Higher performance on smaller scales
We apply our considerable expertise in radio frequency (RF) engineering and electromagnetic capability (EMC) to develop high-performing radios such as simultaneous cellular (3G/4G), Wi-Fi and Bluetooth operation.
Our ability to engineer robust RF performance despite seemingly impossible size constraints plays a crucial role in delivering the hardware and software breakthroughs our clients demand.
Examples of our work include the 1.6GHz transceivers used in the Iridium satellite network, low-latency 5GHz transceivers for controlling industrial robots and VHF/UHF air traffic control transceivers.
Our experience covers virtually every aspect of radio and communications development, from fundamental research through to new product introduction for large volume manufacture.
Our multi-disciplinary approach allows us to partition functionality and performance to the part of the system where it is most cost effectively delivered, such as the antenna system, the radio electronics, a custom application-specific integrated circuit (ASIC) or digital signal processing (DSP) software.
As devices shrink, accommodating the components required and delivering the desired wireless performance – the antenna in particular – become increasingly challenging.
We provide complete antenna simulation, design and testing in high-performance electromagnetic chambers to ensure that these considerations are part of the development process from the outset.
Implantable & body-worn devices
We have specific expertise in the interaction between electromagnetic waves and human tissue, making us uniquely able to accurately predict the impact of the human body on real-world antenna performance.
We use a number of multi-layered human body phantoms in wearable and implantable antenna development. Multiple recipes of tissue-simulating liquids allow us to closely mimic the electric properties of actual tissue over a wide range of frequencies.
Interested in joining us?
Tech, tools & facilities
Satimo Stargate 64
我们的全屏蔽 ETS-Lindgren 测试暗室适合用于开展广泛的 EMC 和射频测试，这些测试对于新装置的研发至关重要。这间实验室使得我们可以在产品设计的早期就完成多余辐射和干扰敏感性测试，进而直接基于测试结果来改良产品设计，而不是在设计的后期、需要耗费很多资金才能更正问题时才做该测试。
Our flexible, responsive, and agile manufacturing facilities are ideally suited to electronic and electromechanical product builds, enabling us to rapidly build short product runs to an extremely high quality. We can build our own PCBAs using industrial representative equipment and ensure manufacturability during design. Having our own EPD facility is also extremely helpful in development, driving out DfX activities in eCAD and feeding test results back into the design process from an early stage.