PERCo CT/L-14 Installation and operating instructions
Controller
CT/L-14
ASSEMBLY AND OPERATION MANUAL
CT/L-14
Controller
Assembly & Operation Manual
2
CONTENTS
1APPLICATION ........................................................................................................................3
2OPERATING CONDITIONS....................................................................................................4
3TECHNICAL SPECIFICATIONS ............................................................................................. 4
4DELIVERY SET ......................................................................................................................4
4.1 Standard delivery set......................................................................................................... 4
4.2 Optional equipment ...........................................................................................................5
5DESCRIPTION........................................................................................................................5
5.1 Design and operation ........................................................................................................5
5.2 Controller boards...............................................................................................................6
5.3 IP-address setting .............................................................................................................8
5.4 Input signals parameters ...................................................................................................9
5.4.1 IN1 – IN6 inputs .......................................................................................................9
5.4.2 DUA, DUSt, DUB, FA inputs................................................................................... 10
5.5 Output signals settings .................................................................................................... 10
5.5.1 OUT1 – OUT4 relay outputs................................................................................... 10
5.5.2 Outputs OC1, OC2 and OC3.................................................................................. 11
5.5.3 LdA, LdSt, LdB outputs .......................................................................................... 11
5.6 Readers connection ........................................................................................................ 11
5.6.1 Connection via RS-485 interface............................................................................ 11
5.6.2 Connection to Wiegand interface............................................................................ 12
6MARKING AND PACKAGING............................................................................................... 12
7SAFETY REQUIREMENTS................................................................................................... 12
7.1 Installation safety requirements ....................................................................................... 12
7.2 Operation safety requirements ........................................................................................ 13
8INSTALLATION..................................................................................................................... 13
8.1 Cable lengths .................................................................................................................. 13
8.2 Installation order..............................................................................................................14
8.2.1 Controller installation.............................................................................................. 14
8.2.2 Door control configuration ...................................................................................... 16
8.2.3 Turnstile and electromechanical gates configuration .............................................. 18
8.2.4 Vehicle checkpoint configuration ............................................................................ 20
8.2.5 RC-panel connection.............................................................................................. 22
8.2.6 Fire Alarm device connecting ................................................................................. 22
8.2.7 Optional equipment connection .............................................................................. 22
9CONFIGURATION ................................................................................................................ 24
10 UPDATE OF EMBEDDED SOFTWARE................................................................................ 26
11 OPERATION.........................................................................................................................26
11.1 ACS operating modes ..................................................................................................... 26
11.2 Indication of ACM, events and controller configurations .................................................. 27
11.3 Troubleshooting ..............................................................................................................28
11.3.1 The controller does not work .................................................................................. 28
11.3.2 Communication failure between controller and PC ................................................. 28
12 MAINTENANCE ....................................................................................................................29
13 TRANSPORTATION AND STORAGE................................................................................... 30
Appendix 1. Instruction on connection of the card capture reader ................................................. 31
Appendix 2. Instruction on connection of the CT/L-14 through PoE-splitter....................................... 33
Appendix 3. Instruction on connection of the controller for lock-chamber management ................ 34
Appendix 4. CT/L-14 Controller Web-interface. User Manual ........................................................ 37
CT/L-14 Controller
3
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 for the CT/L-14 Controller (hereinafter – the Manual) provides information
on operation, installation, maintenance, storage and transportation of the CT/L-14 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;
•LAN –local area network;
•OD – operating device;
•PS – power supply;
•RC– remote control;
•RTC – real-time clock;
•WRC – wireless remote control.
1 APPLICATION
CT/L-14 Controller (hereinafter – the controller) is a part of PERCo-Web ACS.
Attention!
The internal memory of the controller features special PERCo-Web
Software version,
allowing arranging ACS based on this controller, without a server on a separate PC.
