Sistema di controllo accessi Roger MCX2D

Specifiche

Specificazione
Volume di fornituratage	13.8 V CC; +/- 100 mV (batteria di backup collegata) 12.0 V CC (nessuna batteria di backup)
Current       consumption (typical)	MCX2D: 50mA (expander module) + battery charging current + outputs (VOUT, AUX, TML, VDR)
Corrente di carica della batteria	Configurable: ~0.3A/0.6A/0.9A
Ingressi	Four (DCx, DRx) parametric inputs
Uscite a transistor	Four (LCKx, BELLx) outputs, each with 15V/1A DC max load
Uscite di alimentazione	Two 13.8VDC/0.2A outputs (VOUT, AUX) Two 13.8VDC/0.2A outputs (TML) Two 13.8VDC/1.0A outputs (VDR)
Distanze	Up to 1200 m between the MC16 controller and the MCX expander (RS485). Up to 1200 m between the MCX expander and the MCT terminals (RS485) The total distance between the controller and any terminal cannot exceed 1200m.
Ambiente	Indoor general conditions, temperature: +5°C to +40°C, relative humidity: 10 to 75% (senza condensa)
Dimensions W x S x G	Dimensioni: 80 x 80 x 20 mm
Peso	65 grammi
EN55032 class	A
Conformità	CE, RoHS

Istruzioni per l'uso del prodotto

Il presente documento è soggetto ai Termini di utilizzo nella versione corrente pubblicata sul websito www.roger.pl.. The manufacturer reserves the right to make changes to the product without prior notice.

PROGETTAZIONE E APPLICAZIONE
MCX2D is an I/O expander dedicated to the RACS 5 system. The device, after connection to the MC16 access controller and the MCT series terminals, enables to control of 2 doors. The expander offers I/Os and distributes the power supply and the RS485 communication bus. The expander operates with a backup battery, which,,h depending on particular requirement, can be charged with 0.3A, 0.6A, or 0.9A current. The expander is equipped with removable terminal blocks, which facilitate electrical connections during installation and maintenance. MCX2D expander is offered separately as an electronic module for installation in a metal housing with a power supply or as a part of MC16-PAC-2-KIT.

Caratteristiche

• RACS 5 system I/O expander
• Power supply distribution for door devices
• RS485 bus distribution for MCT terminals
• 4 parametric (EOL) inputs
• 4 transistor outputs
• 6 power supply outputs
• Ricarica della batteria di backup
• Interfaccia RS485
• Terminali a vite rimovibili

Alimentazione elettrica
The expander requires a 13.8VDC power supply, and it is recommended to apply a PS2D power supply unit for that purpose. Due to the relatively high current between the expander and the PSU, all connections should be made using short cables with adequate cross sections. PSxD series PSUs (Roger) are offered with two 30cm/1mm² cables dedicated to supply the expander. Multiple MCX2D expanders can be supplied from the same PSU, and in such a case, each connection must be made with an individual pair of cables. When the expander’s supply voltage is too low, the battery cannot be fully charged, and when the voltage is too high, the battery can be damaged. MCX2D, which is supplied from a PSU equipped with its own backup (e.g., UPS), can be supplied with 12VDC, but then it cannot be equipped with its own backup battery.

Fig. 1 Due espansori MCX2D alimentati dallo stesso alimentatore

Batteria di riserva
MCX2D enables battery charging with 0.3A, 0.6A, or 0.9A current up to the level of voltage supplied to the expander (nominal 13.8VDC). The current is selected with jumpers (fig. 2). When the battery voltage drops to approximately 10V, it is disconnected from the expander. The battery is reconnected when the 13.8V supply to the expander is restored. To ensure battery charging up to 80% level within 24h (according to EN 60839 standard) following current settings must be applied:

