PERCo CT/L-04.2 Installation and operating instructions
Controller
CT/L-04.2
ASSEMBLY AND OPERATION MANUAL
Controller
CT/L-04.2
Assembly & Operation Manual
CONTENTS
1APPLICATION..............................................................................................................4
2OPERATION CONDITIONS .........................................................................................4
3TECHNICAL SPECIFICATIONS ..................................................................................5
4DELIVERY SET............................................................................................................6
4.1Standard delivery set ..............................................................................................6
4.2Optional equipment .................................................................................................6
5DESCRIPTION .............................................................................................................7
5.1Design and operation ..............................................................................................7
5.2Controller boards.....................................................................................................8
5.3IP-address setting .................................................................................................10
5.4Controller configuration templates.........................................................................11
5.5Signals of inputs....................................................................................................12
5.5.1Inputs IN1 – IN4............................................................................................12
5.5.2Inputs DUA, DUSt, DUB, FA.........................................................................13
5.6Settings of output signals ......................................................................................14
5.6.1Relay outputs OUT1 – OUT4........................................................................14
5.6.2Outputs OK1 and OK2..................................................................................14
5.6.3Outputs LdA, LdSt, LdB ................................................................................15
5.7Parameters of signals received on inputs ШC1 and ШC2.....................................15
5.7.1“Standard” input configuration.......................................................................15
5.7.2“AL” input configuration.................................................................................16
5.8Connection to RS-485 interface ............................................................................17
6MARKING AND PACKAGING ....................................................................................18
7SAFETY REQUIREMENTS........................................................................................18
7.1Installation safety requirements.............................................................................18
7.2Operation safety requirements ..............................................................................18
8INSTALLATION ..........................................................................................................19
8.1Cable lengths ........................................................................................................19
8.2Installation order....................................................................................................20
8.2.1Controller installation ....................................................................................20
8.2.2Door control configuration.............................................................................22
8.2.3Turnstile and electromechanical gates configuration ....................................24
8.2.4Vehicle checkpoint configuration ..................................................................26
8.2.5RC-panel configuration .................................................................................28
8.2.6Connecting a Fire Alarm Device ...................................................................29
8.2.7Connecting the alarm lines ...........................................................................29
8.2.8Connection of optional equipment ................................................................30
9CONFIGURATION......................................................................................................33
10UPDATE OF EMBEDDED SOFTWARE.....................................................................34
11OPERATION ..............................................................................................................35
11.1Operation modes of ACS ......................................................................................35
11.2Indication of ACS, events and controller configurations ........................................36
11.3Troubleshooting ....................................................................................................37
11.3.1The controller does not work.........................................................................37
11.3.2Failure of communication with PC ................................................................37
12MAINTENANCE .........................................................................................................39
13TRANSPORTATION AND STORAGE........................................................................41
Appendix 1. Instruction on connection of the card capture reader .....................................42
Appendix 2. Instruction on connection of the alcohol detection device ..............................45
Appendix 3. Instruction on connection of the controller through PoE-splitter .....................47
Appendix 4. Instructions for connecting biometric readers manufactured by Suprema .....49
Appendix 5. CT/L-04.2 Controller Web-interface. User Manual .........................................50
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CT/L-04.2 Controller
Dear Customer!
Thank you for purchasing a controller manufactured by PERCo.
Please follow the instructions given in the Manual carefully,
and this quality product will provide many years of trouble-free use.
This Operation Manual (hereinafter – the Manual) provides information on technical
specifications and operation of CT/L-04.2 controller. The Manual aims to provide correct
operation of the controller and complete use of its technical capabilities. The Manual
contains data on installation and maintenance, and also a reference section.
The Manual is active together with Technical description of PERCo-Web and also with
certificates of devices connected to the controller.
Abbreviations adopted in the Manual:
ACM – access control mode;
ACS – access control system;
AL – alarm line;
LAN –local area network;
OD – operation device;
PC – personal computer;
PS – power supply;
RC– remote control;
RTC – real-time clock;
WRC – wireless remote control.
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Assembly & Operation Manual
1 APPLICATION
CT/L-04.2 controller (hereinafter – the controller) is a part of PERCo-Web ACS.
The controller supports connection up to 8 different PERCo readers (Sect. 5.8) and
enables to organize up two two-way passages or up to four one-way passages.
