Dorma L6L User manual
DORMA Installation Manual
Terminal L6L
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L6L 2. Assembly
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L6L Table of contents
Contents
1. General .................................3
1.1 Preface ................................4
1.2 Intended Use ............................4
1.3 Safety instructions and warnings ..............4
1.4 Further Source of Information . . . . . . . . . . . . . . . . 5
1.5 Disposal ...............................5
1.6 Functional principle . . . . . . . . . . . . . . . . . . . . . . . 5
1.7 Components supplied ......................6
1.8 Assembly accessories (optional) ...............6
2. Assembly ................................7
2.1 Terminal design ..........................7
2.2 Casing variants ...........................7
2.3 Dimensions .............................8
2.4 Opening and closing the terminal ..............9
2.5 Assembly preparations ....................10
2.6 Assembly of flat casing ....................11
2.7 Assembly of deep casing ...................12
2.8 Assembly using a wedge ...................13
3. Connection variants .......................14
3.1 External connections ......................14
3.2 Power supply ...........................14
3.3 Emergency power supply (optional) ............16
3.4 LAN interface ...........................17
3.5 RS485/RS232 interface (sub-interface) ........18
3.6 RS485/RS232 interface (host interface) ........19
3.7 Sub-bus interface ........................20
3.8 Relay outputs (door opener) ................21
3.9 Digital inputs ...........................21
4. Setup ..................................22
4.1 Visual displays ..........................22
4.2 Reader Settings . . . . . . . . . . . . . . . . . . . . . . . . 23
4.3 Memory expansion . . . . . . . . . . . . . . . . . . . . . . 23
5. Maintenance .............................24
5.1 Maintenance and troubleshooting . . . . . . . . . . . . . 24
5.1.1 Fuses ...............................24
5.1.2 General information on changing the battery . . . 25
5.1.3 Replacing the back-up battery .............25
5.1.4 Reset button ..........................25
6. EU Declaration of conformity .................26
7. Technical data ...........................29
L6L 2. Assembly
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L6L 1. General
The information provided in these assembly instructions
may be modified without prior notification. All previous
versions cease to be valid with the publication of these
instructions.
The information in these assembly instructions has been
compiled to the best of our knowledge and in good faith.
DORMA Time + Access GmbH accepts no liability for the
correctness and completeness of the details provided.
In particular, DORMA Time + AccessGmbH cannot accept
liability for any consequential damages due to incorrect or
incomplete information.
The recommendations for installation provided in this manual
are based on favourable basic conditions being present.
DORMA Time + Access GmbH accepts no liability for the
perfect functioning of the L6L in external, non-system
environments.
Despite every effort to prevent mistakes, they can never
be completely avoided. Therefore, we would be grateful
to receive notification of any errors or omissions.
DORMA Time + Access GmbH accepts no liability for the
information included in this document being free of pro-
tected third party rights. DORMA Time + Access GmbH does
not provide any licences to its own or to third party patents
or other protected rights with this document.
It is not permitted to print, reproduce or to pass this manual, or parts thereof, to third parties, other than for your own use,
without the approval of DORMA Time + Access GmbH.
All rights reserved.
DORMA Time + Access GmbH
Postfach 21 01 85
53156 Bonn
http://www.dorma-time-access.de
E-Mail [email protected]
© Copyright 2011 by DORMA Time + Access GmbH
Z.-Nr.: 1035G-00-B1a
Version: 10/14 V2.60
L6L 1. General
4
1.1 Preface
This installation manual is intended to assist you in connec-
ting and commissioning the L6L.
1.2 Intended Use
The device is used as a time recording and access control
terminal.
Further details are described in chapter 1.6.
Any other use than that indicated is not permitted!
1.3 Safety instructions
and warnings
This device has been constructed and tested in accordance
with the relevant current technological regulations. It left the
factory in perfect condition in terms of technological safety
and reliability. To maintain this condition and to ensure risk-
free operation, the instructions and warnings given in this
assembly guide must be observed by the user.
• The device may only be used for the purpose intended by
the manufacturer.
• The installation and assembly of electrical devices may
only be carried out by an electrical engineer.
• Before opening the unit, always switch off the power
supply and verify that the device is free of voltage by
performing a measurement.
