ITV DLK642Lite User manual
DLK642 Lite
A C C E S S C O N T R O L P A N E L
Standalone Networked
Access Control Panel
DLK642Lite
®
2Integrated Technical Vision Ltd http://www.itvsystems.com.ua
http://www.itvsystems.com.ua Integrated Technical Vision Ltd 3
This manual covers installation, programming and utilization of the DLK642Lite
access control panel. Read this manual carefully prior to installing and program-
ming the unit.
Design Change Disclaimer
Information due to design changes and product improvements in this manual is
the subject to change without notice. ITV Systems reserves the right to change
the product design any time, that will subsequently affect the contents of this
manual.
ITV Systems assumes no responsibility for any mistakes that can appear in the
manual. The company guarantees that this Installation Manual is up to date and
corresponds with the unit you purchase.
Reproduction Disclaimer
All rights to this document are preserved by ITV Ltd. Copying, printing and any other
kind of unauthorised reproduction of this document or a part of it is prohibited.
Trademarks
ITV® is a registed trademark of ITV Ltd.
Training and technical support
ITV Ltd. performs training on the installation, programming and utilisation of the
DLK642Lite access control panel. For detailed information about the training and
discussing of our particular requirements to the unit please contact our personnel
by the phone numbers below.
It is recommended, for the staff intended for sales and installation of the
DLK642Lite access control panel, to take instruction courses conducted by the
ITV Systems company.
Technical support for all products of ITV Ltd. can be obtained at business time by
the phones:
+380(0)44 248 65 88
+380(0)44 248 65 89
+380(0)44 248 65 90
This support assumes the calls of trained specialists. End users must apply to
their dealers or installers before phoning us. This information is available on our
web site www.itvsystems.com.ua
4Integrated Technical Vision Ltd http://www.itvsystems.com.ua
http://www.itvsystems.com.ua Integrated Technical Vision Ltd 5
Contents
Preface ........................................................................................................ 6
Benefits ....................................................................................................... 7
Features ...................................................................................................... 7
Specifications .............................................................................................. 7
What's inside? ............................................................................................. 8
General Configuration ......................................................................................... 8
Wiring Configurations.......................................................................................... 9
Mounting .................................................................................................... 11
Wiring ........................................................................................................ 12
Connecting readers ........................................................................................... 12
PIN entry, card passing ..................................................................................... 15
Cardholders codes ............................................................................................ 15
Duress code .................................................................................................... 16
Alarm output ...................................................................................................... 16
LEDs .................................................................................................................. 16
Door time ........................................................................................................... 17
Control Panel Operation ............................................................................ 17
Programming the panel in access control system composition .................. 18
Programming the panel in stand-alone use ............................................... 18
Programmed information representation .......................................................... 18
Programming via PC ......................................................................................... 18
Programming via built-in keyboard ................................................................... 18
Factory defaults ................................................................................................. 18
Previewing and modifying users codes settings ............................................... 21
Code/card deletion ............................................................................................ 22
Resetting to factory defaults .............................................................................. 23
Group card registration ..................................................................................... 23
Keyboard lockout time ....................................................................................... 24
Door A time ........................................................................................................ 24
Door B time ....................................................................................................... 24
Programming Inputs .......................................................................................... 25
Programming Outputs ....................................................................................... 26
Types of identificators ....................................................................................... 27
Readers operation ............................................................................................. 28
Setting control panel address ........................................................................... 28
Changing Code ................................................................................................. 28
Switching Day/Night Modes .............................................................................. 29
Resetting hardware to factory defaults .............................................................. 29
Limited Warranty ....................................................................................... 30
Index ......................................................................................................... 32
6Integrated Technical Vision Ltd http://www.itvsystems.com.ua
Preface
DLK642Lite stand-alone networked access control panel is an advanced version of
DLK641Plus stand-alone access control unit designed for use in multi-door system.
It has external specialized reader and can control two doors. In addition to
DLK641Plus functions DLK642Lite can be networked into the sophisticated access
control system using NDC-BO52 access control panel as the master controller. It
allows you expanding of simple access control system to high-end access and
security system.
