Engineering Services
Board Design
At the heart of our engineering services lies a complete board design workflow that transforms an abstract idea into a fully realized product. Very often, our clients approach us with nothing more than a concept sometimes just a vision in words, without sketches, technical specifications, or detailed requirements. Our role begins by carefully capturing that vision and shaping it into a structured design path.
Together with the client, we refine the idea into a clear block diagram that reflects the intended functionality of the system. This diagram becomes the first tangible form of the project, translating high-level thoughts into a technical blueprint. From there, we move into detailed schematic design, selecting and integrating the right components such as microcontrollers, FPGAs, memory modules, and power management circuitry always in close collaboration with the client to ensure that choices align with their goals, budget, and performance expectations.
Once the schematic is finalized, we transition into printed circuit board (PCB) layout and assembly (PCBA). This phase includes full bill of materials (BOM) preparation, cost optimization, and manufacturability considerations. Our process incorporates electromagnetic interference and compatibility (EMI/EMC) design practices from the very beginning, minimizing the risk of compliance issues later. If required, we also support formal EMI/EMC certification through accredited laboratories such as ITL, providing end-to-end guidance until the device is fully validated.
By covering the entire lifecycle from idea to manufacturable board we ensure that every client receives a reliable, production-ready design that balances technical performance, cost efficiency, and regulatory compliance.
Redesign and Optimization of Existing Designs
Many clients approach us with products that are already in an advanced stage of development but face persistent issues ranging from unstable performance and thermal constraints to critical EMI/EMC compliance failures. In such cases, we step in to re-engineer the design, applying our deep expertise in PCB layout practices, signal integrity, and electromagnetic compatibility. Our process begins with a comprehensive analysis of the existing design. We identify weak points in layout, grounding, power distribution, and shielding, as well as potential sources of coupling and noise that can compromise performance. Leveraging our extensive experience in EMI/EMC troubleshooting, we then redesign the board with careful attention to current paths, layer stack-up, component placement, and filtering strategies. The result is not just a board that passes regulatory requirements, but one that performs reliably, predictably, and efficiently in real-world conditions. By combining systematic root-cause analysis with practical design improvements, we help clients transform problematic products into robust and certifiable solutions without having to start from scratch.
EMI/EMC Testing
Electromagnetic compatibility is one of the most critical and often underestimated aspects of modern electronic design. To address this, we maintain our own in-house EMI/EMC laboratory compact in scale yet fully equipped with the instrumentation required to uncover even the most complex interference and compliance challenges. In this lab, we conduct pre-compliance testing on our own designs, integrating feedback directly into the development cycle to ensure that products are robust and ready for formal certification. By identifying potential emissions, susceptibility, and coupling issues at an early stage, we save our clients both time and cost while reducing the risk of late-stage redesigns. Our laboratory is not limited to internal projects. We also provide testing and diagnostic services for third-party designs, helping clients troubleshoot and resolve electromagnetic issues that can compromise functionality or block regulatory approval. Whether it is conducted emissions on power lines, radiated disturbances in sensitive frequency bands, or system-level immunity problems, our engineers bring both expertise and practical solutions to ensure devices meet international standards. Through this combination of technical knowledge and hands-on testing capability, we offer clients a trusted path from prototype to compliant product, significantly de-risking the certification process and ensuring smooth market entry.
Software
Our software expertise complements our hardware design capabilities, ensuring that every device we develop or integrate into reaches its full potential. We operate with two primary focuses. First, we design and implement embedded software for devices that are developed in-house as part of our client projects. This close integration of hardware and software allows us to deliver systems where the code is tightly aligned with the architecture, ensuring maximum performance, stability, and efficiency. From low-level drivers to complex application layers, we provide the complete software stack tailored to the unique requirements of each device. Second, we specialize in developing software for existing hardware platforms, even if those systems were not originally designed by us. In this domain, our engineers bring new functionality and extended life cycles to legacy or third-party devices. This includes real-time applications, motor control algorithms, and advanced human-machine interfaces that display and manage system data seamlessly. We also enable wireless connectivity and remote control through Bluetooth, Wi-Fi, and NB-IoT, empowering our clients with modern communication and monitoring capabilities regardless of the hardware’s origin. Whether embedded in our own designs or integrated into existing platforms, our software solutions are engineered with precision, reliability, and scalability in mind, enabling products to perform consistently in demanding real-world conditions.