• During assembly, please ensure that the requirements laid
down in the relevant device safety standard for the unit
are not negatively affected, as this would reduce the
safety level of the unit.
• Before switching on, ensure that the operating and
control voltages connected do not exceed the permissible
values in accordance with the technical data.
• This unit conforms to EN 60950-1 equipment variants:
230/115VAC - safety class I
24VAC/DC - safety class III
• The units must be operated with safety extra low voltage
(SELV)!
Electromagnetic compatibility:
• The unit is designed for use in residential, business and
commercial areas and conforms to EN 61000-6-2 and
61000-6-3.
• The PCB is at risk from electrostatic discharge and the
relevant precautionary measures should be observed
(earthing, etc.).
Caution
• The units may only be operated when fully assembled.
• The locking screws on unassigned connection terminals
should be screwed in as far as they will go.
• If it is safe to assume that danger-free operation is no
longer possible, take the unit out of operation and secure
against accidental use.
• If the failure or malfunctioning of the unit may result in
injury to persons or animals, or in damage to works
equipment, this must also be prevented using additional
safety measures (limit switch, safety devices, etc.).
• Switch off the power supply before opening the unit.
L6L 2. Assembly
5
L6L 1. General
1.6 Functional principle
The L6 terminals are designed for time recording and
access control.
The terminal has a keyboard that can be used to operate
various queries and functions in the system. The result is
shown visually on a two-line display.
The identity and the rights of the user are determined using
a badge and where applicable by entering a PIN.
The badge data is queried by the integrated reader.
The evaluation is performed in the terminal. The result is
acknowledged using an acoustic signal where applicable.
The access authorisation profiles and the time recording
data for the staff members are also stored locally. This
makes safe offline operation possible. The memory capacity
is designed for a minimum of 1,000 staff members.
The memory capacity can be extended using a Compact
Flash memory card.
The data stored in the RAM is buffered by a lithium battery
in the event of a power failure.
To ensure operation during a short-term power cut, the
terminal can be fitted with an optional internal emergency
power supply.
In addition, the terminal has two relay outputs and three
digital inputs for control and monitoring functions.
The connection to a host can be realised via either an LAN
interface or an RS485 interface.
For connecting sub-devices there is a DCW and an RS485
bus available.
1.4 Further Sources of Information
Further documents are available on request.
DORMA EAC Hardware Manual
Specifications for planning attendance recording and
access control systems with our wired components.
1.5 Disposal
The device was manufactured using recyclable materials and
components.
When disposing of the device and the packaging, please
ensure environmentally friendly recycling.
Information for EU Countries
European Directive 2002/96 EC applies to this device.
This means that this product must not be disposed of with
normal household waste. We, the manufacturer, will take
back our electric and electronic products and dispose of
them for you free of charge. Correct disposal of your old
equipment protects people and the environment from
possible harmful consequences.
Batteries
The device contains an integrated lithium battery and,
where applicable, a nickel-metal hydride rechargeable bat-
tery.
Defective or used batteries and accumulators must be recy-
cled in compliance with European Directive 2006/66/EC.
You should find out about local regulations regarding the
separate disposal of batteries.
Correct disposal of batteries protects people and the envi-
ronment from possible harmful consequences.
L6L 2. Assembly
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L6L 1. General
1.7 Components supplied
AL6L
BAssembly instructions
C1 x cable binder
D1 x ferrite hinged core
E3 x dowels (6 mm)
F3 x Spax screws (4,5 x 35 mm)
G3 x Spax screws (4,5 x 45 mm)
H3 x spacers
1 x drilling template
1 x patch cable, 30cm (only for deep casings, L6L)
A
H
D
1x
B
E
G
3x
3x
F
3x
3x
DORMA Installation manual
L6L
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1x
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1.8 Assembly accessories (optional)
aWedge for L6 terminal, art. no. 1900070400062
bFront lock, art. no. 1900004912571
Shock-proof kit, art. no. 1900070400138
Modem cable, art. no. 1900004912392
a
b
L6L 2. Assembly
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L6L 2. Assembly
2.1 Terminal design
The terminal consists of the top casing section, bottom
casing section, and the preassembly plate.
The models are explained in the next chapter.
