Specialist Expertise Across Four High-Growth Domains
High-voltage, high-frequency automotive power electronics — SiC MOSFET expertise and multilayer PCB design capability across every EV power engagement.
Automotive-Grade Power Solutions
High-voltage, high-frequency automotive power electronics — SiC MOSFET expertise and multilayer PCB design capability across every EV power engagement.
- Bidirectional On-Board Chargers
- Traction inverter power stages
- EV DC-DC converters
- SiC MOSFET power modules
- Gate driver boards
- HV multilayer controller boards
- Battery interface circuits
- Precharge and contactor control
- Full schematic — Altium Designer
- PLECS topology simulation
- PCB layout — up to 10 layers
- Bill of Materials (BOM)
- Design calculations report
- Gerber and fabrication files
- Design review documentation
- SiC MOSFET — 650V to 1200V
- GaN HEMT
- Isolated gate drivers
- Altium Designer Pro
- PLECS simulation
- CAN bus interface
- Multilayer PCB — heavy copper
Sustainable Grid Integration
Power electronics for solar, wind, and grid-tie applications — deep understanding of both technical challenges and the European regulatory landscape.
- Single and three-phase solar PV inverters
- MPPT charge controllers
- Wind energy converters
- Grid-tie systems with LCL filters
- Energy storage interface boards
- Vienna rectifiers — three-phase PFC
- Grid synchronisation circuits
- Anti-islanding protection
- Full schematic — Altium Designer
- PLECS topology simulation
- PCB layout — multilayer
- Bill of Materials (BOM)
- LCL filter design calculations
- Gerber and fabrication files
- Compliance documentation notes
- IGBT modules
- SiC MOSFETs
- DSP and MCU controller boards
- Three-phase bridge topologies
- Altium Designer Pro
- PLECS simulation
- LCL filter design
Precision Pack Control
Precision analog measurement, high-voltage isolation, and embedded control — BMS electronics for EV battery packs and stationary energy storage.
- High voltage BMS — up to 96S series
- Cell voltage monitoring circuits
- Active cell balancing — inductor based
- Passive cell balancing circuits
- Overcurrent and overvoltage protection
- Overtemperature protection
- Precharge and contactor control
- State of charge estimation circuits
- Full schematic — Altium Designer
- Mixed signal PCB layout
- Protection threshold calculations
- Bill of Materials (BOM)
- Isolation barrier design notes
- Gerber and fabrication files
- Design review documentation
- LTC6813 — daisy-chain monitoring
- BQ79616 — TI cell monitor
- High voltage isolation — 1000V+
- CAN 2.0B interface
- Altium Designer Pro
- Mixed signal multilayer PCB
- Precision current sensing
High-Density Conversion
Full spectrum of converter topologies — from isolated flyback supplies to bidirectional DAB converters and three-phase Vienna rectifiers. All simulation-validated before prototype.
- Bidirectional DC-DC converters — DAB
- Three-phase Vienna rectifiers
- Isolated flyback converters
- Isolated forward converters
- Non-isolated buck and boost converters
- Industrial SMPS — wide input range
- High frequency magnetics — planar transformers
- Active PFC circuits
- Full schematic — Altium Designer
- PLECS topology simulation
- PSpice component simulation
- Transformer design calculations
- Bill of Materials (BOM)
- Gerber and fabrication files
- Full design report
- SiC MOSFET — GaN HEMT — IGBT
- Planar transformer design
- Altium Designer Pro
- PLECS simulation
- PSpice simulation
- Controlled impedance PCB
- High frequency magnetics