Roger MCT62E Operating instructions

Brand: Roger

Model: MCT62E

Category: Security door controllers

Type: Operating instructions

Roger Access Control System

MCT62E Operating Manual

Product version: v1.0

Document version: Rev. A

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FUNCTIONAL DESCRIPTION

Design and Construction

The MCT62E is a proximity reader dedicated to be used in RACS 5 access control and building automation

system. MCT62E enables identification of system users by means of EM 125 kHz proximity tags. Reader is

equipped with RS485 communication interface which is used to connect it to access controller. Reader can

operate either indoors or outdoors without any additional protection measures. MCT62E is aligned with

RADIUS style enclosures from Roger.

Characteristics

 Access terminal for RACS 5 system

 Read EM 125 kHz proximity tags

 3 LED-s

 Buzzer

 RS485

 Tamper contacts

 Outdoor environment

 Dimensions: 100 x 40 x 25

 RADIUS design style

 CE

Using MCT62E reader in RACS 5

In RACS 5 system any type of device is modelled as a group of few or more

Objects

. There are few types of

objects – each represent specific set of functionalities. When the device is enrolled to the system it is

presented as a group composed of its objects. During system configuration each object can be assigned to

specific system function available for the specific type of object e.g. object CDI can be assigned to Access

Terminal, INP to input and OUT to output. Table below presents various types of objects available in the

RACS 5 system.

Object

Description

DEV

It represents physical device and usually offers few or more functional

objects.

SDV

It represents physical device which is connected to another physical device

operating as a HUB.

CDI

It represents part of the device which is capable to read user identifiers.

Identifiers can be of various types including proximity card, PINs, fingerprints

etc.

KBD

It represents part of the device which offers one or more keys.

INP

It represents part of the device which offers electrical input line.

OUT

It represents part of the device which offers electrical output line.

LCD

It represents part of the device which offers text display.

PWR

It represents part of the device which offers power supply output.

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RTC

It represents part of the device which offers clock and calendar.

The MCT62E offers following physical objects:

 CDI1: credential (card) reader

 OUT1: LED ARM output

 OUT2: LED DISARM output

 OUT3: LED OPEN output

 OUT4: LED SYSTEM output

 OUT5: BUZZER output

 INP1: TAMPER input

Each object is presented in system management software (VISO program section Hardware Resources) and

can be used to any system function suitable for its type.

Access door configuration in RACS 5 system

The logic of the RACS 5 system is defined by means of various logical objects and relations between them.

The system logic can be defined without references to physical devices however the final system

configuration requires both of them. There are two specific system features which arise from presented

system concept. First of them, makes it possible to replace one physical device with another by means of

modification of a single configuration parameter which links logical object (e.g. Access Terminal) with

physical object (in this case CDI). The second feature, makes it possible to use any physical object

regardless of its physical location. For example, emergency open button can be connected to any free input

on the controller’s main board, IO expansion or reader with built-in IOs.

In RACS 5 system, each type of object represents specific set of autonomic functionality which is further

formed by its configuration parameters. Some of the objects reflect specific physical device (e.g. reader) or

its part (e.g. input line). Other exist as functional blocks and are not related with any physical device (e.g.

Access Point, Access Door, Access Zone, Alarm Zone).

Below, an example of read-in/out door is presented. Rectangle boxes represent logical objects while arrows

show direction of the data flow. The dashed horizontal line separates physical devices from the logical

objects. The presented system consist of:

Logical object: Access Door AD1

Logical object: Access Point AP1

Logical object: Access Point AP2

Logical object: Access Terminal AT1

Logical object: Access Terminal AT2

Physical object: Input IN1 (door contact)

Physical object: Input IN2 (exit button)

Physical object: Output OUT1 (door lock)

Physical object: Output OUT2 (alarm siren)

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Fig. 1 The concept of read-in/out access door in RACS 5 system (example)

Logical object

Access Terminal

provides communication link with the reader and transfers data from the

reader to the Access Point. In return, Access Point controls reader sounder and LEDs.

Logical object Access Point collects data from the Access Terminals and based on the received data

recognises users who log in on the reader. Once the user is recognised, the Access Point verifies his/her

authorisations and if adequate, sends access granting request to Access Door object.