DLK642Lite can be downloaded either from built-in keyboard or from PC. All
valid card numbers, time zones and relay pulse times are loaded to controller
memory. The panel can control access into two doors with no dependency on a
central computer system.
Primary goals of Access Control System are: identification of a person,
confirmation or not confirmation of access, control of movements in a necessary
zone. It can provide time and attendance logging, in addition to the usual task of
restricting individuals’ access to certain areas.
All users' access information is gathered by a server, where administrators can
retrieve and analyze the information. This data provides recording of staff
movement within an organization, whether it is a small company or a company
that employs thousands.
Preface
http://www.itvsystems.com.ua Integrated Technical Vision Ltd 7
Benefits
• Proximity reader and control system integrated into one small unit
• Easy to install, surface mounted
• Can be attached for outdoor use
• RS485 networking
• Programming via own keypad or computer software
• One engineer code
• One master code
• Stand-alone capacity of 998 users
• Read range of 15 cm with internal RF antenna
• Three LEDs provide visual annunciation
• Power consumption 80 mA to 130 mA
• Anti-tamper switch reporting to network
Features
• Two doors access control
• Three LEDs
• Nonvolatile EEPROM stores all settings and cards
• Two access levels
• Eight EOL supervised inputs for Door monitoring
• Request to Exit button and Alarm detectors monitoring
• Tamper
• Two relay outputs allow control of two doors
Specifications
• Inputs 8 programmable EOL supervised inputs
• Outputs Two 5 A @ 24 V relays and
Two 500mA @ 24V transistors (open drain)
• Networking RS485 interface
• Power consumption:
• Supply Voltage +10...15 VDC
• Voltage ripple 500 mV @ 12 V
• Standby current 80 mA
• Maximal current 130 mA
• Operation temperature 0 °C ... +55 °C;
• Relative Humidity 80% relative at +35°C
• Physical Dimensions 155x95x32 mm
• Weight 250 g
Benefits
8Integrated Technical Vision Ltd http://www.itvsystems.com.ua
4
a)
123
5
6
7
8
b)
D1 D0 GN RDZ1 GND + ER BZZ2 GNDZ3Z4 GNDZ5Z6 GND
A+
B- GND + EB Z7 GND Z8 -PW R+ TM NC1 C1 NO1 NC2 C2 NO2 SA BEL
X1
S3
S4
S6
BAT
RST
S8
S9
X3
DLK
642
VL1
X2
X2
S5
What's inside?
General Configuration
Layout of DLK642Lite is shown on Diagram 1 below.
1-3 - LEDs, 4 -built-in keyboard, 5 - back plate, 6 - panel PCB, 7 - PCB of the ID
reader, 8 - front cover,.
Figure 1. a) General view of DLK642Lite,
b) DLK642Lite with front cover off.
What's inside?
http://www.itvsystems.com.ua Integrated Technical Vision Ltd 9
Wiring Configurations
Figure 2. Terminals layout.
D1 D0 GN RDZ1 G N D + ER B ZZ2 G N DZ3Z4 G N DZ5Z6 G N D
A+
B- GN D + EB Z7 GND Z8 -PW R+ TM N C1 C1 N O 1 N C2 C2NO2SABEL
X1
S3
S4
S6
BAT
RST
S8
S9
X3
DLK
64
2
VL1
X2
X2
S5
Panel PCB
Built-in reader PCB
Alarm output
Locks
Door contact
RTE button
contact
Power supply +12V
External reader
What's inside?
10 Integrated Technical Vision Ltd http://www.itvsystems.com.ua
Terminals Assignment
- RST - reset jumper
- S3, S4, S6 - jumpers for RS485 load selection
- S8, S9 - reader mode setting jumpers
What's inside?