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Top section
Bottom section
Preassembly plate
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F1 F3 F4 F5 F6F2
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No-touch reader (PXL) Plug-in reader (ESL) Push-through reader (DZL)
2.2 Casing variants
Top sections
L6L 2. Assembly
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L6L 2. Assembly
268.6 mm 268.6 mm
64.5 mm
104 mm 268.6 mm
268.6 mm
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F1 F3F4 F5F6F2
13
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F1F
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61.5 mm 101 mm
Bottom sections
Flat surface-mounting (AF)
For PX and DZL fronts Deep surface-mounting (AT)
For ESL fronts, and terminals
with emergency power supply
2.3 Dimensions
L6L 2. Assembly
9
2.4 Opening and closing the
terminal
The unlocking mechanism is accessed through the hole on
the underside of the terminal. If there is a lock in this hole,
remove the lock first.
To open the casing you need a rod-shaped tool (such as a
screwdriver) which you insert through the unlocking hole.
Using strong pressure, increasing in force on the unlocking
piece on the inside, the casing will spring open. (see right)
Then pull the top casing section vertically towards the wall
as far as it will go to remove it from the lower casing sec-
tion. Then swivel the top casing section to the left.
To close the unit, follow the same steps in the reverse order.
When working on the open casing, it is advisable to lock
the front using the front locking catch. This tool can also be
used to open the terminal.
Please note the following points:
• Do not allow the flat-band cable between the top and
bottom casing sections to be trapped when closing.
• The unlocking piece must be positioned to fit the guide.
• The top casing section can only be positioned parallel to
the bottom section based on the design.
When the top casing section is positioned on the bottom
casing section, the unit can be closed using even pressure
on the right and left-hand sides of the top casing section.
This means that an audible ‘click’ can be heard when the
unit is closed correctly.
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L6L 2. Assembly
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2.5 Assembly preparations
General
When planning the installation site for the terminal, the
required space specified in the diagram opposite must be
provided. This space is necessary to ensure problem-free
operation and sufficient room for servicing work.
The installation height specified is recommended to provide
persons of average height the optimum operation and view
of the display.
If it is necessary, or desired, that a different height is used,
an assembly wedge piece should be used.
Once the installation site has been determined, the cables
should be laid first of all. Specifications on the planning
and installation of time systems and access systems using
our components are described in the General Installation
Guidelines.
The following assembly types are possible:
Deep casing
• Flush-fit cabling (standard)
• Flush-fit cabling, connection of LAN and 230V
using sockets
Flat casing
• Flush-fit cabling (standard)
• Surface wiring (supply line at bottom)
The application surface of the terminal is used here.
Caution: not possible for all terminals!
Wedge (for deep and flat casings)
• Flush cabling
• Surface wiring (supply line at bottom)
For each installation type, the relevant specifications on
the position of the cable infeed and cable length must be
observed.
L6L terminal with contactless readers
To prevent interference between devices, you
must not install two devices with contactless
readers closer to each other than the minimum
specified distance.
This distance should always be greater than
50 cm.
min.
165 mm
min.
165 mm
approx.
1450 mm
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Installation wedge piece
L6L 2. Assembly
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2.6 Assembly of flat casing
Flush cabling
Once the preparatory work is complete, the pre-assembly
plate can be fitted to the wall.
To do this, the three holes for the fixing screws must be
drilled according to the drilling template included.
Before drilling, ensure that you will not be
able to damage any cables or similar located
underneath the plaster.
The cables are laid through the knock-out sections on the
pre-assembly plate.
The data cables (RS485/DCW) must be stripped from
approx. 15mm after the wall opening.
The shielding is shortened to approx. 10mm and clamped
underneath the clips.
The clips are intended for connecting the data line shielding
and are not used for strain relief.
The wires are then shortened to the required length and
connected to the screw terminals (on the terminal printed
card). The transformer is only fitted for the 230V models.
The cables are then inserted through the rear wall of the
terminal and the terminal is screwed onto the pre-assembly
plate using the three fixing screws.
Area for
cable outlet
Contour of pre-assembly plate
ø6
164.5
142.5
27.7
approx. 1500
Lower casing edge
Top edge of finished floor
ø6
ø6
Transformer
L6L 2. Assembly
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2.7 Assembly of deep casing
Flush cabling
Once the preparatory work is complete, the pre-assembly
plate can be fitted to the wall.
