal setting is provided. The shut down then occurs in access level 0 or 1. ...
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Page 58: Menu 04 "Relay
Configuration and Programming by the Engineer Prevent Set Circuit -0xx 0=Off; 1=On Prevent Set-On Technical circuits can cause a prevention of setting on a fault. Off: An interrupted circuit does not prevent setting. On: An interrupted circuit prevents setting. Menu item “04=Relay”: Both relays on the main PCB are already pre- 8.1.4 Menu 04 “Relay”... -
Page 59: Menu 05 "Alarm Times
Configuration and Programming by the Engineer Menu item “05=Alarm Times”: The response of the panel to different 8.1.5 Menu 05 “Alarm Times” alarms (e.g. external or personal attack alarm) can be programmed Engineer-PIN accordingly. 8 = Edit 01 = System Size After selection of the menu, the following request appears with factory 02 = Area Opts 03 = Circuits... -
Page 60: Menu 06 "Keypads
Configuration and Programming by the Engineer Menu item “06=Keypads”: Enable or disable of different operating features 8.1.6 Menu 06 “Keypads” on the keypad. The service keypad (address 0; connected to the internal Engineer-PIN bus) cannot be programmed. 8 = Edit 01 = System Size 02 = Area Opts 03 = Circuits... -
Page 61: Menu 08 "User Auth
Configuration and Programming by the Engineer Menu item “08=User Auth”: Eight different user codes (PIN) can be 8.1.8 Menu 08 “User Auth” assigned for access level 1. In the default delivery state only user code (PIN) Engineer-PIN 1 is enabled, user codes (PINs) 2 – 8 are switched off. These user codes 8 = Edit (PINs) can be individually enabled. -
Page 62: Menu 10 "L240/B/Bs
Configuration and Programming by the Engineer Example: Change the text for circuit 1. Select submenu “1=Cct 1”. Circuit Enter the circuit number Number _ _ Circuit 1 (text used up to now is displayed) Cct 1 The first character flashes. Using the arrow keys you can advance in the text line and jump to the next text position with the Enter button. -
Page 63: Menu 13 "2-Conc Tamper
Configuration and Programming by the Engineer Inhibit or enable reset: XS/S1.1 KNX (0=Off;1=On) Reset-On Inhibit or enable tamper reset (only if reset on): XS/S1.1 KNX (0=Off;1=On) Tamp.Reset-Off Enable or inhibit signal at bus voltage failure: XS/S1.1 KNX (0=Off;1=On) Sig Failure-Off Type of message with bus voltage failure (only if Signal Failure-Off=On): XS/S1.1 KNX (1=Fault;... -
Page 64: Menu 16 "Xib-Detectors
Configuration and Programming by the Engineer Menu item “16=XIB-Detectors” 8.1.14 Menu 16 “XIB- Detectors” 1=Auto Add Engineer-PIN 8 = Edit 1=Auto Add; 2=Add XIB Det. 2=Add XIB Det. 01 = System Size 02 = Area Opts Further procedure for teaching in the detector can be found in chapter 13 03 = Circuits 04 = Relay under “Teaching in the first detector”... -
Page 65: Management Of The Chip Key/Keypad Code
SafeKey Management of the chip key/keypad code The management of all keypad codes and chip keys (e.g. learn or delete) General and their authorizations (e.g. access, set/unset operations) is undertaken on the Intrusion Alarm Panel L240 with the LCD Keypad L240/PT in the “Management”... -
Page 66: Operating Menu
SafeKey Operating menu 11:30 08 Okt 2008 Int Unset 0 = Off Key/Code Number _ _ _ 1 = Access Without code 2 = Set/Unset 3 = Set 1 = One Key/Code 1 = Int Set 2 = L240/BS 4 = Unset 2 = Cct Off 3 = Disp Cct Off Present Key/Code... -
Page 67: Menu 05 - Text
SafeKey Buttons for accessing the “Text” menu 9.2.2 Menu 05 – Text Enter the 3-digit code / key Key/Code number Number _ _ _ Key/Code 1 Key/Code 1 Display of the text to be changed in the lower line (the text location to be changed flashes). -
Page 68: Menu 02 - Show (Key/Code)
