PERCo C-01 Assambly And Operation Manual

Controller

C-01

ASSEMBLY AND OPERATION MANUAL

Controller

C-01

Assembly & Operation Manual

CONTENTS

1 APPLICATION..............................................................................................................3

2 OPERATION CONDITIONS .........................................................................................3

3 TECHNICAL SPECIFICATIONS ..................................................................................4

3.1 Supported scanners ................................................................................................5

4 DELIVERY SET............................................................................................................6

4.1 Standard delivery set ..............................................................................................6

4.2 Additional equipment, offered as an option .............................................................6

5 DESCRIPTION .............................................................................................................7

5.1 Design and operation ..............................................................................................7

5.2 Controller boards.....................................................................................................7

5.3 Signals of inputs....................................................................................................10

5.3.1 Inputs IN1 – IN4............................................................................................10

5.3.2 Inputs DUA, DUSt, DUB, FA.........................................................................11

5.4 Settings of output signals ......................................................................................12

5.4.1 Relay outputs OUT1, OUT2..........................................................................12

5.4.2 Outputs OK1 and OK2..................................................................................12

5.4.3 Outputs Ld A, LdSt, Ld B ..............................................................................13

6 MARKING AND PACKAGING ....................................................................................14

7 SAFETY REQUIREMENTS........................................................................................14

7.1 Installation safety requirements.............................................................................14

7.2 Operation safety requirements ..............................................................................14

8 INSTALLATION ..........................................................................................................15

8.1 Cable lengths ........................................................................................................15

8.2 Installation order....................................................................................................16

8.3 Method for obtaining an IP-address ......................................................................18

8.4 Connection of readers / scanners .........................................................................19

8.4.1 Connecting readers by using Wiegand interface ..........................................19

8.4.2 Connecting scanners by using RS-232 interface ..........................................19

8.4.3 Connecting scanners via USB interface .......................................................20

8.5 Connecting locks...................................................................................................21

8.6 Turnstile and electromechanical gates configuration ............................................23

8.7 Connecting OD VCP .............................................................................................24

8.8 RC-panel configuration .........................................................................................26

8.9 Connecting a Fire Alarm Device............................................................................27

8.10 Connection of optional equipment.........................................................................27

9 CONFIGURATION......................................................................................................30

9.1 First start of the controller......................................................................................30

9.2 Controller configuration options.............................................................................30

9.2.1 Configuration by means of application exchange protocol............................30

9.2.2 Using configuration templates from the Web-interface .................................30

9.3 Connecting to Web-interface of the controller .......................................................31

10 SW UPDATING ..........................................................................................................31

11 OPERATION ..............................................................................................................32

11.1 ACM and controller operation algorithm................................................................32

11.2 Indication of ACS and controller configurations.....................................................34

12 TROUBLESHOOTING................................................................................................36

12.1 The controller doesn’t work ...................................................................................36

12.2 Failure of communication with PC.........................................................................36

13 MAINTENANCE .........................................................................................................38

14 TRANSPORTATION AND STORAGE........................................................................39

Appendix 1. Instruction on connection of alcohol detector .............................................40

Appendix 2. Instruction on connection of the controller through PoE-splitter .................42

Appendix 3. C-01 Controller Web-interface. User Manual..............................................44

C-01 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 C-01 controller. The Manual aims to provide correct

operation of the controller and complete use of its technical capabilities. Installation and
maintenance of the device must be carried out by person who has fully studied this
manual.

Abbreviations adopted in the Manual:

ACM – access control mode;
ACS – access control system;
OD – operating device;
PS – power supply;
PWP – passage waiting period;
RC – remote control;
SW – software;
VCP – vehicle checkpoint;
WRC – wireless remote control.

1 APPLICATION

C-01 controller (hereinafter – the controller) is used in on-line based access control

systems (incl. paid access and ticket access systems etc.).

The controller supports connection up to 6 readers / barcode scanners (two - via Wiegand
interface, two – via RS-232 interface and two – via USB interface), and enables to
organize up two two-way passages or one-way passages (the list of supported scanners –
Sect. 3).

Depending on the configuration (Sect. 9.2) the controller can control the following ODs:

 one or two electromagnetic or electromechanical locks that support one or two-way

passage;

 one turnstile or gate;
 one boom barrier or an automatic gate of vehicle checkpoint.

2 OPERATION CONDITIONS

The controller, with regard to resistance to environmental exposure complies to
GOST15150-69, 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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Assembly & Operation Manual

3 TECHNICAL SPECIFICATIONS

Operating voltage .................................................................................................. 12±1.2 V

Consumption current (12 V) ................................................................................ max 0.2A1

Power consumption ........................................................................................... max 2.5W1

Communication interface standard ................................................... Ethernet (IEEE 802.3)

Important:

By default, the controller has a preset: IP-address and MAC-address, which are
indicated in the warranty certificate included in the passport and on the controller

board; subnet mask: 255.0.0.0; Gateway IP-address: 0.0.0.0.

Ethernet data transfer speed .......................................................................... 10/100 Mbps

Number of controlled ODs ...................................................................................... up to 22

Number of scanners connected via USB interface ............................................................ 2

Number of scanners connected via RS-232 interface ........................................................ 2

Number of readers connected via Wiegand interface ........................................................ 2

Supported Wiegand interfaces ........................................................... -26, -34, -37, -40, -42

Number of relay outputs for OD control .............................................................................. 2

Number of additional “open collector” outputs ................................................................... 2

Number of additional inputs, controlled by «dry contact» outputs ...................................... 2

Number of remote control inputs ........................................................................................ 3

Number of remote control indication outputs ..................................................................... 4

Mean lifetime ........................................................................................................... 8 years

Electric shock protection class ...................................................................... III (IEC 61140)

Web-interface ................................................................................................................ yes

Dimensions ............................................................................................... 210×189×46 mm

Weight ............................................................................................................... max. 1.5 kg

1

Not including the consumption of readers, scanners and other additional equipment.

2

Depends on the selected configuration of the controller. The configuration can be done in a third­party software via PERCo-C01 Exchange protocol or by using the templates from the controller
Web-interface (Sect. 9.2).

4

3.1 Supported scanners1

Scanners manufactured by «Metrologic»:

- IS3480 Quantum E

- MS 7120 Orbit USB

- MS 7180 OrbitCG

- 3310g Vuquest

- MS3580 Quantum T

Scanners manufactured by «DataLogic»:

- Magellan 800i

- (PSC) VS800

Scanners manufactured by «Motorolla»:

- Motorola (Symbol) MS-954

- Motorola (Symbol) MS-1204

- Motorola (Symbol) MS-1207

- SYMBOL LS 9208

C-01 Controller

- Motorola (Symbol) MS-3204

- Motorola (Symbol) MS-3207

- Motorola (Symbol) MS-2204

- Motorola (Symbol) MS-2207

Scanners manufactured by «Opticon»:

- Opticon OPM 2000

- Opticon NLV 2001

- Opticon NLV 1001

Note:

All scanners must be preconfigured before you connect them to the controller (set
interface parameters and barcode encode formats supported by scanner). Data
that was read by scanner will be transferred via Ethernet interface in accordance
with exchange application protocol (see PERCo-C01 exchange protocol).

1

Scanner parameters are listed in Sections 8.4.2, 8.4.3.

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Assembly & Operation Manual

4 DELIVERY SET

4.1 Standard delivery set

Controller ........................................................................................................................... 1

Jumper ............................................................................................................................... 5

Suppressor 15-18 V ........................................................................................................... 2

Mounting hardware:

Lead-through ................................................................................................................. 1

Plastic dowel .................................................................................................................. 3

Screw ............................................................................................................................ 3

Self-adhesive mount ...................................................................................................... 3

Plastic cable tie 100 mm ................................................................................................ 5

Package ............................................................................................................................. 1

Passport ............................................................................................................................. 1

Operation manual .............................................................................................................. 1

4.2 Additional equipment, offered as an option:

Controller power supply ..................................................................................................... 1

PoE-splitter1 ....................................................................................................................... 1

Siren .................................................................................................................................. 1

RC-panel ............................................................................................................................ 1

Wireless remote control kit2 ............................................................................................... 1

1

PoE-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.

2

WRC kit consists of a receiver that is connected to the controller and transmitters (tags).

6

C-01 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.

The controller provides:

 Connection via Ethernet (IEEE 802.3);
 Support of TCP/IP protocols;
 Supports application layer of communications protocol over WebSockets (RFC 6455),

the protocol uses JSON (RFC 7159) format for data exchange;

 Connection to system server by using IP-address that is set during configuration (it is

possible to use WSS (WebSockets over SSL/TLS) secure channel);

 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).

