PERCo CL-05.2 User manual
Lock Controller
CL-05.2
OPERATION MANUAL
Lock Controller
CL-05.2
Operation Manual
CONTENTS
1APPLICATION.............................................................................................................3
2OPERATION CONDITIONS........................................................................................3
3TECHNICAL SPECIFICATIONS .................................................................................4
4DELIVERY SET...........................................................................................................5
4.1Standard delivery set.............................................................................................5
4.2Additional equipment supplied upon request:........................................................5
5PRODUCT DESCRIPTION .........................................................................................6
5.1Design and operation ............................................................................................6
5.2Signal parameters of OD control output ................................................................6
5.3Signal parameters of “Door” and “DU” inputs ........................................................7
5.4Signal parameters of the additional output ............................................................8
5.4.1“Fire Alarm input”........................................................................................8
5.4.2Output.........................................................................................................8
5.4.3Synchronization ..........................................................................................8
5.5Choosing IP-address setting method.....................................................................9
6MARKING AND PACKAGING...................................................................................10
7SAFETY REQUIREMENTS.......................................................................................10
7.1Installation safety.................................................................................................10
7.2Operation safety ..................................................................................................10
8INSTALLATION.........................................................................................................11
8.1General instructions.............................................................................................11
8.2Cables .................................................................................................................11
8.3Installation order ..................................................................................................11
8.4Powering .............................................................................................................16
8.5Connection via Ethernet network.........................................................................16
9CONFIGURATION ....................................................................................................16
10FIRMWARE UPDATE ...............................................................................................16
11OPERATION .............................................................................................................17
11.1ACM when operating as a part of ACS ............................................................17
11.2Indication .........................................................................................................19
11.3Troubleshooting ...............................................................................................19
11.3.1Controller is not working ...........................................................................19
11.3.2Controller is not recognized by the PC .....................................................19
12TRANSPORTATION AND STORAGE ......................................................................20
13MAINTENANCE ........................................................................................................21
APPENDIX 1. Controller connection through PoE-splitter .............................................22
APPENDIX 2. Controller Web-interface. User Manual ..................................................24
CL-05.2 Lock Controller
Dear customers!
Thank you for purchasing PERCo lock controller.
Please follow instructions given in this Manual carefully and this quality product will
provide many years of trouble-free use.
The Operation manual (hereinafter – the Manual) contains information on technical
characteristics, design and operation principle of CL-05.2 lock controller and is aimed at
providing a more complete use of the lock controller. The Manual also contains sections
on transportation, storage and installation of the lock controller. The Manual is to be used
together with operation documentation on other devices connected.
Abbreviations agreed in the Manual:
RC – remote control;
OD – operation device;
SZ – secured zone;
ACM – access control mode;
ACS – access control system.
1 APPLICATION
CL-05.2 lock controller (hereinafter – controller) is designed for managing one-way or
two-way (having two controllers of this model installed) entrance point. Controller features
built-in HID and EM-Marine proximity card reader and is able to control one
electromagnetic or electromechanical lock.
Note:
Having two CL-05.2 lock controllers installed for managing one two-way entrance
point, it is necessary to use normally-closed (opened when energized)
electromechanical locks as operation unit. Electromagnetic or normally-open
electromechanical locks in this configuration can be used only with additional
interposing relay installed.
Controller can be used as a standalone unit or as a part of PERCo-Web access control
system. Controller management and configuration can be performed through built-in web-
interface or PERCo-Web network Software.
2 OPERATION CONDITIONS
With regards to resistance to environmental exposure lock controller conforms to category
NF4 as per GOST 15150-69 (operation in premises with climate control).
