What We Do

Simulation and System Modeling

We specialize in accurate simulation and modeling of power electronic systems using industry-standard platforms like MATLAB/Simulink and LTspice. Our simulation workflows help visualize system behavior under varying conditions, fine-tune control strategies, and identify design flaws before hardware development begins.

By simulating power stages, control loops, EMI behavior, and thermal performance, we deliver optimized and reliable system designs. Whether you’re developing DC-DC converters, inverters, or motor drives, our simulation-first approach ensures faster development and better system stability.

PCB Design and Signal/Power Integrity

A robust PCB layout is crucial for high-performance power electronics. Our PCB design services use Cadence Allegro, backed by years of experience in handling complex multilayer boards, tight thermal constraints, and EMI-sensitive environments.
We go beyond layout—conducting Signal Integrity (SI) and Power Integrity (PI) analysis to ensure stable operation across frequencies and load conditions. We also handle thermal design and high-current path optimization for demanding applications like motor drives, battery management systems, and converters

Prototyping and Design Validation

We offer end-to-end prototyping services that bring your power electronics concepts into reality with speed and precision. Our lab is equipped for rapid board assembly, real-time testing, and iterative refinement—all under one roof.
From the first schematic to a functional prototype, we manage the entire cycle efficiently. Our team ensures the prototypes are rigorously tested for electrical performance, thermal behavior, and fault tolerance, reducing time-to-market and improving final product quality.

Embedded Systems and Digital Control

We develop smart, responsive embedded control systems for power electronic applications using industry-trusted microcontrollers such as STMicroelectronics STM32 and Texas Instruments C2000 families.
Our expertise spans firmware development, real-time control implementation, and communication protocols like CAN, UART, and Modbus. Whether it’s peak current mode control, MPPT algorithms, or digital soft-start, we ensure optimal performance and reliability through custom embedded solutions.

FPGA-Based Power Electronics Systems

We harness the power and flexibility of Xilinx and Intel (Altera) FPGAs to design reconfigurable, high-speed digital control systems for advanced power electronics. Our team is proficient in Vivado, Quartus, and MATLAB HDL Coder workflows, allowing tight integration between simulation and hardware deployment.
FPGAs are ideal for time-critical and parallel processing tasks, such as PWM generation, sensor fusion, and real-time signal filtering. We design systems with adaptability in mind, perfect for applications in motor control, EVs, grid interfaces, and more.