Following ways to set up IP-address, gateway and subnet mask are provided at the stage
of system configuration:

 work with default settings;
 static IP-address (manual input);
 receipt form DHCP-server.

The following additional equipment may be connected:

 up to two readers via Wiegand interface;
 up to two scanners via RS-232 interface;
 up to two scanners via USB interface;
 up to two door sensors or two passage sensors (turnstile PASS outputs);
 up to two RC buttons («Exit») for a lock or RC-panel of a turnstile (swing gate);
 up to five devices sending commands to additional inputs;
 up to two devices controlled by controller additional outputs («open collector» outputs)
 up to three devices controlled by controller additional outputs («TTL» outputs);
 emergency unlock devices (emergency passage unlock) Fire Alarm.

The controller as a part of ACS provides:

 operation in ACM: «Open», «Control»;
 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 card withdrawal function activation during the shutdown of the card capture

reader.

5.2 Controller boards

The controller includes two boards – top board (processor module) and bottom board

(process execution module). The top board with connecting blocks XS1, XS2 fits in the
connecting blocks XP1, XP2 of the bottom board. The boards of the controller are shown

on Figure 1 and 2. The purpose of bottom board connecting blocks is given in Table 1.

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Assembly & Operation Manual

Figure 1. Controller top board

8

Figure 2. Controller bottom board

C-01 Controller

Table 1. The purpose of connecting blocks of the bottom board

Contact Purpose

Connector XT1 (Inputs)

IN1 «Door sensor OD1» or «Input for PASS A signal»

GND «Common»

IN2 «Door sensor OD2» or «Input for PASS B» or «Additional input»
IN3 «Additional input»

GND «Common»

IN4 «Additional input»

Connector XT2 (RC)

FA «Input for emergency unlock devices (passage opening) Fire Alarm»

GND «Common»

DUA

DUSt «Input STOP for the RC» or «Additional input»

DUB

Ld A «Output for indication of direction A on the RC» or «Additional output (TTL-level)»

Ld St «Output for indication STOP on the RC» or «Additional output (TTL-level)»

Ld B «Output for indication of direction B on the RC-panel” or “Additional output (TTL-level)»

Buzz «Output for sound indication on the RC»

+12V «Output of +12V power for outputs OK1 and OK2»

OK1 «Additional output (open collector) »
OK2 «Additional output (open collector) »

+12V
GND

BB Output “Sound indication” (Beeper Out)

LRB Output “Red Led control” (Red Led Out)

LGB Output “Green Led control” (Green Led Out)

BD0 Input “Data 0” (D0) (input “Data 0”)

BD1

+12V
GND

AD1 Input “Data 1” (D1) (input “Data 1”)

AD0 Input “Data 0” (D0) (input “Data 0”)

LGA Output “Green Led control” (Green Led Out)

LRA Output “Red Led control” (Red Led Out)

BA

NO1 Normally open contact

C1 Central contact

NC1 Normally closed contact

NO2 Normally open contact

C2 Central contact

NC2 Normally closed contact

«Control input of the OD1 from the RC» or «Control input of direction A from the RC» or
«Additional input»

«Control input of the OD2 from the RC» or « Control input of direction B from the RC» or
«Additional input»

Connector XT3 (“open controller” outputs)

Connector XT4 (PS)

«Input of controller +12V power form external PS»

Connector XT5 (Wiegand)

Reader B

Input “Data 1” (D1) (input “Data 1”)

«Output of +12V power for readers A and B» (summary no more than 0.5 A)

Reader A

Output “Sound indication” (Beeper Out)

Connector XT6 (OUT1)

«Relay control output OD1»

Connector XT7 (OUT2)

«Relay control output OD2» or

«Additional output»

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Assembly & Operation Manual

Controller has on the top board:

 XP1 – connector for jumper installation that defines method of IP-address receiving

(see Sect. 8.3);

 X1 – microSD-card slot (installed not on every board model);

 X2 – connector for the Ethernet cable;

 X4 – double-sided connector for scanner connection via USB (bottom – USB1

connector, top – USB2 connector).

Controller has on the bottom board:

 XP1, XP2 – connecting blocks for the top board;

 XP3 – connector for selecting the energizing type of scanners that are connected

via RS-232. Select the variant according to service documentation of scanners:

 jumper is in position 1-2 – +12 V power is supplied from controller to contact №6

of DB9 (RS-232) connectors which are placed on the controller housing;

 jumper is in position 2-3 – +5 V power is supplied to contact №6 of DB9

connectors;

 jumper removed – the power is not supplied to contact №6 of DB9 connectors (if

scanner can be powered in a different way according to service documentation).

Important:

By default, the jumper is installed on XP3 connector on 2-3 contacts (this provides

+5 V of power).

 XP4.1 and XP4.2 – paired connector that is used for selection of lock which is

connected to XT6 (OUT1) connector:

 Jumpers pair are removed – standard electromechanical or electromagnetic lock,
 jumpers pair 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;

 XP5.1 and XP5.2 – paired connector for selection the type of lock that is connected

to XT7 (OUT2) connector (the selection of a lock type must be done the same way as
a lock for XT6 connector);

 XP6 – connecting block for power indication on the housing.

5.3 Signals of inputs

5.3.1 Inputs IN1 – IN4

The controller provides status control of four inputs controlled by “dry contact” or “open

collector” (OK): IN1-IN4. Connection to the inputs is performed via XT1 connecting block of

the controller bottom board (Figure 2 and 4).

Important:

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:

 input IN1:

o door sensor (reed switch) №1,
o PASS1 output of a turnstile,
o Optional equipment;

10

C-01 Controller

 input IN2:

o door sensor (reed switch) №2,
o PASS2 output of a turnstile,
o Optional equipment;

 inputs IN3, IN4:

o optional equipment.

Signals activation depends on description of their default status in Normal status of
contact parameter (“normal_state”):

 If input is described as Opened (“break”), 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 (“short”), 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.

Important:

By default, Input IN1 is configured as “Closed” after you select a controller
configuration template. Selection of the templates «Two two-sided locks» or
«Turnstile» will configure IN2 input as Closed.

Control element “relay contact” shall 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 shall provide the following
characteristics of signals:

Voltage at the closed contact (low-level signal at input of the controller) ......... max. 0.8V

5.3.2 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.

Important:

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:

 input FA:

o emergency unlock devices (passage emergency unlock) Fire Alarm;

 inputs DUA, DUSt, DUB:

o RC-buttons,
o RC-panel (WRC-device),
o optional equipment.

Activation and characteristics of signals of the control element are specified in the
Sect. 5.3.

Important:

By default, after selecting any controller template from the Web-interface:

 input FA is set as Closed.
 inputs DUA and DUB is set as Opened.

Selection of the template «VCP» or «Turnstile» will configure input DUSt as
Opened.

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Assembly & Operation Manual

5.4 Settings of output signals

5.4.1 Relay outputs OUT1, OUT2

The controller is equipped with four relay outputs OUT1, OUT2. Connection to the outputs

is performed via XT6, XT7 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 4):

 output OUT1:

o as a control output of OD1,
o as outputs to control optional equipment;

 output OUT2:

o as a control output of OD2,
o as outputs to control optional equipment.

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 ...............................................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 (“opt_mode”) parameter of OD.

In Potential mode of OD:

 In case of single passage through OD, output OUT is activated for period that is

specified by Card analysis time (“analysis_time”) parameter, or till the moment
of passage.

 In case OD is set into ACM «Open» output is activated till the mode changed.

In Pulse mode of OD:

 In case of single passage through OD, output OUT is activated for period that is

specified by Pulse duration time OD (“impulse_time”). In such case OD
remains unlocked until the passage is performed.

 In case OD is set into ACM «Opened» output is activated for a period of time that is

specified by Pulse duration time OD, and after that it will be activated each time
for the same period in one second after the passage is performed and till the ACM
changed.

Activation of inputs IN1 – IN2, configured as door sensor or signal PASS, define that the
passage was performed in the set direction.

5.4.2 Outputs OK1 and OK2

The controller is equipped with two outputs “open collector”: OK1 and OK2 (Figure 4).

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

12

C-01 Controller

5.4.3 Outputs Ld A, LdSt, Ld B

The controller is equipped with three outputs type «TTL» (chip 74LVC04 and resistor

200 Ohm): Ld A, LdSt, Ld B. Connection shall be performed to the contacts of XT2

connecting block of the controller bottom board.

