Security Technology
KNX-Intrusion Alarm System L240
Installation, Commissioning, Operation
Contents
3
Contents
Page
1 Intrusion Alarm System L240 7
1.1 General description 7
1.2 Degree of expansion 7
1.3 System components 8
1.4 System overview 9
2 Installation Instructions 10
2.1 General explanations 10
2.2 Wiring 10
2.3 Required components to an entry (door) 11
3 Intrusion Alarm Panel L240 12
3.1 General 12
3.2 Installation 13
3.3 Connections and technical data 14
3.4 Description of the inputs and outputs 16
4 Commissioning 18
4.1 Basic expansion 18
4.2 Direct connection of the inputs and outputs 18
4.3 External connection of the inputs and outputs 19
4.4 Expansion of the panel with bus nodes 20
5 Keypad L240/PT 22
5.1 General description 22
5.2 Connection 23
6 Operation with
Keypad L240/PT 24
6.1 General information 24
6.2 Operation without PIN code (access level 0) 26
6.2.1 Button 1 “Int Set” 26
6.2.2 Button 2 “Cct Off” 26
6.2.3 Button 3 “Disp Cct Off” 27
6.2.4 Button 4 “Input PIN” 27
6.2.5 Button 5 “Disp Cct Fault” 27
6.3 Operation with PIN code (access level 1) 28
6.3.1 Menu 01 “Int Set” 29
6.3.2 Menu 02 “Cct Off” 29
6.3.3 Menu 03 “Disp Cct Off” 29
6.3.4 Menu 04 “Change PIN” 29
6.3.5 Menu 05 “Disp Cct Fault” 30
6.3.6 Menu 06 “Test” 30
6.3.7 Menu 07 “Alarm Counter” 30
6.3.8 Menu 08 “Log” 31
6.3.9 Menu 09 “Ext Set” 33
6.3.10 Menu 10 “Time/Date” 33
6.3.11 Menu 11 “Log Eng On” 34
6.3.12 Menu 12 “Tamp.Reset” 34
Contents
4
7 Operation by the Engineer 35
7.1 Functions 35
7.1.1 Menu 1 “Time/Date” 36
7.1.2 Menu 2 “Tamp.Reset” 36
7.1.3 Menu 3 “Test” 36
7.1.4 Menu 04 “Change PIN” 38
7.1.5 Menu 5 “Printer” 39
7.1.6 Menu 6 “Printer” 40
7.1.7 Menu 7 “Remote” 41
7.1.8 Menu 8 “Edit” 43
7.1.9 Menu 9 “Cct Off” 43
8 Configuration and programming 44
8.1 Overview 44
8.1.1 Menu 01 “System Size” 46
8.1.2 Menu 02 “Area Opts” 47
8.1.3 Menu 03 “Circuits” 50
8.1.4 Menu 04 “Relay” 58
8.1.5 Menu 05 “Alarm Times” 59
8.1.6 Menu 06 “Keypads” 60
8.1.7 Menu 07 “Concs” 60
8.1.8 Menu 08 “User Auth” 61
8.1.9 Menu 09 “Text” 61
8.1.10 Menu 10 “L240/B/BS” 62
8.1.11 Menu 11 “XS/S1.1 KNX” 62
8.1.12 Menu 13 “2-Conc Tamper” 63
8.1.13 Menu 15 “Defaults” 63
8.1.14 Menu 16 “XIB-Detectors” 64
9 Management of the chip key/keypad
code 65
9.1 General 65
9.2 Operating menu 66
9.2.1 Menu 06 – Add 66
9.2.2 Menu 05 – Text 67
9.2.3 Menu 01 – Edit 67
9.2.4 Menu 02 – Show (Key/Code) 68
9.2.5 Menu 02 – Show (L240/BS) 68
9.2.6 Menu 04 – Delete 69
9.2.7 Menu 03 – Identify 70
9.2.8 Exiting management 70
10 2-Detector Circuit Module L240/MG 2 71
10.1 General notes 71
10.2 Circuit diagram 71
10.3 Description of the inputs and outputs 72
10.4 Addressing 72
10.5 Commissioning 73
10.6 Address table L240/MG 2 and L840/MG 4 75
10.7 Technical data 75
Contents
5
11 4-Detector circuit module L840/MG 4 76
11.1 General 76
11.2 Circuit diagram 76
11.3 Description of the inputs and outputs 76
11.4 DIP switch/jumper settings: 77
11.5 Addressing 77
11.6 Commissioning 77
12 SafeKey Evaluation Module L240/BS 79
12.1 General 79
12.2 Wiring 80
12.2.1 Magnetic reed contact 80
12.2.2 Lock bolt switching contact 80
12.2.3 Bolt lock 81
12.2.4 XIB security bus 81