In order to start operating the embedded ACS, t
he administrator is to use the system
manager, to do so, enter the controller Web-interface using computer via Ethernet
(Appendix 4, p. 2) and in browser address bar add the port number:49000 to controller IP-
address (login-password for initial entering: admin-admin). After this Web-
server and
system server are to be initiated. For the future enters one can only enter the controller
Web-interface and add the port number (initially :8080) to controller IP-address in browser.
When entering the system for the first time, the user will be requested to create login-
password pair for sanctioning subsequent system entrances.
The capabilities of PERCo-Web embedded security system are limited1.
Software licensing order, settings, characteristics and operation algorithm is described in
details in the operational documentation for PERCo-Web system. The current version of
the files is available in electronic format on the PERCo web-site: www.perco.com,in
Support > Downloads section.
The controller supports connection of (Sect. 5.6): up to 8 different PERCo readers with interface RS-
485, up to eight Wiegand readers using four AC-02.1 converters, and enables to organize up four
one-way or two-way passages.
Depending on the configuration (Appendix 4, p. 4) the controller can control the following ODs:
•up to four electromagnetic or electromechanical locks that support one-way or two-way
passage;
•up to two turnstiles or gates;
1Embedded PERCo-Web system limitations: number of employees – up to 500, visitors – up to 500,
departments – up to 100, events – up to 1 mln, maximum number of controllers in the system – 10. Use
PERCo-Web access control system that can be installed on a separate server for a wider range of options.
Operation Manual
4
•up to two boom barriers or automatic gates of vehicle checkpoint;
•turnstile / gate or boom barrier (automatic gate) in combination with locks: the total number of
ODs is max. 3 ODs.
The controller also supports the ability to control OD double-check combinations (see Appendix 3).
2 OPERATING 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.
3 TECHNICAL SPECIFICATIONS
Operating voltage ......................................................................................................... 12±1.2V DC
Consumption current (12V) .......................................................................................... max. 0.25 A
Power consumption ......................................................................................................... max. 3 W
Communication interface standard ................................................................ Ethernet (IEEE 802.3)
Ethernet data transfer speed ....................................................................................... 10/100 Mbps
Interface of reading devices ............................................................................... RS-485, Wiegand1
Number of reading devices:
via RS-485 interface ........................................................................................................ up to 8
via Wiegand2interface...................................................................................................... up to 8
Number of users ........................................................................................................... min. 50,000
Event memory capacity .............................................................................................. up to 150,000
Number of access cards for each employee ........................................................................ up to 5
Number of managed ODs ................................................................................................... up to 43
Number of relay outputs for OD control ......................................................................................... 4
Number of additional “open collector” outputs ............................................................................... 3
Number of inputs controlled by “dry contact” outputs .................................................................. 13
Number of remote control inputs .......................................................................................... up to 6
Number of remote control indication outputs ................................................................................. 6
Electric shock protection class .................................................................................. III (IEC 61140)
Mean lifetime ....................................................................................................................... 8 years
Dimensions .......................................................................................................... 208×235×45 mm
Weight .......................................................................................................................... max. 1.8 kg
4 DELIVERY SET
4.1 Standard delivery set
Controller ...................................................................................................................................... 1
Jumper .......................................................................................................................................... 9
15-18 V suppressor ....................................................................................................................... 4
Mounting kit:
plastic dowel ............................................................................................................................. 3
screw ........................................................................................................................................ 3
self-adhesive cable tie mount ................................................................................................... 3
nylon cable tie 100 mm ............................................................................................................. 5
Package ........................................................................................................................................ 1
Certificate ...................................................................................................................................... 1
Operation manual ......................................................................................................................... 1
1Wiegand (26, 34, 37, 40, 42, 56, 58) when using AC-02.1 interface converters.
2Up to 8 readers when using four AC-02.1 interface converters.
3Depending on the selected controller configuration template (see Appendix 5, p. 4).