To do this, the three holes for the fixing screws must be
drilled according to the drilling template included.
Before drilling, ensure that you will not be
able to damage any cables or similar located
underneath the plaster.
The cables are laid through the knock-out sections on the
pre-assembly plate.
The data cables (RS485/DCW) must be stripped from
approx. 20mm after the wall opening.
The shielding is shortened to approx. 10mm and clamped
underneath the clips.
The clips are intended for connecting the data line shielding
and are not used for strain relief.
The wires are then shortened to the required length and
connected to the screw terminals (on the terminal printed
card).
The transformer is only fitted for the 230V models.
If the terminal is being installed using a flush-fit box, the
terminal must be fitted at the correct distance using the
spacer pieces included in the accessories kit.
The 230V connection is then made using a shock-proof
connection cable.
This cable in included in the accessories.
The patch cable included is used to connect the LAN.
The cables are then inserted through the rear wall of the
terminal and the terminal is screwed onto the pre-assembly
plate using the three fixing screws.
ø6
Area for
cable outlet
171
31.2
142.5
Lower casing edge
Top edge of finished floor
35.9
approx. 1500 154.8
ø6
ø6
L6L 2. Assembly
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2.8 Assembly using a wedge
If the L6 terminal needs to be installed underneath the
recommended installation height of 1450mm, the poor
viewing angle should be adjusted using the wedge piece.
There are two holes on the underside on the
right. These must be closed using the blind
plugs from the accessories kit. If the cables are
being laid directly against the wall, these need
to be punched out.
First the 2 mounting holes required for fixing are drawn in
accordance with the illustration below and drilled using a
6mm drill bit.
Before drilling, ensure that you will not be
able to damage any cables or similar located
underneath the plaster.
With the exception of the difference described here, the
remainder of the process is the same as that described in
the chapter for flush-fit installation.
Introduction
LAN cable
Introduction
230V mains power
1230
171
160
71
Lower edge of wedge piece
Top edge of finished floor
133
2310.5
ø6
ø6
L6L 3. Connection variants
3.1 External connections
All external connections are on the basic TP4 card, and if available, also on the rechargeable battery card.
ST504
Relay2
ST505
Relay1
ST601
SubBus
ST506
Power
ST503
Digital
inputs
LAN
ST507
RS485
ST508
RS232
3.2 Power supply
24V-Terminals
The power supply of the L6L is provided via a plug
connector ST506. With the 24V terminals a voltage with
16V to 36V DC direct voltage or 16V to 24V AC alternating
current must be connected here.
230V-Terminals
With the 230V terminals, the power supply is provided via
the transformer on the preassembly plate. The connection
may only be carried out by a qualified electrical engineer.
Power
ST506
24V
0V
Shielding
L6L 2. Assembly
15
230 V terminals
a) Permanent connection (standard)
In the case of 230 V terminals, power is supplied via the
transformer on the preassembly plate.
The device is designed for a permanent con-
nection to the power supply circuit only.
It must be connected by a qualified electri-
cian only.
The power supply circuit for this device
requires a suitable, easily accessible power
isolating device with a minimum contact
gap of 3 mm and a fuse element to protect
against short circuits, both already provided
on site.
The earth conductor must be connected.
b) Plug-in connection (deep casing only)
An earthing connection cable is used to connect to the
power supply circuit. This cable is available as an accessory.
Use the enclosed clip to install the earthing
connection cable and ensure that is not
tensioned.
The earth conductor must be connected.
earth
conductor
230V
18V
transformer
230V-
Power cable
230V
18V
transformer
transformer
18V
230V
230V-
Power cable
earth
conductor
earth
conductor
flat housing
deep casing
Plug-in connection (deep casing only)
3. Connection variants
L6L 2. Assembly
16
3.3 Emergency power supply
(optional)
Terminals with integrated emergency power supply also have
a rechargeable battery and a rechargeable battery card.
The voltage is connected here on the ST201 on the rechar-
geable battery card and forwarded to the basic TP4 card via
a connection cable.
The behaviour in the event of a power failure depends on
the configuration of the terminal.
Either the terminal goes into standby mode after an adju-
stable time and the terminal is reactivated by pressing the
E-key on the keyboard, or the terminal remains switched on
permanently.