12.2.5 Cover tamper contact 82
12.2.6 Wall reader 82
12.2.7 Transistor outputs 83
12.3 Description of the inputs and outputs 84
12.4 LEDs 85
12.4.1 Light emitting diode “LED1” (red) 85
12.4.2 Light emitting diode “LED2” (green) 85
12.4.3 Light emitting diode “LED3” (red) 85
12.5 DIP switch blocks 85
12.5.1 Function switch 1 86
12.5.2 Function switch 2 86
12.5.3 Address switch 87
12.6 Commissioning 88
12.7 Operation 91
12.7.1 SET circuit 92
12.7.2 Access and UNSET switching 92
12.7.3 Access 94
12.7.4 Personal attack 94
13 Bus Motion Detector 95
13.1 General notes 95
13.2 Circuit diagram 95
13.3 Description of the LEDs 96
13.4 Commissioning and addressing 96
13.5 Teaching in the first detector 97
13.5.1 Teaching-in further detectors 98
13.6 Parameter settings 99
13.7 Walk test 100
13.8 Delete 100
13.9 Faults 101
13.10 VdS operation 101
Contents
6
14 Interface Module L208/V.24 102
14.1 General 102
14.2 Circuit diagram 102
14.3 Login 103
14.4 Serial connection 103
14.5 Setting the interface parameters 103
15 LAN Interface L240/IP 104
15.1 General 104
15.2 Circuit diagram 105
15.3 Commissioning 105
15.4 Setting the IP address of the PC 105
15.5 Setting the network parameters on the L240 106
Appendix
Overview User / Programming Menu L240 A
Programming Example B
System Protocol C
General Description
7
1 Intrusion Alarm System L240
1.1 General
description
The Intrusion Alarm Panel L240 is a compact emergency signalling centre,
which uses the same base device, and depending on the connected bus
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. The unit is also CE compliant.
The panel is a black-box device without installed keypads and displays;
operation is generally undertaken using seven separate keypads.
1.2 Degree of expansion
In its basic configuration, the panel features 10 inputs, which are suitable
both for the connection of sensors (detector groups) as well as for a setting
device.
In order to expand the panel with bus devices, an LCD Keypad L240/PT that
can also be used for programming the panel is absolutely necessary.
As an option, the panel can be expanded by up to 4 setting areas. The
switching devices are then connected to bus modules: Up to 8 Evaluation
Modules L240/BS can be used for the SafeKey components, whereby both
the key management as well as the access memory can be handled via the
panel.
On the detector circuit side, the panel can be expanded via bus modules: Up
to 40 motion detectors, up to 24 Detector Circuit Modules L840/MG4 or
L240/MG2 (can be combined)
(1)
.
The enclosure offers space for the installation of 2 batteries 12 V/7 Ah and
the telephone dialling devices TSQ8, TS9S/L2
(2)
or TS9/ISDN-L2
(2)
.
The panel is delivered with basic programming features that can be used to
immediately commission the device.
Should individual functions be reprogrammed or further components
connected and enabled, this can be undertaken via a keypad that has to be
permanently connected or just connected for the duration of programming.
Alternatively, the programming of the panel can also be undertaken with the
PC and the programming software WIN-PC.