CT/L-14 Controller
5
4.2 Optional equipment
Power supply ................................................................................................................................ 1
PoE-splitter1.................................................................................................................................. 1
Siren ............................................................................................................................................. 1
WRC kit 2 ....................................................................................................................................... 2
AU05 system time display ............................................................................................................. 1
PERCo readers .................................................................................................................... up to 8
AC-02.1 interface converter ................................................................................................. up to 4
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 features a power supply indication.
The controller features:
•non-volatile memory;
•non-volatile RTC-timer (real time clock);
•housing opening sensor (the “tamper switch”).
The controller is able to store in non-volatile memory:
•no less 50,000 card identifiers;
•up to 150,000 events in the event log with the date and time of the event3.
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 via Ethernet.
By default, the controller features:
•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);
•gateway IP-address (0.0.0.0).
Following ways to set up IP-address, gateway and subnet mask are provided at the stage of
system configuration:
•operation with default settings;
•manual input;
•receipt from DHCP server.
It is possible to connect the following equipment:
•up to eight readers via RS-485 interface;
•up to eight readers via Wiegand interface;
•up to four door sensors (reed switches);
•up to four passage sensors (PASS outputs of the turnstile);
•up to four RC buttons (“Exit”) for the lock;
•up to two turnstile (gate) RC-panels;
•up to ten devices sending commands to additional inputs;
•AU05 system time display;
•Fire Alarm emergency unlocking (emergency passage opening) device.
1PoE-splitter – allows energizing 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.
2WRC kit consists of a receiver and transmitters (fobs) with operating range of up to 40 m.
3In case of event log overflow the oldest events will be replaced with the new ones (events are deleted by
blocks consisting of 256 events).
Operation Manual
6
As a part of ACS, the controller provides:
•operation in ACM: “Open”, “Control”, “Security” 1, “Closed”;
•saving the set mode in the non-volatile memory in order to avoid the turn-off of the mode in
case of power failure;
•support of local and global control of zonality, double-check and verification;
•connection of light and sound alarm devices;
•possibility of arming and disarming of the protected zone;
•sending alarm notifications to the central surveillance panel.
5.2 Controller boards
Figure 1. The upper and lower controller boards
The controller features two boards – upper board (processor module) and lower board (process
execution module). The XS1 – XS2 terminal blocks of the upper board are connected to the XP1 –
XP2 connectors of the lower board. The controller boards are shown in Fig. 1. The terminal blocks
application is given in the Table 1.
The upper board of the controller features:
•X1 – microSD-card slot;
•S1 – connector for the Ethernet cable;
•X3 – connector for USB0 equipment;
•X4 -connectors for USB1 and USB2 equipment;
•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);
•XS1, XS2 – connectors for connecting to the lower board.
The lower board of the controller features:
•XP1, XP2 – connectors for connecting to the upper board;
1The mode “Security” is available only for “Controller for lock control” configurations and connected CL-201
lock controllers.
CT/L-14 Controller
7
•XP4 – power indicator connector on the controller housing;
•XP5.1,XP5.2 – XP8.1, XP8.2 – connectors (in pairs) to select the type of connected lock (see
Sect. 8.2.2):
−jumpers are removed – standard electromechanical or electromagnetic lock is to be
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.