Depending on configuration (Sect. 5.4) the controller can control the following ODs (in
different combinations):
One electromagnetic or electromechanical lock that supports two-way passage;
Up to four electromagnetic or electromechanical locks that support one-way
passage;
One turnstile or gate;
One boom barrier or an automatic gate of vehicle checkpoint.
Besides that, there can be connected up to 8 units of CL-201 lock controllers of the
second level, controlling one-way passage.
2 OPERATION CONDITIONS
The controller, with regard to resistance to environmental exposure complies to GOST
15150-69 category NF4 (operation in premises with climate control).
Operation of the controller is allowed at ambient air temperature from +1°C to +40°C and
relative air humidity up to 80% at +25°C.
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CT/L-04.2 Controller
3 TECHNICAL SPECIFICATIONS
Operating voltage ................................................................................................... 12±1.2V
Consumption current (12V) .................................................................................. max. 0.2A
Power consumption ............................................................................................ max. 2.5W
Communication interface standard ................................................... Ethernet (IEEE 802.3)
Ethernet data transfer speed .......................................................................... 10/100 Mbps
Number of controlled ODs ...................................................................................... up to 41
Number of reading devices ....................................................................................... up to 8
Interface of reading devices ..................................................................................... RS-485
Number of access cards (users) ..................................... from 10,000 to 50,000 (see Note)
Event memory capacity2............................................. from 230,000 to 870,000 (see Note)
Note:
The user is able to change the memory allocation of the controller via the
Web-interface. Other options of memory allocation (see Appendix 5, Clause 3.4):
- 50 000 cards and 230 000 events (by default).
- 40 000 cards and 390 000 events.
- 30 000 cards and 550 000 events.
- 20 000 cards and 710 000 events.
- 10 000 cards and 870 000 events
Number of relay outputs for OD control ............................................................................. 4
Number of additional “open collector” outputs ................................................................... 2
Number of inputs with line control for short circuit and line break
(controlled by “dry contact” outputs) ................................................................. up to 8
Number of alarm lines ............................................................................................... up to 2
Number of remote control inputs ............................................................................... up to 4
Number of remote control indication outputs ..................................................................... 4
Electric shock protection class ...................................................................... III (IEC 61140)
Mean lifetime ........................................................................................................... 8 years
Dimensions ............................................................................................... 205×189×45 mm
Weight ............................................................................................................... max. 1.8 kg
1Depends on the selected controller configuration (see Section 5.4).
2Events from connected CL-201 controllers are stored in the memory of CT/L-04.2 controller.
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Assembly & Operation Manual
4 DELIVERY SET
4.1 Standard delivery set
Controller ........................................................................................................................... 1
Jumper ............................................................................................................................. 11
Resistor С2-33H-0.25-4.7 kOhm ....................................................................................... 2
Suppressor 15-18 V ........................................................................................................... 4
Mounting hardware:
plastic dowel .................................................................................................................. 3
screw ............................................................................................................................. 3
self-adhesive cable tie mount ........................................................................................ 3
nylon cable tie 100 mm .................................................................................................. 5
Package ............................................................................................................................. 1
Certificate ........................................................................................................................... 1
Operation manual .............................................................................................................. 1
4.2 Optional equipment
Power supply ..................................................................................................................... 1
WRC kit 1 ............................................................................................................................ 1
PoE-splitter2....................................................................................................................... 1
Siren .................................................................................................................................. 1
CL-201 lock controllers ............................................................................................. up to 8
AU-05 system time display ................................................................................................ 1
1WRC kit consists of a receiver and transmitters (tags) with operation range up to 40 m.
2PoE-splitter – allows energizing of the controller via Ethernet network. Splitter can be used with
network switches that support PoE technology and that are compatible with IEEE 802.3af
standard.
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CT/L-04.2 Controller
5 DESCRIPTION
5.1 Design and operation
The controller is produced in the form of electronics module in metal housing with a
removable cover. The cover houses power indication.
Following features are installed in the controller:
non-volatile memory;
non-volatile RTC-timer (real time clock);
8P8C (RJ45) connector for Ethernet local network;
housing opening sensor (the “tamper switch”).
The controller operates with cards the code of which does not exceed 64 bits.
The controller is able to store in non-volatile memory:
up to 50 000 card identifiers;
up to 230 000 events in the event log with the date and time of the event1.
The controller provides:
connection via Ethernet (IEEE 802.3) interface;
support of TCP/IP protocol suite (ARP, IP, ICMP, TCP, UDP, DHCP);
support of application layer of communications protocol of PERCo-Web system;
updating of embedded software through Ethernet.