-imreT
lan
kcolb
lanimreTnoitcnuFnoitpircseD
1X
+AA-584SR
enilpord584SR
-BB-584SR
DNGnommoC584-SR
BE+584SR21+
7Z 7enoZ
elbammargorpdesivrepusLOE
noitcennoc8,7stupni
DNG nommoC
8Z 8enoZ
+RWP- rewoP ylppusrewopgnitcennocrofslanimreT
MT tcatnoCrepmaT)desolcyllamroN(tuptuotcatnocrepmaT
1CN desolcyllamroN
stcatnoc1yaleR1CnommoC
1ONnepoyllamroN
2CN desolcyllamroN
stcatnoc2yaleR
2CnommoC
2ON nepoyllamroN
AS @V21+tuptuorotsisnarT
A3,0 lanoitucexefonoitcennocroF
secived
LEB tuptuorotsisnarT (nepo
A3,0@)niard
2X
6ZZeno 6
noitcennoc'stupniLOE6-1
DNG DNG
5ZZeno 5
4ZZeno 4
DNGDNG
3ZZeno 3
2ZZeno 2
DNG nommoC
1Z 1enoZ
DNG V21-
slanimretnoitcennocredaeR
BE+21+ V
ZB lortnocrezzuB
1D ATAD 1
0D ATAD 0
NG lortnocDELneerG
DR lortnocDELdeR
http://www.itvsystems.com.ua Integrated Technical Vision Ltd 11
Mounting
The controller is intended for inside mounting at 80% relative humidity.
When the panel is mounted on metal surface its reading distance decreases
Do not mount the panel or lay wires closely to the main power wiring and other sources
of electromagnetic interference
To mount the panel on the wall proceed as follows:
- Release the screw in the lower part of the cover (Figure 3a)
- Lift front cover slightly in the bottom part and pull it downwards (Figure 3b)
a) b) c) d)
Figure 3. DLK642Lite mounting specifications.
- Disconnect X3 connector of built-in reader from panel PCB;
- Carefully release fixing tabs (Figure 3 c) then dismount PCB from panel base;
- Mark places for fixing holes using back plate as a template (Figure 3 d), then drill
with the 6 mm auger openings to depth of the concrete insert;
- Pull the wires
- Secure back plate with the screws
- Fix PCB on the back plate
- Connect the wires
- Connect PCB of the built-in reader to panel PCB
- Fasten front cover (Figure3a)
5...10mm
Fixing tabs
D1 D0 GN RDZ1 GN D + ER BZZ2 GN DZ3Z4 GNDZ5Z6 GND
A + B- GND + EB Z7 GN D Z8 -PW R+ TM N C1 C1 N O1 NC2 C2 N O2 SA BEL
X1
S3
S4
S6
BAT
RST
S8
S9
X3
DL
K
64
2
VL1
X2
X2
S5
Wiring
holes
Fixing holes
Mounting
12 Integrated Technical Vision Ltd http://www.itvsystems.com.ua
Wiring
Connecting readers
DLK642Lite can control two access points using two readers. They can be readers
produced by ITV Ltd. or other readers with Wiegand interface.
X2 terminal block is intended for access point A (entrance in case of double-sided
door) reader connection. It can be iPN series reader or another one with Wiegand
interface.
X3 terminal is intended for access point B (exit in case of double-sided door) reader
connection.
Reader and controller are to be mounted on wall directly at a door at convenient
height.
The wiring is shown on Diagram below.
Wires colors can differ in readers of other vendors. Please refer to your reader installa-
tion manual.
External reader connecting cable length can be increased up to 50 meters by AWG
8x0.22 cable.
During increasing of cable length mind the conductors.
Do not mount the reader on metal surface. It decreases reading distance.
Reader is to be mounted at sm. minimum distance from controller. Otherwise reading
distance will be decreased.
D1 D0 GN RDGND + ER BZ
S8
S9
X3 X2
Built-in reader
connection
cord
Wiegand
reader
white
orange
green
blue
red
black
brown
D1 D0 GN RDGN D + ER BZ
S8
S9
X3 X
2
white
green
orange
blue
red
black
yellow
Built-in reader
connection
cord
iPN series
reader
Wiring
http://www.itvsystems.com.ua Integrated Technical Vision Ltd 13
RTE button
Request To Exit (RTE) button is used in case
of one-sided door. Door opens on RTE
button pressing for going out.
