AI and Robot

The AI and robotics industry relies on PCB assemblies that can handle complex computations, support real-time data processing, and provide precise control interfaces. These assemblies often incorporate powerful processors, sensors, actuators, and specialized interfaces for machine learning and AI algorithms.

Communications & Networking

The communications and networking industry requires PCB assemblies that can handle high-speed data transfer, support multiple connectivity options, and ensure reliable signal integrity. These assemblies are often used in routers, switches, modems, and wireless communication devices.

Consumer Electronics

The consumer electronics industry demands PCB assemblies that are highly efficient, compact, and capable of supporting advanced functionalities. These assemblies often include components such as microprocessors, memory modules, display interfaces, and power management systems.

Education and Universities

The education and universities sector often requires PCB assemblies for various research projects, laboratory equipment, and educational platforms. These assemblies need to be versatile, easy to use, and capable of supporting different types of experiments and learning activities.


The engineering industry relies on PCB assemblies for a wide range of applications, including control systems, measurement equipment, and industrial automation. These assemblies need to be robust, reliable, and capable of withstanding harsh operating conditions.

Renewable energy

The energy industry requires PCB assemblies that meet high standards of robustness and reliability. These assemblies are often subjected to harsh environments and need to withstand extreme temperatures, vibrations, and moisture. Additionally, they may require additional protection measures such as conformal coating to ensure optimal performance.

Health Tech

Health tech applications require PCB assemblies that meet specific requirements related to soldering, cleaning, and overall quality. In some cases, they may even demand adherence to IPC Class-3 standards for high-reliability applications. Special care must be taken to ensure the integrity of the PCB assembly, considering factors such as biocompatibility, reliability, and safety.


The Internet of Things (IoT) industry requires PCB assemblies that are compact, power-efficient, and capable of connecting to various devices seamlessly. It often involves sensors, wireless communication modules, and microcontrollers.