• 300mA for 7Ah battery
• 600mA for 17Ah battery
• 900mA for 24Ah battery

Interfaccia RS485

• MCX2D is an addressable device connected to the RS485 communication bus of the MC16 controller. At the same time, the expander distributes the bus to MCT terminals at each door. The expander can be operated with the default ID=100 address, or it can be assigned with an address in the range of 101-115. All devices on the RS485 bus of the MC16 controller, including MCX expanders and MCT terminals, must have unique addresses in the range of 100-115. MCX2D is addressed during low-level configuration by means of the RogerVDM software or manually during the memory reset procedure.
• In most cases, communication works with any cable type (standard telephone cable, shielded or unshielded twisted pair, etc.), but the recommended cable is unshielded twisted pair (U/UTP cat 5). Shielded cables should be limited to installations subject to strong electromagnetic interference The RS485 communication standard used in the RACS 5 system guarantees proper communication a distances of up to 1200 meters,, as well as high resistance to interference If the expander and controller are powered by separate power supplies, it is necessary to short-circuit the expander’s power supply minus (GND) with the controller’s power supply minus (GND) using a separate wire of any small cross-section.

Indicatori LED
Expanders are equipped with LED indicators, which are used to signal integral functions. According to further mentioned procedures, the service mode is started by restarting the expander and placing a jumper on the MEM contacts.

Tabella 1. Indicatori LED

Tabella 1. Indicatori LED
Indicatore	Colore	Funzioni integrali
LCA	Rosso	In normal mode, the LED indicates backup power supply from the battery instead of the PSU.
CORRERE	Rosso	Single pulse every 4 sec., normal mode, Quick pulsing: service mode Slow pulsing (0.5s/0.5s): No communication with controller Very slow pulsing (1s/1s): Configuration memory error   In case of a Memory reset, this LED is used for manual addressing.
Data di nascita	Rosso	LED indicates data transmission to the controller
RXD	Verde	LED indicates data received from the controller
VDR, TML, VOUT, AUX	Verde	LED indicates the voltage at a particular output.
LCK, BELL	Rosso	LED is on when the corresponding LCK output is switched on.

Ingressi
Expander offers DC and DR parametric inputs of NO, NC, 3EOL/DW/NO, and 3EOL/DW/NC type. Input types and electric parameters, such as response time and parametric resistors, are defined within the low-level configuration (VISO v2 or RogerVDM). Input functions are assigned within the high-level configuration (VISO). Multiple functions can be assigned to the same input at the same time. In the standard scenario of door control, DC inputs are dedicated to the connection of door contacts, while DR inputs are dedicated to the connection of exit buttons, and they do not require low-level configuration as they can be operated with default settings:

• DC inputs: NC type / 50ms response time
• DR inputs: NO type / 50ms response time

Tabella 2. Tipi di input

• NO input can be in a normal or triggered state. In the normal state, CA contacts are opened. Input triggering is caused by CA contacts closing.
• NC input can be in a normal or triggered state. In the normal state, CA contacts are closed. Input triggering is caused by CA contacts opening.

• 3EOL/DW/NO input is operated in such a way that CA contacts closing is interpreted as triggering of the first input, while CB closing is interpreted as triggering of the second input. In the VISO software DW input type is represented by two independent inputs. Each can be used for a different purpose and assigned with different function.

• 3EOL/DW/NC input is operated in such wa way that CA contacts opening is interpreted as triggering of the first input, while CB opening is interpreted as triggering of the second input. Inthe the VISO software DW input type is represented by two independent inputs. Each can be used for a different purpose and assigned with different function.

Resistori parametrici
The same values of parametric resistors are used for all inputs, i.e,. 1kΩ; 1,2kΩ; 1,5kΩ; 1,8kΩ; 2,2kΩ; 2,7kΩ; 3,3kΩ; 3,9kΩ; 4,7kΩ; 5,6kΩ; 6,8kΩ; 8,2kΩ; 10kΩ; 12kΩ. In case of 3EOL/DW (Double Wiring) input type, Alarm A resistor defines a value of resistor used to detect triggering of the first input, while Alarm B resistor defines a value of resistor used to detect triggering of the second input. Alarm A resistor value must differ from the value of Alarm B resistor at least by three positions in the list above. The total resistance of the wire used to connect the contacts to the input should not exceed 100 Ω. Default values of parametric resistors:

• Alarm A = 2,2 kΩ
• Alarm B = 5,6 kΩ
• Tamper = 1,0 kΩ

Tempo di risposta
The response time parameter defines the minimal impulse time on the input that triggers the output. Each input can be configured individually in a range of 50 to 5000 ms within low-level configuration (VISO v2 or RogerVDM).