Outputs can be used (Figure 4):

 as outputs of connection of indication of the RC-panel,
 as outputs of control of other optional equipment.

Characteristics of output signals:

Maximum voltage of direct current ................................................................. max. 3 V

Maximum current ...................................................................................... max. 0.01 A

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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 shall be performed by qualified
staff, after getting acquainted with the Operation manual and safety rules. Installation shall
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 shall 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 shall 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 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.

14

C-01 Controller

8 INSTALLATION

Installation shall 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 2.

 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 shall be performed by soldering only.
 All cables, entering controllers, shall be fixed with plastic ties to self-adhesive cable tie

mount, included into delivery set and installed inside the housing.

 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 2. Cables used for installation

Cable

№ Equipment

1 Ethernet (IEEE 802.3u) 100

Reader, card capture
reader Wiegand

2

Scanner via RS-232 15 Two twisted pairs 0,2 5e 2×2×0,52

Scanner via USB 2

3 PS 10 Twin cable 0,75 PVC 2×0,75 two-color

Door sensor (reed
switch); Additional sensor
(to input of the controller);

4

Additional equipment
(to output of the

controller)
5 RC-panel 40 Eight-core cable 0,2 CQR CABS8 8×0,22c
7 OD – Lock 30 Twin cable 0,75 PVC 2×0,75 two-color
8 OD – Turnstile 30 Six-core cable 0,2 CQR CABS6 6×0,22c

6

length, m,

max

30 Eight-core cable 0,2 CQR CABS8 8×0,22c

30 Twin cable 0,2

Cable type

Four twisted pairs
(starting from
Category 5)

From the scanner
package

Cross

section,

mm² min.

0,2

- -

Cable example

5e 4×2×0,52 F/UTP2­Cat5e

RAMCRO SS22AF-T
2×0,22
CQR-2

6

The power to card capture reader is supplied by a separate cable: flat cord with sheath and outer

sheath of PVC 2×0.75

.

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Assembly & Operation Manual

8.2 Installation order

Connection to the controller is performed in accordance with scheme shown on
Figures 4 – 16 with the use of cables from Table 2. The position of connecting blocks on
the controller’s board is presented on Figure 2.

Installation of connected devices (turnstiles, locks, power supply, etc.) is performed
according to the instructions given in technical documents of corresponding devices.

Keep the following sequence of actions during controller installation:

1. Unpack the box and check completeness of package contents according to Sect. 4.1.
Make sure that the equipment is not mechanically damaged.

2. Define the place for installation of the controller. Location of the controller shall comply
with operational 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 Figure 3. Lay and mount communication cables, power cables and
Ethernet cables to the location.

16

Figure 3. Marking of holes for the controller installation

C-01 Controller

Figure 4. Common scheme of connections

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. 8.3).

6. Connect Ethernet cable to X2 connector of the top board of the controller.

7. Connect PS, connect cable from PS XT

accordance with the scheme, shown on Figure 4.

4 connecting block of the controller in

Important:

The order of power connection of the controller via PoE-splitter is described in
Appendix 2.

8. Connect necessary equipment to interfaces of readers and scanners (Sect. 8.4).

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Assembly & Operation Manual

9. Connect the rest of necessary equipment. Follow the next recommendations in
connection of:

 electromechanical (electromagnetic) locks and latches (Sect. 8.5);
 turnstile (Sect. 8.6);
 OD VCP (boom gates, gates etc.) (Sect. 8.7);
 RC-panel (WRC device) (Sect. 8.8);
 emergency unlock devices (passage emergency unlock) Fire Alarm (Sect. 8.9);
 other optional equipment (Sect. 8.10).

Important:

Installation order of external verifying devices to the controller is described in
Appendix 1 (an example of the alcohol detection device).

8.3 Method for obtaining an IP-address

The method of obtaining an IP-address of the controller is defined by installation or

removing of the jumper on XP1 connector of the IP-Stile controller top board. Location of

the connector is indicated on the Figure 1.

Attention!

Installation or removal of the jumper has to be done only when the controller is
switched off.

The following methods of obtaining an IP-address are available (see Table 3):

1. User mode. Jumper is removed.
 When IP-address (Gateway, Subnet mask) has not been changed by user, the

controller is operating with default factory settings: IP-address and MAC-address
are indicated in the certificate of IP-Stile and on the controller board; subnet mask

255.0.0.0.

 When IP-address (Gateway, Subnet mask) has been changed by user, then the

controller will be operating with new settings without rebooting.

Important:

It is possible to configure network parameters of the controller via Web-interface or
by using the SW. In this case the controller and the PC should work
in the same subnet.

2. «IP MODE». Jumper is in 1–2 position.

 Operation in networks with dynamic allocation of IP addresses, the controller

obtains IP-address (Gateway, subnet mask) from DHCP-server.

3. «IP DEFAULT». Jumper is in 2–3 position.
 Controller is operating with factory settings of IP-address and MAC-address are

indicated in IP-Stile certificate and on the controller board; subnet mask

255.0.0.0.
 authentication (password for access to the controller) is switched off when the

jumper is installed, it is possible to set a new password.

18

Important:

User IP-address settings (gateway, subnet mask), will be saved in the controller
memory if they were applied while switching to «IP DEFAULT» mode. Switching
back to user mode (jumper is removed) will force controller to use setting s for
operation.

C-01 Controller

Table 3. Variants of jumper installation on XP1 connector

№ Jumper position on XP1 connector IP-address obtaining method

1

2

3

User mode

«IP MODE»

«IP DEFAULT»

8.4 Connection of readers / scanners

Attention!

When connecting to several interfaces simultaneously the total current consumption
of all connected readers and/or scanners must not exceed: 1.5 A for +5 V power
supply voltage and 0.5 A for +12 V power supply voltage.

8.4.1 Connecting readers by using Wiegand interface

Readers should be connected correspondingly to the contacts of XT5 connector in

accordance with general connection scheme (Figure 4). It is necessary to select Wiegand
value for «Communica

Important:

It is possible to use +12 V and GND contacts of XT5 terminal block, the total current

consumption of two connected readers must not 0.5 A.

tion interface» parameter (see Figure 6).

8.4.2 Connecting scanners by using RS-232 interface

Scanners should be connected correspondingly to the contacts of DB9 (RS-232)
connector that is located on the housing of the controller (see Figure 5). DB9 left connector

should be connected to X1 connector located on the bottom board of the controller, right
connector – to X2 connector (see Figure 4).

Figure 5. Location of DB-9 (RS-232) connectors on the housing

Parameter values of scanners that are connected via RS-232 interface:

 speed – 9600 bauds;
 parity check – no;
 flow control – no;
 8-bit data, 1 stop-bit, 1 start-bit.

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Assembly & Operation Manual

Depending on the type of scanner it is necessary to select «Barcode-RS-232» or
«Barcode-RS-232B (without line spacing) value for «communication interface» parameter.
(see Figure 6).

Important:

It is possible to supply power of +5 V or +12 V to scanners by using DB9 connectors
located on the controller housing (contact №6). This can be done by installing a

jumper on the correspondent contacts of XP3 connector (see Sect. 5.2). The total

current consumption of two connected scanners must not exceed: 1 A for +5 V or

0.5 A for +12 V.

8.4.3 Connecting scanners via USB interface

Connect scanners via USB interface by using X4 connector located on the controller top

board (USB double-sided connector: USB1 is located at the bottom, USB2 – at the top,
see Figure 1). Use profiled hole for cabling into controller housing (see Figure 5).

Scanners that are connected via USB can operate with C-01 controller or in keyboard

emulation mode (selector value  «Barcode-USB (keyboard)»), or in virtual COM-port
mode. In this case it is necessary to select «Barcode-USB» or «Barcode-USB (without line
spacing) value for «communication interface» parameter (see Figure 6). It is necessary to
switch off the awaiting for operational commands parameter if possible for scanners that
operate in virtual COM-port mode.

Important:

Scanners are powered by USB, the total current consumption of every scanner

should not exceed 0.6 A.

20

Figure 6. Selecting the type scanner in Web-interface

C-01 Controller

8.5 Connecting locks

When you connect the lock (latch) to the controller, follow the next recommendations:

1. To dissipate static electricity, 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 minimum 0.75 mm2.

2. Connect the lock (the latch) to XT6 or XT7 connecting blocks on the lower board of the

controller is made in accordance with scheme (Figure 4).