RTE button may be used for remote door
opening - secretary or guard opens the
door, for instance.
Wiring of the normally opened RTE button is
shown on diagram. RTE is wired to Z5 and
Z6 terminals.
It is not recommended to use Z7 and Z8 termi-
nals for RTE button connection.
Usage of unblocking button on electric lock instead of RTE will cause "Door Forced"
event.
Door sensor
Door state (opened or closed) is determined by door sensor.
If door sensor is not connected, the panel is not able to
determine events of door force or unclosed door.
Wiring of normally closed door sensors to Z3 and Z4
terminals is shown on wiring diagram
It is not recommended to use Z7 and Z8 terminals for
door sensor connection.
Door sensor and RTE button connection
Controller inputs can be programmed for simultaneous use of
Door sensor and RTE
button.
In this case cord break means Door sensor
break and cord shortage - RTE button
pressing.
Any of eight cords can be used as a
combined one.
It is not recommended to use Z7 and Z8
terminals for combined cord connection.
Locking devices
DLK642Lite
has two relay outputs with NC and NO contacts.
They are used for connecting of power supply to
executive mechanisms, locking devices for
instance. Time and schedule of relay activating is
programmed individually for every output with the
help of engineer code.
Wiring of locking devices is shown on wiring
diagram.
Relay contact rating is 5 Amp @ 24 Volts.
Access
point B
RTE
button
Access
point A
RTE
button
R
нагрузки
R
нагрузки
Z2Z3Z4 G N
D
Z5Z6 G N D
X2
S5
Access
point B
Door
contact
and RTE
button
R
нагрузки
R
нагрузки
Access
point A
Door
contact
and RTE
button
Z2Z3Z4 G N DZ5Z6 G N D
X2
S5
Access
point A
Door
contact
R
нагрузки
Access
point B
Door
contact
R
нагрузки
Z2Z3Z4 G N DZ5Z6 G N D
X2
S5
Wiring
Lock of
Access
point B
Lock of
Access
point A
-PWR+ TM NC1 C1 NO1 NC2 C2 NO2 SA BEL
X1
14 Integrated Technical Vision Ltd http://www.itvsystems.com.ua
Bell
+12v up to
500mA
P
WR+ TM N C1 C1 N O1 N C2 C2 N O2 SA BEL
X1
power good
battery good
~ AC ~ +12 V GND PWG ACG
GND
+12 V
Power
supply
block
R
n
2 кОм
Z8 -P W R + TM N C 1 C1 N O1 N C2 C2 N O2GNDZ7
R
n
2 кОм
Commutation of the inductive load, electric lock for instance, causes high energy electric
impulse induced through relay contacts. To save contacts from damage, protect them with
diode, connected in reverse to current supply of the coil.
Note the fact, that some cheap electric door strikes are not intended for being energized
for prolonged time. Program relay time as short as possible to avoid door strike coil overheat-
ing.
Sirens, Bells and agents
Some sirens require polarity observing.
Electric bells are often the inductive load for
power supply. During bells connection mind the
warning about the inductive load above.
Transistor outputs
There are two additional programmable
transistor outputs for siren, bell or other agents' control.
Bell and SA outputs are rated at
500 mA @ 24V and sink to the
ground.
These outputs are electronically
protected against overload. In
case of overload the correspond-
ing event is generated.
Power supply wiring
It is recommended to use PSU 1,5
power supply with battery backup,
manufactured by ITV Ltd. This
power supply provides +12V
power rated at 1,5 A. 4AH or 7AH
battery may be used in it. PSU 1,5
power supply has
outputs for
signaling of mains
power state and battery state. Wiring with mains power and
battery state by Z7 and Z8 terminals is shown on a picture.
RS-485 Interface
RS-485 Interface is used for networking of system components -
PC and panels. Length of RS-485 bus is up to 1200 meters.
Number of panels is up to 32.
RS-485 port is protected against over voltage (60V) and
cross polarity.
The unshielded four-wire cable may be used for RS-485 wiring.