On default, the controller has:
unique MAC-address (specified in the certificate and on the item board);
IP-address (specified in the certificate and on the item board);
Subnet mask (255.0.0.0);
IP-address of the gateway (0.0.0.0).
Following ways to set up IP-address, gateway and subnet mask are provided at the stage
of system configuration:
work with default settings;
manual input;
receipt from DHCP server.
Readers are connected to RS-485 interface of the controller. Connection variants are
provided in the Sect. 5.8.
Following optional equipment may be connected:
up to two Al-01 indication blocks with infrared-receiver;
up to four door sensors (reed switches);
two passage sensors (PASS-outputs of a turnstile);
up to four RC-buttons (“Exit”) for a lock;
one RC-panel of a turnstile (swing gate);
up to seven devices sending commands to additional inputs,
one AU-05 system time display;
emergency unlock devices Fire Alarm.
1In case of event log overflow the oldest events will be replaced with the new ones (events are
deleted by blocks consisting of 256 events).
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Assembly & Operation Manual
The controller as a part of ACS provides:
operation in ACM: “Open”, “Control”, “Security”1, “Closed”;
saving of the set mode in the non-volatile memory, to avoid the turn-off of the mode in
case of power failure;
support of local and global control of zonality and verification.
The controller as a part of security alarm system provides:
connection and control of two alarm lines2;
connection of light and sound alarm devices;
possibility of arming and disarming of the protected zone;
sending of alarm notifications to central surveillance panel.
5.2 Controller boards
The controller includes two boards – top board (processor module) and bottom board
(process execution module). The connecting blocks XS1 – XS3 of the top board are fitted
in the connecting blocks XP1 – XP3 of the bottom board. The boards of the controller are
shown on Figure 1. The purpose of connecting blocks is given in the Table 1.
Figure 1. The top and bottom boards of the controller
1The mode “Security” is available only for configurations “Controller for lock control” and
connected CL-201 lock controllers.
2Depends on chosen controller configuration (see Sect. 5.4).
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CT/L-04.2 Controller
Table 1. The purpose of connecting blocks of the bottom board
Contact
Name of the
physical contact
in the Web-
interface
Purpose
Connector ХТ1 (IN)
IN1 Input 1 “Door sensor #1” or “Input for PASS A signal”
GND – “Common”
IN2 Input 2 “Door sensor #2” or “Input for PASS B signal”
or “Additional input IN #2”
IN3 Input 3 “Door sensor #3” or “Additional input IN #3”
GND – “Common”
IN4 Input 4 “Door sensor #4” or “Additional input IN #4”
Connector ХТ2(RC)
FA Input 10 “Input for emergency unlock (passage opening) Fire alarm”
GND – “Common”
DUA Input 7 “Control input of the OD1 from the RC-button” or “Control input of
direction A from the RC-panel”
DUSt Input 8 “Input STOP from the RC-panel” or “Additional input IN #8”
DUB Input 9 “Control input of the OD2 from the RC-button” or “Control input of
direction B from the RC-panel” or “Additional input IN #9”
LdA Output 7 “Output for indication of direction A on the RC-panel” or “Additional
output OUT #7 (TTL- level)”
LdSt Output 8 “Output for indication STOP on the RC-panel” or “Additional output
OUT #8 (TTL- level)”
LdB Output 9 “Output for indication of direction B on the RC-panel” or “Additional
output OUT #9 (TTL- level)”
Buzz – “Output for sound indication on the RC-panel”
Connector ХТ3 (ОC)
ОК2 Output 6 “Additional output OUT #6 (open collector)”
ОК1 Output 5 “Additional output OUT #5 (open collector)”
+12V – “Output of +12VDC power for outputs ОК1and ОК2”
Connector ХТ4 (+12VDC)
+12V –
GND – “Input of controller + 12VDC power from external PS”
Connector ХТ5 (RS-485)
+12V –
GND – “Output of +12VDC power for readers”
A – “Connection of line A via RS-485”
B – “Connection of line B via RS-485”
Connector ХТ6 (OUT1)
NO1 normally open contact
C1 central contact
NC1
Output 1
normally closed contact
“Relay control output OD #1”
Connector ХТ7 (OUT2)
NO2 normally open contact
C2 central contact
NC2
Output 2
normally closed contact
“Relay control output OD #2” or
“Additional output OUT #2”
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Assembly & Operation Manual
Contact
Name of the
physical contact Purpose
in the Web-
interface
Connector ХТ8 (OUT3)
NO3 normally open contact
C3 central contact
NC3
Output 3
normally closed contact
“Relay control output OD #3” or
“Additional output OUT #3”
Connector ХТ9 (OUT4)
NO4 normally open contact
C4 central contact
NC4
Output 4
normally closed contact
“Relay control output OD #4” or
“Additional output OUT #4”
Connector ХТ10 (AL)
ШС1+ “Alarm line input AL #1 (contact +)”
ШС1- Input 5 (loop) “Alarm line input AL #1 (contact -)” or “Additional input IN #5”
ШС2+ “Alarm line input AL #2 (contact +)”
ШС2- Input 6 (loop) “Alarm line input AL #2 (contact -)” or “Additional input IN #6”
Controller has on the top board:
XP1 – connector to choose the method of the IP-address of the controller; by default,
the jumper is not installed - user mode (Sect. 5.3);
S1 – connector for the Ethernet cable.