Table 1. Lower board terminal blocks designation
Contact
Contact name in the
Web-interface
Designation
XT1 (IN) connector
IN1
In 1
“Door sensor #1” or “Input for PASS A signal from the turnstile #1”
GND
–
“Common”
IN2 In 2
“Door sensor #2” or “Input for PASS B signal from the turnstile #1”
or “Additional input IN #2”
IN3 In 3
“Door sensor #3” or “Input for PASS A signal from the turnstile #2”
or “Additional input IN #3”
GND
–
“Common”
IN4 In 4
“Door sensor #4” or “Input for PASS B signal from the turnstile #2”
or “Additional input IN #4”
IN5
In 5
“Additional input IN #5”
GND
–
“Common”
IN6
In 6
“Additional input IN #6”
XT2 (RC1) connector
FA
FA
“Input for emergency unlocking (passage opening) Fire alarm”
GND
–
“Common”
DUA DUA 1
“Control input of the OD1 from the RC-button” or “Control input of
direction A from the RC-panel #1”
DUSt
DUSt 1
“Input STOP from the RC-panel #1” or “Additional input IN #8”
DUB DUB 1
“Control input of the OD2 from the RC-button” or “Control input of
direction B from the RC-panel #1” or “Additional input IN #9”
LdA
LdA 1
“Output for indication of direction A on the RC-panel #1”
LdSt
LdSt 1
“Output for indication STOP on the RC-panel #1”
LdB
LdB 1
“Output for indication of direction B on the RC-panel #1”
XT3 (OC) connector
OC3
OK3
“Additional output OUT #7 (open collector)”
OC2
OK2
“Additional output OUT #6 (open collector)”
OC1
OK1
“Additional output OUT #5 (open collector)”
+12V
–
“Output of +12VDC power for outputs OC1, OC2 and OC3”
XT4 (+12VDC) connector
+12V
–
“Input of controller + 12VDC power from external PS”
GND
–
XT5 (RS-485) connector
+12V
–
“Output of +12VDC power for readers”
GND
–
A
–
“Connection of line A via RS-485”
B
–
“Connection of line B via RS-485”
XT6 (OUT1) connector
NO1
NO1/C1/NC1
normally open contact
“Relay control output OD #1”
C1
central contact
NC1
normally closed contact
Operation Manual
8
Contact
Contact name in the
Web-interface
Designation
XT7 (OUT2 )connector
NO2
NO2/C2/NC2
normally open contact
“Relay control output OD #2” or
“Additional output OUT #2”
C2
central contact
NC2
normally closed contact
XT8 (OUT3) connector
NO3
NO3/C3/NC3
normally open contact
“Relay control output OD #3” or
“Additional output OUT #3”
C3
central contact
NC3
normally closed contact
XT9 (OUT4) connector
NO4
NO4/C4/NC4
normally open contact
“Relay control output OD #4” or
“Additional output OUT #4”
C4
central contact
NC4
normally closed contact
XT10 (RC2) connector
GND
–
“Common”
DUA DUA 2
“Control input of the OD3 from the RC-button” or “Control input of
direction A from the RC-panel #2” or “Additional input IN #10”
DUSt
DUSt 2
“Input STOP from the RC-panel #1” or “Additional input IN #11”
DUB DUB 2
“Control input of the OD4 from the RC-button” or “Control input of
direction B from the RC-panel #2” or “Additional input IN #12”
LdA
LdA 2
“Output for indication of direction A on the RC-panel #2”
LdSt
LdSt 2
“Output for indication STOP on the RC-panel #2”
LdB
LdB 2
“Output for indication of direction B on the RC-panel #2”
5.3 IP-address setting
The way of IP-address setting is selected by installing or removing the jumper on XP1 connector
on the controller upper board.
Following ways of IP-address setting are possible (see Table 2):
1. User mode. Jumper is removed.
•If the user does not change the IP-address (gateway, subnet mask), the controller operates
with default settings: IP-address and MAC-address are specified in the certificate of IP-stile
and on the controller board; subnet mask is 255.0.0.0; gateway IP-address is 0.0.0.0.
•If the user changes the IP-address (gateway, subnet mask), the controller starts operating
with the new settings immediately without switching the power supply.
Note:
It is possible to change network settings of the controller on 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.
•Operation 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 operates with default settings: IP-address and MAC-address are specified in
the certificate of IP-stile and on the controller board; subnet mask is 255.0.0.0; gateway
IP-address is 0.0.0.0.
•To access the controller, the password is not required. Installing the jumper into the “IP
DEFAULT” mode allows changing the password.
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.