Lock controller can be operated within the following conditions:
Ambient air temperature...............................................................from +1C to +40C
Relative air humidity at +25C...................................................................... max 80%
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Operation Manual
3 TECHNICAL SPECIFICATIONS
Rated operating voltage..................................................................................... 12±1.2VDC
Consumption current ......................................................................................... max 0.15 A
Power consumption ................................................................................................ max 2 W
Number of controlled entrance points ................................................................................ 1
Number of RC inputs ......................................................................................................... 1
Proximity card types ................................................................................... HID, EM-Marine
Card reading distance at the rated operating voltage for different card types:
for HID cards ................................................................................................ min 5 cm
for EM-Marine cards...................................................................................... min 8 cm
Card reading distance with lock controller installed on metal surface:
for HID cards ................................................................................................. min 4 cm
for EM-Marine cards...................................................................................... min 7 cm
Lock controller connection interface standard.................................... Ethernet (IEEE 802.3)
Number of users (proximity cards)................................... from 10,000 to 50,000 (see Note)
Number of log events 1 ............................................... from 230,000 to 870,000 (see Note)
Note:
Possible options for allocating memory (see Appendix 2, Clause 3.4):
50,000 cards and 230,000 events – set by default,
40,000 cards and 390,000 events,
30,000 cards and 550,000 events,
20,000 cards and 710,000 events,
10,000 cards and 870,000 events.
Number of additional outputs 2 ........................................................................................... 1
Mean lifetime ........................................................................................................... 8 years
Electric shock protection class............................................ III under GOST R IEC 730-1-94
Housing protection class ................................................................... IP54 under EN 60529
Lock controller dimensions (without cable) ...................................................145×50×20 mm
Lock controller weight ........................................................................................ max 0.3 kg
Note:
Initially lock controller features: IP-address and MAC-address, stated in the product
certificate and at the inner side of the product housing; subnet mask: 255.0.0.0;
gateway IP-address: 0.0.0.0.
1If log event is overloaded, new events start replacing the old ones (events are deleted in
blocks of 256).
2Additional output configuration variants are described in Section 5.4.
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CL-05.2 Lock Controller
4 DELIVERY SET
4.1 Standard delivery set
Controller ........................................................................................................................... 1
Metal base ......................................................................................................................... 1
Jumper ............................................................................................................................... 1
Suppressor (15-18V) ......................................................................................................... 1
Mounting kit:
plastic dowels ............................................................................................................ 4
screws ....................................................................................................................... 4
Package ............................................................................................................................. 1
Certificate ........................................................................................................................... 1
Operation manual .............................................................................................................. 1
4.2 Additional equipment supplied upon request:
Power supply unit .............................................................................................................. 1
PoE-splitter 1 ...................................................................................................................... 1
1PoE-splitter allows controller powering via Ethernet network. Splitter can be used with
network commutators, supporting power transmission technology through PoE twisted-pair
cable and is compatible with IEEE 802.3af standard.
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Operation Manual
5 PRODUCT DESCRIPTION
5.1 Design and operation
Controller is designed as a block of electronics in a plastic housing with three LED
indicators at the front panel. Protection of electronics from the negative impact of the
environment is provided by potting. Ethernet network connection cable and the cable for
other lock controller connections are located on the housing back side.
Controller features: non-volatile memory; non-volatile RTC-timer (real-time clock) and
sound indicator (piezoceramic radiator).
Controller features a built-in proximity card reader and operates with proximity cards of
max 64-bit code. Types of compatible cards: HID and EM-Marine.
Controller provides connection via Ethernet (IEEE 802.3) interface with TCP/IP (ARP, IP,
ICMP, TCP, UDP, DHCP) protocol stack support and PERCo-Web system communication
protocol application layer support.
Using electromechanical locks, opened when energized, it is possible to use two
controllers for managing one two-way entrance point (supporting zone changing).
Using LB-or LBP-series (production PERCo) electromechanical locks with terminal block,
controller traces lock circuit condition, which allows omitting door sensor (reed switch) use.
Door sensor is replaced by the lock terminal block.
