45kW Dc/Dc bidirectional charger

"High-performance bidirectional charger designed for seamless energy transfer between electric vehicles and the grid. With a capacity of 45kW, it supports fast charging and discharging, enabling efficient energy management for EVs and stationary storage applications. Ideal for commercial and residential use, this charger enhances flexibility in energy usage, supports renewable integration, and contributes to sustainability goals."

Dimensions: (34.1cmx36cmx5.4cm)

Weight: 8kg

A 45kW DC/DC bidirectional charger is a high-capacity power conversion device designed to manage energy flow between two DC sources. It has a power rating of 45 kilowatts, making it suitable for large-scale applications such as industrial energy storage systems, large electric vehicles, and renewable energy installations.

Key Features:

  • Extends battery voltage range by Partial Power Process technology
  • Extend energy storage surge capability
  • Improve battery output power capability at low SOC range
  • Programmable 4-stage charge characterisitc: Bulk - Absorption - float - storage
  • Computer interface through RS485
  • Battery temperature monitoring (Battery charging rate can be adjusted if battery temperature exceed a safety limit)
  • State of the art flat efficiency curve (Saves energy for ESS applications)
  • Extremely low profile design
  1. Fast Charging: With a power capacity of 45kW, this charger enables rapid charging of electric vehicles, reducing downtime and enhancing convenience for users.
  2. Bidirectional Energy Flow: The charger allows for two-way energy transfer, enabling energy to be sent from the vehicle to the grid or energy storage systems and vice versa, optimizing energy usage.
  3. Enhanced Energy Management: It integrates seamlessly with energy management systems, allowing for real-time monitoring and control of energy flow, leading to improved efficiency and cost savings.
  4. Support for Renewable Energy: The charger facilitates the integration of renewable energy sources, enabling users to store excess energy generated from solar or wind for later use.
  5. Reduced Fuel Consumption: By utilizing stored energy during peak demand periods, the charger helps reduce reliance on diesel generators, leading to lower fuel costs and extended generator lifespan.
  6. Lower Emissions: By optimizing energy usage and integrating renewable resources, the charger contributes to a significant reduction in greenhouse gas emissions associated with traditional energy generation.
  7. Improved Grid Stability: The ability to provide energy back to the grid during peak demand helps stabilize the grid and reduce strain on conventional power sources.
  8. Flexible Energy Storage Solutions: The charger supports various energy storage solutions, enabling businesses and households to manage their energy consumption more effectively and economically.
  9. Scalability: Its modular design allows for easy scalability, accommodating future energy needs and the integration of additional charging stations or storage systems.
  10. Cost Savings: By reducing fuel consumption, minimizing operational costs, and enabling demand response strategies, the charger provides substantial long-term savings for users.
  11. User-Friendly Interface: Typically equipped with an intuitive interface for monitoring and management, making it easier for users to interact with and manage their energy systems.
  12. Reliability and Performance: Designed for durability and high performance, the charger can operate efficiently in various environmental conditions, ensuring consistent energy delivery.

Key Functions of the 45kW DC/DC Bidirectional Charger in Diesel Generator Optimization:

  1. Energy Transfer: The charger enables the seamless transfer of energy between the diesel generator, battery storage systems, and electric vehicles. This allows for efficient utilization of energy generated by the diesel generator, especially during periods of low demand.
  2. Fast Charging Capability: With a capacity of 45kW, the charger provides rapid charging for electric vehicles, ensuring they are quickly ready for use. This capability is essential in commercial applications where downtime needs to be minimized.
  3. Energy Storage Utilization: The charger allows the diesel generator to work in conjunction with battery storage systems, enabling the storage of excess energy generated during low-demand periods. This stored energy can be used during peak demand times or when the generator is not in operation, reducing fuel consumption and operational costs.
  4. Demand Response Management: By integrating with an energy management system, the charger can participate in demand response programs, helping to balance energy loads and reduce strain on the generator during peak demand periods.
  5. Renewable Energy Integration: The charger supports the integration of renewable energy sources, such as solar or wind, by allowing the energy generated to be stored and used effectively. This enhances the sustainability of the energy system and reduces reliance on diesel fuel.
  6. Reduced Emissions: By optimizing energy usage and facilitating the use of stored energy, the bidirectional charger helps to reduce emissions associated with diesel generator operation, contributing to overall environmental goals.
  7. Enhanced Control and Monitoring: The charger can be monitored and controlled through an integrated energy management system, allowing for real-time adjustments based on energy needs, usage patterns, and generator performance.
  8. Scalability: The system can be easily scaled to accommodate additional energy storage or charging capabilities, making it suitable for various applications, from small businesses to large commercial fleets.

In summary, the 45kW DC/DC Bidirectional Charger serves as an essential component of a diesel generator optimizer system, facilitating efficient energy management, enhancing the integration of renewable resources, and improving overall operational efficiency while reducing costs and environmental impact.

 

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