SafeKey Key/Code-001 01-Set/Unset Display of the modified authorization for 3 seconds. Key/Code-001 02-Access Changing the authorization on further modules. >< Using buttons with the selected keypad code or chip key, you can go the next or previous Evaluation Module L240/BS without changes. By pressing button , the selected keypad code or chip key is again exited and another keypad code / chip key is selected. -
Page 69: Menu 04 - Delete
SafeKey Press button L240/BS Number _ Enter the address of the Evaluation Module. Key/Code-001 Hauke, Kristin Display of the stored or factory default text for 3 seconds. Key/Code-001 Set/Unset Display of the authorization for the key / code 001 in the selected module. <. -
Page 70: Menu 03 - Identify
SafeKey The 3-digit code/key number is necessary to change or delete the 9.2.7 Menu 03 – Identify keypad code and chip key. If the code / key number is no longer known, it can be displayed by inserting the chip key or entering the keypad code. Buttons for accessing the “Identify”... -
Page 71: 10 2-Detector Circuit Module L240/Mg 2
The circuit modules have two circuits, whose connections feature terminals 10.2 Circuit diagram and insulation piercing terminals. As magnetic contacts and glass break sensors from ABB are always 4-wire with tinned LIY4*0.14mm conductors, they are ideal for direct connection to the insulation-piercing terminals. -
Page 72: Description Of The Inputs And Outputs
L240/MG2 On both left terminals the circuit input (evaluation) is connected, both the middle terminals are used for connection terminals and the termination resistor is integrated into both of the right terminals. The number of the circuit is on the left beside the DIP switch followed by the number of the circuit on the right beside the XIB terminal block. -
Page 73: Commissioning
L240/MG2 Example: Two Detector Circuit Modules L240/MG2, one Detector Circuit Module L840/MG4 and three bus detector modules are operated on an Intrusion Alarm Panel L240. • First of all the three circuit modules must be registered. • The panel occupies circuits 1-10. •... - Page 74 L240/MG2 After teach-in the Detector Circuit Module L240/MG2 has two circuits each with the following properties: (also refer to Properties of the circuit types chapter 8.1.3.2 on page 56). • Standard or EIB/KNX • Intrusion circuit (Cct) • Cct off int off •...
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Page 75: Technical Data
L240/MG2 Using the address switch the Detector Circuit Modules L240/MG2 and 10.6 Address table L240/MG 2 L840/MG4 are addressed on the XIB security bus. Each circuit module has and L840/MG 4 (independently of the area) its own address. The address area for each module type commences with “1”... -
Page 76: General
L840/MG4 11 4-Detector circuit module L840/MG 4 The 4-fold Detector Circuit Module L840/MG4 provides four detector circuits. 11.1 General A walk test and set output are provided for control of the motion detectors. The circuits are ideal for the connection of passive glass break detectors. The module is supplied as a circuit board and is installed in enclosure SAD/GUP or SAD/GAP. -
Page 77: Dip Switch/Jumper Settings
L840/MG4 The following settings can be defined with the DIP switch: 11.4 DIP switch/jumper settings: Switch 1-5: Address on the XIB security bus (see addressing) The panel tamper contact can be bypassed with jumper LK1: Jumper LK1: Plugged-in: Panel tamper not functional Open: Panel tamper functional The circuit module is addressed via a DIP switch. - Page 78 L840/MG4 Exit the Hardware menu with button and assign the circuit module to the areas. As standard all circuit modules are assigned to area 1. Test the individual circuits. Note: After logging off a circuit module, the freed circuits are replaced by the following circuit, i.e.