3. If you need to connect remote control button, connect it to XT2 of lower board of the

controller (Figure 8).

Figure 7. Connection schemes of the locks

21

Assembly & Operation Manual

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 installed close to

the lock (VD1 on Figure 7).

 If the connected electromagnetic lock is not equipped with demagnetizing circuit,

it is necessary to install a bidirectional suppressor from the delivery set (VD1 on

Figure 7).

 If the controller is connected via PoE-splitter, it is recommended to use only

electromechanical locks with spark protection diodes (VD1 on Figure 7), type

1N5819. The use of suppressor in such case is FORBIDDEN.

4. The reed switch is connected to XT1 connecting block of lower board (Figure 8). The

door sensor with the lock controlled by OUT1 is connected to IN1 input, OUT2 to IN2,
etc. The door sensor must be mounted that when the door is closed, the sensor can
always actuate.

Important:

The locks LB-, LBP-series do not require mounting of the door sensor (the
C-01 controllers can trace the door opening based on the contact group of the lock).

In this case, is necessary to installed jumpers on the lower board of the controller:

for OUT1 – XP4.1 and XP4.2, for OUT2 – XP5.1 and XP5.2 (see Figure 2).

5. Emergency devices Fire Alarm are connected to XT2 connecting block of bottom board

of the controller (in this case it is necessary to remove jumper by cord), see Figure 8
and Sect. 8.9.

6. Fix cables with plastic ties to self-adhesive cable tie mount, included into delivery set,
by installing them inside of the controller the housing.

22

Figure 8. Connection scheme for RC-button and door sensors

C-01 Controller

8.6 Turnstile and electromechanical gates configuration

Important:

In software of PERCo-Web for operating device of the controller:

 The parameter of OD Control output operation mode for PERCo

turnstiles should be in Potential mode.

 The parameter of OD Passage registration for swing gate PERCo-WMD-05S

in SW PERCo-S-20 should be in On ID Card presentation.

Follow the next recommendations to connect the turnstile (the gate) to controller:

1. To dissipate static electricity, is recommended to ground the housing of turnstile. It is
necessary to use the cable with cross section minimum 0.75mm.

2. Connect the turnstile (the control unit of the turnstile) to XT1, XT6, XT7 connecting

blocks of the controller bottom board in compliance with the scheme (Figure 10).

3. Connect the swing gate (the control unit of the turnstile) to XT1, XT6 and XT7

connecting blocks of the bottom board of the controller in compliance with the scheme
(Figure 9).

4. Connect RC-panel (or WC) to XT2 connecting block of the lower board of the controller

in compliance with the scheme (Figure 13).

5. Fix cables with plastic ties to self-adhesive cable tie mount, included into delivery set,
by installing them inside the housing of the controller.

Important:

Connection scheme of power circuit of the controller and the turnstile (the gate) in
case of connection via PoE-splitter is given on Figure 18.

Figure 9. Connection schemes of the gates

23

Assembly & Operation Manual

Figure 10. Connection schemes of “Turnstile control” configuration

8.7 Connecting OD VCP

When installing a controller, is necessary to correspond with operation logic of control unit
of vehicle checkpoint:

 Operation of control unit of vehicle checkpoint is performed via two relays - when

passage is allowed OUT1 relay is activated and held, sending “Open” signal. After a
vehicle has passed through the checkpoint (detected by passage detector), or after
waiting period is over, OUT1 relay switches to normal, after that OUT2 relay is
activated for 1 sec, sending “Close” signal. Also, OUT2 relay is activated for 1 sec by
Close button of RC-panel.

 If Automatic closing function is turned on in the control unit of OD of vehicle

checkpoint, operation from vehicle checkpoint is performed via one relay. When

24

C-01 Controller

passage is allowed OUT1 relay is activated and held, sending “Open” signal. After a
vehicle has passed through the checkpoint (detected by passage detector), or after
waiting period is over, OUT1 relay switches to normal, after that boom barrier is closed
automatically (it is recommended to set a minimum possible waiting period for
automatic closing). In such case OUT2 relay it is not used.

Installation of OD of vehicle checkpoint to the controller is performed in accordance with
instructions, given in technical documents of corresponding devices. Follow the next
recommendations (the position of the connecting blocks on the controller board is
indicated on Figure 2):

1. To dissipate static electricity is recommended to ground the housing of the OD.
Grounding shall be performed with a cable with wire section not less than 0.75 mm2.

2. General connection schemes of OD of vehicle checkpoint re given on Figure 11.

Figure 11. Connection scheme of boom barriers to the controller

25

Assembly & Operation Manual

Figure 12. Connection scheme of passage sensors

Note:

 Output normalization parameter of OD shall be set into After closing mode.
 If operation is performed via one relay, Automatic closing function shall be

turned on in the control unit of OD of vehicle checkpoint, in such case a
minimum waiting period for automatic closing shall be set - Regulation T.C.V.
(for CAME) and PAUSE TIME (for NICE).

3. Connect passage sensor to XT1 connector block of the bottom board of the controller

in accordance with the scheme, shown on Figure 12. Use cable №4 for connection
(Table 2). If several sensors are connected, their outputs shall be turned on
sequentially.

For CAME and GENIUS boom barriers infrared security sensors shall be used as
passage sensors, connected to the control unit of ODs of vehicle checkpoint in a
standard way. In such case they are connected to the controller of vehicle checkpoint
with parallel connection.

For NICE and FAAC boom barriers the general principle of connection of infrared
sensor to the controller of vehicle checkpoint is depicted in examples of connection

schemes for control unit of corresponding model. Instead of VD1 diode some other

decoupling circuit might be needed.

Attention!

 To ensure correct passage detection of a vehicle with a trailer or other parts

transparent for passage sensors, it is recommended to install several spaced­apart sensors, or to set value of OD Control pulse duration/Recovery delay of
passage sensors parameter sufficient for passage of transparent part of a
vehicle by the sensor.

 If there is no passage sensor is necessary, that the OD parameter Passage

registration should be set in On ID Card presentation mode. In such case

malfunction of OD of vehicle checkpoint is possible, due to the impossibility to
choose the optimal passage period.

4. Fix cables with plastic ties to self-adhesive cable tie mount, included into delivery set,
by installing them inside the housing of the controller.

8.8 RC-panel configuration

The controller in the relevant configuration allows connecting the RC-panel to control
turnstiles or swing gates. To connect the RC-panel to the controller are used:

 Three inputs to control the passage: DUA, DUSt, DUB;
 Four outputs to control the indication of the RC-panel: LdA, LdSt, LdB, Buzz.

The connection is made to contacts of XT2 connecting block (Figure 13).

26

C-01 Controller

Figure 13. Connection scheme of RC-panel or WC of “Turnstile control”

configuration

The inputs DUA, DUSt and DUB in these configurations of the controller are activated by
low-level signals (normally opened contact) regarding GND contact. Settings of signals
that can be used for connection of the RC-panel are specified in Sections 5.3.2 and 5.4.3.

8.9 Connecting a Fire Alarm Device

In case of fire alarm or other emergency situation, there is possibility of automatic
unlocking (passage opening) of all ODs connected to the controller board.

Emergency release (emergency passage opening) of ODs is produced by the command of
the emergency device Fire Alarm. The emergency device Fire Alarm is connected to the

input of the controller FA (contacts FA and GND of XT2 connecting block,

Figures 4, 8, 13). If the device Fire Alarm is absent, on the input should be installed jumper
by cord (default installation). Settings for signal FA are indicated in Sect. 5.3.2. When the
control signal is applied to the input FA, the controller operates in the mode Fire Alarm. In
this mode, all connected devic
commands are ignored.

es open for passage in both directions. Other control

8.10 Connection of optional equipment

To connect optional equipment, follow the next recommendations:

1. The typical connection schemes of the optional equipment are shown on
Figures 14, 15, 16.

2. To connect the optional equipment, use cable type №4 (Table 2).

3. Fix cables with plastic ties to self-adhesive cable tie mount, included into delivery set,
by installing them inside the housing of the controller.

27

Assembly & Operation Manual

Attention!

To connect the optional equipment with inductive load (Rn) to the outputs, it is

necessary to use spark protection diode (VD1 on Figure 14). For example, Schottky

diode for operating current not less than 1 A (1N5819).

