EV Power Unit
Automotive Mobility
Power Electronics • IoT • Cooling Systems
Development of highly efficient power conversion units for electric commercial vehicles, focusing. The transition to electric mobility in South Asia requires power electronics that can withstand demanding climates and heavy usage. Amtech India Controls designed a modular power converter for a fleet of electric Two Wheelers. We utilized advanced gallium nitride components to achieve industry-leading efficiency and reduced heat output. Our IoT module was integrated to provide fleet operators with real-time battery health visuals.
All solutions engineered by Amtech India Controls — from design to field
MedTech Hub
Biomedical Automation
Process Control • UI/UX • Electronics
Precision electronic control systems for advanced diagnostic machinery, optimizing performance for hospitals and medical research facilities across the region.
For a leading biomedical manufacturer, we developed the core electronic control unit for a new generation of diagnostic scanners. The requirement was absolute reliability and micro-second precision in signal processing. Our engineering team designed a multi-layered PCB architecture optimized for signal integrity and thermal management. We also developed the embedded software interface, focusing on an intuitive UI for medical professionals. The result was a 30% increase in diagnostic throughput for the client. This project highlights our ability to translate complex biomedical requirements into robust, high-performance electronic products that save lives and improve healthcare efficiency.
OUR EXPERTISE
Precision systems for critical infrastructure
Smart Grid
Energy Distribution IoT
IoT Integration • Power Electronics • SCADA
Advanced monitoring systems for regional power grids, ensuring stable energy flow and predictive maintenance capabilities using integrated IoT sensors and robust control software.
The energy sector in South Asia faces unique challenges in distribution and efficiency. Amtech India Controls addressed these by developing a comprehensive smart grid monitoring solution. We integrated high-precision power electronics with a custom SCADA interface to provide real-time visibility into grid health. The project involved deploying over 500 edge computing nodes that communicate via low-latency protocols. Our solution allowed for a 15% reduction in transmission losses and provided the client with actionable data to prevent major transformer failures. By combining hardware innovation with sophisticated data modeling, we delivered a system that is both scalable and resilient against environmental fluctuations, setting a new benchmark for regional infrastructure.