Uscite a transistor
Expander offers LCK and BELL transistor outputs. Electric parameters such as polarity are configured in n the low-level configuration (VISO v2 or RogerVDM). Functions are assigned to outputs within the high-level configuration (VISO). Multiple functions with different priorities can be assigned to the same output at the same time. In the standard scenario of door control, LCK outputs are dedicated to control door locks, while BELL outputs are dedicated to control alarm signalling devices and/or door bells. In the standard scenario of operation, both LCK and BELL outputs do not require low-level configuration.

Uscite di alimentazione
Expander offers 6 outputs in order to provide power supply to athe access controller, terminals, door lock, and other external devices.

Uscite VDR
VDR power supply output is dedicated to supplying the door lock, alarm signalling device, and other door-related devices. The terminal VDR+ is protected with a 1.0A electronic fuse. The terminal VDR is internally shorted to ground (GND). The green LED indicator is located at the VDR+ terminal to signal the voltage in uscita.

Output TML
TML’s power supply output is dedicated to supplying readers at the door. The terminal TML+ is protected with a 0.2A electronic fuse. The terminal TML is internally shorted to ground. The green LED indicator is located at the TML+ terminal to signal the voltage in uscita.

VOUT outpuThe t
The OUT power supply output is dedicated to supplying additional electronic modules, and it can also be used to supply the connected access controller. The terminal VOUT+ is protected with a 0.2A electronic fuse.. The terminal VOUT- is internally shorted to ground. The green LED indicator is located at the VOUT+ terminal to signal the voltage in uscita.

• Nota: If the MC16 access controller is supplied from the expander, then it cannot be supplied at the same time by its own PSU, and it cannot operate with its own backup battery.

Uscita Aux. 
AUX power supply output is dedicated to supplying optional electronic modules. The terminal AUX+ is protected with a 0.2A electronic fuse. The terminal AUX- is internally shorted to ground. The green LED indicator is located at the AUX+ terminal to signal the voltage in uscita.

 INSTALLAZIONE

The expander should be installed in a metal enclosure with a door and a power supply. The enclosure must be earthed by means of PE wire. The manufacturer offers a range of enclosures designed for electronic modules and equipped with power supplies. The installation site should be away from heat and moisture sources and protected from unauthorized access. The connection between the power supply and the expander should be made using a cable with a minimum cross-section of 0.5 mm² and a length of up to 50 cm. The PSxD series power supply comes with cables with a cross-section of 1 mm² and a length of 30 cm, which can be used to power the expander. All electrical lines connected to the expander must run inside the building. All electrical connections should be made with the power off. The network circuit supplying the device must be equipped with an installation switch.. After completing installation and start-up, close the enclosure.

• L'installazione può essere eseguita solo da personale qualificato in possesso dei permessi e delle autorizzazioni necessari per il collegamento e l'intervento in impianti a 230 V CA e a bassa tensione.tage reti. Non è consentito utilizzare l'involucro senza un circuito di protezione contro le scosse elettriche (PE) correttamente installato e tecnicamente funzionante.

Fig. 2 Espansore MCX2D

Tabella 3. Terminali a vite MCX2D

Tabella 3. Terminali a vite MCX2D
Nome	Descrizione
BAT+, BAT-	Batteria di riserva
VIN+, VIN-	Alimentazione in ingresso 13.8 VCC
AUX+, AUX-	Alimentatore in uscita 13.8 V CC/0.2 A (per uso generale)
VOUT+, VOUT-	13.8VDC/0.2A output power supply (to controller)
Un, B	Bus RS485 (al controller)
Ax*, Bx	Bus RS485 (ai lettori)
TMLx+, TMLx-	Alimentazione in uscita 13.8 V CC/0.2 A (per i lettori)
VDRx+, VDRx-	13.8VDC/1.0A output power supply (to door lock)
LCKx	Linea di uscita transistor 15 V CC/1.0 A (serratura porta)
BELLx	Linea uscita transistor 15VDC/1.0A (dispositivo di segnalazione allarme)
DCx	Linea di ingresso (contatto porta)
DRx	Linea di input (pulsante di uscita)