Figure 14. Connection scheme of optional equipment to relay outputs of the

controller

Figure 15. Connection scheme of optional equipment to “Open collector” outputs

28

C-01 Controller

Figure 16. Connection scheme of optional equipment to controller inputs

29

Assembly & Operation Manual

9 CONFIGURATION

9.1 First start of the controller

To switch on the controller for the first time, follow the next recommendations:

1. Verify all connections (Sect. 8.2).

2. Connect PS to the supply line that provides voltage and frequency that are indicated in
the service documentation.

3. Switch on the PS.

4. The indication of PS located on the housing will light up.

5. Check and configure network parameters of the PC that will be used for configuration
and operation of the controller. It is important that PC and controller are in the same

subnet so they can be connected via Ethernet. By default, PERCo controllers are using

IP-addresses from 10-th subnet, that is why it is necessary to configure additional
parameters TCP/IP of the PC IP-address: 10.x.x.x (x- random numbers) and subnet
mask 255.0.0.0. There is no need to use such servers and services as DNS and WINS.
Though, the controller should be connected to the same network segment or directly to
the network card of the PC. After connection is done, you can change controller
network parameters to parameters recommended by SW system administrator or by
using the WEB-Interface.

6. Configurate the controller. Controller configuration options are described in Sect. 9.2.

9.2 Controller configuration options

9.2.1 Configuration by means of application exchange protocol

Configuration of the controller is done by using a third-party SW and by mans of
application exchange protocol (see. PERCo-C01 exchange protocol). The working order of
a third-party SW should be described in service documentation for this SW.

9.2.2 Using configuration templates from the Web-interface

There are three configuration templates that are available in the Web-interface of the
controller (see Sect. 9.3) which are used for controller resources configuration and
operating relevant ODs:

1. VCP (see Sect. 8.7).

2.

Two two-sided locks (see Sect. 8.3).

3. Turnstile (see Sect. 8.6).

Attention!

Change of configuration template will lead to erasing of all previously set resources
configuration and internal responses settings of the controller.

Note:

For «Two two-sided locks» configuration:
 It is possible to delete the second lock via Web-interface if it is not intended to

be used (it is recommended to disconnect all physical contacts and readers that
are associated with this lock).

 Configuration of controller resources for one-sided lock can be done via Web-

interface (it recommended to delete the second reader of this lock after changing
its type).

By default, the controller operates by using the «Turnstile» template.

30

C-01 Controller

9.3 Connecting to Web-interface of the controller

Launch browser (eg. Internet Explorer for MS Windows OS or Safari for MacOS), and type
the controller IP-address in the URL bar. The controller Web-interface start page will
appear.

Figure 17. Web-interface start page

1 – title bar; 2 – navigation menu; 3 – page working area

Important:

Description of the Web-interface and order of the primary configuration order are
shown in Web-interface User manual (see Appendix 3).

10 SW UPDATING

SW updating can be done via controller Web-interface. Description of the updating
process can be found in the Web-interface User manual.

31

Assembly & Operation Manual

11 OPERATION

When operating the controller, follow security measures indicated in Sect. 7.2.

11.1 ACM and controller operation algorithm

Important:

 In configurations «VCP» and «Two two-sided locks» change of ACM for VCP

and locks shall be made simultaneously for both directions.

 Operation mode in configuration “Turnstile” is set independently for each

direction.

The controller, which is operated as a part of ACS supports the following ACM (indication
of ACS is given in the Tables 4 and 5):

ACM “Open” - the mode of free passage.

 OD will be unblocked before the change of ACM.
 Pressing of buttons of RC-panel and RC-button (“Exit”) are ignored.

ACM “Control” - the basic operation mode as a part of ACS.

 OD is blocked.
 When an access granting card is presented to the reader, OD is unblocked for PWP.

Change of ACM is done by command from the SW or Web-interface.

Attention!

If the server connection is lost while operating in ACM «Control», it will be possible
to operate OD by using RC buttons or the RC. If data exchange is interrupted for
more than N seconds (N should be configured by user via web interface), the «lost
server connection» error will be registered.

It necessary to preconfigure the controller before using it (see Sect. 9). It is possible to
change devices parameters of the current configuration by using Web-interface or
exchange protocol (reader, OD, physical contact, internal response and network
parameters).

Operation algorithm of the controller in various ACM7

1. ACM «Control»: OD is blocked, «ACM Control» is displayed (Sect. 11.2).

 After receiving the server command «open OD in direction…» OD will unlock in the

desired direction for the PWP, «Access granted» message will be displayed on
indicators (Sect. 11.2). OD will be blocked after the passage is performed, «pa
by the server command in direction…» event will be generated, indicators will display
«ACM Control» (Sect. 11.2).

If server sends «block direction…» command or RC STOP button is pushed before
the passage is performed - OD will be blocked, «passage denial by the server
command in direction…» or «passage denial by the RC command in direction…»
event will be generated, indicators will display «ACM Control» (Sect. 11.2).

ssage

7

Controller can operate ACM indication only for readers that are connected via Wiegand interface
(see Sect. 11.2). Variants of optional indication for other readers (scanners) – check the service
documentation for the device.

32

C-01 Controller

If passage was not performed till expiration of PWP, then OD will be blocked,
«passage denial by the server command in direction…» event will be generated,
indicators will display «ACM Control» (Sect. 11.2).

 After pushing RC accept button OD will unlock in the desired direction for the PWP,

indicators will display «Access granted» (Sect. 11.2). OD will be blocked after the
passage is performed, «passage by the RC command in direction…» event will be
generated, indicators will display «ACM Control» (Sect. 11.2).

If server sends «block direction …» command or RC STOP button is pushed before
the passage is performed - OD will be blocked, «passage denial by the server
command in direction…» or «passage denial by the RC command in direction…»
event will be generated, indicators will display «ACM Control» (Sect. 11.2).

If passage was not performed till expiration of PWP, then OD will be blocked,
«passage denial by the RC command in direction…» event will be generated,
indicators will display «ACM Control» (Sect. 11.2).

 After receiving an identification number from reader the controller sends it to server

and awaits the correspondent command8:

 If server sends «access denial» command, or if server didn’t respond during

PWP, then «Access denied» message will be displayed for 1 second and «ACM
Control» message will be indicated (Sect. 11.2).

 If server sends «Access granted for identificator №…» command, then OD will

be unlocked in the desired direction for the PWP, indicators will display «Access
granted» (Sect. 11.2). OD will be blocked after the passage is performed,
«passage with identificator № … in direction …» event will be generated,
indicators will display «ACM Control» (Sect. 11.2).

If server sends «block direction …» command or RC STOP button is pushed
before the passage is performed - OD will be blocked, «passage denial by the

server command for identificator № … in direction…» or «passage denial by the
RC command for identificator № … in direction…» event will be generated,

indicators will display «ACM Control» (Sect. 11.2).

If passage was not p

erformed till expiration of PWP, then OD will be blocked,
«passage denial for identificator № … in direction…», indicators will display
«ACM Control» (Sect. 11.2).

 If server sends «Access granted for identificator №… with identificator

withdrawal» (if Wiegand card capture reader is connected to the controller), the

controller will activate «Withdraw card» output for the Card withdrawal period

(the indication that informs about withdrawal readiness will light up on the card
capture reader) and awaits «Card withdrawn» signal form card capture reader.
After receiving the signal, the controller will normalize «Withdraw card» output,
OD will be unlocked in the desired direction for the PWP, indicators will display
«Access granted» (Sect. 11.2)9.

8

All RC command are ignored when the identificator number has been sent to the server and till it

has responded.

9

It is necessary to configure additional inputs and outputs and specify the internal responses of

the controller in order to use it with the card capture reader.

33

Assembly & Operation Manual

OD will be blocked after the passage is performed, «passage with withdrawal of
identificator № … in direction…» event will be generated, indicators will display
ACM «Control» (Sect. 11.2).

If server sends «block direction…» command or RC STOP button is pushed
before the passage is performed - OD will be blocked, «passage denial by the
server command with withdrawal of identificator № … in direction…» or
«passage denial by the RC command with withdrawal of identificator № … in
direction…» event will be generated, indicators will display «ACM Control»
(Sect. 11.2).

If passage was not performed till expiration of PWP, then OD will be blocked,
«passage denial with identificator withdrawal № … in direction…» event will be
generated, indicators will display «ACM Control» (Sect. 11.2).

If server «block direction …» command received or the RC STOP button is
pushed before the «Card withdrawn» signal has been received from the card
capture reader, the «Withdraw card» output will be normalized, «passage denial
by the server command withdrawal of identificator № … in direction…» or
«passage denial by the RC command without withdrawal of identificator № … in
direction…» event will be generated.

