Our
Projects

01
Portfolio

Automotive

HV/HV DC/DC Converters

Technical Specifications:
  • Input Voltage Range: 400V to 800V
  • Output Voltage Range: 400V to 800V
  • Power Rating: 5kW to 22kW
  • Efficiency: Up to 96% with soft switching techniques
  • Operating Temperature Range: -40°C to 120°C
  • Cooling: Liquid cooled 
  • Protection Features: Overvoltage, overcurrent, and thermal protection
Key Features:
  • High Power Density: Compact and lightweight design for space-constrained environments.
  • Bidirectional Capability: Supports power flow in both directions for versatile energy management.
  • Soft Switching: Utilizes soft switching techniques to enhance efficiency and reduce electromagnetic interference (EMI).
  • High Efficiency: Designed to maximize energy conversion efficiency, resulting in lower heat generation and improved system performance.

HV - LV DC/DC Converters

Technical Specifications:
  • Input Voltage Range: 400V to 800V
  • Output Voltage Range: 12V, 48V (standard automotive battery levels)
  • Power Rating: 1kW to 5kW
  • Efficiency: Up to 95% with soft switching techniques
  • Operating Temperature Range: -40°C to 125°C
  • Cooling: Liquid or air-cooled options available
  • Protection Features: Overvoltage, overcurrent, and thermal protection
Key Features:
  • Robust Design: Engineered for durability and reliability in demanding automotive environments.
  • Soft Switching: Incorporates soft switching technology to improve efficiency and minimize losses.
  • High Efficiency: Achieves high conversion efficiency, ensuring optimal performance and energy utilization.
  • Compact Footprint: Space-efficient design that fits seamlessly into vehicle power systems.

EV Inverters

Technical Specifications:
  • Supply Voltage Range: 400V to 800V
  • Continuous Power Output: 220kW
  • Instantaneous Power Output: 560kW
  • Operating Temperature Range: -40°C to 155°C
  • Efficiency: Up to 97% at nominal operating conditions
  • Cooling: Liquid-cooled with integrated thermal management
  • Weight: Approximately 35 kg
  • Dimensions: 400mm x 300mm x 150mm
Key Features:
  • High Efficiency: Achieves up to 97% efficiency, ensuring minimal energy loss and optimal performance.
  • High Power Density: Compact and lightweight design, allowing for easy integration into electric vehicle architectures.
  • Robust Thermal Management: Advanced liquid cooling system and integrated thermal management to maintain optimal operating temperatures and prevent overheating.
  • Wide Operating Temperature Range: Designed to operate in extreme temperatures from -40°C to 155°C, ensuring reliability in diverse environmental conditions.
  • Advanced Control Algorithms: Incorporates sophisticated control algorithms for smooth and precise motor control, enhancing vehicle performance and drivability.
  • EMI/EMC Compliance: Meets stringent electromagnetic interference and electromagnetic compatibility standards, ensuring minimal interference with other electronic systems in the vehicle.
  • Safety Features: Built-in protection mechanisms including overvoltage, overcurrent, and thermal protection to ensure safe and reliable operation.
  • Bidirectional Capability: Supports regenerative braking by converting kinetic energy back into electrical energy, improving overall energy efficiency.
  • Communication Interfaces: Equipped with CAN, LIN, and Ethernet interfaces for seamless integration with the vehicle’s onboard network and diagnostic systems.
  • Durability: Engineered with high-quality materials and components to withstand the rigors of automotive environments and ensure long-term reliability.