Controller has on the bottom board:
XP1 – XP3 – connecting blocks for the top board;
XP4 – connecting block for power indication on the housing;
XP5.1, XP5.2 – XP8.1, XP8.2 – connectors (in pairs) to select the type of connected
lock (see Section 8.2.2):
jumpers pair are removed – if a standard electromechanical or electromagnetic
lock is connected to the corresponding output,
jumpers are installed – locks of LB- or LBP-series are without installed door
sensor (reed switch). The controller traces the passage on condition of the
contact group of the lock;
XP9 and XP10 – are connectors for selection of input ШC1 and ШC2 configurations
where (see Section 5.7):
jumper in position 1-2 – ''alarm line'' input type,
jumper in position 2-3 – ''standard'' input type.
5.3 IP-address setting
The way of IP-address setting is selected by installation or removing of jumper on XP1
connector on the controller top board.
Attention!
Jumpers should be installed and removed only when the power is off.
Following ways of IP-address setting are possible (see Table 2):
1. User mode. Jumper is removed.
If the IP-address (gateway, subnet mask) is not changed by the user, the controller
works with default settings: IP-address and MAC-address are specified in the
certificate of IP-stile and on the controller board; subnet mask 255.0.0.0;
IP-address of the gateway 0.0.0.0.
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CT/L-04.2 Controller
If the IP-address (gateway, subnet mask) is changed by the user, the controller
starts to work with the new settings immediately without switching power supply.
Note:
It is possible to change network settings of the controller from PC via Web-interface
or software. The controller and PC must be on the same subnet.
2. “IP MODE”. Jumper is in the position 1–2.
Work in networks with dynamic allocation of IP-addresses, the controller can
receive IP-address (gateway, subnet mask) from DHCP-server.
3. “IP DEFAULT”. Jumper is in the position 2–3.
The controller works with default settings: IP-address and MAC-address are
specified in the certificate of IP-stile and on the controller board; subnet mask
255.0.0.0; IP-address of the gateway 0.0.0.0.
The password for controller is reset.
Note:
User settings of IP-address (gateway, subnet mask), if they were set, are saved
during the switch into “IP DEFAULT” mode. The controller will operate with them at
next turn-on, if jumper is not installed.
Table 2. Jumper installation on XP1 connector
№Jumper position on XP1 Method of specifying IP addresses
1 User mode
2 “IP MODE”
3 “IP DEFAULT”
5.4 Controller configuration templates
Attention!
Change of the controller configuration template, adding of the of the second level
controllers and optional card readers are available only using the Web-interface
of the controller (see Appendix 5, Clause 4.1).
If you change the template, you delete the configuration and internal responses
of all resources of the controller. The configuration “Default” is set for resources
of the selected configuration. Meanwhile the information of access cards
identifiers, data of users, rights and access settings are saved.