For maximal 1200 meters distance please use 0.4 mm cross
section wire. 0.2 mm cross section wire will provide the
distance of 500 meters.
black
yellow
blue
red
A+
B- GND + EB Z
S3
S4
Wiring
http://www.itvsystems.com.ua Integrated Technical Vision Ltd 15
On the first and last panel in the drop line short S3, S4, S6 jumpers to add the
resistive load.
Take care of proper grounding of all panels in the network.
Setting control panel address
Panel address is set during programming (See "Control panel address programming"
section)
Outputs' types and attributes
You can set definite function, attribute, time and one of four operating conditions for
every output that is to fix their type, during programming. (See "Controller program-
ming").
PIN entry, card passing
PIN entry is carried out by consecutive keyboard buttons pushing. It should be
from four to ten figures length and is complete after [#] button pushing. Every
button pushing is accompanied by short built-in buzzer sound. If the entered PIN is
invalid - one long sound will be heard.
If invalid/not registered PIN or ID card is entered more than three times (this value
can be programmed) the keyboard will be blocked for time set in engineer code
programming mode. Keyboard blocking is signalled by red LED light.
Number of PIN matching attempts (from 0 to 255) is programmed using engineer
code. Number of attempts is not counted (see "Matching attempts number" section).
Door blocking time (from 0 to 255) is programmed using engineer code (see "Door
blocking time" part).
You can cancel mistaken code entering my means of [*] button.
During PIN entry 40 seconds interval cancels previous figures entering.
Proximity card (ID card) passing is equal to PIN entry. Controllers work with ASK
and FSK modulation cards.
Cardholders codes
There are several proximity card types used for controller management in
autonomous mode.
'00' card number is engineer code. All parameters are set using engineer code.
'01' card number is chief code. It allows [0] - [4] and [10] programming section
entering.
'02' - '999' code numbers are cardholders' codes.
By means of access codes/proximity cards people can:
- receive access grant;
- operate relay;
- change day and night modes.
Some information is programmed for every user individually. That is:
- access to each door grant/prohibition;
- programmed outputs operation;
- code category (1-4);
- day/night modes change permission.
Wiring
16 Integrated Technical Vision Ltd http://www.itvsystems.com.ua
Code category
Duress code
Every PIN user has additional duress code. Such code introduction leads to alarm
output engaging. When this code is entered, control panel grants access accord-
ingly to user code access level and options and moreover alarm output switches
on.
Cardholders using proximity cards do not have duress codes.
Duress code differs from PIN code to one in the last figure (e. g. If PIN code is '123456'
then duress code will be '123457'. If PIN code is '203409' then duress code will be '203400').
Alarm output switches off after actual code entry.
Alarm output
Alarm output will be engaged at every door sensor violation, except for door time
interval on conditions that door sensor is connected to the output.
Alarm output engages on programmed time - up to 255 seconds. Alarm output does
not switch on at '0' seconds value. Alarm output time is programmed with engineer
code.
LEDs
There are three LEDs on front plate of the controller. (See figure 1)
LEDs meanings in main mode are described below:
1. LED1 (red) indicates controller operating mode (day/night)
2. LED2 (red-green) indicates controller state: norm - red LED blinks, free access -
green and yellow LEDs blink in turn, keyboard lockout - red LED lights continuously.
Green LED lights continuously.
LEDs programming mode meanings:
1. LED1 (red) blinks the whole programming period
2. LED2 (red-green) indicates users' codes categories and parameters
3. LED3 (green) indicates users' codes categories and parameters and figurative
volumes of controller programming settings.
Door time
If door sensor is open, the corresponding access point goes into alarm. Alarm is not
invoked, if the contact is opened during Door Time interval. This interval starts when
access is granted and lasts for programmed time or terminates on opening and
subsequent closing of door sensor.
Door time is programmed using engineer code; it can be from 0 to 255 seconds.
Wiring
category status change permission access schedule
1 not active prohibited ---------
2 active permitted twenty-four-hour
3 active prohibited day
4 active permitted day
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Open door
Door can be open for unlimited time if 'lock' output is programmed for 255 seconds.