«Withdraw card» output will be normalized and «passage denial without
withdrawal of identificator № … in direction…» event will be generated if the

controller will not receive «Card withdrawn» signal from card capture reader.

2. ACM «Open»: OD is blocked; indicators display «ACM Open» (Sect. 11.2).
Commands sent by server and RC are ignored.

 When any type of passage is performed - «passage in direction…» event will be

generated.

 After receiving identificator number the controller sends it to server and awaits the

correspondent command:

 If server sends «Access denied» command, or if server didn’t respond during

PWP, indicators will display «Access denied» message for 1 second and then will
display «ACM Open» message (Sect. 11.2).

 If server sends «Acce

message will be displayed by indicators (Sect. 11.2). If the passage has been
performed through OD during PWP, then «passage with identificator № … in
direction…» event will be generated, indicators will disp
massage (Sect. 11.2).

If passage was not performed till expiration of PWP, then «passage denial with
identificator № … in direction…» event will be generated, indicators will display
«ACM Open» message (Sect. 11.2).

ss granted for identificator № …», then «Access granted»

lay «ACM Open»

11.2 Indication of ACS and controller configurations

Important:

Controller operates indication of ACM only for readers that are connected via
Wiegand interface. Controller does not control indication when the identificator
number is detected. Optional indication of readers (scanners) configuration can be
found in service documentation for these devices.

34

Indication for readers that use Wiegand interface is given in Tables 4 and 5:

Table 4. Indication of readers with one two-colored indicator

C-01 Controller

Controller status

double line

single line Sound (sec.)

Red Green

Lost server connection 5 hz in antiphase 5 hz red / green off

ACM Control on off Red off

ACM Open off on Green off

Access granted off on Green 0,5

Access denied on off Red 1

1,3 s green /

FireAlarm input activation Off 1,3 s / 0,2 s

10

0,2 s red

Table 5. Indication of readers with three one-colored indicators

Controller status Red Green Yellow Sound (sec.)

Lost server connection 5 hz in antiphase off off

ACM Control on off off off

ACM Open off on off off

Access granted off on off 0,5

Access denied on off off 1

off

FireAlarm input activation off 1,3 s green / 0,2 s yellow off

Note:

 After the access is granted, indication is turned on for PWP, or until the passage

is performed.

 When access is denied indication is turned on for 1 second.

10

Blinking (going off briefly) – 1.3 seconds is on, 0.2 seconds is off.

35

Assembly & Operation Manual

12 TROUBLESHOOTING

The elimination of possible malfunctions listed below is made by the buyer. If the fault

persists, we recommend you to contact one of the service centers of PERCo company. A

list of service centers is given in the Certificate.

Before the diagnostics you need to open the housing of the controller.

Each relay output of the controller is equipped with diagnostic LED indicator for
convenience. The turn on/off of LED indicators identifies that relay is activated/deactivated.

12.1 The controller doesn’t work

Possible causes of the controller malfunction:

1. Loose of terminal screws in terminal blocks of the controller board – tighten the
screws with the screwdriver.

2. Malfunction of power source of the controller – check the power source.

3. Malfunction of connection lines used to connect various devices (reader, indication
block with infrared detector, lock, turnstile, door sensor, remote control button, siren,
etc.) to the controller – check connection lines.

4. Identical addresses of connected devices are set – set different addresses. Check
the connection of address lines.

5. Failure of devices connected to the controller – check the operation of devices.

6. Failure of radioelectronic components, installed on the controller board – contact

PERCo service in order to replace this board.

12.2 Failure of communication with PC

Possible causes of this malfunction:

1. Network settings in the computer are missing – set IP-address and subnet mask of
the computer. The controller shall be connected either directly to network connector of
network card of the computer or to the same Hub / Switch the computer is connected
to.

2. Invalid password of the controller. Check the password entered in the software.

3. Malfunctions of the computer (software, databases etc.).
To detect this malfunction, start the command:

ping x.x.x.x, where x.x.x.x – is the IP-address of the controller.

If there is a communication, you will see lines similar to the following:

Reply from x.x.x.x: bytes=32 time<10ms TTL=128

If there is no communication (response), check routing settings of your network.

4. Malfunctions of equipment of Ethernet network, installed between the computer
and the controller: hub, switch and other network equipment including communication
cables.
To detect this malfunction, start the command:

ping x.x.x.x -l 576, where x.x.x.x – is the IP-address of the

controller.
If there is a communication and standard minimal packets (576 bytes) are not
fragmented, you will see lines similar to the following:

Reply from x.x.x.x: bytes=576 Time<10ms TTL=128

In such case IP-packets are not fragmented to the size less than 576 bytes and the
selected connection shall be operative.
If the positive answer is not received, the problem might be with network switching
equipment that fragments IP-packets to the size less than 576 bytes. Check settings of

36

C-01 Controller

this equipment, enlarge the size of MTU. This parameter is usually specified as
MaxMTU or IPMTU.

5. If several variants of switching are possible, use command: ping x.x.x.x -l
576 -t
By switching with various variants, look at response time and choose the connection
with the fastest response.

6. Malfunctions of the controller. Failure of elements providing connection via Ethernet
interface (IEEE 802.3).
To detect this malfunction, have a look at two indicators, installed 8P8C (RJ45)
connector of Ethernet connection:
 LINK – connection:

o Green light is on – the controller detects connection to Ethernet network,
o Green light is off – the controller does not detect connection to Ethernet network;

 ACT – data exchange:

o Yellow light is blinking – the controller detects data exchange via Ethernet

network,

o Yellow light is off – the controller does not detect data exchange via Ethernet

network.

If the controller does not detect connection to Ethernet network (light indicators are
off), connect it to the cable that connects the other controller or computer.
If the controller still does not detect connection to Ethernet network or the

communication is not reestablished, contact PERCo service in order to repair this

controller.

37

Assembly & Operation Manual

13 MAINTENANCE

It is necessary to perform technical maintenance of the controller. Periodicity of technical
maintenance shall be provided according to the regulation №1 (see Table 6) – once per
six months. In case of failures - the execution of maintenance work should be done after
failures have been fixed. Technical staff performing maintenance of the controller shall be
acquainted with construction and operating procedures of the controller. All works shall be
done by high-skilled electricians. Information about scheduled maintenance is recorded in
the log of maintenance.

Please refer to Sect. 7 “Safety requirements” of this Manual when performing technical
maintenance.

All control and measuring equipment should be calibrated. Maintenance of other devices
of the system, such as locks, turnstiles, swing gates, security detectors, power supply, etc.
refer to operating manuals for these devices.

Table 6. List of maintenance works according to the regulations №1 (checklist №1)

Devices,

Work Procedure

1.1 Disconnect power supply from AC
current, clean up the controller and power
supply surface from dust, dirt and damp.

1.2 Remove the controller and power supply
housing, clean up surface from dust and
damp. Measure the voltage of the extra
power supply. In case you may charge or
replace the battery.

1.3 Remove dust, dirt, corrosion from the
surface of connecting blocks, jumpers and
protectors.

1.4 Verify compliance of the denomination
and the condition of the fuses.

1.5 Verify connection of external circuits to
connecting blocks of the controller.

1.6 Tighten the screws on the connecting

1 External inspection, cleaning of the controller

blocks where the mount is loose.

2.1 Check of the controller in accordance
with the Sect. 11.1 and the configuration of
the resources.

2 Operability test

instrument,

equipment

Rags, brush, flat
brush

Screwdriver,
rags, flat brush,
measuring
device.

Rags, flat brush,
gasoline

Screwdriver.

Screwdriver.

Norms and events

There should not be
traces of dirt and
damp.

The voltage should
correspond battery
passport data (not less
than 12.6 V).

It should not be
corrosion and dirt.

It should conform to
the scheme of the
external connections.

Restore connection, if
the wire is broken off.
Replace the wire, if
insulation is damaged

Indication on the
controller,
corresponding to
events (Sect. 11.2).
Formation of signals at
the outputs
to their configuration.

according

38

C-01 Controller

14 TRANSPORTATION AND STORAGE

The controller in the original package should be transported in closed freight containers or
in other closed type cargo transport units.

The storage of the controller is allowed indoors at ambient temperature from -20°C to
+40°C and at relative air humidity up to 98% at +25°C.

39

Assembly & Operation Manual

APPENDICES

Appendix 1. Instruction on connection of alcohol detector

It is possible to connect to the controller the alcohol detection device (hereinafter
breathalyzer) to monitor the temperance of employees and visitors when they enter and/or
leave the company (one breathalyzer is for one direction of passage).