22kW Onboard Charger

Technical Specifications:

Technical Specifications

    • Input Voltage: 400V AC (three-phase) or 230V AC (single-phase)
    • Input Frequency: 50/60 Hz
    • Power Factor: >0.99
    • Output Voltage Range (HV Battery): 200V to 800V DC
    • Output Voltage Range (LV Battery): 12V to 48V DC
    • Maximum Output Power: 22kW
    • Charging Efficiency: >90%
    • Power Conversion Efficiency: >95%
    • Communication Protocols: CAN Bus, OCPP, ISO 15118
    • Operating Temperature: -20°C to 60°C
    • Cooling Method: Liquid or forced air cooling
    • Protection Features: Over-voltage, over-current, short-circuit, thermal protection
    • Compliance: IEC 61851, ISO 15118
    • Ingress Protection: IP65
Key Features:
    • Bidirectional Charging: Supports grid-to-HV battery, grid-to-LV battery, HV battery-to-grid (V2G), HV battery-to-LV battery, and LV battery-to-HV battery power transfer.
    • High Efficiency: Power conversion efficiency over 95%, ensuring minimal energy loss.
    • Advanced Safety: Comprehensive protection features including over-voltage, over-current, short-circuit, and thermal protection.
    • Smart Integration: Supports CAN Bus, OCPP, and ISO 15118 protocols for seamless integration with vehicle systems and smart grids.
    • Durable Design: IP65-rated enclosure, capable of operating in a wide temperature range with effective thermal management.
    • Compact and Lightweight: Space-saving design suitable for easy integration into vehicles, with flexible mounting options.
02
Portfolio

Industrial

H2VOLT

Main use cases:

Store energy from renewable sources in the form of Hydrogen
Generate energy using Hydrogen Fuel Cells

Innovative aspects are:

Price: replacement of expensive Platinum catalysts which reduces the cost to 10% of current Hydrogen Fuel Cell costs
Long lifetime: compared to power bank storage systems
No dependency on rare metals (Pt)
• High Power Density
• Low Weight

Research project is ongoing with Institute for
Cryogenic and Isotopic Studies and Technical
University of Timisoara (funding secured 150k euro)

DIANA -EMS

Main use cases:

Store energy from renewable sources in the form of Hydrogen
Generate energy using Hydrogen Fuel Cells

Innovative aspects are:

Price: replacement of expensive Platinum catalysts which reduces the cost to 10% of current Hydrogen Fuel Cell costs
Long lifetime: compared to power bank storage systems
No dependency on rare metals (Pt)
• High Power Density
• Low Weight – Portable

Research project is ongoing with Institute for
Cryogenic and Isotopic Studies and Technical
University of Timisoara (funding secured 150k euro)

ADAS-R

Main use cases:
  • Ride sharing
Features are:
  • Cameras–low cost AHD
  • Lidar –connected to nVidiamodule
  • Radar –long range & corner –CAN
  • Ultra-sound–for parking or “summon” feature
  • Communication–WiFi,4G, LoRa
  • AI –nVidia module capable of most power-hungry algorithms
Applications:
  • Micro-mobility–vehicle sharing for bikes, scooters, vehicles
  • Mobility Scooters –can drive a full scooter either manual or in autonomous mode
  • Instrument Cluster & Infotainment–for vehicle scootersor motorcicles

RSC - Remote Current Sensor

Main use cases:
  • High precision current measurement
Features are:
  • Adjustable data acquisition rate and analysis
  • Communication – CAN-FD & Bluetooth Low Energy
  • Range – 400A
  • Frequency – DC to 50kHz at 0.5%error
  • Cable – up to 18.5 mm
  • Battery – 800mAh
Applications:
  • Industrial power management
  • Electric vehicle charging stations – real time charging status
  • Green energy – monitor efficiency of green energy generation

BLDC - Driver

Main use cases:
  • 10kW 100V BLDC driver
Features are:
  • Supply–100V
  • Current –100A
  • Functional safety–short/interrupt detection
Applications:
  • Electrical pumps
  • Drones motor control
  • Robotics

PCU - Cell Power

Main use cases:
  • Power Cell Monitoring
Features are:
  • Supply – 8v to 60V
  • Cells – 4 to 12 cells
  • Heater control – up to 24V with 5A
  • Accuracy –1.6 mV
  • Communication – CAN-HS
  • Cell balancing
Applications:
  • Infrastructure – remote location power management
  • Robotics –solar charged autonomous vehicles
  • Vehicles –for vehicle with mild-hybrid systems