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Page 79: Safekey Evaluation Module
L240/BS 12 SafeKey Evaluation Module L240/BS The SafeKey Evaluation Module L240/BS is used for connection of SafeKey 12.1 General switching devices such as the strike plate, door cylinder, wall reader or wall reader with code keypad on the XIB security bus on the Intrusion Alarm Panel L240. -
Page 80: Wiring
L240/BS 12.2 Wiring 12.2.1 Magnetic reed contact A magnetic reed contact is connected in a 4-wire configuration to the intrusion circuit “Magnet”, and the evaluation of the intrusion circuit must be activated. The magnetic reed contact is used for opening surveillance of the door (opened or closed). -
Page 81: Bolt Lock
L240/BS 12.2.3 Bolt lock A bolt lock is required should neither a strike plate, door cylinder or wall reader (e.g. side entrance door without setting device) be connected. Feedback evaluation of the bolt limit position must be activated. A bolt lock prevents opening of the entrance (door) when the Intrusion Alarm System is set. -
Page 82: Cover Tamper Contact
L240/BS 12.2.5 Cover tamper contact When connecting a SafeKey Wall Reader with keypad (WELT/...), the cover tamper contact (pink and grey wires) must be connected to the tampering circuit “Sabo”, and the evaluation of the tampering circuit must be activated. Using function switch 2-1, you can set whether an end of line resistor is present in the wall reader or whether an existing end of line resistor is looped into the evaluation module (2.7 kOhm). -
Page 83: Transistor Outputs
L240/BS 12.2.7 Transistor outputs Transistor outputs T1 to T4 each switch via a series resistor to +12 V and can be used for control, e.g. of an LED, a reed relay or an internal siren. Every two transistor outputs have a common 0 V connection. Transistor outputs T1 and T2 can each be loaded with 20 mA;... -
Page 84: Description Of The Inputs And Outputs
L240/BS 12.3 Description of the inputs and outputs Terminal Description Function Connection wire +12 V Connection for the separate power supply of the bolt lock from the XIB security bus, e.g. on an - (0V) Intrusion Alarm Panel L240 to “V+/V-”. The power supply and the XIB security bus must be supplied from the same Intrusion Alarm Panel (common reference voltage). -
Page 85: Leds
L240/BS 12.4 LEDs The LEDs on Evaluation Module L240/BS have the following functions: 12.4.1 Light emitting diode “LED1” (red) “LED1” is without function. 12.4.2 Light emitting diode “LED2” (green) Green “LED2” indicates communication between Evaluation Module L240/BS and a connected wall reader, strike plate or door cylinder (lights up for about 6 seconds), when a chipkey is inserted or a keypad code is entered. -
Page 86: Function Switch
L240/BS 12.5.1 Function switch 1 The following settings and parameters can be undertaken with function switch 1: Function switch 1-1 “Connection of 0 V potential bolt lock-XIB”: Function switch 1-1 can establish potential equalization between the minus of the bolt lock voltage supply (terminal 16) and the minus of the XIB security bus (terminal 4). -
Page 87: Address Switch
L240/BS Function switch 2-3 “Tamper contact”: Using function switch 2-3, the cover tamper contact on Evaluation Module L240/BS can be activated or deactivated. The cover tamper contact must be activated in VdS approved installations. OFF (standard setting): The cover tamper contact is operational (tamper monitoring) and triggers a tampering (sabotage) alarm should the cover be opened. -
Page 88: Commissioning
L240/BS 12.6 Commissioning The following procedure must be observed when putting the Intrusion Alarm Panel L240 and the Evaluation Module L240/BS into operation. The commissioning instructions in the product manual of the Intrusion Alarm Panel, strike plate and door cylinder must be observed. Important: During all installation and commissioning work, such as ... - Page 89 L240/BS 3. Initial commissioning of Evaluation Module L240/BS: All Evaluation Modules L240/BS must be connected to an external bus (XIB) The addressing of the Evaluation Module L240/BS can be found in “Address switch” Connection of all components to the Evaluation Module L240/BS is undertaken in accordance with instructions in chapter “Wiring”.
- Page 90 L240/BS 4. After commissioning/set-up Next the end of line resistors in the Intrusion Alarm Panel can be replaced successively by the actual detector circuits, signalling devices, etc., and correct function should be tested. After commissioning/set-up, the panel tamper contacts of the evaluation modules must be activated (DIP switch).