Controller allows lock operation with the following devices:
RC-button (“Exit”);
proximity card, presented to the controller;
computer (when connected via Ethernet network and at the Software installation);
emergency unlocking device (“Fire Alarm”).
Apart from this it is possible to connect the following supplementary equipment:
door sensor (reed switch);
external light and sound (Alarm) indicator.
Controller as a part of ACS provides:
operation in ACM: “Open”, “Control”, “Closed”,“Arming”;
saving the set ACM in non-volatile memory in order to prevent its change at power
loss/recovery;
global zoning control function support;
commissioning function support;
verification function support;
possibility of operation unit arming and disarming;
sending signals to the central surveillance panel.
5.2 Signal parameters of OD control output
Controller features one OD control output: Lock (orange wire).Output type – open
collector. OD connection scheme is provided on Fig. 3.
Output is used for OD control and has the following parameters:
maximum voltage direct current ................................................................................ 30V
maximum current ........................................................................................................ 1A
Control output can support potential and pulse modes of lock operation. The mode is
chosen with OD “Control output operation mode” parameter.
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CL-05.2 Lock Controller
At potential OD operation mode:
During a single passage, output gets activated for the period of time, defined in
Software by “Time of holding in unlocked state” parameter or until the passage
completion.
Having OD set for “Open” in ACM, output gets activated until the mode is changed.
At pulse OD operation mode:
During a single passage, output gets activated for the period of time, defined by “OD
control pulse duration” parameter.OD gets unlocked until passage completion.
Having OD set for ‘Open’ in ACM, output gets activated for the period of time, defined
by “OD control pulse duration” parameter. Output will be activated each time for
this period of time in one second after OD gets normalized.
Door input activation using door sensor (reed switch) indicates passage completion. Using
LB-or LBP-series electromechanical locks with terminal block, circuit break through
lock terminal block indicates passage completion.
5.3 Signal parameters of “Door” and “DU” inputs
Controller manages the states of two inputs: Door (white wire) and DU (green wire).
Connection scheme is given on Fig. 3. Inputs can be used as follows:
“Door” – for door sensor connection (reed switch);
“DU” – for RC-button connection (“Exit”).
Normally-open relay contact or a scheme with open collector output can serve as a control
element. Control element is to provide the following signal characteristics:
control element – relay contact:
minimal commutated current ............................................................... max 1 mA
closed contact resistance
(considering connection cable resistance) ................................... max 300 Ohm
control element – scheme with open collector output:
closed contact voltage
(low level signal, on controller input) .................................................. max 0.8 V.
Note:
All the unconnected inputs are pulled to the power supply. In order to create a high
level signal, all the input contacts (“Door” and “DU”) feature resistors with 2 kOhm,
connected to the power line +3,3 V.
Activation of “Door” signal depends on its initial state description in “Contact normal
state” parameter in the Software:
if input is stated as “Open”, its activation is made by sending on it a low level
signal regarding GND contact. In this case normally open relay contact or open
collector output scheme can serve as the control element.
if input is stated as “Closed”, its activation is made by removing a low level signal
regarding GND contact from it. In this case normally open relay contact or open
collector output scheme can serve as the control element.
Having LB-or LBP-series electromechanical mortise locks with terminal block installed,
reed switch installation and Door input connection are not required. In this case lock
terminal block serves as the door sensor. Activation is made by circuit break through
terminal block, thus in the Software it is required to have “Closed” value set for “Normal
contact state” parameter.
“DU” input is “normally open” (its initial state is not described in the Software); thus its
activation is made by sending on it low level signal regarding GND contact.
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Operation Manual
5.4 Signal parameters of the additional output
Controller has one additional output (brown cable), which, depending on configuration, can
be used as a Fire Alarm input (Section 5.4.1),as additional output (Section 5.4.2) or as a
synchronization channel at simultaneous operation of two controllers (Section 5.4.3).
This output is designed as a transistor n-p-n collector. In order to operate as an input, it is
connected to the power line +3.3 V through resistor with 4.7 kOhm resistance.