SCENARI OPERATIVI

In a typical scenario of operation, MCX2D expanders are used in MC16-PAC-2-KIT two-door access control kits (fig. 4 and 6). In the alternative scenario of operation, multiple MCX2D expanders are connected to multidoor MC16 access controller (fig. 5). In such scenario the maximal number of expanders operated by MC16 controller depends on its type and it is limited by available range of addresses ID=100-115 on RS485 bus of MC16 controller where all MCX and MCT devices must have unique addresses. For example, in the case of read-in/out doors, it is possible to control max. 6 doors in such a setup as MC16-PAC-6 + 3 x MCX2D + 12 x MC, T, while in the case of read-in doors, it is possible to control max. 10 doors in such setup as MC16-PAC-10 + 5 x MCX2D + 10 x MCT. In both cases, 15 addresses on the RS485 bus are occupied. It is also possible to mix read-in and read-in/out doors within a single MC16 controller if the limitation related to the number of RS485 addresses is preserved.

Fig. 4 Scenario di funzionamento con MC16-PAC-2-KIT

Fig. 5 Scenario di funzionamento con più espansori MCX2D

Fig. 6 Schema di collegamento per l'espansore MCX2D in MC16-PAC-2-KIT

CONFIGURAZIONE

The purpose of the low-level configuration is to prepare the device for operation in the RACS 5 system. In case of the RACS 5 v1 system, the address ofthe the device must be configured by means of RogerVDM software or by manual addressing before connection to the MC16 controller. While in the RACS v2 system, low-level configuration and addressing can be done with VISO v2 software during final configuration of the system. Therefore, inthe RACS 5 v2 system, the configuration for the older VDM software and manual addressing is optional, and during installatio, it is only necessary to properly connect the device to the MC16 access controller.

Configurazione di basso livello (VISO v2)
In the RACS 5 v2 system, the expander can be installed at the site without previous configuration. According to the AN006 application note, its address and other settings can be configured from VISO v2 management software a,,  nd during such configuration,n the access to its service contacts (fig. 2) is not required.

Low-level configuration (RogerVDM)
The purpose of the low-level configuration is to prepare the device for operation in the RACS 5 system. Programming procedure with RogerVDM software (firmware 1.1.30.266 or newer):

1. Collegare il dispositivo all'interfaccia RUD-1 (fig. 7) e collegare il RUD-1 alla porta USB del computer.
2. Rimuovere il ponticello dai contatti MEM (fig. 2) se è posizionato lì.
3. Restart the device by pressing the RST button, andthe the RUN LED indicator will pulsate. Then, within 5 seconds, place the jumper on the MEM contacts, and the RUN LED indicator will pulsate quickly.
4. Start the RogerVDM program, select the MCX v1.x device, v1.x firmware version, RS485 communication channel, and serial port with RUD-1 interface.
5. Click Connect, and the program will establish a connection and automatically display the Configuration tab.
6. Therange of 100-115 (if necessary) and other settings according t he quirements of the specific installation.
7. Click Send to Device to update the configuration.
8. Optionally, make a backup by clicking Send to File… and saving settings to o file su disco.
9. Disconnect from the RUD-1 interface and leave the jumper on the MEM contacts to enable further configuration of the device from the VISO v2 software, or remove the jumper from fthe MEM contacts to block such remote configuration.

Procedura di programmazione con software RogerVDM (firmware precedente a 1.1.30.266):

1. Collegare il dispositivo all'interfaccia RUD-1 (fig. 7) e collegare il RUD-1 alla porta USB del computer.
2. Posizionare il ponticello sui contatti MEM (fig. 2).
3. Restart the device by pressing the RST button,andthe  RUN LED indicator will pulsate.
4. Start the RogerVDM program, select the MCX v1.x device, v1.x firmware version, RS485 communication channel, and serial port with RUD-1 interface.
5. Click Connect, and the program will establish a connection and automatically display the Configuration tab.
6. Enter an unoccupied RS485 address in the range of 100-115 (if necessary) and other settings according to the requirements of the specific installation.
7. Click Send to Device to update the configuration.
8. Optionally, make a backup by clicking Send to File… and saving settings to a file su disco.
9. Remove jumper from MEM contacts and disconnect device from RUD-1 interface.