(1)
Regarding the number of Detector Circuit Modules L240/MG2 or L840/MG4 and bus
modules, it is important to observe that the total number of detector circuits does not exceed
80 (incl. the 10 circuits for the panel).
(2)
For Germany only
General Description
8
1.3 System components
Product description
Short
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
mounted switch box
L240/MG2
Detector circuit module, universal, 4 detector circuits,
PCB
L840/MG4
Serial interface module (incl. programming software)
L208/V.24
LAN interface
L240/IP
Batteries:
Battery, 12 V, 7.2 Ah (max. 2 per panel)
SAK7
Installation accessories:
Flush mounting enclosure for modules L240/BS,
L840/MG4
SAD/GUP
Wall box for SAD/GUP
SAD/ED
Surface mounting enclosure for modules L240/BS,
L840/MG4
SAD/GAP
General Description
9
1.4 System overview
L240/PT Keypad
Operation, programming and display
of all functions in a range. In total 7
keypads (addresses 1-7) are
permissible. At least one keypad is
required per area..
L240/MG2
2 circuits with termination resistor.
Suitable for glass break and magnetic
contacts (SPGS/W, MRS/W, SWM4).
Installation in 60 mm FM socket.
Max. 24 devices (addresses 1-24).
MRS/W
Magnetic reed
contact
SPG S/W
Glass break
sensor
SWM4
Water sensor
SGL
Gas sensor
ORM1003
Optiical smoke
detector
E1000BREL
12NL
Socket for
smoke detector
ND/W
Panic button
L240/IR-XB
Motion Detector
Module
SSF/GB
External siren
SSS
Internal siren
Intrusion Alarm Panel L240
Power supply for 2 * 7.2 Ah,
10 preprogrammed circuits,
2 bus terminations,
8 transistor outputs,
3 relays (alarm, set, walk test)
A
lerting and comm signals,
4 areas
Note: In total 80 circuits may not be exceeded.
Example: intrusion alarm panel 10 ccts, 10*L240/MG2
(20 ccts), 5*L240/IR-XB (5 ccts): total 35.
ESPE
Bolt lock
WRK/W
Bolt switching
contact
MRS/W
Magentic reed
contact
WEL/A
SafeKey wall
reader
WELT
SafeKey wall
reader
For connection of one PC with software
WIN-PC. Max. 1 module optional
L208/V.24 or L240/IP can be connected
L208/V.24
Serial interface
L240/IP
LAN interface
L240/BS
SafeKey evaluation module,
for connection of 1 complete
door with SafeKey setting
cirtcuit. User and key
administration via central
keypad. Max. 8 pieces
(address 1-8).
(optional)
XIB BUS
10 circuits
V.24 / LAN
Installation Instructions
10
2 Installation Instructions
2.1 General explanations
The installation locations of the panel and keypads must comply with the
guidelines of the VdS or the VDE 0833. They should be:
• within the security area and monitoring area of a detector,
• on the interior wall of the building,
• not visible to third-parties.
As there are no keypads or displays on the panel, they can be installed in
concealed locations (e.g. in the cellar or in a wall cabinet).
The keypad(s) should be easily accessible for the operator.
2.2 Wiring
The following cable types must be used for wiring the system:
Low-voltage 230 V AC: NYM 3 x 1.5 mm²
Extra-low voltage: I-Y(St)Y n x 2 x 0.8 mm
Components for connection Required twin-cores
XIB bus device:
Keypads L240/PT
Interface Module L208/V.24
Evaluation Module L240/BS
Detector Circuit Modules /MG2,
L840/MG4
BUS Motion Detector
2
Magnetic contacts,
Passive glass break sensors:
2
Combination Signalling Devices
SSF/GB:
6
The sheath wire of the shield (cable of the detector group,
XIB bus line, ...) must be consistently looped through and attached to the
earthing stud in the panel on the left beside the cable entry.
The shield may not be earthed at any other point on the cable network
(earth loops).