In emergency power mode DCW sub-devices can also be
supplied as well. If the terminal is in standby mode, it can
also be activated by an entry on a sub-reader.
When using the rechargeable battery card in an
L6R, only DCW sub-devices can be connected.
Power
ST201
24V
0V
Shielding
3. Connection variants
L6L 2. Assembly
17
L6L 3. Connection variants
3.4 LAN interface
The LAN interface conforms to Ethernet standard
IEEE 802.3.
The CAT5 cable with RJ45 plug is inserted directly into the
LAN connection at the top right of the basic module.
The ferrite hinged core included in the accessories kit must
be clamped around the LAN cable.
LAN
C
Ferrite
hinged core
L6L 2. Assembly
18
L6L
The RS485/232 interface transmission type can be
switched over (factory-set status: RS485).
RS485 – ST507 (SubBus)
RS232 – ST508 (for servicing work, if applicable)
If the L6L is the first or the last bus subscriber, the bus
connection resistor must be connected.
To do this, move the two-pole slider switch SW602 to “ON”.
(Factory-set status: switched on).
Communication with the sub-devices is facilitated via the
RS485 interface.
Up to 31 RS485 sub-devices, including a maximum of 16
readers can be connected.
Please note here that the total power consumption of the
sub-terminals does not exceed the output of the terminal or
external power pack.
RS232RS485
SW601
Interface changeover switch
OFF ON
12
SW602
RS485 terminating resistors
3. Connection variants
3.5 RS485/RS232 interface as sub-bus interface
RS485: For old devices (e.g. VTxx, M6-Box, M6I,
M6T, L6I) the pin configuration is inverted.
For an exchange the connection must occur in
reverse. (A to B(-) and B to A(+))
ST508
RX
TX
GND
RS232
ST507
B(-)
A(+)
RS485
L6L 2. Assembly
19
The RS485/232 interface transmission type can be
switched over (factory-set status: RS485).
RS485 – ST507 (host, 2-wire)
RS232 – ST508 (host, modem)
If the L6L is the first or the last bus subscriber, the bus
connection resistor must be connected.
To do this, move the two-pole slider switch SW602 to “ON”.
(Factory-set status: switched on).
If the connection to the host is being made via a modem,
the modem cable (art. no. 1900004912392) is connected
to ST508.
RS485: For old devices (e.g. VTxx, M6-Box, M6I, M6T, L6I)
the pin configuration is inverted.
For an exchange the connection must occur in reverse.
(A to B(-) and B to A(+))
RS232RS485
SW601
Interface changeover switch
OFF ON
12
SW602
RS485 terminating resistors
ST508 Signal Farbe
Pin 16 GND white
Pin 17 Tx brown
Pin 18 Rx green
Host via modem
3. Connection variants
3.6 RS485/RS232 interface as host interface
ST508
RX
TX
GND
RS232
ST507
B(-)
A(+)
RS485
L6L 2. Assembly
20
ST601
SubBus
ST202
DCW SubBus
ST204
DCW int.
ST203
Power int.
ST201
Power
Rechargeable battery card
3. Connection variants
3.7 SubBus interface
The transmission mode of the SubBus interface can be
switched. It can be operated as a DCW or RS485 interface.
If the connection to the host is set up via the LAN interface
then only the DCW functionality is available.
The functional mode is set using software.
DCW mode
External DCW sub-terminals can be connected to plug
ST601 (ST202 to rechargeable battery card if applicable).
The power supply to these DCW components can be
provided via the connections 1 (24V DC) and 3 (GND).
Up to four of the same DCW components (e.g. four readers)
can be connected. In this case, please ensure that the total
power consumption of the sub-terminals does not exceed
the output of the terminal or power pack.
The terminating resistors must be switched off. To do this,
move the two-pole switch SW603 to “OFF”.
RS485 mode
RS485 sub-terminals can be connected onto plug ST601.
The power supply to these components can be provided via
the connections 1 (24V DC) and 3 (GND).
Up to 31 RS485 components, including a maximum of 16
readers can be connected. In this case, please ensure that
the total power consumption of the sub-terminals does not
exceed the output of the terminal or power pack.
If the terminal is the first or last bus subscriber, the termi-
nating resistors must be switched on. To do this, move the
two-pole switch SW603 to “ON”.
OFF
ON
12
SW603
RS485 terminating resistors
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