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THE NEXT-GEN EV CHARGERS

At Adimicro, we use next-level half bridge technology with MCU card to design and manufacture EV Chargers that are efficient, reliable, and accurate. Our chargers are built to last and are compatible with all types of electric vehicles.

HUMAN-CENTERED DESIGN

We believe in creating products that are not only advanced but also easy to use. Our chargers are designed with a human-centered approach to ensure that they are user-friendly and accessible for everyone.

ENERGY EFFICIENT

At Adimicro, we are committed to promoting sustainable energy. Our chargers are designed to be energy-efficient and thus saving your power bill and hence emission, making them an eco-friendly choice for everyone.

Advanced EV Charging Technology

We specialize in designing and manufacturing next-level EV chargers with Half Bridge topology and MCU Card. Precise software controlled output keeps your Lithium Ion(LiON) battery safe.

Many products available in the market are made with technology meant for lower wattages, making high dividends for manufacturer. This results in high failure rate and risking your battery as well. Some of the advantage of using Half Bridge topology are as follows:

  • Voltage Range: A half-bridge converter is generally suitable for higher power applications and a wider input voltage range. It tends to offer better voltage regulation due to their ability to control the duty cycle and provide precise output voltage regulation.

  • Efficiency: Half-bridge converters can be very efficient, especially at higher power levels. Our charger has an efficiency rate of 89% making them a superior choice thus saving on power bill.

  • Switching Frequencies: Typically, half-bridge topologies operate at higher switching frequencies compared to flyback, which can be an advantage in certain applications.

We have been using MCU Card unit which has an embedded software giving precise output, accurate signaling & enhancing product to give you a stable and reliable life cycle for the charger and lithium battery pack used.

CAN Communication
 

Communication between an electric vehicle (EV) charger and an EV's battery is a critical aspect of the charging process. This communication allows for safe and efficient charging, as well as various control and monitoring functions.

CAN communication is essential for monitoring and managing the battery system in an EV. This includes monitoring battery state of charge, state of health, temperature, and voltage. It also helps balance the battery cells and manage charging and discharging.

CAN communication plays a role in electric vehicle charging. It facilitates communication between the vehicle and the charging station, allowing for charging initiation, power level negotiation, and status updates.

Electronic Manufacturing & R&D Facility

We offer a full range of electronic manufacturing services, including PCB assembly, cable assembly, and final assembly. Our manufacturing facility is equipped with the latest technology and equipment to ensure high-quality products and services.

  1. We have Pick and Place machine from Juki, Japan, 8 Zone ROHS Compliant Reflow, Semi Automatic Printer, Conveyor.

  2. Testing Instruments include HV Tester, AC Power Source, DC Power Source, DC Loads, LCR Meter, Oscilloscope, Power Meter, Digital Multimeter etc.

  3. Advanced Security: Access to the facility is strictly controlled with bio metric authentication, security personnel, and surveillance systems to ensure the safety and confidentiality of the equipment and data.

  4. Climate Control: Temperature and humidity are carefully regulated to ensure the optimal functioning of sensitive electronic equipment. This includes advanced HVAC systems, backup generators, and redundant cooling systems.

  5. Power Management: High-quality power distribution and conditioning systems to provide clean and uninterrupted power to the equipment. Backup power sources like uninterruptible power supplies (UPS) and backup generators are common.

  6. Cabling Infrastructure: A well-organized and labeled cabling infrastructure is crucial to prevent cable-related issues and make it easier to troubleshoot and maintain the systems.

  7. Fire Suppression: State-of-the-art fire suppression systems are in place to minimize the risk of fire and protect the valuable electronic equipment.

  8. Monitoring and Control Systems: Advanced monitoring and control systems are used to keep track of the status of all electronic equipment. These systems can automatically detect and respond to issues or deviations in temperature, power, and other factors.

  9. Physical Security: Besides electronic security, there are often additional physical security measures in place, such as reinforced doors and surveillance cameras.

  10. Scalability: The facility is designed to accommodate future growth in terms of equipment and technology upgrades.

High-class electronic management facilities are essential in industries where downtime and data loss can have significant financial or operational consequences. They provide a secure and reliable environment for managing critical electronic systems and equipment.

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