Choose additional output use variant in PERCo-Web Network Software.In order to set the
output operation mode, set the value according to Table 1in “Type” parameter of the
“Additional output” controller resource.
Table 1. Output configuration in network Software
“Type” parameter value of the “Additional
output” controller resource Output operation mode
“Fire Alarm” “Fire Alarm” input for emergency unlocking
device (Section 5.4.1)
“Standard”,
“Alarm generator”,
“Security and fire alarm”
Control output for additional equipment
(Section 5.4.2)
“Synchronizing” Clock bus of two controllers simultaneous
operation (Section 5.4.3)
5.4.1 “Fire Alarm input”
In “Fire Alarm input” mode the additional output is used for connecting emergency
unlocking device (“Fire Alarm”). Connection scheme is given on Fig. 3.
Normally open relay contact or a scheme with open collector output can serve as a control
element. Input signal parameters are the same as stated for Door and DU inputs
(Section 5.3).
Sending control signal from (“Fire Alarm”) emergency unlocking device, connected to the
controller on the input, OD gets unlocked and stays in that condition until signal removing.
Indication block green passage grant indicator is ON. All control commands are ignored.
5.4.2 Output
In “Output” mode the additional output can be used for:
external light and sound (Alarm) indicator connection,
signal transfer to the central observation board,
other additional equipment connection.
Connection scheme is given on Fig. 3.
Output signal parameters:
maximum voltage DC ................................................................................. max 12 V
maximum current ..................................................................................... max 0.25 A
5.4.3 Synchronization
In “Synchronization” mode the output is used for synchronization of the simultaneous
operation of two controllers when two-sided entrance point is to be arranged. In this mode
controller outputs are connected between each other. This allows avoiding OD Breaking
event registration when making the passage in direction, opposite to the one, in which the
controller is installed. Connection scheme is given on Fig. 4. In this case other equipment
connection to the additional outputs is not allowed.
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CL-05.2 Lock Controller
5.5 Choosing IP-address setting method
Controller IP-address setting method is chosen by jumper installation and removal on XP1
output on the controller back side. Output configuration is given on Fig. 1.
Attention!
Jumper installation and removal should be performed on de-energized equipment
only.
There are the following IP-address setting methods:
1. User mode. Jumper removed.
If the IP-address (gateway, subnet mask) has not been changed by the user, the
controller will operate with the initial settings: IP-address and MAC-address are
stated in the controller certificate on the controller board; subnet mask 255.0.0.0;
gateway IP-address 0.0.0.0.
If the IP-address (gateway, subnet mask) has been changed, the controller starts to
operate with the new settings immediately.
Note:
Controller network settings change is possible only from the PC through the Web-
interface or from the Software. At that the controller and the PC are to be in one
subnet.
2. “IP-MODE”. 1–2 jumper position.
This mode is aimed at operation in networks with IP-address dynamic allocation. At
that the controller gets the IP-address (gateway, subnet mask) from DHCP-network
server/
3. “IP-DEFAULT”. 2–3 jumper position.
The controller operates with initial settings. IP-address and MAC-address are stated
in the Controller certificate and on the controller board; subnet mask 255.0.0.0;
gateway IP-address 0.0.0.0.
Controller access password is cleared.
Note:
User settings of the IP-address (gateway, subnet mask), in case they have been
set, are saved when switching to “IP DEFAULT” mode. With next powering, if the
jumper is removed, controller will start operating with these settings.
Table 2. Possible variants of jumper installation on XP1 output
№Jumper position on XP1 Mode
1 User mode
2 “IP-MODE”
3 “IP-DEFAULT”
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Operation Manual
6 MARKING AND PACKAGING
Controller has a marking label located on the back side of the housing. The location of the
label and other markers can be found on Fig. 1. The label features the following
information about the controller:
trademark and the manufacturer contact details;
product name and model number;
serial number;
year and month of manufacture;
power supply range;
consumption current.