Logical object Access Door controls door lock, monitors door status and triggers door alarms if door rules

are violated. Door can be opened upon request from another object (e.g. Access Point) or due to

autonomous logic of the Access Door (e.g. by schedule or exit button).

Logical object Input monitors condition of the connected device and reports its state to the object it is

assigned to. In this case it is the Access Point.

Logical object Output controls connected device. Control commands can be delivered from another linked

logic object which in the presented case is Access Door.

LEDs and BUZZER

During normal operations both LEDs and buzzer are controlled by access controller to which reader is

connected. When reader is being programmed during low level configuration then all LEDs and buzzer are

controlled by internal reader’s logic. When reader operates in normal mode but it lost connection with

access controller all LEDs pulse synchronically.

LED STATUS

LED STATUS is a dual colour LED which is presented in the system software (VISO) as two independent

outputs: LED ARM (red) and LED DISARM (green). By default, LED STATUS is not configured to any

function and it is activated after reader is powered up. If the access terminal on which LED is located is

assigned to the access point which belongs to the alarm zone, it is automatically configured to present

current state of the alarm zone. It lights up red if alarm zone is armed or green when disarmed. If required,

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both LED ARM and LED DISARM can be configured to other output function. If so, the default output

function of the LED is overridden by the new output function selected in system management software.

LED OPEN

LED OPEN has green colour and is presented in the system software as LED OPEN. By default, LED OPEN is

not configured to any function and remains off. If the access terminal is assigned to the access point, it is

automatically configured to present current state of the door lock. It lights up when door is unlocked and

and can be open manually. If LED OPEN is configured to any other function, then default output function is

overridden by the new function programmed in the system software (VISO).

LED SYSTEM

LED SYSTEM has orange colour and is presented in the system software as LED SYSTEM output. By default

it provides following built-in signalisations:

 Card read - single flash

 Detecting long card read - blinking very fast

 Waiting for the next user operation - pulsing

 Operation error - single 2s long flash

If required, LED SYSTEM can be programmed as ordinary output. If so, it is controlled by both, built-in

default logic and user programmed output function. Both signalisations have the same priority so the new

signalisation always overrides current one. It is not possible to program

status type output function

to the

LED SYSTEM - the

event type output functions

can be programmed for this LED only.

Fig. 2 LEDs

BUZZER

The reader built-in sounder is presented in the system software as BUZZER output. By default, it provides

built-in signalisation which includes:

 Card read - single beep

 Waiting for the next user operation – double beep

 Operation error - single 2s long beep

 Access denied due to lack of authorisation 2 long beeps, each 1s

If required, sounder can be programmed as ordinary output. If so, it is controlled by both, built-in logic and

user programmed output function. By default, the built-in sounder signalisation has low priority (1) but it

can be changed in access point settings to which given reader belongs. The output functions which can be

assigned to BUZZER are restricted to

event type output functions

only - it is not possible to program

status

type output function

to this output.

Usually, the BUZZER output is programmed for door bell and door alarms signalling. In such a case, each

type of situation/alarm can be signalled by individual output modulation (on/off keying). In order to assure

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that the BUZZER will signal the most important signalisation/alarm at time, each output function should be

configured with adequate priority.

TAMPER input

Reader is equipped with contact which can detect both opening of the enclosure and enclosure detachment

from the supporting surface (wall). The status of the contact is continuously monitored by reader’s

electronic module and reported to the access controller. During system configuration the TAMPER input can

be assigned to TAMPER function or another (when required).

PROGRAMMING

Before installation, reader has to be configured in order to adapt it to required operating scenario. This

process is called Low Level Configuration and refers to reader’s parameters which define its operation but

do not apply to access system logic. The Low Level Configuration can be performed either manually or from

PC. The manual programming enable RS485 address setup only while programming from PC enables setup

of all reader’s parameters.

Configuration parameters

The full list of configuration parameters is presented and explained in a table below. All of them can be

accessed from RogerVDM application (Windows) while the RS485 address can also be programmed

manually.

Parameter

Function

RS485 Address

Reader address on the RS485 bus. Values 100-115

Communication lost signalisation delay [s]

Defines time in seconds after which reader will start

signalling lost of communication with controller. Value

range: 0-64s. Default: 20s.

RS485 encryption

When option is set, transmission between controller

and the reader is encrypted. Default: No (no

encryption).