Following configuration templates are available for the controller:
1. The controller to operate the turnstile (without additional locks);
2. The controller to operate the turnstile and one one-way lock;
3. The controller to operate the turnstile and two one-way locks;
4. The controller to operate the turnstile and one two-way lock;
5. The controller to operate the vehicle checkpoint (without additional locks);
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Assembly & Operation Manual
6. The controller to operate one vehicle checkpoint and one one-way lock;
7. The controller to operate one vehicle checkpoint and two one-way locks;
8. The controller to operate one vehicle checkpoint and one two-way lock;
9. The controller to operate one one-way lock (without alarm lines);
10.The controller to operate one one-way lock with one alarm line;
11.The controller to operate one one-way lock with two alarm lines;
12.The controller to operate two one-way locks (without alarm-lines);
13.The controller to operate two one-way locks and one alarm line;
14.The controller to operate two one-way locks and two alarm lines;
15.The controller to operate three one-way locks (without alarm lines);
16.The controller to operate three one-way locks with one alarm line;
17.The controller to operate four one-way locks;
18.The controller to operate one two-way lock (without alarm lines);
19.The controller to operate one two-way lock and one alarm line;
20.The controller to operate one two-way lock and two alarm lines;
21.The controller to operate one two-way lock and one one-way lock (without alarm lines);
22.The controller to operate one two-way lock and one one-way lock with one alarm line;
23.The controller to operate one two-way lock and two one-way locks;
24.The controller to operate two two-way locks (without alarm lines);
25.The controller to operate two two-way locks with one alarm line.
By default, the configuration №1 “The controller to operate the turnstile (without additional
locks)” is configured.
5.5 Signals of inputs
5.5.1 Inputs IN1 – IN4
The controller provides status control of four inputs controlled by “dry contact” or “open
collector” (OK): IN1-IN4. Connection to the outputs is performed via XT1 connecting block
of the controller bottom board (Figure 1and 3).
Note:
To create a high-level signal on all input contacts IN1 – IN4, resistors with 2 kOhm
resistance, connected to +3.3V power line, are used.
Inputs can be used for following connections:
IN1:
odoor sensor 1 (reed switch),
oPASS output of a turnstile,
opassage sensor of a vehicle checkpoint;
IN2:
odoor sensor 2 (reed switch),
oPASS output of a turnstile,
ooptional equipment (IN #2);
IN3, IN4:
odoor sensor 3, 4 (reed switch),
ooptional equipment (IN #3, IN #4).
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CT/L-04.2 Controller
Signals activation depends on description of their default status in Normal status of
contact parameter in PERCo-Web software):
If input is described as Opened, it is activated by a turn-on of low-level signal
relative to GND contact. In such case a normally opened relay contact or a scheme
of open collector output may be a control element.
If input is described as Closed, it is activated by a turn-off of low-level signal relative
to GND contact. In such case a normally closed relay contact or a circuit of open
collector output may be a control element.
Note:
Input IN1 is configured as “Closed” by default.
If according to the configuration of the controller input IN2, IN3 or IN4 is used to
connect the door sensor / passage sensor / PASS, that by default is configured
as Closed with the possibility of further changes.
Control element “relay contact” should provide following characteristics of signals:
Minimum commutating current ........................................................................ max. 1 mA
Closed contact resistance
(with resistance of the connection cable)................................................ max. 300 Ohm
Control element of circuit with open drain output should provide following characteristics of
signals:
Voltage at the closed contact
(low-level signal at input of the controller)...................................................... max. 0.8 V
5.5.2 Inputs DUA, DUSt, DUB, FA
The controller provides status control of four inputs under control of “dry contact” or “open
collector” (OK): DUA, DUSt, DUB, FA. Connection to the inputs is performed via XT2
connecting block of the controller bottom board.
Note:
To create a high-level signal on all input contacts DUA, DUSt, DUB, FA, resistors
with 1 kOhm resistance, connected to +3,3V power line, are used.
Inputs can be used for following connections:
DUA, DUSt, DUB:
oRC-buttons,
oRC-panel (WRC),
DUSt, DUB:
ooptional equipment (IN #7, IN #8);
FA:
oemergency unlock devices (passage opening) Fire Alarm.
Activation and characteristics of signals of the control element are specified in the
Sect. 5.5.1.
Note:
Input FA is uniquely configured as “Closed”.
Input DUA is uniquely configured as “Opened”.
If according to the configuration of the controller input DUSt or DUB used to
connect RC-buttons, it is uniquely configured as Opened without any possibility
being modified.
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Assembly & Operation Manual
5.6 Settings of output signals
5.6.1 Relay outputs OUT1 – OUT4
The controller is equipped with four relay outputs OUT1 – OUT4. Connection to the
outputs is performed via XT6 – XT9 connecting blocks of the controller bottom board.
Every output has a complex group of contacts: normally open NO, normally closed NC and
common output C.