Apart from this, the back side of controller housing features labels with the initial:
MAC – address;
IP – address.
Controller is packed in a carton box keeping it safe from the damages during
transportation and storage.
7 SAFETY REQUIREMENTS
7.1 Installation safety
Controller installation and maintenance should be carried out by qualified specialists who
have studied this Manual.
Attention!
Controller connection and jumper installation should be carried out with de-
energized equipment and disconnected power supplies.
Cabling should be executed with the general electrical and work safety rules
observance.
Controller installation should be carried out by fault-free instruments only.
Power supply installation safety requirements are provided in power supply operation
Manual.
7.2 Operation safety
Controller operation should be carried out with the general electrical and work safety rules
observance.
Do not use!
Controller when power supply voltage does not comply with the technical
characteristics described in Section 3 ”Technical specifications”.
Controller in operation conditions that do not conform to those given in Section 2
”Operation conditions”.
Power supply operation safety requirements are provided in power supply operation
Manual.
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CL-05.2 Lock Controller
8 INSTALLATION
Observe the instructions given in Section 7.1 during controller installation.
8.1 General instructions
It is recommended to install controller near OD. Controller should be installed at a place
with easy access for proximity card presentation.
Controller should be installed at least 50 cm away from the readers and other controllers.
8.2 Cables
During controller installation, use cables given in Table 3.
Table 3. Cables used during controller installation
№Connected equipment Max.
length, m Type
Min. wire
cross-section,
mm2
Example
1 Ethernet (IEEE 802.3) 100
Four twisted pair
cables of no less
than 5th category
0.2
2 Power supply 10
3 OD – Lock 10 Twin cable 0.75
PVC isolation
cord (2×0,75
two-colour)
4 RC-button
5 Door sensor
6 Fire Alarm device
Additional equipment to
the output
10 Twin cable 0.2
RAMCRO
SS22AF-T
(2×0,22) or
CQR-2
The following requirements should be considered when laying all the signal cables
(Ethernet, RC-button, door sensor and to the lock) and low-voltage power cables:
it is recommended to install controller at least 1 meter apart from any other external
readers and other EMI sources. EMI sources may reduce proximity card reading
distance and be the cause of system operation malfunctions. The sources of
electromagnetic interferences are: readers, AC lines, electric generators, electric
motors, AC relays, thyristor light regulators, PC displays, computer and telephone
signal communication lines;
all signal cables, sensors, OD and low-voltage power cables should be laid at least
50 cm away from the alternating current cables, powerful motor control cables, pumps,
drives, etc.;
all signal cables can cross power cable only at a right angle;
cable growth (except for Ethernet cable) is to be performed with soldering only.
8.3 Installation order
Follow the requirements given in Section 8.1. Controller connection should be carried out
according to the scheme, given on Fig. 3, using the cables, given in Table 3. Follow this
sequence during controller installation:
1. Unpack the box and check carefully controller delivery set according to Section 4. The
equipment should be free of any mechanical damages.
2. Choose controller installation place. Follow the instructions given in Section 8.1 when
choosing the installation place.
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Operation Manual
3. Mark and prepare holes on installation surface for the metal base mounting and for
cabling as per scheme given on Fig. 2.
4. Loosen the screw located at the bottom side of controller housing and fixing it to the
metal base. Remove the metal base.
5. Fix the metal base on the installation surface with four screws from the delivery set.
6. Choose controller IP-address setting method (Section 5.5) and install jumper on XP1
output according to Table 2. if required. Jumper positioning is given on Fig. 1.
7. Pull controller cables through the cable hole on the installation surface. It is required to
provide no less than 10 mm cable bend radius at the controller base during controller
fixing. It is recommended to leave some spare cable length in order to retract controller
from the wall and have access to the jumpers.
8. Install controller on the metal base and fix it with a screw in the bottom side of the
housing.