Fig. 7 Connection to RUD-1 interface (low-level configuration

Table 4. List of low-level parameters tion)

Tabella 4. Elenco dei parametri di basso livello
Impostazioni di comunicazione
Indirizzo RS485	Il parametro definisce l'indirizzo del dispositivo sul bus RS485. Intervallo: 100-115. Valore predefinito: 100.
Timeout comunicazione RS485 [s]	The parameter defines the delay after which the device will signal lost communication with the controller. When set to 0, then signalling is disabled. Range: 0-64s. Default value: 20s.
Crittografia RS485	The parameter enables encryption on the RS485 bus. Range: [0]: No, [1]: Yes. Default value: [0]: No.
Chiave di crittografia RS485	A parameter defines the key for the encryption of communication on the RS485 bus. Range: 4-16 ASCII characters.

Tipi di input
DC1, DR1, DC2, DR2	Parameter defines input type. Range: [1]: NO, [2]: NC, [3]: EOL/NO, [4]: EOL/NC, [5]: 2EOL/NO, [6]: 2EOL/NC, [7]: 3EOL/NO, [8]: 3EOL/NC, [9]: 3EOL/DW/NO, [10]: 3EOL/DW/NC. Default value for DC is [2]: NC. Default value for DR is [1]: NO.
Resistenze di ingresso parametriche (EOL)
Tamper, Alarm A, Alarm B [Ohm]	A parameter defines a resistor for parametric (EOL) inputs.
Tempi di risposta in ingresso
DC1, DR1, DC2, DR2 [ms]	The parameter defines the minimal duration of the pulse that is required to trigger the input. Range: 50-5000. Default value: 50.
Polarità di uscita
LCK1, BELL1, LCK2, BELL2	The parameter defines the polarity of the output. Normal polarity means that the output by default is switched off, whereas reversed polarity means that the output by default is switched on. Range: [0]: Normal polarity, [1]: Reversed polarity. Default value: [0]: Normal polarity.
Commenti
DEV, PWR	A parameter defines any text or comment that corresponds to the device/object. It is later displayed in the VISO program.
Inserisci commenti
DC1, DR1, DC2, DR2	A parameter defines any text or command that corresponds to the object. It is later displayed in the VISO program.
Commenti di output
LCK1, BELL1, LCK2, BELL2	A parameter defines any text or comment that corresponds to the object. It is later displayed the ISO program.

Reset della memoria e indirizzamento manuale

Memory reset procedure resets all settings to factory default ones, and it enables to manual configuration of the address on the RS485 bus.  Memory reset and manual addressing procedure (firmware 1.1.30.266 or newer):

1. Remove all connections from LCK1 and DC1 lines.
2. Rimuovere il ponticello dai contatti MEM (fig. 2) se è posizionato lì.
3. Connect LCK1 and DC1 lines.
4. Restart the device by pressing the RST butto, anthe d the RUN LED indicator will pulsate. Then, within 5 seconds, place the jumper on the MEM contacts, and the ACL LED indicator will pulsate.
5. Disconnect LCK1 and DC1 lines, and the RUN LED indicator will pulsate slowly. The number of consecutive flashes will correspond to the expander’s address on the RS485 bus.
6. Press the RST button at a certain moment to define a certain address (table 1) or press the RST button after 16 flashes when the ACL and RUN LED indicators are switched on to define the default ID=100 address.
7. Disconnect from RUD-1 interface and leave jumper on the MEM contacts to enable further configuration of the device from the VISO v2 software, or remove the jumper from MtheM contacts to block such remote configuration.

Procedura di reset della memoria e indirizzamento manuale (firmware precedente a 1.1.30.266):

1. Remove all connections from LCK1 and DC1 lines.
2. Posizionare il ponticello sui contatti MEM (fig. 2).
3. Connect LCK1 and DC1 lines.
4. Restart the device by pressing the RST button, andthe the ACL LED indicator will pulsate.
5. Disconnect LCK1 and DC1 lines, and the RUN LED indicator will pulsate. The number of consecutive flashes will correspond to the expander’s address on the RS485 bus.
6. Press the RST button at a certain moment to define a certain address (table 5) or press the RST button after 16 flashes when ACL and RUN LED indicators are switched on to define the default ID=100 address.
7. Remove the jumper from the MEM contacts and restart the device.