Encryption key

16 ASCII characters key used to encrypt

communications between controller and the reader.

LED SYSTEM pulsing when card is close to the

reader

When option is set, LED SYSTEM is blinking when card

is in reader’s field. Default: Yes.

LED SYSTEM flash after card read

When option is set LED SYSTEM generates single flash

whenever card is read. Default: Yes.

Dimming

When option is enabled, reader will automatically

reduce light level if reader is not used. The nominal

light level will be restored whenever card is read.

Buzzer loudness level [%]

Defines buzzer loudness level. Value 0 switches buzzer

off. Default: 100%.

Short sound after card read

When option is set, reader generate single beep each

time the card is read. Default: Yes.

Card code data type

Parameter defines the type of data used to transfer

card code to the controller. Default: 40 bit.

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Long card read time [s]

Parameter defines the minimum amount of time for

which card has to be put close to the reader in order

to be accepted as long card read. Default: 2s.

DEV1 comment

Any text which describes device or object. When

programmed it will be displayed in system software

thus easing up identification of the object or device.

The DEV abbreviation refers to entire device.

CDI1 comment

Any text which describes device or object. When

programmed it will be displayed in system software

thus easing up identification of the object or device.

The CDI abbreviation refers to the RFID reader part of

the entire device.

TAMPER comment

Any text which describes device or object. When

programmed it will be displayed in system software

thus easing up identification of the object or device.

The TAMPER abbreviation refers to the reader’s input

which monitor tamper contact.

Stop Card/PIN Reading when buffer full

When option enabled, reader will ignore Card/PIN until

buffer is cleared.

Clear Card/PIN buffer timeout

Parameter defines time for which Card/PIN can be

kept in buffer before it will be cleared.

Buffer overflow signalisation

When option enabled, LED SYSTEM will be on for the

entire time when Card/PIN buffer is full.

Tab. 1 MCT62E configuration parameters

Manual address programming

The reader’s address can be set manually using Multiple Card Reading method. In this method in order to

program digit N any proximity card has to be read N times and then operation must be stopped till 2 beeps

occur. Once these 2 beeps are generated, the reader saves previous series of readings as a one digit and

waits for the next series of readings. Once the 3

digit is entered the reader saves entire address and waits

for the user to remove jumper from MEM contacts. Digit 0 is programmed through 10 readings of the card.

Manual address programming:

 Disconnect power supply from the reader

 Disconnect wires from RS485 A and B lines (when exist)

 Put jumper on the MEM contacts

 Reconnect power supply to the reader

 Wait till LED SYSTEM (orange) start blinking

 Using Multiple Card Reading method program the reader’s address

 Disconnect power supply from the reader

 Remove jumper from MEM contacts

 Connect reader to access controller and check its operation

Note: The Manual Address Programming method allows for programming of the new RS485 address and

does not change any other configuration parameter of the reader.

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Example

Programming address 103:

 Disconnect power supply from the reader

 Put jumper on the MEM contacts

 Reconnect power supply to the reader

 Wait till beep and LED SYSTEM start pulsing

 Read any proximity card 1 time and wait for 2 beeps

 Read any proximity card 10 times and wait for 2 beeps

 Read any proximity card 3 times and wait for 2 beeps

 Remove jumper from the MEM contacts

 New address has been set

Number of card

readings

Programmed

digit

Tab. 2 Reader address programming using Multiple Card Reading method

Programming from the PC computer

All configuration settings of the reader can be programmed from the computer with RogerVDM application

(Windows).Connection to programming computer requires RUD-1 interface.

Programming from the computer:

 Connect reader to the RUD-1 interface according to fig.3

 Put jumper on MEM contacts

 Connect RUD-1 to the computer

 Start RogerVDM application

 Click on

Device/New

 Select device and communication port where RUD-1 is installed and click on

Connect

 Once the communications with the reader is established program reads current configuration

settings and displays them on the screen

 Change configuration settings as required

 Click on

Send to Device

in order to upload new settings to the device

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 Click on

Sand to File

in order to save new settings to file

 Click on

Device/Disconnect

 Connect device to the controller and test its operation

Fig. 3 Connection between MCT62E reader and RUD-1 interface for programming

Memory Reset

The Memory Reset clears all configuration settings and restores factory defaults including address 100.