Attention!
If the connected lock does not have the spark protection circuit, it is required to
use a spark protection diode (VD1 on Fig. 3). For example, Schottky diode, used
with operation current no less than 1A, of 1N5819 type.
If the connected electromagnet lock does not have demagnetizing circuit, it is
required to install the bidirectional suppressor from the delivery set. Suppressor
is installed near the lock (VD1 on Fig. 3).
It is recommended to use only electromechanical locks during controller
connection through PoE-splitter (instructions provided in
A
ppendix), thus it is
required to use the spark protection diode (VD1 on Fig. 5) of 1N5819 type. It is
FORBIDDEN to use suppressor in this case!
9. Prepare door for lock installation and install the lock in accordance with its operation
documentation. Connect cable #3 (FIg. 3, Table 3) to the lock.
10.Ground lock housing or its locking plate in order to protect it from static electricity. If
the lock is installed on the metal door, ground the door leaf. Grounding is to be
performed with a wire of minimum 0.75 mm2 cross-section.
11.Set the RC-button (“Exit”). RC-button installation place is to be chosen considering
user access convenience (e.g. near the door). Connect cable #4 (Fig. 3, Table 3) to
RC-button.
12.In case required, install magnet door sensor (reed switch). During installation, the
magnet sensor should be fixed on the door frame and the magnet should be fixed on
the door, providing stable sensor contact closing when the door is closed. Connection
is made by cable #5 (Fig. 3, Table 3). Using LB or LBP-series electromechanical locks
with terminal block, controller traces lock circuit condition, which allows omitting door
sensor (reed switch) use. Door sensor is replaced by the lock terminal block. In this
case controller Door input is to stay connected.
13.In case required, make the installation of the additional equipment (e.g. Alarm).
Connect cable #6 (Fig. 3, Table 3) to the additional equipment.
14.Connect cables from the additional equipment to the standard controller cable
according to scheme given on Fig. 3.
15.If simultaneous operation of two controllers for managing double-sided door is
required, install and connect the second controller. Connection is made in parallel
according to the cable colours (except for RC-button – usually it is not used and if
needed, it can be connected separately to each of the controllers according to the
scheme given on Fig. 3). Connection scheme is given on Fig. 4. Do not connect
anything to the interconnected brown wires (SYNC.
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CL-05.2 Lock Controller
Note:
Use normally closed electromechanical locks as an OD in this configuration.
Electromagnet or normally open electromechanical locks can be used only having
the interposing relay installed.
16.Connect Ethernet cable, coming from controller to the local network. Use RJ45
adapter from the delivery set and cable #1 in order to make an extension (Fig. 3,
Table 3).
Note:
Controller power connection through PoE-splitter is given in Appendix 1.
17.Install power supply to its permanent operation position. Connect cable #2 (Fig. 3,
Table 3) to the power supply and to the controller.
18.Lay and fix cables using plastic staples (e.g. SC4-6, SC5-7, SC7-10). During cable
installation and cable laying it is necessary to consider the requirements given in
Section 8.2.
19.Check lack of breaks and short circuits in all the lines.
Figure 1. Controller back side
outline
Figure 2. Hole spacing for controller installation
(housing dimensions and a hole for cable laying are
dotted)
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Operation Manual
Figure 3. Controller connection scheme
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CL-05.2 Lock Controller
Figure 4. Scheme of the parallel connection of two controllers
for managing double-sided door 1
1The given scheme features connection of locks, open when energized (normally closed
electromechanical locks). In order to connect locks, open when de-energized (normally open
electromechanical locks and electromagnet locks), install the supplementary relay with normally
closed contacts connected to the lock power supply circuit.
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Operation Manual
8.4 Powering
When power supply is turned ON, all the light indicators on lock controller housing will start
blinking for 3 seconds. After this period of time, controller indicators will show the latest
ACM installed.
