Design for space is challenging as it requires long-term reliability (6–12 years), and can have high radiation requirements especially for MEO and GEO orbits and for long-life missions. LEO is easier,...
Satellite communications are undergoing rapid transformation, with large low Earth orbit (LEO) constellations targeting affordable global connectivity. Achieving this vision requires phased arrays wit...
This presentation provides insights into radiation effects on commercial all-programmable RF-agile transceivers, focusing on devices such as the AD9361 and its successor technologies, the ADRV90XX fam...
Space electronics is a key application where radiation effects are a concern. First, an overview will be given on the types of radiation and the associated effects and failure mechanisms on CMOS devic...
As space-based communications expand with large-scale Low Earth Orbit constellations and traditional GEO and deep-space missions, RF systems must deliver both reliability and cost efficiency under dem...
SATCOM ground terminals are rapidly scaling in size and complexity to support LEO and multi-orbit systems, driving phased arrays toward hundreds or thousands of radiating elements. As RFIC count and a...
Operating SoCs in harsh environments (eg extreme temperatures, high radiation) demands unprecedented reliability. This talk demonstrates how advanced Artificial Intelligence (AI) is crucial for moving...
This presentation discusses recent developments in CMOS-based wideband radars with a specific focus on techniques to achieve the high dynamic range (>100dB) needed for Mars and Lunar surface sc...
In this talk we will discuss various applications that can be realized in mm-wave frequencies and we will see for which applications frequencies above 100GHz might make sense, or not. We will discuss ...
In this talk we will discuss the link budget issues. We will address the benefits and limitations of high frequency systems.