The sequence in which the bus slaves are connected is irrelevant; no spur
lines may be used. Max. length of the bus cable: 800 m.
For connection optimisation, the use of a main distribution board (e.g. MV40
or MV80) is recommended.
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.
Installation Instructions
11
2.3 Required components to an entry (door)
Example
switching
configuration per
access to the
secure area
Evaluation module
L240/BS
Di
s
t
r
ib
u
ti
on enc
l
osure
SAD/G
Wall reader WEL/A,...
Wall reader WELT/A,...
SafeKey chipkey
Magnet reed contact
Lock bolt switching
contact
Electric bolt lock
Door lock with
cabling
1 1 - - - 1 1 -
Wall reader
without keypad
with cabling
1 1 1 - 1 1 1 1
Wall reader with
keypad with
cabling
1 1 - 1 1 1 1 1
Without switching
device
1)
1 1 - - - 1 1 1
Door 1: Wall reader WEL/A without keypad with door wiring and bolt lock
Door 2: Wall reader WELT/A with keypad with door wiring and bolt lock
Circuit example:
(with magnetic reed contact
and lock bolt contact)
Intrusion Alarm
Panel L240
LCD Keypad
L240/PT
Evaluation Module
L240/BS
A
ddress n
Evaluation Module
L240/BS
A
ddress 2
Evaluation Module
L240/BS
A
ddress 1
Magnetic
reed contact
Bolt switching
contact
Wall reader
WELT/A
Bolt lock Magnetic
reed contact
Bolt switching
contact
Wall reader
WEL/A
Bolt lock
Door 1 Door 2
Door
XIB
security bus
12V supply voltage for bolt
locks
Installation Instructions
12
3 Intrusion Alarm Panel L240
3.1 General
The Intrusion Alarm Panel L240 is a modern compact system that is easy to
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. By selection of the
corresponding bus device (slave), the risk requirements can be fulfilled
depending on the object. The unit is CE compliant.
The panel does not have any keypads or displays, but is operated by using
up to 7 keypads, which are connected to the external security bus (eXtended
Interface Bus).
The panel is supplied with basic programming features that allow the panels
to be operated immediately with a keypad and a battery. Numerous
functions can be reprogrammed with the assistance of the keypad that is
permanently connected or only attached for service purposes. It is also
possible to program the panel via a notebook with the software package
WIN-PC.
In the central enclosure you will find the main PCB, the power supply,
space for 2 batteries SAK7 (12 V/7.2 Ah) and different dialling devices.
Internal view:
1
2
3
4
5
6
7
8
9
0
#
12 V
7
A
h
Lead-gel
d
r
y
f
i
t
12 V
7
A
h
Lead
-
g
ell
d
r
y
f
i
t
L24
0
main circuit
board
Cable entry and
grounding terminal
for shield
Dialling device
(Option)
2 x Akku SAK7
Mains connection
and transformer
Installation Instructions
13
3.2 Installation
The panel is connected to the wall with 3 screws.
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. With surface mounting, the cover panel should be
mounted in the lower position. The width of the metal panel is dimensioned
to ensure that the PCB is still externally inaccessible. Strain relief is provided
in both cases using a cable tie that can be introduced horizontally or
vertically into the cover panel.
To ensure optimum EMC immunity, the screens of the incoming cables
(detector circuits, XIB bus cables, ...) must be connected using the shortest
possible path to the earthing stud beside the cable entry.
The strain relief is located directly before the 230 V terminal block with
integrated fuse. As it is a device with a metal enclosure (protection class 1),
the protective earth (PE) must be connected.
Dimensions and fixing points:
396
336
188
60
300
360
38
A
ll details
in mm
Installation Instructions
14
3.3 Connections and
technical data
The connection of the extra-low voltage conductors is implemented using
pluggable screw terminals.