CT/L-14 Controller
9
Table 2. Jumper installation on XP1 connector
N
Jumper position on XP1
Method of specifying IP address
1
User mode
2
“IP MODE”
3
“IP DEFAULT”
5.4 Input signals parameters
5.4.1 IN1 – IN6inputs
The controller provides status control of four inputs controlled by “dry contact” or “open collector”
(OC): IN1 – IN6. Connection to the outputs is performed via XT1 terminal block of the controller
lower board (Fig. 1 and 3).
Note:
To create a high-level signal on all input contacts IN1 – IN6, 2 kOhm resistors
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 1,
ointrusion detectors of a vehicle checkpoint 1;
•IN2:
odoor sensor 2 (reed switch),
oPASS output of a turnstile 1,
ooptional equipment (IN #2);
•IN3:
odoor sensor 3 (reed switch),
oPASS output of a turnstile 2,
ointrusion detectors of a vehicle checkpoint 2,
ooptional equipment (IN #3);
•IN4:
odoor sensor 4 (reed switch),
oPASS output of a turnstile 2,
ooptional equipment (IN #4);
•IN5, IN6:
ooptional equipment (IN #5, IN #6).
Signals activation depends on description of their default status in Normal status of contact
parameter in PERCo-Web software:
•If the input is described as Open, it is activated by a turn-on of low-level signal relative to
GND contact. In such case a normally open relay contact or an open collector output circuit
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 an open collector output
circuit may be a control element.
Note:
•IN1 input is configured as “Closed” by default.
•If according to the configuration of the controller IN2, IN3 or IN4 input is used t
o connect
the door sensor / intrusion detectors / PASS, by default it is configured as Closed
with
the possibility of further changes.
Operation Manual
10
“Relay contact” control element is to provide following signals characteristics:
Minimum commutating current .................................................................................. max. 1 mA
Closed contact resistance (with resistance of the connection cable) .................... max. 300 Ohm
Circuit control element with open collector output is to provide following signals characteristics:
Voltage at the closed contact (low-level signal at input of the controller) ................... max. 0.8 V
5.4.2 DUA, DUSt, DUB, FA inputs
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 and XT10
terminal blocks of the controller lower board.
Note:
To create a high-level signal on all input contacts DUA, DUSt, DUB, FA, 1 kOhm
resistors
connected to +3,3V power line are used.
Inputs can be used for following connections:
XT2 terminal block:
•FA: emergency unlocking devices (passage opening) Fire Alarm,
•DUA: button “A” on the RC-panel #1 (WRC #1) or RC-button for OD1,
•DUSt: button “Stop” on the RC-panel #1 (WRC #1) or optional equipment (IN #8),
•DUB: button “B” on the RC-panel #1 (WRC #1) or RC-button for OD2 or optional equipment (IN #9).
XT10 terminal block:
•DUA: button “A” on the RC-panel #2 (WRC #2) or optional equipment (IN #10),
•DUSt: button “Stop” on the RC-panel #2 (WRC #2) or optional equipment (IN #11),
•DUB: button “B” on the RC-panel #2 (WRC #2) or optional equipment (IN #12).
Activation and signals characteristics of the control element are specified in the Sect. 5.4.1.
Notes:
•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.
5.5 Output signals settings
5.5.1 OUT1– OUT4relay outputs
The controller is equipped with four OUT1 – OUT4 relay outputs. Connection to the outputs is
performed via XT6 – XT9 terminal blocks of the controller lower board. Each output has a complex
group of contacts: normally open NO, normally closed NC and common output C.
Outputs may be used for (Fig. 3):
•OUT1: as a control output of 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).
Output signals characteristics:
Maximum commutating voltage of direct current .................................................... max. 30 V
Maximum commutating voltage of alternating current ............................................ max. 42 V
Maximum commutated direct/alternating current ...................................................... max. 5 A
Resistance of closed contact ......................................................................... max. 0.15 Ohm
Control outputs support potential and pulse operating modes of OD. Selection of mode is
performed with Operating mode of control output parameter of OD.