Outputs may be used for (Figure 3):
OUT1:
oas a control output of operation unit OD #1;
OUT2, OUT3, OUT4:
oas a control output of OD #2, OD #3 and OD #4,
oas outputs to control optional equipment (OUT #2, OUT #3, OUT #4).
Characteristics of output signals:
Maximum commutating voltage of direct current ......................................... max. 30 V
Maximum commutating voltage of alternate current .................................... max. 42 V
Maximum commutated direct/alternate current for outputs Out ..................... max. 5 A
Resistance of closed contact .............................................................. max. 0.15 Ohm
Control outputs support potential and pulse operation modes of OD. Selection of mode is
performed with Operation mode of control output parameter of OD.
In potential mode of OD:
In case of single passage relay output is activated for a period of time, set in
software by Unlocked state holding time software parameter or till the moment of
passage.
In case OD is set into “Open” mode relay output is activated till the mode change.
In pulse mode of OD:
In case of single passage relay output is activated for a period of time, set by
Control pulse duration parameter of OD.In such case OD remains unlocked until
the passage is performed.
In case OD is set into “Open” mode output is activated for a period of time, set by
Control pulse duration parameter of OD, and after that it will be activated each
time for the same period in one second after the normalization of OD.
Activation of inputs IN1 – IN4, configured as door sensor or signal PASS, define that the
passage was performed in the set direction.
5.6.2 Outputs OK1 and OK2
The controller is equipped with two outputs “open collector”: OK1 and OK2 (in
configuration OUT #5 and OUT #6, Figure 3). Connection to the outputs is carried out via
XT3 connecting block of the controller bottom board.
+12VDC supply is derived to the same connecting block for easy connection.
Outputs can be used for following functions:
connection of light and sound alarm devices,
sending of alarm notifications to central surveillance panel,
connection of other optional equipment.
Characteristics of output signals:
Maximum commutation voltage of direct current ...........................................max. 30 V
Maximum commutated current ...................................................................max. 0.25 A
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CT/L-04.2 Controller
5.6.3 Outputs LdA, LdSt, LdB
The controller is equipped with three outputs type “TTL”: LdA, LdSt, LdB. Connection should
be performed to the contacts of XT2 connecting block of the controller bottom board.
Outputs can be used (Figure 3):
as outputs of connection of indication of the RC-panel,
as outputs of control of other optional equipment (OUT #7, OUT #8, OUT #9).
Characteristics of output signals:
Maximum voltage of direct current ................................................................. max. 3 V
Maximum current....................................................................................... max. 0.01 A
5.7 Parameters of signals received on inputs «ШC1» and «ШC2»
The controller provides the status control of two inputs ШC1 and ШC2. Connection to the
inputs is carried out via the connecting block XT10 of controller bottom board.
Every input can be used as input of alarm line or as standard input to connect the lock
RC-button or to connect optional equipment (IN #5, IN #6), see Figure 3. The input
selection depends on the selected controller configuration and the position of the jumper
on the connector XP9 or XP10 on the controller bottom board. Installation of the jumper in
the position 2-3 corresponds to the configuration “standard input”.
Attention!
When you select the controller configuration with one or two ALs (see Sect. 5.4),
you need to put jumpers on the controller bottom board in the position 1-2 (see
Figure 1):
on the connecting block XP10 with configuration “1 AL”,
on the connecting blocks XP9 and XP10 with configuration “2 ALs”.
5.7.1 “Standard” input configuration
Jumper XP9 (for ШC1) or XP10 (for ШC2) is in the position 2-3. The controller provides the
control input status ШC1- ÷ GND (ШC2- ÷ GND) under control output type “dry contact” or
“open collector” (OК).
Note:
To create a high-level signal on inputs contacts ШC1- and ШC2- relative to GND,
the resistors with 1kOhm resistance are used. They are connected to +5 V power
line. The resistors with 392 Ohm are connected to the minus of power supply.
In this configuration input can be used:
ШC1- ÷ GND:
oas input for connection of RC-button for the lock (RC OD #3);
oas input for connection of optional equipment (IN #5).
ШC2- ÷ GND:
oas input for connection of RC-button for the lock (RC OD #4);
oas input for connection of optional equipment (IN #6).
Activation of all signals depends on description of their initial status in Normal status of
contact parameter in PERCo-Web software:
If input is described as Opened, it is activated by a turn-on of low-level signal relative
to GND contact. In such case a normally open relay contact or a scheme of open
collector output may be a control element.
