Difference between revisions of "Design of a D-Band Variable Gain Amplifier for 6G Communication"
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− | *Basem Abdelaziz :[mailto:babdelaziz@ethz.ch babdelaziz@ethz.ch | + | *Basem Abdelaziz :[mailto:babdelaziz@ethz.ch babdelaziz@ethz.ch] |
*Prof. Dr. Hua Wang :[mailto:hua.wang@iis.ee.ethz.ch hua.wang@iis.ee.ethz.ch] | *Prof. Dr. Hua Wang :[mailto:hua.wang@iis.ee.ethz.ch hua.wang@iis.ee.ethz.ch] | ||
Revision as of 10:43, 14 February 2023
Project Description
Variable gain amplifiers (VGAs) are a crucial component in wireless transceivers. They have been substantially used in transmitting mm-Wave phased arrays to control the amplitude weights and reduce the radiation side-lobe levels, and have been also used in receiving mm-Wave phased arrays to adopt to different received power levels. In order to comply with the operation of a phased array, a VGA should mainly provide a sufficient dynamic tunable range of gain while exhibiting minimal phase variations across the different gain settings. The D-band, which has a frequency range from 110 to 170 GHz, has recently gained wide research interest for the sixth generation (6G) of wireless communication. The purpose of this project is to design a D-band phased-array compliant VGA in 22nm CMOS technology. The implemented VGA should provide a gain tuning range > 10 dB with a linear (in dB) step size of 1 dB.
Requirements
- Analog Integrated Circuits
- Communication Circuits
- Electromagnetic Simulation Experience
Project components
- 20% Literature Survey
- 10% Familiarization of 22nm Process
- 35% Schematic Design
- 35% Layout and Electromagnetic Simulations
Contact
- Basem Abdelaziz :babdelaziz@ethz.ch
- Prof. Dr. Hua Wang :hua.wang@iis.ee.ethz.ch
Last update: 13.02.2023