Function Connector Number of
blocks
Number of
poles
XIB Bus, external CN13 1 5
Bus, internal
(keypad 0)
CN11 1 4
12 V outputs CN16, 18 2 4
Detector groups CN2, 3, 4, 25,
27
5 3
Transistor outputs CN6, 26 2 4
Relay CN16, 14 2 3
Buzzer CN9 1 2
Signalling devices
(sirens/strobe
lights)
CN16, 19 2 3
Inputs from
telephone dialling
device
CN5 1 2
Panel tamper
(tamper input,
internal)
CN24 1 2
Technical data
Dimensions (H x W x D) 402 x 360 x 80 mm
Colour White RAL9002
Weight (without batteries) 5.8 kg
Supply voltage 230 V +10 % / – 15 %, 50 Hz
Power consumption Max. 50 VA
Output voltage 13.8 V DC ± 0.1 V
Output for the external load max. 0.5 A (2 pieces)
Safety class to VDE 0804 2
Environmental class to VdS II
CE mark In accordance with the EMC
guideline and low voltage guideline
VdS No. In preparation
Installation Instructions
15
Circuit diagram:
36 35 32 31 30 18 171615 34 33 29 28 2726 2524 232221 2019141312 1110C 9 8 C 7 6 C 5 4 C 3 2 C 1 V- V- V+ V+
C
NO
N
C
CN8
44
43
42
- + - +
V-
V- V+
V+
IN IN
B A
-
+
-
+
B A
FS1/0. 8A
FS2/0. 8A
F S 4/ 2.5A
FS 3/1. 6A
F S 5/ 0. 8A
+ - + +
+---+-
+
82 0
-
82 0
-
82 0
-
82 0
-
82 0
-
82 0
-
82 0
-
82 0
-
56
0
2k
7
2k
7
2k
7
2k
7
2k
7
2k
7
2k
7
2k
7
2k
7
1k
1k
1k
CN12 CN9
CN5 CN24
CN19 CN16
CN14 CN26 CN6
CN4 CN27 CN3 CN25 CN2
CN18 CN17
CN13 CN11
LK7
Int. XIB BUS
keypad 0
Ext. XIB BUS
keypad 1-8
Connection for
temerature sensor
Akkus Trafnsformer
Continuous alarm
Voltage supply
for ext. devices
Cct 2
Cct 9, tampering
Cct 10, ext. set
Cct 8, pers. attack
Cct 7, lock
Cct 6
Cct 5
Cct 4
Cct 3
Intrusion
Personal attack
Ext. unset
Fault
Setting acknowledge
External ready to set
Intern Alarm
Unset
Relay 1 (ext. set)
Relay 2 (walk test)
Buzze
r
free
Panel tampert
Comm alarm
Comm fault
LK4
CN7 CN15
++
-
++
-
++
-
++
-
++
-
Strobe
Sirens
VR1
VR2
Akku battery
voltage
System voltage
Cct 1
Reset jumper* (Service kaypad) Ext. BUS modules
Even when not used the connections must be configured as follows to avoid malfunctions:
Detector groups 1 to 6, 8 & 9 must be terminated with 2.7 k (VdS).
The external setting input detector circuit 10 must be terminated with 2.7 k and 560 in the switching device.
The signal encoder outputs (28/29, 30/32 and 31/32) must be terminated with 1 kΩ (included in SSF/GB).
The inputs comm fault (33) and comm alarm (34) must be connected to (36) (0V).
The panel tamper input (35/36) as well as the lock detector circuit (7/C) must be jumpered.
* In order to return the panel to the default delivery state, it is necessary to jumper LK4 for approx. 5 s, when the operating voltage is applied.