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Page 91: Operation
L240/BS The operation of the wall reader is undertaken by the insertion of electronic 12.7 Operation chip keys and/or by entering a 6-digit keypad code. Important: If an incorrect entry is made, it is necessary to wait for longer than six seconds before the next entry is made. ... -
Page 92: Set Circuit
L240/BS Late return disarming feature (internal set): – The area is internally set (e.g. via the keypad L240/PT). – By the once-off insertion of a valid chip key or entry of a 6-digit keypad code, access is enabled and the area defined is unset. ... - Page 93 L240/BS With keypad code (VdS class A): Enter a valid 6-digit keypad code. With chip key (VdS class A and B): Insert and remove a valid chip key once. With keypad code + chip key (VdS class C): Enter a valid 6-digit keypad code and insert and remove a valid chip key within a max.
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Page 94: Access
L240/BS 12.7.3 Access Access can occur in the unset state: With keypad code Enter a valid 6-digit key code. With chip key Insert and remove a valid chip key once. With a strike plate and door cylinder the coupling system is activated for 6 seconds. -
Page 95: Bus Motion Detector
Bus Motion Detector 13 Bus Motion Detector The L240 bus motion detector is available in four different variants. There is 13.1 General notes a motion detector with passive infrared technology for VdS classes B and C and a motion detector with dual modes (PIR* and MW**) for VdS classes B and C. -
Page 96: Description Of The Leds
Bus Motion Detector The bus motion detectors feature up to three different LEDs (red, yellow and 13.3 Description of the LEDs green) depending on the type. All detectors do however feature a red LED for alarm recognition. For indication of the anti-masking, the Passive Infrared Detector IR/XC also features an additional yellow LED. -
Page 97: Teaching In The First Detector
Bus Motion Detector Connect the XIB bus cable according to the connection schematic. Put the circuit board back onto the plug strip. Apply the panel supply. On the programming level (Engineer menu) select function “16=XIB- 13.5 Teaching in the first Detectors”. -
Page 98: Teaching-In Further Detectors
Bus Motion Detector Undertake the circuit, type or area assignment in the submenu. Circuit Typ-XIB Det. Area-1 If a circuit is assigned twice with a motion detector or the max./min. number of circuits (Cct > 80 or Cct < 1) is achieved, an error message is shown on the keypad: XIB Det. -
Page 99: Parameter Settings
Bus Motion Detector The detectors have the following factory defaults after teach-in and can be 13.6 Parameter settings modified via submenu “03=Programming”: Standard factory settings of the bus motion detectors: Type designation Function IR/XB IR/XC EIM/XB EIM/XC Impulses UW TAG Anti-Mask Red. -
Page 100: Walk Test
Bus Motion Detector LED yellow LED yellow – on/off The yellow LED indicates the response of the passive infrared sensors and further displays of the detector (see chapter 13.3). LED green LED green – on/off The green LED indicates the response of the microwave sensors and further displays of the detector (see chapter 13.3). -
Page 101: Faults
Bus Motion Detector Wait for the display on the keypad. Delete The error messages of the bus motion detector are displayed via the LCD 13.9 Faults keypad with the error and signal LEDs as well as on the display. Example of a fault indicator: XIB-M73 Gestört AM-cal PIR-Alm... -
Page 102: Interface Module L208
Serial Interface L208/V.24 14 Interface Module L208/V.24 The interface module is integrated into a white plastic enclosure. It is 14.1 General connected to the wall with 3 screws. On the rear side, the openings with the intended breaking points for cable entries can be found. -
Page 103: Login