CT/L-14 Controller
11
In potential mode of OD:
•In case of single passage relay output is activated for a period of time, set in software by
Holding in unlocked state period software parameter or till the moment of end 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 IN1 – IN4 inputs, configured as door sensor or signal PASS, define that the passage
was performed in the set direction.
5.5.2 Outputs OC1, OC2 and OC3
The controller is equipped with two “open collector” outputs: OC1, OC2 and OC3 (in configuration
OUT #5, OUT #6, and OUT #7, Fig. 3). Connection to the outputs is carried out via XT3 terminal
block of the controller lower board. +12VDC supply is derived to the same terminal block for easy
connection.
Note:
The maximum current through this block must not exceed 0.5A.
Outputs can be used for following functions:
•connection of light and sound alarm devices,
•sending alarm notifications to central surveillance panel,
•connection of other optional equipment.
Output signals characteristics:
Maximum commutation voltage of direct current .................................................... max. 30 V
Maximum commutated current ............................................................................ max. 0.25 A
5.5.3 LdA, LdSt, LdB outputs
The controller is equipped with three “TTL” type outputs: LdA, LdSt, LdB. Connection must be
performed through the XT2 terminal block contacts of the controller lower board.
Outputs can be used (Fig. 3):
•XT2 terminal block: as outputs of connection of indication of the RC-panel #1,
•XT10 terminal block: as outputs of connection of indication of the RC-panel #2.
Output signals characteristics:
•Maximum voltage of direct current ......................................................................... max. 3 V
•Maximum current .............................................................................................. max. 0.01 A
5.6 Readers connection
5.6.1 Connection via RS-485 interface
Readers, card capture readers, AI-01 display unit with infrared-receiver and AU-05 system time
display are connected to the controller via RS-485 interface. RS-485 interface communication line
is to be connected to all devices consequently.
End-of-line resistors of 120 Ohms are to be mounted at the ends of the communication line of RS-
485 interface. On the products with built-in end-of-line resistor, which are not end devices of the
communication line, it is necessary to cut the “disconnection of end-of-line resistor” jumper with
wire cutters. The position of jumper is indicated in the operational documentation of a specific
product. If the controller is located at one of the ends of the communication line, the end-of-line
resistor of 120 Ohms is to be installed between A and B contacts of XT5 terminal block.
Operation Manual
12
When connecting to RS-485 interface, follow the instructions of the connected device and the
layout presented in Fig. 3. To connect a communication line of RS-485 to the controller, the #2
cable type is to be applied (Table 3).
Following variants of reader connection are possible (Fig. 3):
•Up to eight IR03.1, IR04.1, IR10 card readers (in any combination).
•One or two IR04,IRP01 readers (in any combination)and correspondingly together with up to
seven or six IR03.1,IR04.1 or IR10 card readers (in any combination).
•Up to eight MR07.1 card readers.
•Up to two IR07 card readers.
•One or two indication blocks with AI01 IR-receiver to any of the above options.
Note:
+ 12V and XT5 terminal block GND contacts can be used in order
to power the readers,
provided that max. load current must not exceed 0.5 A.
When installing readers (card capture readers, indication blocks), different numbers (addresses) are to
be set, otherwise readers with the same addresses will not work. The number (address) is determined
by the state of the “reader number” jumper (jumpers) on the case or on the product board (see the
operational documentation for this product).
5.6.2 Connection to Wiegand interface
When using the AC-03 interface converter, up to four readers with the Wiegand interface can be
connected to the controller, and when using four AC-02.1 converters, up to 8 readers can be
connected. The connection layout and description of the reader indication in this case are given in
the operational documentation for the interface converter.
Note:
To power the readers,
one can use the +12 V and terminal blocks GND contacts of the
AC-03 (AC-02.1) interface converter,while the total current consumption of the readers must
not exceed 0.5 A.
6 MARKING AND PACKAGING
The marking label of the controller is placed on the back plate 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.