If input is described as Closed, it is activated by a turn-off of low-level signal relative to
GND contact. In such case a normally closed relay contact or a circuit of open
collector output may be a control element.
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Assembly & Operation Manual
Note:
If according to the configuration, input of the controller is used for connection of the
RC-button, that it is configured as “Opened” without any possibility being modified.
Control element “relay contact” should provide following characteristics of signals:
Minimum commutating current ........................................................................ max. 1 mA
Closed contact resistance
(with resistance of the connection cable) ............................................. max. 300 Ohm
Control element of circuit with open collector output should provide following
characteristics of signals:
Voltage at the closed contact
(low-level signal at input of the controller .................................................... max. 0.8 V
5.7.2 “AL” input configuration
Jumper XP9 (for ШC1) or XP10 (for ШC2) is in the position 1-2.
Only security detectors may be used as detectors, connected to alarm line:
Electrical contact detectors and magnetic contact detectors (reed switches, fuses);
Those that have relay on output (4-wire line).
Table 3. Status and thresholds of alarm line
Alarm line resistance, Ohm Status of alarm line defined by a device
Configuration: “Security”
Less than 2 kOhm Violation – short circuit
2,4 kOhm - 7 kOhm Normal
More than 9 kOhm Violation – line break
Configuration: “Security with tamper-evidence examination of detectors housings”
Less than 1,3 kOhm Violation – short circuit
1,5 kOhm - 2,3 kOhm Normal
2,5 kOhm - 3,6 kOhm Violation – detector housing is opened
4 kOhm - 6 kOhm Violation – detector activation
More than 7 kOhm Violation – detector activation and detector housing is opened or
line break
Specifications of input signals of alarm line:
Voltage in alarm line .................................................................................................... 5 V
Short circuit current in alarm line ................................................................... max. 12 mA
Resistance of remote element .......................................................................... 4.7 kOhm
Resistance of alarm line wires
(without regard to resistance of remote element) .................................... max. 1 kOhm
Resistance of alarm line wires during tamper-evidence examination of detectors
housings (without regard to resistance of remote element) ................ max. 0.22 kOhm
Leakage resistance between alarm line wires and “ground”....................... min. 20 kOhm
Note:
Alarm line specifications are controlled by their resistance.
AL integration time – maximum period of time during which the change of alarm line
resistance is not regarded as a violation and does not cause the turn of alarm line into
alarm state.
16
CT/L-04.2 Controller
When AL is armed, its resistance is constantly measured with necessary averaging. AL
integration time is set by Violation duration parameter and it is equal to 70 ms or 300 ms.
The requirements for detecting the AL state at these AL integration time are shown in
Table 4:
Table 5. Alarm line integration time
Integration time (Violation duration) 70 ms 300 ms
Alarm line violations should not cause a device to detect “violation” alarm line
status, in case they were in process during the period of time not exceeding 50 ms 250 ms
Alarm line violations should cause a device to detect “violation” alarm line
status, in case they were in process during the period of time exceeding 70 ms 300 ms
5.8 Connection to RS-485 interface
Readers, Al-01 display unit with infrared-receiver, CL-201.1 lock controller and AU-05
system time display are connected to the controller via RS-485 interface. The
communication line of the RS-485 interface is being implemented over twisted pair with the
polarity observance according to the principle of the direct topology of the «common bus»
(the communication line is paved in series to all devices, and the devices to the
communication line are connected in parallel, the contact A to the line A, the contact B to
the line B).
At the end of the communication line of RS-485 interface should be mounted limit
resistors-terminators Roкwith nominal value of 120 Ohms. On products with built-in
terminal resistor, which are not end devices of the communication line, it is necessary to
remove the jumper by cord “disconnection of end-of-line resistor”. The position of jumper is
indicated in the operational documentation of a specific product. If the controller is located
at one of the end of the communication line, the terminal resistor with nominal value of 120
Ohms is installed between A and B contacts of XT5 connecting block.
When connecting to RS-485 interface, follow the instructions of the connected device and
the scheme presented in Figure 3. To connect a communication line of RS-485 to the
controller, the cable type №2 is applied (Table 6).
Attention!
When installing each type of device (readers, controllers, display units) they need to
set different addresses, otherwise devices of the same type with the same
addresses will not work. The address is determined by the status of the jumper
(jumper) "number" on the chassis or on the product board (see the operating
documentation for this product).