During controller first powering, after installation completion or after memory formatting, a
simultaneous blinking of all the three indicators 2 times at a second will be initiated on the
controller housing, indicating lack of controller settings. In this case configuration is to be
transferred to the controller. This can be done through Web-interface or with the Software.
8.5 Connection via Ethernet network
On order to connect to the controller via Ethernet network, the computer is to be in one
subnet with the controller. During the first connection computer network settings change
may be required.
Initially all PERCo controllers feature IP-addresses from the 10th subnet, thus it is required
to add IP-address to the additional parameters of computer TCP/IP: 10.x.x.x (x-random
numbers) and subnet mask 255.0.0.0. Such servers and services as DNS and WINS are
not required. Controller is to be connected to the same network segment or directly to the
computer network card output.
When connection is made, all the network settings of the controller can be changed to the
ones recommended by the system administrator from the Software or through Web-
interface.
9 CONFIGURATION
Controller configuration, access cards transfer to the controller and a change of an ACM
can be done:
1. through controller’s Web-interface (see Appendix 2);
2. through Web-browser in PERCo-Web system;
3. by using the following local software, installed on the computer:
“Local software” SL01 (license is not required);
“Local software with verification” SL02;
Note:
You can purchase additional software from authorized PERCo dealers. Also, the
software, the licensing procedure and the electronic versions of the user's manuals
on the software are available on the PERCo website at www.perco.com under
“Support”.
10 FIRMWARE UPDATE
Use “Firming” program to update the firmware and to format the PERCo-Web system
controller memory. You can download the current version on our web-site
www.perco.com.
You can also update the firmware and format the memory through the Web-interface of the
controller in “Diagnostics” section (Appendix 3, Clause 9).
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CL-05.2 Lock Controller
11 OPERATION
Observe safety instructions given in Section 7.2 during controller operation.
Do not!
Use abrasive or chemically active materials for cleaning external surfaces of
controller housing.
Jerk and hit controller housing, lock, door sensor, RC-button and connecting
cables in order to prevent their mechanical damage or deformation.
After configuration initiation controller can operate in the following modes:
Without connection to ACS (access control system) server
In case connection to Ethernet network and to the PC is unavailable, controller will start
executing the following functions:
Accepts presented cards identifiers from the built-in reader and, in accordance with
their existence in the list, stored in controller memory, grants or bans the access.
Controls the connected OD.
Arms and disarms protective zones, controls OD in “Arming” ACM; activates
additional output in “Alarm” mode.
Fixes events in the controller memory event log.
Supports passage time control and commissioning function.
Global zoning control function becomes available when controller is connected to the
network and when connection with other system controllers is provided.
Connecting to the PC with “Local Software” installed:
Events from log event are automatically relocated into programme database each
time the programme is initiated. The data can be also relocated by clicking on the
corresponding button in the programme.
Data on identifier owner (full name) are stored in programme database.
Verification is available in case “Local Software with verification” is installed.
Connected to ACS (access control system) server
Apart from the functions, supported during standalone operation, the following functions
also become available:
Data from the log event get automatically relocated into security system server
database.
Verification function is available depending on network Software modules installed.
11.1 ACM when operating as a part of ACS
ACM change is performed by the simultaneous order from the Software to both passage
directions.
Controller as a part of ACS provides the following ACM through OD (ACM indication is
given in Table 4):
“Open” ACM –free passage mode.
OD gets unlocked until ACM change.
RC-button (“Exit”) pressing is ignored.
“Control” ACM – main operation mode as an ACS element.
OD is blocked.
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Operation Manual
Presenting the access card, meeting all the passage grant criteria, to the reader.
OD gets unlocked for “Time of holding in unlocked state”.
“Closed” ACM – passage ban mode.
OD is blocked until ACM change.
RC-button (“Exit”) pressing is ignored.
Any access card presentation is registered as ACM violation.
“Arming” ACM
OD is blocked until ACM change.