CT/L-14 Controller
13
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 Sect. 2
of
this Manual.
•The controller at supply voltage that does not comply with the requirements of Sect. 3
of
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.
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 installation are shown in Table 3.
Table 3. Cables used for installation
N Equipment
Cable
length, m,
max
Cable type
Cross
section,
mm² min.
Cable example
1 Ethernet (IEEE 802.3) 100
Four twisted
pairs (starting
from Category 5)
0.2
4×2×0.52
F/UTP2-Cat5e
2
Reader, card capture reader,
AI-01 indication block
50 (total) Twisted pairs
(starting from
Category 5)
2×2×0.52
F/UTP2-Cat5e
CL-201 lock controller, AU-
05 system time display
1200 (total)
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 equipment
30 Twin cable 0.2
RAMCRO
SS22AF-
T 2x0.22
CQR-2
5 Remote control 40 Eight-core cable 0.2
CQR CABS8
8x0.22c
7 Lock 30
Double-core
cable
0.75
PVC twin cable
2×0.75
8 Turnstile 30 Six-core cable 0.2
CQR CABS6
6x0.22c
9 Vehicle checkpoint 30 Four-core cable 0.2
CQR CABS4
4x0.22c
Recommendations:
•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.
Operation Manual
14
•Crossing of all cables with power cables is allowed only at a right angle.
•Cable growth is to 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 lock power cables, detector cables, remote control cables and reader
cables at a distance more than 1 m from ground cables.
8.2 Installation order
Connection to the controller is performed in accordance with layout shown in Fig. 3 - 11 with the
use of cables from Table 3. The terminal blocks positioning on the controller’s board is presented
in Fig. 1.
Installation of connected devices (turnstiles, locks, power supply, etc.) is performed according to
the instructions given in technical documents of corresponding devices.
8.2.1 Controller installation
1. Unpack the box and check completeness of package contents according to Sect. 4. Make sure
that the equipment is not mechanically damaged.
2. Determine the place for installation of the controller. Location of the controller should comply
with operating conditions. When choosing a location, make sure that it will be convenient to
perform service maintenance of the controller.
Attention!
Do not install the controller at a distance less than 1 m from a source of electromagnetic
interference.
3. Mark and drill holes in the surface to install the controller and connect cables in accordance
with Fig. 2. Lead the communication cables, power cables and Ethernet cables to the location.
Figure 2. Hole marking for controller installation
CT/L-14 Controller
15
4. Fix the controller with three screws through holes in the controller housing (use dowels from
the delivery set, if necessary).
5. Select the way to set IP-address of the controller (Sect. 5.3) and install a jumper on XP1
connector in accordance with the Table 2), if necessary.
6. Connect Ethernet cable to X2 connector of the controller upper board.
7. Connect power source cable to XT4 terminal block of the controller lower board in accordance
with the layout, shown in Fig. 3.
Note:
The order of power supply connection of the controller via PoE-
splitter is described in
Appendix 2.
8. Connect necessary equipment to RS-485 controller interface (Sect. 5.6).
Figure 3. Common connection layout
Operation Manual
16
9. Connect the rest of necessary equipment:
•electromechanical (electromagnetic) locks (Sect. 8.2.2);
•turnstile (Sect. 8.2.3);
•vehicle checkpoint (Sect. 8.2.4);
•RC-panel (WRC) (Sect. 8.2.5);
•emergency unlocking devices Fire Alarm (Sect. 8.2.6);
•other optional equipment (Sect. 8.2.7).
8.2.2 Door control configuration
Figure 4. Lock connection layout
CT/L-14 Controller
17
When connecting the lock (latch) to the controller, follow the next recommendations:
1. To dissipate static electricity, it is recommended to ground the housing or locking bar of the
lock. In case of lock installation on a metal door, it is recommended to ground the door leaf. It
is necessary to use the cable with cross section of min. 0.75 mm2.
Attention!
