Designs & Builds Top-tier Electronic Devices for a Connected World

Signal Integrity:Critical for maintaining quality in devices like smartphones, tablets, and audio systems where signal clarity impacts performance.

PCB Design:Focuses on miniaturization and integration of various functions (e.g., power management, connectivity) in compact consumer devices.

Signal Integrity:Ensures reliable communication between sensors, ECUs (Electronic Control Units), and other electronic systems in vehicles.

PCB Design:Involves designing rugged and reliable PCBs for automotive electronics like infotainment systems, ADAS (Advanced Driver Assistance Systems), and engine control modules.

Signal Integrity:Vital for accurate data transmission in diagnostic equipment, imaging systems, and patient monitoring devices.

PCB Design:Focuses on precision, reliability, and compliance with medical device regulations for devices such as ECG machines, MRI scanners, and infusion pumps.

Signal Integrity:Ensures stable performance in control systems, PLCs (Programmable Logic Controllers), and industrial sensors.

PCB Design:Involves designing robust and durable PCBs for machinery control, robotics, and process automation systems.

Signal Integrity:Crucial for maintaining reliable communication and data integrity in high-frequency and high-precision systems used in avionics and defense applications.

PCB Design:Focuses on designing PCBs that can withstand harsh environments, high temperatures, and radiation for applications such as satellite systems and military equipment.

Signal Integrity:Ensures stable data transmission in monitoring systems, smart grids, and renewable energy systems.

PCB Design:Involves designing PCBs for power management, control systems, and instrumentation used in power plants, renewable energy sources, and grid infrastructure.