Serial Interface L208/V.24 The modules L208/V.24 or L240/IP are automatically detected in the L240 14.3 Login factory default state. Log on and off are not necessary. How to verify log on: On the programming level (Engineer menu “08=Edit”) select function “01=System Size”. -
Page 104: Lan Interface L240/Ip
Serial Interface L208/V.24 Connection Press button Baud-9600 for baud rate of 9600 Baud In submenu “02=Operations” the “Auto” parameter should be selected. Operations Press button Enable-Auto to set enable to “Auto” In submenu “03=Auth Code” an enable code can be entered. As enable occurs without code, this function is not relevant and no entries must be made. -
Page 105: Circuit Diagram
LAN Interface L240/IP 15.2 Circuit diagram Panel tamper Keypad 0 Panel tamper links Collision 10 BaseT XIB data Ethernet Data XIB from panel The plug-in jumper LK1 and LK2 can be used for bypassing the panel 15.3 Commissioning tamper contacts to suppress the tampering alarm during commissioning (otherwise tamper alarm). -
Page 106: Setting The Network Parameters On The L240
LAN Interface L240/IP In the example configuration, the following IP addresses are assumed (can vary according to the network): PC: 192.168.3.1 L240/IP: 192.168.3.3 Gateway: 192.168.3.4 Generally, the properties of the Internet protocol for the PC settings are set to “Obtain an IP address automatically”. - Page 107 LAN Interface L240/IP In submenu “04=SiteID”, a 4-digit customer number must be entered for the panel. This customer number in the panel must be identical with the customer number in the database of the PC Software (WIN-PC). When communication is established, both customer numbers are compared and communication will only be possible if they are identical.
- Page 108 Appendix A Overview Menu L240 11:30 08 Nov 2008 L240 basis display Int Unset chapter 0 without PIN Engineer Edit menu 1 = Int Set 2 = Cct Off 3 = Disp Cct Off 4 = Input PIN 5 = Disp CctFault User PIN (4-digit) User menu chapter 6.3...
- Page 109 Appendix A Overview Menu L240 Engineer Edit menu Engineer-PIN (6-digit) Time/Date 1 = Time 1 = Time/Date 2 = Date 2 = Tamp Reset 3 = Test 4 = Change PIN Test 5 = Printer Circuits 6 = Service 1 = Print 1 = One Circuit 7 = Remote 2 = Circuits...
- Page 110 Appendix A Overview Menu L240 Engineer Edit menu chapter 8 Engineer PIN Menu 8 = Edit 01 = System Size Areas Concs L240/B/BS 01 = System Size Keypads 02 = Area Opts 03 = Circuits 04 = Relay XS/S1.1 KNX 01 = Master Areas 05 = Alarm Times 02 = Ext Alarm TX...
- Page 111 Appendix A Overview Menu L240 Ext Set 0 = Off 1 = Timed Ext Set 2 = Instant Bleeper 3 = EnEx Reset NC 4 = EnEx/Tm 06 = Keypads Int Set NC Reset NC Keypad Number _ Cct Off Disp Cct NC 0 = Off Time/Date Usr...
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Page 112: Appendix
Appendix B Programming Example Programming example In a building, the apartment (area 2/main area) and the office (area 1/lower level) of the owner are located. The office also has an external access door. It is necessary to ensure that the building alarm can only be set if the office has been set beforehand. - Page 113 Appendix B Programming Example In menu item “02=Area Opts” the sub ranges are formed: Area 1 Area 1 Masters Area 2-On Area 2 Area 2 Masters Area 1-Off In menu item “07=Concentrator”, the areas are assigned to the Detector Circuit Modules L240/MG2 and L840/MG4: Concentrator-01 Area-1...
- Page 114 Appendix C System Protocol Degree of expansion Device Panel Keypad Detector module Detector module Motion detector L240 L240/PT L240/MG2 L840/MG4 L240/IR/XB Number Evaluation module Serial interface Interface module L240/BS L208/V24 L240/IP Configuration of the detector circuits Cct. No. Type delivered state Type with divergent Remarks programming...
- Page 115 Appendix C System Protocol Measured values main circuit board Terminals Function Setpoint Actual Actual Actual Actual Actual (Date) (Date) (Date) (Date) (Date) V+/V- System voltage 14 V Battery Charging voltage 13.8 V Cct 1 5.8 – 6.2 V Cct 2 5.8 –...
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