•If the connected lock is not equipped with built-in spark protection circuit
, it is necessary
to use the suppressor from the delivery set or Schottky diode for operating current not
less than 1A (1N5819). The suppressor is to be installed close to the lock (VD1 i
n
Fig. 4).
•If the connected electromagnetic lock is not equipped with demagnetizing circuit
, it is
necessary to install a bidirectional suppressor from the delivery set (VD1 in Fig. 4).
•If the controller is connected via PoE-
splitter, it is recommended to use only
electromechanical locks with spark protection diodes (VD1 in Fig. 4),
type 1N5819. The
use of suppressor in such case is FORBIDDEN.
2. Connection of the lock (the latch) to XT6 or XT9 terminal blocks on the lower board of the
controller is performed in accordance with layout (Fig. 3 - 5).
3. If connection of an “Exit” lock RC button is required, connect it to XT2 (XT10) of controller
lower board (Fig. 5).
4. The reed switch is connected to XT1 terminal block of the lower board (Fig. 5). The door
sensor with the lock controlled by OUT1 is connected to IN1 input, OUT2 to IN2, etc. The door
sensor is to be mounted so as the door is closed, the sensor can always actuate.
Note:
LB-, LBP-series locks do not require mounting the door sensor (the CT/L14
controllers can
trace the door opening based on the contact group of the lock). In this case,
it is necessary
to install jumpers on the controller lower board: for OUT1 – XP5.1 and XP5.2, for OUT2 –
XP6.1 and XP6.2, for OUT3 – XP7.1 and XP7.2, for OUT4 – XP8.1 and XP8.2 (Fig. 1).
5. Fire Alarm emergency devices are connected to XT2 terminal block of the controller lower
board (in this case it is necessary to cut the jumper by wire cutters), Fig. 5 and Sect. 8.2.6.
6. Fix cables with plastic ties to self-adhesive cable tie mount, included into delivery set by
installing them inside of the controller housing.
Figure 5. Connection layout for RC-buttons and door sensors
Operation Manual
18
8.2.3 Turnstile and electromechanical gates configuration
Figure 6. Connection layouts of “Turnstile control” configuration
CT/L-14 Controller
19
Note:
•The Device output operating mode OD parameter is to be in Potential for PERCo
turnstiles.
•The Registration of the passage after ID card presentation OD
parameter is to be in
Yes for WMD-05S and WMD-06 swing gate.
Follow the next recommendations to connect the turnstile (the gate) to controller:
1. To dissipate static electricity, it is recommended to ground the turnstile housing. It is necessary
to use the cable with cross section of minimum 0.75 mm2.
Note:
Connection layout
of power circuit of the controller and the turnstile (the gate) in case of
connection via PoE-splitter is given in Fig. 17.
2. Connect the turnstile (the control unit of the turnstile) #1 to XT1, XT6, XT7 terminal blocks of
the controller lower board in compliance with the layout (Fig. 6).
3. Connect the turnstile (the control unit of the turnstile) to XT1, XT8, XT9 terminal blocks of the
controller lower board in compliance with the layout (Fig. 6).
4. Connect the swing gate (the control unit of the turnstile) to XT1, XT6, and XT7 terminal blocks
of the lower board of the controller in compliance with the layout (Fig. 7).
5. Connect the swing gate (the control unit of the turnstile) to XT1, XT8, and XT9 terminal blocks
of the lower board of the controller in compliance with the layout (Fig. 7).
6. Connect RC-panel (or WRC) #1 to XT2 terminal block of the lower board of the controller in
compliance with the layout (Fig. 10).
7. Connect RC-panel (or WRC) #2 to XT10 terminal block of the lower board of the controller in
compliance with the layout (Fig. 10).
8. Fix cables with plastic ties to self-adhesive cable tie mount, included into delivery set, by
installing them inside the controller housing.
Figure 7. Connection layouts of the gates
Other PERCo Controllers manuals