Free pass
Door opens at breaking of "free pass" cord. Door is left open till shortage of the
cord. Free pass mode is indicated by LED2 blinking (yellow and green light blink
alternately).
Door blocking
Door closes and does not open at "door blocking" cord violation and remains
closed till cord shortage.
Control Panel Operation
Autonomous operation
Panel can operate in the following modes autonomously:
-main mode:
-day,
-night;
-programming mode.
Red LED 2 blinks in main mode. LED 1 is switched off in day mode and
continuously switched on in night mode. (See "Autonomous exploitation pro-
gramming" chapter).
Panel grants/denies access to cardholders in this mode or activates one of
programmed outputs.
In order to switch day/night modes use [1] [#] command (see "Day/night modes
switching").
Operation in networked access control system
Operation modes and indications are determined by the system during access
control system work. In external management mode the panel does not make
independent decisions as for access assignment. DLK642 Lite informs the
master controller about all events and receives commands. The panel turns into
autonomous mode when connection to the master controller is lost. All events
are registered. DLK642 Lite automatically turns to external management after
connection to the master controller renewal.
Programming the panel in access control system composition
The panel has slave function in access control system. All parameters and settings
of access points and codes/cards are determined by system possibilities. Only
panel's address is uploaded from controller.
Programming the panel in stand-alone use
Programmed information representation
Numerical parameters, downloaded to the panel, are reflected by means of built-in
buzzer and LED 2. A figure corresponds to the number of sound signals and LED 2
blinks. Figures are separated by pauses.
Control Panel Operation
18 Integrated Technical Vision Ltd http://www.itvsystems.com.ua
For example number 235 is displayed as follows:
2 blinks, pause, 3 blinks, pause, 5 blinks. Zero is signalled by one long Buzzer sound
and LED2 flashing. For example 040 will be reflected by 1 long flashing, pause, 4
blinks, pause, 1 long flashing.
Code settings are reflected by LEDs 2 and 3 blinks.
Programming via PC
DLK642 Lite panel can be connected to PC using interface converter NTC LNET or
NTC LNET Lite that allows easy autonomous mode programming. For the detailed
information turn to software user manual.
Programming via built-in keyboard
The panel cannot switch to programming mode if it is in main mode, resistor load
should be connected to all used outputs.
In order to turn the panel to the programming mode, enter engineer or master
code on keyboard [engineer code] [#] OR [master code] [#]. You will hear
several short sound signals and see all LEDs blink, then LEDs 1 and 2 blink
alternately and LED 3 is off. Factory defaults are: engineer code [1234], and
master code [5678].
Engineer and master code should be changed during programming. Code length
should not be less than four digits.
Invalid code or false command entry are indicated by long sound signal of the
buzzer and LED 1 red and LED 3 green flashing.
The panel ignores RTE button contact break/shortage in any programming mode.
Control panel programming diagram is enclosed in Appendix section.
Factory defaults
The panel switches to main day mode when first engaging or resetting to factory
defaults with the following settings:
- Keyboard blocking time - 40sec.
- Engineer code [1] [2] [3] [4].
- Master code [5] [6] [7] [8.].
- Internal reader works only.
- Relay 1 runs door B locking device, works in impulse mode, locking
device time is 1sec.
- Relay 2 runs bell, works in the impulse mode, time is 5 sec.
- First transistor output (SA contact) is programmed for alarm.
- Second transistor output (BEL contact) is not used.
- Single one-sided door (B) is used only.
- Cord 1 is used as door B contact sensor.
- Cord 2 is used as door B RTE button.
- Cord 3 is used as door B fire alarm input (free pass).
- Cord 4 is used as door B blocking input.
- Cords 5-8 are not used
Programming the panel in stand-alone use
http://www.itvsystems.com.ua Integrated Technical Vision Ltd 19
- Access time is 20sec.
- Proximity cards types are ASK and FSK.
Changing engineer and master codes
Engineer code may be changed only in engineer code programming mode.
To change master code proceeds as follows:
In engineer or master code programming mode push [0] [#], then introduce [new
master code] +[#] twice. The panel will turn to the highest menu layer. To go out
of programming mode press [#] button.