Installation Instructions
16
3.4 Description of the inputs
and outputs
Terminal designation in a clockwise direction commencing at the top left
(P) = programmable
Terminal Designation Function (delivery state) Remark:
V+ + 12 V Fuse: FS1 0.8 A quick-blow CN17
V- 0 V
+ 12 V DC buffered voltage for
external devices
V+ + 12 V Fuse: FS2 0.8 A fast-blow CN18
V- 0 V
+ 12 V DC buffered voltage for
external devices
1 Cct 1 (+) Intrusion cct
(switched off as with int. set,
e.g. for motion detectors)
(P)
Unset: display only
internal set: display only
external set: External alarm
C
Common (-)
Common 0V for cct 1 + 2
CN2
2 Cct 2 (+) Intrusion cct
(switched off as with int. set,
e.g. for motion detectors)
(P)
Unset: display only
internal set: display only
external set: External alarm
3 Cct 3 (+) Intrusion cct
(switched off as with int. set,
e.g. for motion detectors)
(P)
Unset: display only
internal set: display only
external set: External alarm
C
Common (-)
Common 0V for cct 3 + 4
CN25
4 Cct 4 (+) Intrusion cct
(P)
Unset: display only
internal set: Internal alarm
external set: External alarm
5 Cct 5 (+) Intrusion cct
(P)
Unset: display only
internal set: Internal alarm
external set: External alarm
C
Common (-)
Common 0V for cct 5 + 6
CN3
6 Cct 6 (+) Intrusion cct
(P)
Unset: display only
internal set: Internal alarm
external set: External alarm
7 Cct 7 (+) Door lock circuit
(P)
Leads to setting (arming) prevention on an
interrupt
C
Common (-)
Common 0V for cct 7 + 8
CN27
8 Cct 8 (+) Personal attack cct
(P)
External alarm and personal attack output
9 Cct 9 (+) Tampering circuit
(P)
Unset: Buzzer and internal alarm
internal set: Buzzer and internal alarm
external set: External alarm
C
Common (-)
Common 0V for cct 9 + 10
CN4
10 Cct 10 (+) External set cct
(P)
For connection of external switching devices
11 Intrusion Switches 0V with intrusion alarm from all
areas for the set alarm time
12 Personal attack Switches 0V with personal attack from all
areas for the set alarm time
13 External unset: Switches 0V at external unset system, high
impedance if externally set.
CN6
14 Fault
Transistor outputs switch active
0V, (via resistor 820 , max. 15
mA)
Switches 0V, if no malfunction from power
supply, common fail or processor present
15 Setting (arming)
acknowledgement
Switches 0V for approx. 3 seconds if system
has been externally set (armed)
16 Ready to set Switches 0V if system ready to set externally
17 Internal alarm Switches 0V on internal alarm
CN26
18 Unset
Transistor outputs switch active
0V, (via resistor 820 , max. 15
mA)
Switches 0V if system unset.
Installation Instructions
17
Terminal Designation Function (delivery state) Remark:
19 Relay 1 (NO) Relay switches with external set
20 Relay 1 (NC)
CN14
21 Relay 1 (common)
External set
(P)
22 Relay 2 (NO)
23 Relay 2 (NC)
CN12
24 Relay 2 (common)
Walk test
(P)
Relay switches, if the walk test function on the
keypad has been activated
25 Internal buzzer (+) CN9
26
Internal buzzer (-)
Switches with system interrupt, tamper alarm
(unset) and after unset, in order to draw
attention to a triggered alarm.
27 free
28 Strobe light (+)
CN16
29
Strobe light (-)
(Active 0V)
Switches with external alarm until reset. Fuse
FS3 800 mA quick-blow
30
Siren 1 (-)
(Active 0V)
31
Siren 2 (-)
(Active 0V)
CN19
32* Siren 1 & 2 (+)
Switches with external alarm for the set alarm
time (180 seconds)
Fuse FS3 800 mA quick-blow
33 Comm fail fault Connection of the fault relay of
the comm fault. Normally
connected with jumper to 0 V.
With an open contact on the comm (fault) of
the setting prevention
CN5
34 Comm fault alarm
(Negative
acknowledgement)
Connection of the alarm relay of
the comm fault. Only if the panel
is programmed for a silent alarm.
Normally connected with jumper
to 0 V.
Generates a local alarm, if the comm fault
could not issue a silent alarm.
