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View article: A 0.8-6 GHz True-Time-Delay Beam-Nulling Receiver Front-End
A 0.8-6 GHz True-Time-Delay Beam-Nulling Receiver Front-End Open
Advances in complementary metal-oxide-semiconductor (CMOS) integrated circuit (IC) technology have enabled the sophisticated wireless communication systems in use today. To respond to the demand for ever increasing data traffic volumes, th…
View article: A 2 GS/s 9-bit Time-Interleaved SAR ADC with Overlapping Conversion Steps
A 2 GS/s 9-bit Time-Interleaved SAR ADC with Overlapping Conversion Steps Open
Publisher Copyright: © 2022 IEEE.
View article: True-Time-Delay Receiver IC With Reconfigurable Analog and Digital Beamforming
True-Time-Delay Receiver IC With Reconfigurable Analog and Digital Beamforming Open
Spatial diversity advantages such as improved signal-to-noise ratio and in-band blocker filtering can be achieved through beamforming in the digital and/or analog domain. Digital beamforming benefits from the precision and efficient parall…
View article: True-Time-Delay Beamforming Receiver With RF Re-Sampling
True-Time-Delay Beamforming Receiver With RF Re-Sampling Open
| openaire: EC/H2020/704947/EU//ADVANTAG5
View article: A 0.6–4.0 GHz RF-Resampling Beamforming Receiver With Frequency-Scaling True-Time-Delays up to Three Carrier Cycles
A 0.6–4.0 GHz RF-Resampling Beamforming Receiver With Frequency-Scaling True-Time-Delays up to Three Carrier Cycles Open
5th generation (5G) New Radio (NR) demands high data-rate connections for wireless channels that are crowded by interference signals, especially the frequency range 1 (FR1). On the other hand, the desire to integrate more functionality on …
View article: RF Front-End for Integrated Radar Receivers
RF Front-End for Integrated Radar Receivers Open
Beam-steering is used in radars as well as in future communication systems. With increasing transmission bandwidths, implementing beamsteering with time delays instead of phase shifts is beneficial. The main goal of this thesis was to stud…