Tabella 5. Codifica dell'indirizzo RS485

Tabella 5. Codifica dell'indirizzo RS485
Number of RUN LED flashes	Indirizzo RS485	Number of RUN LED flashes	Indirizzo RS485
1	101	9	109
2	102	10	110
3	103	11	111
4	104	12	112
5	105	13	113
6	106	14	114
7	107	15	115
8	108	16	100

Exampon:
To select ID=105 address within the memory reset procedure, press the RST button after 5 flashes of the UN LED indicator.

Configurazione di alto livello (VISO)
The purpose of high-level configuration is to define the logical functioning of the expander, which communicates with the MC16 access controlle, and it depends othe n the applied scenario of operation. The example of an access control system configuration is given in the AN006 application note, which is available at www.roger.pl.

AGGIORNAMENTO FIRMWARE
The firmware ofthe the device can be changed to a newer or older version. The update requires a connection to a computer with the RUD-1 interface (fig. 2) and starting the RogerVDM software. The latest firmware file è disponibile presso www.roger.pl.

Procedura di aggiornamento del firmware:

1. Collegare il dispositivo all'interfaccia RUD-1 (fig. 8) e collegare il RUD-1 alla porta USB del computer.
2. Place jumper on FDM contacts (fig. 2).
3. Restart the device by pressing the ST button, andthe the TXD LED indicator will switch on.
4. Avviare il programma RogerVDM e nel menu in alto selezionare Strumenti e poi Aggiorna firmware.
5. In the opened window, select device type, serial port with RUinterfaceace, nd path to firmware file (*.hex).
6. Click Update to start firmware upload with a progress bar at the bottom.
7. When the update is finished, remove the FDM jumper and restart the device. Additionally, it is recommended to start the memory reset procedure.

Fig. 8 Collegamento all'interfaccia RUD-1 (aggiornamento firmware)

INFORMAZIONI PER L'ORDINE

Tabella 7. Informazioni per l'ordinazione

Tabella 7. Informazioni per l'ordinazione
MCX2D	Modulo elettronico espansore MCX2D per l'installazione in un alloggiamento metallico con un

	Alimentazione elettrica
MC16-PAC-2-KIT	Kit di controllo accessi a 2 porte; contenitore metallico ME-15; modulo di controllo accessi MC16-PAC-2; espansore I/O MCX2D; alimentatore PS2D
1° RUD	Interfaccia di comunicazione portatile USB-RS485 dedicata ai dispositivi di controllo accessi ROGER

CRONOLOGIA DEL PRODOTTO

Tabella 8. Storia del prodotto
Versione	Data	Descrizione
MCX2D v1.0	10/2017	The first commercial version of the oduct

This symbol, placed on a product or packaging, indicates that the product should not be disposed of with other wastes, as this may hurt the environment and health. The user is obliged to deliver equipment to the designated collection points of electric and electronic waste. For detailed information on recycling, contact your local authorities, waste disposal company, or point of purchase. Separate collection and recycling of this type of waste contributes to the protection of the natural resources and is safe to health and the environment. The weight of the equipment is specified in the document.

Contatto:

• Roger sp. z o.o. Sp.k. 82-400 Sztum Gościszewo 59
• Tel.: +48 55 272 0132
• Fax: +48 55 272 0133
• Tecnologia. supporto: +48 55 267 0126
• E-mail: support@roger.pl
• Web: www.roger.pl

Domande frequenti

How can I reset the memory in the MCX2D system?

To reset the memory, follow the instructions in the user manual provided by the manufacturer. Typically, a memory reset involves specific steps to clear and reconfigure the system settings.

What is the significance of LED indicators in service mode?

LED indicators in service mode signify different statuses such as communication errors, configuration memory errors, and normal operation. Refer to the user manual for detailed information on interpreting the LED signals

Documenti / Risorse

Sistema di controllo accessi Roger MCX2D [pdf] Manuale di istruzioni MCX2D, Sistema di controllo accessi MCX2D, MCX2D, Sistema di controllo accessi, Sistema di controllo, Sistema

Riferimenti

• Manuale d'uso