Specialists in microcontroller-based embedded systems and FPGA solutions. We design firmware and hardware that deliver deterministic performance, low power consumption and industrial reliability — backed by 21+ years of domain experience.
Prototype board for an MCU-based sensor hub (temperature, humidity, BLE).
Low-power wearable platform built around a Cortex-M microcontroller.
Industrial control board with multiple MCU domains and isolated power rails.
Hybrid MCU + FPGA solution for real-time data acquisition and pre-processing.
Connectivity module featuring Wi-Fi / BLE / LoRa interfaces driven by MCU firmware.
Certified prototype ready for EMC pre-compliance and functional validation.
Production-ready assembly with test fixtures and firmware programming flow.
We design MCU-based hardware — from single-MCU sensor boards to multi-domain systems. Our designs cover power management, mixed-signal routing, EMI mitigation and compliance requirements for production.
We develop firmware in C/C++ and RTOS environments, optimize for deterministic timing and low memory footprint, implement device drivers, BSPs and bootloaders, and provide OTA update mechanisms and secure firmware signing.
Tight integration of hardware & firmware — we control both layers for faster debugging and better performance.
Thorough verification — schematic review, signal integrity checks, power analysis and functional testing reduce field issues.
Rapid prototyping and full production support — from PCB fab file handoff to assembly & test fixtures.
Proven track record — 200+ electronic designs from simple MCUs to complex multi-board systems.
Cost-effective development — India-based engineering with global quality standards for competitive pricing.
An embedded system combines microcontroller hardware and firmware to perform dedicated functions reliably and efficiently. Firmware (the embedded software) controls hardware behavior, timing and interfaces; careful co-design of both layers is critical for product success.
We work with a range of MCUs including ARM Cortex-M (STM32, NXP, TI), AVR, PIC, ESP32, and other vendors depending on project needs and ecosystem advantages.
Yes — we develop RTOS-based firmware, deterministic scheduling, safety checks, and fault-handling routines required for real-time and safety-critical embedded systems.
We apply hardware and firmware strategies: low-power MCUs, optimized sleep modes, peripheral gating, efficient power rails, and power profiling to maximize battery life.
Yes — we provide secure connectivity, MQTT/HTTP clients, cloud integration, and mobile app interfaces so MCU devices can communicate reliably with backend systems.
Absolutely. We handle prototype fabrication, firmware bring-up, functional testing, and prepare production-ready outputs (Gerbers, BOM, test procedures) for manufacturing partners.
We serve healthcare, industrial automation, IoT & consumer electronics, automotive subsystems, telecom peripherals and scientific instruments — providing tailored MCU-based solutions for each domain.
Talk to our embedded systems team — from MCU selection and schematic review to firmware architecture and production planning, we’ll help you ship a reliable product.
