EECL was engaged by a leading quantum computing company to develop a rack-mounted RF system capable of handling frequency conversion, waveform generation, and synchronization across multiple channels for quantum computing applications.
The system operates across a broad frequency range, from 200 MHz to 30 GHz, and meets some of the most stringent RF requirements, including ultra-low phase noise, high isolation, and exceptional linearity and flatness.
Our team delivered a full end-to-end solution, designing the rack-mounted enclosure, motherboard, FPGA layout, RF modules, and power supplies. After fully qualifying the system, we supported its high-volume production, delivering units in the thousands to meet the customer’s scaling requirements.
RF Space Payload Ground Testing
How do you test a complex payload with 18 RF connections at Ka Band?
Lunar Mission Payload Development
We were contracted by ESA to design a SpacePNT GPS receiver destined for the moon. The project is now fully delivered
ESA HydroGNSS
We signed the delivery of 6 flight units at SpaceComm Expo. All modules are now flying with exceptional results
University of Surrey 6G Test System
We delivered a precision RF switch box linked to GPS timing for 6G demonstration
ESA Radiation Testing
We undertook a radiation test campaign for ESA where we validated all ICs that we are flying to the moon in 2026 on Lunar Pathfinder
Starcloud : XBand LNB
We went from conception to delivery of a flight unit in 16 weeks for an X-Band LNB with extremely low noise figure, high gain and low phase noise
University of Surrey Metamaterial Antennas
We manufactured two large meta surface antennas and delivered them to the customer within 8 weeks
X-Band Radar Development
We took over the design of an X-Band radar module obtaining 100W of transmit power, aswell as optimizing the design, paving the way for commercial manufacturing
Quantum Computing Development
We developed a quantum computer RF system from scratch for the client and it is now being manufactured in volumes of 1000s
