The radar receiver suffers from TX leakage due to its finite isolation. A novel TX-to-RX leakage cancellation technique are required to relax the LO phase noise and RX dynamic range requirements. This project focuses on designing the TX-to-RX leakage mitigation.
What you will do
In radar application, e.g. vital sign or occupancy detection, the transmitter (TX) and receiver (RX) operate simultaneously. The TX leakage from RX significantly increase the dynamic rage of the RX, complexity of the antenna and degrade the noise performance due to phase noise. A passive cancellation approach using three-port duplexer can separate the RX and TX paths and share a single antenna, while the active cancellation compensate the noise in the RX path. In this project, the TX-to-RX leakage issue for radar application will be studied, and the integrated circuits will be implemented.
In this project, three main goals will be implemented in advanced CMOS technology:
What we will do for you
You will be part of a team with the mission to develop world-class ultra-low power transceivers, with a sub-mW power consumption. These are used
in advanced radio and radar systems. The team is internationally recognized as a center of excellence in the field of ultra-low power transceiver design. The
ULP Wireless Systems team, is part of a broader program on wireless sensor node technology and designs prototypes of new ICs and new electronic systems for
demonstration and transfer to industrial partners.
Who are you
Click on ‘apply’ to submit your application. You will then be redirected to e-recruiting. If you know someone who could be the right fit for the job click on ’refer’.
Please be informed that non-European nationals, that are studying outside of the Netherlands, may be restricted to do an internship at imec the Netherlands.