Operation of the controller with the breathalyzer is possible only after configuring inputs in
Web-interface or in a third-party SW.

Important:

Controller does not take part in data processing. It only sends the status of inputs to
a third-party SW, which provides the execution of algorithm for operating with
breathalyzer.

The breathalyzer has single control output where the signal PASS is removed. The
scheme on Figure 19 is used to connect the breathalyzer (any free input is used in the
current configuration of the controller).

Figure 19. Connection scheme of the breathalyzer

The breathalyzer has two control outputs where the signal PASS and FAIL are removed.
The scheme on Figure 20 is used to connect the breathalyzer (two different free inputs are
used in the current configuration of the controller).

40

Figure 20. Connection scheme of the breathalyzer

C-01 Controller

41

Assembly & Operation Manual

Appendix 2. Instruction on connection of the controller through

PoE-splitter

Attention!

 Instruction provided refers to the splitters included in supplementary equipment

delivery set.

 Total power consumption of the controller and of all the devices powered by it

should not exceed 12 W. It is also recommended to leave min 10% reserve
power.

Splitter description

PoE-splitter (hereinafter – splitter) is designed for energizing equipment, connected via

Ethernet network. Splitter operates with any network commutators (hereinafter – Switch),

supporting technology of electric power transmission via PoE twisted pair wire and
compatible with IEEE 802.3af standard.

Splitter is designed as a block of electronics in a plastic housing featuring the following
outputs:

Con 1 – output for Ethernet cable from Switch connection;
Con 2 – output for Ethernet controller cable connection from the power receiving

device;

Con 3 – power output for device power cable connection.

Important:

For some models of splitters output voltage is chosen with the switcher. Operating

with PERCo equipment it is necessary to turn the switcher into “12V” mode.

Requirements for connecting devices

The characteristics of power consumption of the controller when connected through splitter
shall meet the following requirements:

Admissible value of supply voltage, V ............................................................. 12±1,2

Minimum total current, mA ............................................................................ min 120

Maximum total current consumption (12 V), A ................................................. max 1

Maximum total power consumption, W........................................................... max 12

In order to avoid exceeding the total power consumption is not recommended to provide
power from the controller to connected optional equipment (siren, passage sensors, etc.).

The controller powered from the splitter can be connected up to two readers, scanners and
OD. It is possible to use up to two electromechanical locks or one of the turnstiles
indicated in Table 7.

Table 7. OD with power connection through PoE-splitter

Types of controller configurations OD

«Controller to control the locks»

«Controller to operate the turnstile»

Electromechanical lock (LC, LB and

LBP-series – up to 2pcs).

Turnstile with power consumption

no more than 9W

T-5
TTR-04.1
TTD-03.1
TTD-03.2

42

C-01 Controller

Procedure of controller connection

Cables used in installation are mentioned in Table 2. When you connect the controller
through the splitter, follow the next procedure:

1. Find the mounting place of the splitter. It is recommended to install the splitter inside
of controller housing (do not install the splitter from the controller at distance more
than 2m).

2. Connect Ethernet cable from the controller to Con2 connector of the splitter.

3. Connect the power supply to Con3 connector. If necessary OD can be connected to
Con3 connector too. Connection scheme is shown on Figure 18 (plug for connection

to connector is included in delivery kit of the splitter).

4. Connect Ethernet cable from Switch to Con1 connector of the splitter.

5. Connected device will be powered after verification between Switch and the splitter.

In case if you need to power off the controller, it is sufficient to disconnect Ethernet cable

(from Switch) from Con1 connector of the splitter.

Figure 18. Connection scheme of the controller through PoE-splitte

43

User Manual

Appendix 3.

C-01 Controller Web-interface.

User Manual

CONTENTS

1. CONNECTION TO WEB-INTERFACE OF THE CONTROLLER................................45

2. SETTING ....................................................................................................................46

2.1. Change of network setting of the controller ...........................................................46

2.2. Change of server IP-address and encryption parameters .....................................46

2.3. Setting of the access password of the controller ...................................................47

3. CONFIGURATION......................................................................................................47

3.1. The choice of the controller configuration .............................................................47

3.2. Configuration of the settings of the controller resources .......................................48

3.2.1. Operating devices.........................................................................................48

3.2.2. Physical contacts (inputs and outputs) .........................................................48

3.2.3. Readers ........................................................................................................50

3.2.4. The reading format of the card identifiers .....................................................52

4. CONTROL OF OPERATING DEVICE ........................................................................53

5. STATUS .....................................................................................................................53

6. FIRMWARE UPGRADE .............................................................................................54

7. UPGRADING KEYS FOR ENCRYPTION OF INCOMING CONNECTION ................55

44

C-01 Controller Web-Interface

1. CONNECTION TO WEB-INTERFACE OF THE CONTROLLER

Connection between the controller and the computer is performed via Ethernet interface
(IEEE 802.3).

To connect the controller to Web-interface:

1. Open Web-browser (e.g. Internet Explorer).

Note:

Web-interface was tested with the Web-browsers: Microsoft IE version 10 or higher,
Google Chrome version 32 or higher, Mozilla Firefox version 32 or higher, Opera

version 30 or higher, Microsoft Edge and for MacOS Apple Safari 9 or higher. If you
use other browsers and outdated versions, malfunctions of the Web-interface can
appear.

2. Enter in the address bar IP-address of the controller and press the button Enter on the
keyboard. If necessary, enter the access password to the controller. By default, there
is no password.

3. After that the main Web-page of the controller interface is opened:

At the home page are displayed the model, configuration, network settings of the controller
and the version of embedded software.

On the page, you can select following:

1. The title bar if he page contains PERCo trademark and buttons to select the language
of Web-interface. By clicking on the PERCo company logo you navigate to the main

page from other sections of Web-interface.

2. Sidebar of the Web-interface navigation. The panel has the following structure:

“Parameters”

“Configuration”

“OD control”
“Status”
“Service”

“Network”
“Server”
“Password”
“Template”
“Edit”

“Operation devices”
“Physical contacts”
“Readers”
“Internal responses”

3. Working area of the page.

45

User Manual

2. SETTING

2.1. Change of network setting of the controller

The controller has following configurations by default (they are specified in the certificate of
the device and on the labels on the controller):

 MAC-address 00-25-0B-xx-xx-xx, where xx – is a number from 00 to FE;
 IP-address 10.x.x.x, where x – is a number from 0 to 254;
 Subnet mask 255.0.0.0.

To change network settings of the controller (only in user mode, Sect. 8.3 of Operation
manual):

1. Click consistently in the Web-interface menu: Parameters → Network. The page with
working area will be opened:

2. In the input fields IP-address:, Mask:, Gateway: the new values of network settings of
the controller.

3. Click Save button. New network settings will be saved in the controller.

2.2. Change of server IP-address and encryption parameters

To change the server IP-address which will be used for controller connection (outgoing
connection):

1. Click consistently in the Web-interface menu: Parameters → Server. The page with
working area will be opened:

2. Enter the server x.x.x.x IP-Address in the Server address field, where x is a
number from 0 to 254. The outgoing connection port is fixed to 1234. I.e. a third­party server must open TCP-port 1234.

3. Select «Encryption»  «No» option if you don’t need the encryption, otherwise
select the “SSL” option. Particular encryption type SSL/TLS will be defined by the
server which is connected to the controller.

Note:

This type of encryption doesn’t depend on the incoming connection encryption type.
I.e. it is possible that incoming connection uses the encryption (e.g. browser
connects via https), and outgoing connection – does not. And vice versa.

4. Click Save button. The controller will send connection requests with the server by
using the specified IP-address and TCP-port 1234.

46

C-01 Controller Web-Interface

2.3. Setting of the access password of the controller

By default, access password of the controller is not specified. To change or set the new
password:

1. Click in the Web-interface menu: Parameters → Password. The page with working
area will be opened:

2. In the New password: field enter the new password of the controller, in the
Confirm password: field enter the password again to confirm the correct input.

3. Click the Save button. The new password will be saved in the controller.

3. CONFIGURATION

3.1. The choice of the controller configuration

Attention!

If you change the configuration, the previous configuration and at the internal
responses of all resources of the controller will be deleted. In the new template for
the resources of the controller is installed default configuration. The list of
downloaded access cards, related user information, rights and parameters of
access remain the same.

