EVCC CCS1 CCS2 GBT CHAdeMO Electric Vehicle Charging Controller
Key Features
- HomePlug Green PHY (HPGP) 1.1
- SLAC (Signal Level Attenuation Characterization)
- DIN SPEC 70121 Support
- ISO 15118-2 AC/DC EIM/PnC
- ISO 15118-20 AC/DC EIM/PnC
- Bidirectional Power Transfer (V2G)
- VAS (Value Added Service) ISO 15118/VDV261
- Pantograph & ACD Support
- CAN 2.0B, J1939, UDS supported
Electric Vehicle Charging Controller (EVCC) Models:
GQEVPLC-V3.3 CCS Combo1 & 2
GQEVPLC-V3.4 CCS Combo 1 & 2
GQEVPLC-V4.1 CCS Type 1 & 2
GQEVPLC-V6.1 CCS 1 & 2
GQEVPLC-V6.2 CCS1 & 2
GQVCCU-V1.03 CHAdeMO
Detailed Functionality
What is the function of the Electric Vehicle Communication Controller (EVCC)?
The Electric Vehicle Communication Controller (EVCC) ensures secure and compliant communication between electric vehicles and charging stations. It supports ISO 15118-2, ISO 15118-20, and DIN 70121 PLC standards, as well as all mainstream charging protocols, including CCS, GB/T, CHAdeMO, MWCS, NACS, and ChaoJi.
What is an electric vehicle communication controller EVCC?
The Electric Vehicle Communication Controller (EVCC) is a device installed in rechargeable electric vehicles for communication with charging stations. DC-charging electric vehicles require communication with charging stations through the EVCC.
EVCC Fast Charging Technology
The electric vehicle (EV) industry is rapidly advancing, with one of the key technologies driving its growth being the introduction of Combined Charging System (CCS) charging controllers. These controllers are widely popular in the EV industry, revolutionizing the way electric vehicles are charged.
The latest generation Controller for charging Electric Vehicles supports both CCS1 and CCS2 inlets and, thanks to Plug and Charge (PnC) capability, vehicles can be authenticated simply by plugging in the inlet, thus starting the charging process.
The EVCC is a standard ECU for 24V environments. It realizes electrical charging according to DIN SPEC 70121 and ISO 15118 for power line communication (PLC) with the infrastructure. The EVCC includes an integrated flash bootloader and a modern MICROSAR stack with all relevant application modules.
It serves as a communication modem for EVs, facilitating the exchange of communication messages with EV chargers during charging. The EVCC is designed to support reliable stand-alone operation, capable of functioning with minimal control by other controllers (VCU, BMS, etc.), independently processing most communication protocols required for EV charging.
Fast Charging Controller Overview
The EV industry is rapidly evolving, and one of the key advancements driving its growth is the introduction of Combined Charging System (CCS) charging controllers. These controllers have gained significant popularity, enhancing efficiency and reliability for all your EV charging needs.
Frequently Asked Questions
Which charging standards does the EVCC support?
The EVCC supports a wide range of global standards including CCS1, CCS2, GB/T, CHAdeMO, and the latest NACS and ChaoJi protocols.
Does the controller support Vehicle-to-Grid (V2G) communication?
Yes, it supports Bidirectional Power Transfer Communication (V2G) in accordance with ISO 15118-2 and ISO 15118-20.
What is the "Plug and Charge" (PnC) feature?
PnC allows the vehicle to be automatically authenticated and authorized for charging as soon as the cable is plugged in, without needing additional cards or apps.
Is the EVCC compatible with 24V vehicle systems?
Yes, the EVCC is a standard Electronic Control Unit (ECU) specifically designed for 24V environments.
What communication protocols are used for infrastructure interaction?
It uses Power Line Communication (PLC) based on HomePlug Green PHY 1.1, following DIN SPEC 70121 and ISO 15118 standards.
Can the EVCC operate independently of other controllers?
Yes, it is designed for reliable stand-alone operation and can process most communication protocols with minimal control from the VCU or BMS.