CC613 Charge Controller

  • Integrated dynamic load management (DLM)
  • Integrated Powerline Communication (PLC) in accordance with ISO 15118
  • Integrated emergency opener
  • Smart-Grid-capable through OCPP 1.5 and 1.6 (JSON and SOAP), as well as the future-proof EEBUS protocol
  • Integrated 6 mA DC fault current detection/monitoring enables the use of an RCD type A, no RCD type B required
  • Ethernet interface and integrated 4G modem

The next generation of smart charge controllers – VDE certified

The CC613 is the next-generation intelligent charge controller. Just like its predecessor CC612, the CC613 is the brain of an intelligent charging station: It communicates with the vehicle and the backend, monitors the internal hardware of the charging system, the user interfaces as well as the connection between the charging station and the vehicle.

The new CC613 charge controller generation further extends the range of functions of Bender charge controllers. A modified enclosure design integrates an Ethernet interface, which now makes the use of a USB Ethernet adapter no longer necessary. Despite the modified shape of the enclosure, the dimensions of the CC613 are the same as those of the CC612, making it easy to fit into existing charging stations.

The CC613 also features Powerline Communication (PLC) according to ISO 15118 for the implementation of plug & charge as well as DC fault current detection with an externally connected current transformer. In addition, free software updates will be available to extend the functions.

The charge controller features a further developed integrated dynamic load management (DLM), which can also be controlled by a higher-level system. This allows larger charging infrastructures to be managed either locally via the controller or by an existing building management system.

Additional monitoring – increased electrical safety

The CC613 now also has an integrated emergency opener so that, in the event of a power failure of the charging station, the plug can be removed from the vehicle or charging station without having to integrate an additional component in the charging station. This saves space and thus allows the CC613 to be installed in small and compact wallboxes.

To increase protection against electric shock, the CC613 provides PE monitoring, in which the connectivity of the PE connection is regularly monitored. Furthermore, the CC613 offers an integrated weld check detection, which outputs an error message in case of a "welded" contactor or load switch.

The software for controlling all processes of the charge controller can be updated. This makes the CC613 future-proof. Updates (typically quarterly) can be easily installed via USB, Ethernet or over-the-air (OTA). If a vulnerability is detected in the software, it can be reported here.

READ THE DOCUMENTATION

Questions? Contact us!

CC613 Laderegler
CC613 Laderegler
  • Integrated dynamic load management (DLM)
  • Integrated Powerline Communication (PLC) in accordance with ISO 15118
  • Integrated emergency opener
  • Smart-Grid-capable through OCPP 1.5 and 1.6 (JSON and SOAP), as well as the future-proof EEBUS protocol
  • Integrated 6 mA DC fault current detection/monitoring enables the use of an RCD type A, no RCD type B required
  • Ethernet interface and integrated 4G modem

The next generation of smart charge controllers – VDE certified

The CC613 is the next-generation intelligent charge controller. Just like its predecessor CC612, the CC613 is the brain of an intelligent charging station: It communicates with the vehicle and the backend, monitors the internal hardware of the charging system, the user interfaces as well as the connection between the charging station and the vehicle.

The new CC613 charge controller generation further extends the range of functions of Bender charge controllers. A modified enclosure design integrates an Ethernet interface, which now makes the use of a USB Ethernet adapter no longer necessary. Despite the modified shape of the enclosure, the dimensions of the CC613 are the same as those of the CC612, making it easy to fit into existing charging stations.

The CC613 also features Powerline Communication (PLC) according to ISO 15118 for the implementation of plug & charge as well as DC fault current detection with an externally connected current transformer. In addition, free software updates will be available to extend the functions.

The charge controller features a further developed integrated dynamic load management (DLM), which can also be controlled by a higher-level system. This allows larger charging infrastructures to be managed either locally via the controller or by an existing building management system.

Additional monitoring – increased electrical safety

The CC613 now also has an integrated emergency opener so that, in the event of a power failure of the charging station, the plug can be removed from the vehicle or charging station without having to integrate an additional component in the charging station. This saves space and thus allows the CC613 to be installed in small and compact wallboxes.

To increase protection against electric shock, the CC613 provides PE monitoring, in which the connectivity of the PE connection is regularly monitored. Furthermore, the CC613 offers an integrated weld check detection, which outputs an error message in case of a "welded" contactor or load switch.

The software for controlling all processes of the charge controller can be updated. This makes the CC613 future-proof. Updates (typically quarterly) can be easily installed via USB, Ethernet or over-the-air (OTA). If a vulnerability is detected in the software, it can be reported here.

READ THE DOCUMENTATION

Questions? Contact us!