Memory Reset procedure:

 Put jumper on MEM contacts

 Restart the reader (power it off/on or short momentary RES contact)

 When LED SYSTEM is pulsing read any card 11 times and wait for 2 s

 Restart the reader (power it off/on or short momentary RES contact)

 Connect device to the controller and test its operation

Firmware update

The device’s firmware can be updated from the PC computer with RogerVDM application and it requires

RUD-1 interface.

Firmware update procedure:

 Connect reader to the RUD-1 interface according to fig.4

 Put jumper on the FDM contacts

 Connect RUD-1 interface to the computer

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 Start RogerVDM application

 Click on

Tools/Update Firmware

 In the

Firmware update

window select

Device

Port

and

HEX file

with firmware

 Follow instructions on the screen

 Once the firmware is updated, remove jumper from FDM contacts and disconnect reader from

the RUD-1interface

 Connect reader to the controller and test its operation

Fig. 4 Connection between MCT62E reader and RUD-1 interface for firmware update

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Connection to RS485 bus and power supply

MCT62E requires 11-15VDC power supply. It can be supplied directly from the access controller (e.g. TML

output) or from dedicated power supply. The supply wire diameter must be selected in such way that

voltage drop between supply output and the reader is less than 1V. The proper wire diameter is especially

critical when reader is located in long distance from the supply source. In such a case the use of dedicated

power supply located close to the reader should be considered. When separate power supply is used its

minus should be connected to controller’s GND by means of signal wire with any diameter. The UTP cable

can be used for reader’s supply and RS485. If so, the remaining pairs of wires can be used for reader’s

supply. Table below presents cable distances versus number of supply pairs of UTP cable. If possible, it is

preferable to use dedicated cable for connection between controller and reader. If it is not possible, tree

and bus topologies can be used for RS485.

Note: It is forbidden to use more than one pair of wires for RS485.

Number of UTP cable pairs used for power

supply

Max. UTP cable distance

150m

300m

450m

600m

Fig. 5 MCT62E supplied from the additional power supply (e.g. PS20)

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Fig. 6 MCT62E supplied from the controller

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Fig. 7 MC16 communication bus

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Installation

1. Install the reader on the flat surface (wall) close to the controlled door.

2. If reader has to be installed on metal surface use non metallic spacer at least 10mm thick between

reader and supporting surface.

3. Before installation, program reader’s address and other configuration parameters.

4. Address programming can be done manually without use of the computer.

5. All configuration parameters can be programmed using PC with RogerVDM application and RUD-1

interface.

6. Disconnect power supply when making any electrical connections.

7. Once the reader is installed check its operations.

Fig. 8 MCT62E views

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Technical Specification

Parameter

Supply voltage

11-15VDC

Current consumption

Avg. 35mA

Cable distance to controller

Max. 1200m

Card reading range

Up to 8 cm (ISO card)

Communication interface

RS485, tree and star topology

Communication protocol

EPSO 3 (Roger) with optional encryption

TAMPER

Enclosure opening and enclosure detachment from the

wall.

Environmental class (according to EN

50133-1)

Class IV, outdoor, ambient temperature: -25°C –

+60°C, relative humidity: 10 to 95% (non-condensing)

Ingress protection

IP65

Dimensions H x W x D

100 x 40 x 25mm

Weight

0.1 kg

Approvals

Ordering

Product

Description

MCT62E

EM 125 kHz reader

RUD-1

Communication interface

History

Version

Date

Description

MCT62E v1.0

11/2017

First commercial version of the product

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The symbol of a crossed-through waste bin on wheels means that the

product must be disposed of at a separate collection point. This also

applies to the product and all accessories marked with this symbol.

Products labelled as such must not be disposed of with normal household

waste, but should be taken to a collection point for recycling electrical and

electronic equipment. Recycling helps to reduce the consumption of raw

materials, thus protecting the environment. Weight of the equipment is

specified in the document.

Contact:

Roger Sp. z O. O. Sp. K.

82-400 Sztum

Gościszewo 59

Tel.: +48 55 272 0132

Fax: +48 55 272 0133

Tech. support PSTN: +48 55 267 0126

E-mail: biuro@roger.pl

Web: www.roger.pl

Roger MCT62E Operating instructions

Brand: Roger

Model: MCT62E

Category: Security door controllers

Type: Operating instructions

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