Contact +12V and GND of XT5 connecting block can be used as power supply for
devices under condition that the maximum load current must not exceed 0.5A.
Following variants of reader connection are possible (Figure 3):
Up to eight IR-03.1,IR-04.1, IRP-01.2,IR-10 card readers, IC-02.1,IC-05 card capture
readers (in any combination).
Up to eight MR-07.1 card readers.
Up to eight readers with Wiegand (Wiegand-26, -34, -37, -40, -42) interface. The
connection requires up to 4 AC-02.1 interface converters. Each converter allows you
to connect two Wiegand readers on the RS-485 bus. Connection diagram and
description of indication of the readers are given in the operational documentation of
the interface converter.
17
Assembly & Operation Manual
6 MARKING AND PACKAGING
The marking label of the controller is placed on the back of the housing. The marking label
provides following information concerning the controller:
trade mark and contact details of the manufacturer;
name and number of model;
serial number;
date and month of manufacture;
allowed power voltage range;
consumption current.
The controller board contains labels with default MAC-address and IP-address of the
controller.
The controller is packed into a paperboard box, preventing it from damages during
transportation and storage.
7 SAFETY REQUIREMENTS
7.1 Installation safety requirements
Installation and technical maintenance of the controller should be performed by qualified
staff, after getting acquainted with the Operation manual and safety rules. Installation
should be performed in accordance with general electrical and work safety rules.
Attention!
All connections and jumper installations should be carried out only when the
equipment is powered off and power supply is disconnected.
During mounting use only proper tools.
Cabling should be performed in accordance with general requirements for
electrical equipment.
Do not use the controller if it is not properly installed and connected.
7.2 Operation safety requirements
Operation should be performed in accordance with general electrical and work safety
rules.
Do not use!
The controller under conditions that do not comply with the requirements of
Section 2 of this Manual.
The controller at supply voltage that does not comply with the requirements of
Section 3of this Manual.
The device in hostile environment that contains acids, alkalis, oils etc.
Power supply should be used accordingly to safety rules given in the Operation manual.
18
CT/L-04.2 Controller
8 INSTALLATION
Installation should be performed in accordance with work safety noted in Sect. 7.1.
Installation should be done in accordance with local building requirements.
8.1 Cable lengths
Cables for mounting are shown in Table 6.
Mounting of communication lines should comply with EIA/TIA RS-422A/485 standards.
Do not lay cables at a distance less than 50 cm from a source of electromagnetic
interference.
Crossing of all cables with power cables is allowed only at a right angle.
Lengthening of cables should be performed by soldering only.
All cables, entering controllers, should be fixed with plastic ties to self-adhesive cable
tie mount, included into delivery set and installed inside the housing. Lay and fix
cables using plastic fixing brackets, if necessary.
After cables are laid, check if there are no line breaks and short circuits at all lines.
It is not allowed to lay power cables for lock, sensor cables, remote control cables and
reader cables at a distance more than 1 m from ground cables.
Table 6. Cables used for installation
№Equipment
Cable
length, m,
max
Cable type
Cross
section,
mm² min.
able example
1 Ethernet (IEEE 802.3) 100
Four twisted
pairs (starting
from Category 5)
4×2×0.52 F/UTP2-
Cat5e
Reader, card capture
reader, Al-01 indication
block
50 (total)
2 CL-201 lock controller,
AU-05 system time
display
1200 (total)
Twisted pairs
(starting from
Category 5)
0.2
2×2×0.52 F/UTP2-
Cat5e
3 Power source 10 Twin cable 0.75
Flat cord with sheath
and outer sheath of
PVC
4
RC-button (“Exit”); Door
sensor (reed switch);
Additional sensor
(to input of the controller);
Additional equipment
(to output of the
controller)
30 Twin cable 0.2
RAMCRO SS22AF-T
2×0.22
CQR-2
5 Remote control board 40 Eight-core cable 0.2 CQR CABS8 8×0.22c
7 Lock 30 Double-core
cable 0.75 PVC twin cable
2×0.75
8 Turnstile 30 Six-core cable 0.2 CQR CABS6 6×0.22c
9 Vehicle checkpoint 30 Four-core cable 0.2 CQR CABS4 4×0.22c
10 Alarm line Twin cable 0.5 PVC twin cable 2×0.5
19
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