Features

  • Charge controller in accordance with IEC 61851-1 (charging mode 3)
  • Configurable master and slave operation
    Setting up charging stations with two charging points:
    – 1 charge controller as data gateway with 4G modem
    – 1 charge controller as slave without 4G modem
  • Dynamic load management to optimally distribute the available power among all charging points and signal the maximum power available in each case to the vehicle
  • Residual direct current monitoring module (external RCD type A required), different cable lengths can be selected
  • Integrated emergency opener for actuator control (locking/unlocking) and monitoring of the 12 V supply voltage
  • Can be integrated in single- or three-phase systems up to 80 A
  • OCPP 1.5 and OCPP 1.6 compliant with JSON, SOAP
  • Supported mobile networks: 4G (LTE), 3G (UMTS) and 2G (GSM) with an integrated 4G modem
  • 3 USB interfaces:
    – 1 CONFIG interface for local configuration and installation of software updates
    – 2 USB host interfaces
  • Control Pilot and Proximity Pilot communication
  • Configurable support for additional SCHUKO socket-outlets
  • Meter interface: Modbus TCP and RTU
  • External Modbus interface (second meter for dynamic load management)
  • User interface modules for customer-specific applications (e.g. RFID, LED, antenna)
  • Configurable 2-channel input/output extension interface for additional functionality
  • Internal temperature sensor to reduce the charging current depending on the ambient temperature
  • ISO 15118 Powerline Communication (PLC) for plug & charge and load management systems
  • ISO 15118 Powerline Communication (PLC) for plug & charge or autocharge
  • Ethernet interface

Applications

  • Electric vehicle charging stations, wallboxes or street light charging points

CC613 Charge Controller Variant(s)

TypeModemInterfaceRDC-MExternal
Modbus
OCCP-
capable
PLC*User 
interface
I/O
extension
Art. No.
CC613-ELM4PR-M4GModbus, EthernetB94060020
CC613-ELPR-M--Modbus, EthernetB94060021
CC613-ELM4PR4GModbus, Ethernet--B94060026
CC613-ELPR--Modbus, Ethernet--B94060027
CC613-HEM-X2--Modbus, Ehternet--------B94060028

* Powerline Communication acc. to ISO/IEC 15118

The charge controller with residual direct current monitoring module (RDC-M) only works in combination with a measuring current transformer (to be ordered separately). Different cable lengths are available.

Optional Accessories for CC613 Charge Controller

DescriptionArt. No.
RFID105-L1 B94060105
RFID114 with RJ45 cable (length 500 mm)B94060114
Measuring current transformer CTBC17P-03-K0325* (cable variant, cable length 325 mm)B98080071
Measuring Current transformer CTBC17* (PCB variant)**B98080070
Connection cable CTBC17-Cable1470 incl. clip housing (cable length 1470 mm)B98080542
Connection cable CTBC17-Cable600 incl. clip housing (cable length 600 mm)B98080543
Connection cable CTBC17-Cable325 incl. clip housing (cable length 325 mm)B98080541
Connection cable CTBC17-Cable180 incl. clip housing (cable length 180 mm)B98080540
DPM2x16FP (display module)B94060120
Plug kit CC613 (to be ordered separatly)**B94060129
Plug kit CC613 bulk pack ELM4PR-M, ELPR-M (50x)B94060128
Plug kit CC613 bulk pack ELM4PR, ELPR, HEM-X2 (50x)B94060126

* The measuring current transformer has an internal diameter of 17 mm.
** The PCB-variant can be combined with the connection cables of different lengths.
*** Not included in the scope of delivery of the CC613.

Downloads for CC613 Charge Controller

NameCategorySizeLanguageTimestampD-/B-Number
CC613 Product Brochures 1.9 MB EN2023/07/2121.07.2023
Dynamic Load Management Flyers 429.0 KB EN2023/07/2121.07.2023
The IEC 62955 standard at a glance Flyers 325.9 KB EN2023/11/2929.11.2023
We are your eMobility partner! Flyers 262.3 KB 2023/11/2929.11.2023
CC613 Beiblatt Manuals 86.4 KB DE2023/02/0202.02.2023D00381
CC613 Supplementary sheet Manuals 86.4 KB EN2023/02/0202.02.2023D00381
CC613 CE Declarations of Conformity 70.2 KB 2023/11/2222.11.2023
CC613 Datasheets 531.4 KB EN2023/03/1010.03.2023D00381
CC613 Manuals 6.9 MB EN2023/03/0606.03.2023D00381
CC613 - The next generation of smart charge controllers Flyers 286.4 KB EN2021/09/0707.09.2021D00381
CC613 Charge Controller Flyers 983.9 KB EN2022/05/2424.05.2022D00381
Charge Controller CC613 Tender Texts 113.7 KB EN2022/07/2626.07.2022D00381
CC613 - Plug kit Manuals 667.3 KB EN2020/10/0808.10.2020D00381
Safer Charging with the New Generation CC613 Technical Article 772.9 KB EN2020/06/0505.06.2020