New code will be admitted, if it does not coincide with already existing users' codes.
For example: To change master code [7] [7] [7] [7] in engineer programming mode
press [0] [#] (LEDs 1 and 2 blink red and LED3 blinks green synchronously), then
twice enter master code [7] [7] [7] [7] followed by [#] button pressing (LEDs 1
and 2 blink red alternately and LED 3 is off). Next [#] button pressing switches
panel to main mode (LED 2 blinks red).
Adding user code
To add user code do the following:
In programming mode push [1] [#], panel indicates first free access code
number with the help of buzzer and LED 3.
Introduce [user code]+ [#], then you can change code parameters or move to
the highest menu level ([#] button).
New code will be admitted if it does not coincide with already existing users' codes or
duress codes.
The following parameters are set for new code:
- door B access permission,
- has no outputs management permission,
- cannot switch day/night modes,
- 3 (third) code category.
Code parameters change is shown in the table.
Codes categories explanation.
To go out of programming mode push [#] button.
Code categories explanations are in table below:
Next [#] button pressing switches the panel to main mode.
For example: In is necessary to add [231964] code and set point A access for it and
and proximity card for accees through points A and B.
Using engineer code programming mode press [1] [#] (LED 1 blinks red and buzzer
and green LED 3 indicate vacant code number, then LED 1 and 2 blink red and LED 3
blinks green). Enter [2] [3] [1] [9] [6] [4] [#] code, panel proceeds with code
settings editing (LED 1 blink red and LED 2 blinks yellow alternately). Press [1] [#]
buttons (LED 1 blinks red and LED 3 blinks green), switch on green LED2 and
switch off LED3 by [4] and [6] buttons pressing, then press [#] (LED 1 blinks red,
LED2 blinks yellow).
Press [#] panel turns to upper menu level (LEDs 1and 2 blink red alternately, LED 3
is switched off).
Programming the panel in stand-alone use
20 Integrated Technical Vision Ltd http://www.itvsystems.com.ua
Press [1] [#] (LED1 blinks red, buzzer and LED3 indicate vacant code number, then
LEDs blink synchronously).
Pass a card to reader, after card code read panel proceeds with card settings
editing (LED1 blinks red LED2 blinks yellow alternately). Press [1] [#] (LED1 blinks
red LED3 blinks green). Switch on green LEDs 2 and 3 with buttons pressing. Then
press twice [#] button to move to higher menu level.
Next [#] button pressing switches control panel to the main mode.
40 seconds pause between digits entry causes panel switching to main mode.
Previewing and modifying users codes settings
Press [2] [#] and then enter [code number] + [#] or [code] [#] in programming
mode. Now you can edit current code parameters.
Access through access points settings
Press [1] [#] being in code parameters programming mode. Green LEDs will
reflect current parameters settings. If LED2 is on door A access is permitted, if
LED3 is on access is granted through point B.
You can change settings by pressing of [4] button - access point A switch on/off,
or [6] button - access point B. [#] button pressing returns panel to current code
parameters editing. Press [#] to move to the highest menu level. Then press [#]
again in order to exit programming mode.
Direct outputs' management
Press [1] [#] being in code parameters programming mode. LED 2 and 3 reflect
current parameters settings: green LED 2 - relay 1 management, red LED 2 - relay
2, yellow LED 2 - relays 1 and 2, green LED 3 - transistor outputs management.
Programming the panel in stand-alone use
section action indication
[1] Premisses A &B
access rights
[4] -for access A green LED2
[6] - for access B green LED3
[2] Outputs
management
[1] -relay 1 green LED2 yellow LED 2
[2] -relay2 red LED2
[3] - transistor output green LED3
[3] Not used
[4]Day/night switch
right [1] green LED 2
[5] Code category
[1] – 1 category
[2] – 2 category green LED 3
[3] – 3 category green LED 2
[4] – 4 category green LEDs 2 и3
[#]Code parametres editing finish
category status change permission access mode
1 not active prohibited ---------
2 active permitted twenty-four-hour
3active prohibited day
4 active permitted day
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