To change the configuration of the controller:

1. Click in the Web-interface menu: Parameters → Template. The page with working
area will be opened:

2. The controller configurations are presented in dropdown list of working area of the
page. Select the required configuration.

3. The controller configuration will be changed. Change the configuration template can
take several seconds. A pop-up information window of the following type appears for a
few seconds:

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User Manual

3.2. Configuration of the settings of the controller resources

3.2.1. Operating devices

To configure settings of the controller resources to control OD:

1. Click consistently in the Web-interface menu: Configuration → Edit → Operating
devices. The page with working area will be opened:

2. To change settings of the OD or to delete it from the list, click in the working area of
the page on the line with his name, to add a new OD to the list - click the Add
button. The window Operating device will appear:

3. In the opened window make the necessary changes of settings for corresponding
resources.

4. Click the Save button. The window will be closed, changed settings will be passed to
the controller.

5. To remove the OD from the configuration, in the window Operating device click the
button Delete. The OD will be deleted.

6. To exit the window Operating device without saving the changes, click the Cancel
button or the Close button

.

3.2.2. Physical contacts (inputs and outputs)

When setting the controller resource parameters, one of the configuration templates for the
inputs and outputs involved in controlling the selected type of OD is set corresponding
parameters and functions and the OD number and the direction of the passage through
OD to which this physical contact is attached.

48

C-01 Controller Web-Interface

Inputs and outputs that are not involved in the selected configuration template are not
listed by default in the list of physical contacts, but they are available for adding to the list
and further adjusting their parameters.

To configure the settings of the controller inputs and outputs:

1. Click consistently in the Web-interface menu: Configuration → Edit → Physical
contacts. The page with working area will be opened:

The Status column displays the current state (at the time of opening the page) of the
contact - Active / Normal.

2. To change the parameters of a physical contact or delete it from the list, click on the
line with its name in the work area of the page; to add a new input or output to the list ­click one of the buttons Add input, Add output. The Physical contact Input
(Output) window opens.

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User Manual

3. In the opened window make necessary changes of the settings:

 the Contact selector contains the name of the physical contact in accordance

with its designation on the controller board;

 the Function selector sets the function of the contact;

 the Resource selector specifies the number of the resource to which the physical

contact is attached (OD number / standard input number;

 the Direction selector specifies the direction of the resource to which the

physical contact is attached (only for the resource involved in the control of the
OD);

 the Normal state selector sets the normal state of the contact - Opened or

Closed for inputs and Powered or Not powered for outputs;

 the Anti-bounce selector sets the “anti-bounce” time for the inputs. It is

recommended for buttons, switches, reed switches to choose a time of "anti­bounce" of the order of 50 - 100 ms, for signals generated by devices (for
example, turnstile passage sensor) - about 10 - 20 ms.

4. Click the Save button. The Physical contact window will be closed, the changed
settings of inputs (outputs) will be passed to the controller.

5. To delete a physical contact from the configuration list, click the Delete button. The
Physical contact window will be closed; the physical contact will be deleted.

6. To exit from the Physical contact window without saving changes, click the button

Cancel. Also, it is possible to close the window using the Close button .

3.2.3. Readers

In all controller configurations for each direction of every OD is determined one reader
(scanner). Optionally, it is possible to add in the configuration optional readers (scanners)
for the directions of passage through the OD. For one direction can be installed two or
three readers (scanners) working in parallel. It can be useful, for example, when
connecting the card capture reader, organizing the vehicle checkpoint to accommodate the
readers at different levels (for cars and trucks), etc. Totally, to the controller can be
connected up to 6 readers (scanners).

To configure the settings of the reader:

1. Click consistently in the Web-interface menu: Configuration → Edit → Readers. The
page with working area will be opened:

50

C-01 Controller Web-Interface

2. To change the parameters of the reader or to delete it from the list, click in the
working area of the page on the line with its name, to add the reader in the list click
the Add button. The Reader window will be opened:

3. In the opened window make the necessary changes of the settings:

 the Number selector specifies the number of added reader;

 the Communication interface selector specifies the type of reader;

 the Connection port selector specifies the port number of the reader / scanner

connection  1 or 2. For Wiegand readers, port 1 corresponds to the set of contacts
with the suffix "A", port 2 corresponds to the set of contacts with the suffix "B" on
the lower controller board (see Assembly & Operation Manual, Sect. 8.4.1). For
scanners with RS-232 interface, port 1 corresponds to the left DB-9 connector on

the controller case (X1 on the bottom board), port 2 corresponds to the right DB-9
(X2 on the bottom board) (see Assembly & Operation Manual, Sect. 8.4.2). For

scanners with USB interface, port 1 corresponds to the lower USB connector, port 2
corresponds to the upper USB connector on the controller top board (see Assembly
& Operation Manual, Sect. 8.4.3);

 the Operating device selector specifies the number of the OD to which the reader

is attached;



the Direction selector sets the direction of the OD to which the reader is attached.

4. Click the Save button. The Reader window will be closed, changed Settings will be
passed to the controller, added reader with assigned number will be added in the list.

5. To remove the reader from the configuration, click the Delete button. The Reader
window will be closed; the reader will be removed from the list.

6. To exit from the Reader window without saving changes, click the button Cancel. Also,
it is possible to close the window using the Close button .

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User Manual

3.2.4. The reading format of the card identifiers

To set internal responses of the controller:

1. Click consistently in the Web-interface menu: Configuration → Edit → Internal
responses. The page with working area will be opened:

2. To add the new response, click the Add button, to change the settings of internal
response or delete it, click in the working area of the page on the line with the
response name. The Internal response window will be opened:

3. In the opened window make the necessary changes of the settings:

 the Number selector sets the number of response (from 1 to 30);

 the Source type selector specifies the launch condition of the controller response;

 the Receiver type selector specifies the controller response under condition of the

responses launch;

 Source number (Receiver number) and Source direction (Receiver direction)

selectors determine numbers and directions of corresponding resources of the
controller which are sources (receivers) of the response;

 Response time and Response characteristics selectors set corresponding

settings of the response.

4. Click the Save button. The Internal response window will be closed; the changed
settings will be passed to the controller.

5. To remove the response from the list, click the Delete button. The Internal response
window will be closed; the internal response will be deleted.

6. To exit the window Internal response (number) without saving changes, click the
Cancel button. Also, it is possible to close the window using the Close button .

52

C-01 Controller Web-Interface

4. CONTROL OF OPERATING DEVICE

To control the operating device and change the operation mode in the direction with
associated reader, make following:

1. Click in the Web-interface menu: OD control. The page with working area will be
opened:

2. Click in the working area of the page on the line with OD, to which it is necessary to
issue the control command. The control window with selected OD will be opened:

3. Using the buttons at the bottom part of the window, give the necessary command. The
control window will be closed; the command will be passed to the controller. To close

the window without submitting command is possible with the Close button .

5. STATUS

To view the controller status and status of all his resources click in the Web-interface
Status menu. The page with working area will be opened:

53

User Manual

6. FIRMWARE UPGRADE

To update the firmware of the controller:

1. Click in the Web-interface Service menu. The page with working area will be
opened:

2. To update the firmware of the controller, on the Update firmware line, click
Overview for the location of the firmware file and click the Upload button. The
transfer of the "firmware" file to the device will begin. To the right of the Upload
button, the download process appears as the percentage of the downloaded file:

3. When the download is complete, the progress bar disappears and a pop-up window
appears with the text "Done". The firmware file for the device was successfully
downloaded:

4. Click Restart. A pop-up window appears with the text "Device reboots". The device
will restart and firmware update.

5. The process of rebooting and updating the firmware takes to several tens of
seconds. During the process, pop-up windows may appear with a text about the
problem with the socket. At the end of the firmware update process, a pop-up
window will appear with the text "Socket ready".

54

C-01 Controller Web-Interface

7. UPGRADING KEYS FOR ENCRYPTION OF INCOMING CONNECTION

To update encryption keys:

1. Click in the Web-interface Service menu. A page with working area will be opened:

2. To update the encryption keys, use in the "Update HTTPS key" line the Overview
button to locate the keys file and click the Upload button. The file will be transferred to
the device. To the right of the Upload button, the download process appears as the
percentage of the downloaded file.

3. When the download is complete, the progress bar disappears and a pop-up window
appears with the text "Done". The keys file for the device was successfully downloaded.

55

PERCo

Polytechnicheskaya str., 4, block 2

194021, Saint Petersburg

Russia

Tel: +7 812 247 04 64

E-mail: export@perco.com

support@perco.com

www.perco.com

www.perco.com