5kW 7.5kW DC Discharger V2L( Vehicle to Load) - IEE-Business

English
RFQ

Download the app

5kW 7.5kW DC Discharger V2L( Vehicle to Load)

discuss personally

Model

Basic info Product Detail Supplier

Basic info

Brand	RW Energy
Model NO.	DC Discharger V2L( Vehicle to Load)
Rated Output Rating	5kW
Output Voltage	AC 220V/230V
Power Conversion Efficiency	>90%
Connector Options	CHAdeMO
Cable Length	2m
Input Voltage	DC 320V-420V
Series	DC EV Chargers

Product Detail

Description：

V2L (Vehicle to Load): Vehicle to Load. It can use electric vehicles as a mobile power source to supply power to other external load devices. For example, when camping outdoors, it can supply power to devices such as electric ovens and stereos, expanding the usage scenarios of electric vehicles.This V2L (Vehicle-to-Load) DC discharger supports dual power specifications of 5kW and 7.5kW, directly converting DC power from EV power batteries into stable load electricity to achieve flexible energy output of "vehicle as power source". The device adopts high-frequency isolated DC-DC conversion technology with an efficiency of over 96%, compatible with mainstream EV brands such as Tesla, BYD and NIO, providing pure DC power for outdoor equipment and emergency power scenarios without additional inverters.

Features:

Connector: CCS1 / CCS2 /CHAdeMO / GBT / Tesla •Start method: Press the button.
Cable length：2m •Dual socket 10A&16A.
Weight: 5kg •Product size: L300mm*W150mm*H160mm.
EV battery voltage: 320VDC-420VDC.
Output voltage: 220VAC/230VAC 50Hz.
Rated power: 5kW / 7.5kW.
\

Know your supplier

RW Energy

Zhejiang Rockwell Energy Technology Co., Ltd. is an international enterprise specializing in the research, development and manufacturing of recloser controllers, power quality management, power monitoring systems and other high-end power equipment. In today's critical period of global energy transition and power system upgrading, the company has gathered a group of top talents in the fields of power engineering, automation control, software development, etc., who carry the enthusiasm and persistence for the power business, and are committed to overcoming the complex problems in the power system, and promoting the intelligent development of the power industry with innovative technology. Mission: To make global electricity smarter, more reliable and more efficient with innovative technology. Vision: To be the leader in global power intelligence.

Main Categories

High voltage/New energy/Tester

Business Type

Design/Manufacture/Sales

Highest Annual Export (USD)

$100000000

Professional Experience

12 years

Workplace

30000m²

占位

占位

Related Products

Related Knowledges

Analysis of Partial Discharge Principle (1)

Analysis of Partial Discharge Principle (1)

Analysis of Partial Discharge Principle (1)Under the action of an electric field, in an insulation system, discharge occurs only in some regions and does not penetrate between the conductors with the applied voltage. This phenomenon is called partial discharge. If partial discharge occurs near a conductor surrounded by gas, it can also be called corona.Partial discharge can occur not only at the edge of a conductor but also on the surface or inside an insulator. The discharge occurring on the su

What types of FACTS controllers are there?

What types of FACTS controllers are there?

According to the type of connection FACTS Controller with the power system, it is classified as;Series Connected ControllerShunt Connected ControllerCombined Series-Series ControllerCombined Shunt-Series ControllerSeries-Connected ControllersSeries controllers introduce a voltage in series with the line voltage, typically using capacitive or inductive impedance devices. Their primary function is to supply or absorb variable reactive power as needed.When a transmission line is heavily loaded, the

What are FACTS and related technologies?

What are FACTS and related technologies?

FACTS (Flexible Alternating Current Transmission System) refers to a power electronics-based system that uses static devices to enhance the power transfer capability and controllability of AC transmission networks.These power electronic devices are integrated into conventional AC grids to boost key performance metrics, including:Power transfer capacity of transmission linesVoltage stability and transient stabilityVoltage regulation precisionSystem reliabilityThermal limits of transmission infras

What are the differences between HVAC and HVDC?

What are the differences between HVAC and HVDC?

Difference Between HVAC and HVDCElectricity generated in power plants is transmitted over long distances to electrical substations, which then distribute it to consumers. The voltage used for long-distance power transmission is extremely high, and we will explore the reasons for this high voltage later. Additionally, the transmitted power can be in either alternating current (AC) or direct current (DC) form. Therefore, power can be transmitted using either HVAC (High Voltage Alternating Current)

What are the Advantages of HVDC over HVAC?

What are the Advantages of HVDC over HVAC?

What are the Advantages of HVDC over HVAC?Electricity travels long distances before reaching consumers. Power plants, often remote, supply electricity through hundreds of miles and multiple substations. High-voltage transmission reduces line losses, with both AC and DC used. Though AC is familiar via utility poles and home outlets, HVDC offers unique advantages in power transmission.The goal of power transmission is to minimize losses and costs. While both face influencing factors, HVDC has more

Is the neutral - point grounding method of the power grid of 110kV and above only the neutral - point direct grounding method？

Is the neutral - point grounding method of the power grid of 110kV and above only the neutral - point direct grounding method？

Neutral - Point Grounding Modes and Protection of Transformers in Power GridsFor systems ranging from 110 kV to 500 kV, an effective grounding method shall be adopted. Specifically, under all operating conditions, the ratio of zero - sequence reactance to positive - sequence reactance X0/X1 of the system should be a positive value and not exceed 3. Meanwhile, the ratio of zero - sequence resistance to positive - sequence reactance R0/X1should also be a positive value and not exceed 1.In 330 kV a