35 Panel tamper (+) CN24
36
Common (-)
Panel tamper of the central
enclosure
Unset: Buzzer and internal alarm
internal set: Buzzer and internal alarm
external set: External alarm
+,-,A,B External Bus (XIB) CN13
For connection of keypads (1-7)
and bus modules
Fuse FS3 800 mA quick-blow
(not keypad 0)
CN11 +,-,A,B Internal bus for
keypad 0 (service
keypad)
Connection of the engineer
keypad (address 0)
VR 1 Battery charging
voltage
Factory setting 13.8 V at 20°C.
VR 2 Systems voltage Factory setting 14.0 V.
LK7 Temperature
sensor
For temperature dependent
charging voltage of the battery
The temperature sensor is connected as near
as possible to the batters with a cable tie.
CN7 +, - Battery 2
CN15 +, - Battery 1
AC IN, IN
GND
approx. 20 V AC
from transformer
From the transformer and mains connection
with integrated fuse, 400 mA slow-blow.
CN8 42 Relay (NC) Permanent alarm relay
43 Relay (NO)
44 Relay 1 (common)
Switches with local alarm until reset.
- On VdS systems, siren 2 must be supplied by terminal V+ (CN17 or 18).
- The transistor outputs 1-8 are assigned in the delivery state with the functions of area 1 described in the table.
Note: Output 1 “Intrusion” switches with an intrusion alarm from all areas. Output 2 “Personal attack” switches
with an intrusion alarm from all areas. It can be reprogrammed (output address 0).
Commissioning
18
4 Commissioning
4.1 Basic expansion
This chapter describes how to put a panel in the basic panel configuration,
i.e. without expansion modules, into operation.
In the default delivery state, the panel recognizes a keypad as the only bus
device that has been set with address 1 and connected to the external bus
(terminal CN13).
For commissioning and addressing of the keypad L240/PT, see
chapter 5. Programming of further bus devices is implemented using the
keypad.
It is also possible to connect a keypad L240/PT with address 0 to the internal
bus (left connection slot, terminal CN11). This so-called “Engineer keypad”
can be connected to the bus and disconnected at any time. It does not need
to be logged off and is not monitored to ensure that it is present. It is
recommended that an “Engineer keypad” is connected in particular during
commissioning. The states of the panels can be displayed as a result during
commissioning (e.g. connection of a detector circuit).
4.2 Direct connection of the
inputs and outputs
In the first step, the panel is put into service without connected detectors,
switching device and signalling devices. Before the panel is switched on, all
inputs and the monitored outputs must have the accompanying terminating
resistors inserted:
• Detector circuits 1 to 6, 8 to 10 with 2.7 kOhm (colour code
commences with red-violet)
• Jumper detector circuit 7 without a resistor (wire link)
• Connect the inputs comm fault (33), comm alarm (34) and panel
tamper (35) with 0 V (36).
• The monitored outputs for sirens and strobe lights should each be
terminated with 1 kOhm (colour code commences with brown-black)
Connect an L240/PT keypad with address 1 on the right bus terminal
(CN13), switch on the mains supply and connect the batteries (any
sequence acceptable).
On the keypad the software version of the keypad appears on the display
(for about 2 seconds)
PX KP Type-2
Version 3.01
As soon as the keypad communicates with the panel, the green LED
switches from a flashing to a permanently on state and the software
version of the panel is displayed
ABB L240 V4.70A
The description of the buttons on the keypad can be found in chapter 5.
Con
nect the temperature sensor for the battery and fix to the battery (e.g.
with a cable tie). The Intrusion Alarm Panel is now ready for operation, ready
to set and there are no faults present.
On the “Ready to Set” (terminal 16), transistor output a voltage of 13.0 V to
“V+” can be measured.
A
wide range of functions can be tested (e.g. internal
set) and/or programming with a keypad can be undertaken.
Commissioning
19
If the LED continues to flash, check if
• address 1 is set on the keypad
• the XIB security bus has been correctly connected.
4.3 External connection of
the inputs and outputs
After the panel is ready for operation, the termination resistors or wire
jumpers (links) are removed and the external cables to the detectors, setting
(arming) device and signalling devices are connected.