RC-button (“Exit”) pressing is ignored.
Protective zone arming, including OD.
Arming / Disarming can be made by double presentation of the access card, having
corresponding rights, to the reader.
Passage through OD (OD breaking) switches protective zone, including OD, into
“Alarm” mode.
Table 4. Controller indication
Indicators
Card presentation ACM Green Yellow Red Sound,
s
No configuration No 5 Hz 5 Hz 5 Hz Off
“Open” On Off Off Off
“Control” Off On Off Off
“Arming” Off 1 Hz 1Hz Off
No
“Closed” Off Off On Off
“Open” On Off Off 0.2
“Control”
Card has no access rights
“Arming”
Any card “Closed”
Off Off On 0.5
“Open”
“Control” On Off Off 0.2
Card has access right
“Arming” Off Off On 0.5
“Open”
“Control”
Card has access and arming/ disarming
right “Arming”1
On Off Off 0.2
At taking (switch to
“Arming” ACM) “Arming” Off 1 Hz 1Hz 0.2
“Open”
Repeated
presentation of
the card with
arming right
At non-taking2(until
return to the initial
ACM) “Control” Off Off 1sec 1
Verification/ commissioning waiting time Any Off 2 Hz Off 0.2
1Presentation of card having disarming rights in “Arming” ACM leads to: protective zone
removal, including OU disarming and OU unlocking for “Time of holding in unlocked state”.
After this period of time controller switches to ACM, set before protective zone arming (“Open” or
“Control”; in case the previous ACM was “Closed”, then it switches to “Control” ACM).
2Sound and light indication is ON for 1 sec.
18
CL-05.2 Lock Controller
11.2 Indication
Possible variants of ACM indication, controller states and reactions to identifier
presentation are given in Table 4. Indication is located on the indication module, featuring
three light indicators on the controller housing front panel.
Note:
During access card identifier reading in any ACM, sound signal 0.2 sec. long is
sent, yellow light indicator changes its state for 0.2 sec. Other indicators state
does not change.
Having card access granted, light indication is on for “Time of holding in
unlocked state” or until passage completion. If the passage is banned,
indication will be ON for 2 sec.
11.3 Troubleshooting
Possible faults to be corrected by the customer themselves are given below. Contact the
manufacturer if other fault or malfunction occurs.
11.3.1 Controller is not working
Possible causes of the controller malfunction are as follows:
1. Power supply malfunction –check the power supply.
2. Malfunction of the equipment, connected to controller outputs (lock, door sensor,
RC-button) – make sure the connected devices are faultless.
3. Faulty controller connection lines of other devices – make sure the connection
lines are operable.
4. Faulty radio components on the controller board –the controller needs repair at
the manufacturer.
11.3.2 Controller is not recognized by the PC
Possible causes of the malfunction:
1. No network settings in the computer – set computer IP-address and subnet mask.
Computer is to be connected either directly to the computer network card network
connector or to the same Hub/Switch to which the computer is connected.
2. Incorrect controller password has been used. In the Software check correctness of
the password used.
3. Computer malfunctions (with the Software, with databases, etc.).
Diagnostics of this malfunction is made by initiating the following command:
ping x.x.x.x
where x.x.x.x – IP-address of the controller.
If there is connection, you will see the following lines:
Answer from x.x.x.x: number of bytes=32 time<10mc TTL=128
If there is no connection (answer), check the correctness of routing sets in your
network.
4. Malfunctions of Ethernet network equipment, HUB located between computer and
controller, SWITCH and other network equipment including connection cables.
Diagnostics of this malfunction is made by initiating the following command:
ping x.x.x.x -l 576
where x.x.x.x – IP-address of the controller.
If there is connection and the standard minimal packet (576 bytes) is not fragmented,
you will see the following lines:
Answer from x.x.x.x: number of bytes=576 time<10mc
TTL=128
19
Table of contents
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