125KW 125A NACS Plug fast EV Charger 250A Tesla Connector DC EV charging Plug
NACS is Tesla’s previously proprietary direct current (DC) fast charging connector standard—formerly known simply as the “Tesla charging connector.” It has been used with Tesla cars since 2012 and the connector design became available to other manufacturers in 2022. It was designed for Tesla’s 400-volt battery architecture and is much smaller than other DC fast charging connectors. The NACS connector is used with Tesla superchargers, which currently charge at a rate of up to 250kW.
1.The NACS connector has a single button located on the top center of the handle. When the button is depressed, a UHF signal is emitted. When the connector is locked in place, the signal commands the vehicle to retract the latch holding the connector in place. When the connector is not locked in place, the signal commands the nearby vehicle to open the door covering the inlet.
2,If charge point operators want to offer charging for new Ford and GM EVs, they’ll need to convert some of their CCS1 charger connectors to NACS. DC fast chargers like Tritium’s PKM150 will be able to accommodate NACS connectors in the near future.
3,Tesla Gun 250A Tesla NACS Connector,250A Tesla NACS Plug.
Features | 1. Meet NACS standard |
2. Concise appearance, support back installation | |
3. Back Protection class IP55 | |
4.Max charging power: 125kW | |
Mechanical Properties | 1. Mechanical life: no-load plug in/pull out>10000 times |
2. Impat of external force: can afford 1m drop amd 2t vehicle run over pressure | |
Electrical Performance | 1. DC input: 125A 1000V DC MAX |
3. Insulation resistance: >2000MΩ(DC1000V) | |
4. Terminal temperature rise: <50K | |
5. Withstand Voltage: 3200V | |
6. Contact resistance: 0.5mΩ Max | |
Applied Materials | 1. Case Material: Thermoplastic,flame retardant grade UL94 V-0 |
2. Pin: Copper alloy,silver +thermoplastic on the top | |
Environmental Performance | 1. Operating temperature: -40°C~+50°C |
Physical design
The TESLA Gun is an EV connector complies with the standard of NACS. The NACS connector is used with Tesla superchargers, which currently charge at a rate of up to 125kW.
Ultrasonic Welding Technology
This technology can make the resistance of the EV tend to zero during the charging process, and reduce the phenomenon of heating up during the DC charging process of the EV.
Voltage Rating
The80A ,125A ,200A,250A TESLA connector can be used to charge electric vehicles quickly, thanks to its 1,000-volt DC maximum voltage rating. It is the ideal choice for anyone who wants to charge their electric vehicle quickly and efficiently. The TESLA connector, with its high voltage rating, TESLA Plug is ideal for charging electric vehicles.
Quality Assurance
MIDA TESLA EV Plugs can withstand more than 10,000 times of plugging and unplugging. Ensure the safety of long-term power supply, solid and durable, and wear-resistant. It reduces the operation and maintenance costs of electric vehicle charging enterprises.
Safe Features
The TESLA connector has a number of safety features that protect against potential hazards such as overvoltage and overcurrent. These features include short circuit protection, ground fault detection, and temperature monitoring.
OEM&ODM
TESLA Gun supports simple LOGO customization and also supports customization of the entire function and appearance. There are professional sales and technical personnel docking. Open the road of brand agency for you.
High Power Ratings
MIDA TESLA plug Designed to handle high currents, offers exceptional power ratings of 80A, 125A, 200A, and 250A TESLA Connector. This outstanding capacity ensures ultra-fast DC charging speeds significantly reducing the time spent at charging stations.
Versatility and Compatibility
The TESLA plug compatible with all TESLA EV models on the market today.whether you own a compact electric car, a powerful electric SUV a heavy truck, a bus or a commercial electric vehicle, our TESLA plug is designed to meet your DC fast charging needs.
Enhanced Safety Features
Ultrasonic welding technology is used between the conductive terminal and the cable, the contact resistance tends to be zero, the temperature rise is lower during use and the service life of the product can be extended at the same time. And built-in temperature sensors, the charging process is safer