Connection of the detector circuits:
• Remove the termination resistor of detector circuit 1 on the terminal block
of the panel. Detector circuit 1 interrupt is displayed after pressing button
5 (display faulty detector) on the keypad.
• Connect the cable to the detectors (e.g. motion detectors) of circuit 1.
Here, a termination resistor must be connected once at the end of the
cable. Otherwise, the cable is not monitored. Only one termination
resistor is allowed for each detector group.
• If circuit 1 is OK/closed (motion detector does not detect a motion), a
circuit interruption is no longer displayed on the keypad (button 5).
• Check by inducing a fault on circuit 1 (motion detector detects a motion) if
a fault is detected by the panel and if it is displayed on the keypad.
• Successively put the other detector groups 2 to 9 into operation in the
same manner as described for circuit 1. However, circuit 7 (lock detector
circuit) does not require a termination resistor. An interrupt on circuit 8
(personal attack) and 9 (tampering) must be reset using the Reset
function on the keypad.
• Connect the setting (arming) device (e.g. contact lock) to circuit 10. With
the connection of a setting device on the XIB bus (SafeKey Evaluation
Module L240/BS), circuit 10 should be re-programmed to another circuit
type and terminated with the corresponding resistor.
Connection of the signalling device:
• 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.
• The triggered tamper alarm is reset with the Reset on the keypad.
• Check the strobe light in the test menu (see chapter 7.1.3 ).
• Commi
ssion both ABB sirens as described with the strobe light.
It is recommended that you only connect both sirens when the Intrusion
Alarm System (incl. bus modules) is ready to operate.
Telephone dialling device:
• Remove the wire links of the comm fault and comm alarm (fault signal is
triggered!).
• Connect the comm fault and comm alarm feedbacks from the telephone
dialling devices.
Panel tamper connection:
• Remove the wire jumper for the panel tamper (tamper alarm is
triggered!).
• Connect the connection cable for the panel tamper of the panel.
• The triggered tamper alarm is reset with the Reset on the keypad
(enclosure must be closed).
Commissioning
20
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.
4.4 Expansion of the panel
with bus nodes
The basic panel configuration can be expanded by many bus modules.
The connection or removal of bus modules may only be performed when the
system power is switched off!
Commissioning of the bus devices:
• The panel should be ready for operation and no faults should be present.
• Disconnect the mains and battery supply.
• Assign addresses to the individual bus modules to comply with their
address range and address tables.
• Connect all bus modules to the XIB security bus.
• Connect the corresponding components to the bus modules (e.g. motion
sensor or switching device).
• Connect the mains and battery supply.
• Enable the individual bus modules in the Edit menu and change the
parameters if necessary (e.g. area or detector circuit type).
• Teach-in the bus detector circuit modules.
• If bus modules are not logged on or are logged off again, they must be
disconnected from the XIB security bus.
Further information should be taken from the respective chapters (device
descriptions or programming menu).
Addressing of the bus device
All bus devices must be addressed (“numbered successively”) manually via
DIP switch or jumpers. The bus modules for the motion detectors are
addressed automatically by the panel. The individual module types have
their own addressing range. The addressing range for each module type
commences with “1” and must be successive (1, 2, 3, … 4). The address
table should be taken from the respective chapter of the device descriptions.
Module type Bus module Addressing range
Keypad L240/PT 1 to 7
Detector circuit module L840/MG4, L240/MG2 1 to 24
Motion detector M. L240/IR-XB 1 to 40
SafeKey module L240/BS 1 to 8
Interface module L208/V.24 2
LAN interface L240/IP 2
With the number of circuits and bus modules, it is important to observe
that the total number of circuits does not exceed 80.
These include the:
• 10 circuits for the main PCB.
• Circuit modules L840/MG 4 each with four circuits.
• Detector circuit modules L240/MG 2 each with two circuits.
• Bus motion detector modules with one detector each.
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