This course covers CMOS electronics and post-processing for biological and molecular sensing. Topics include sensing mechanisms, nano-bio interfaces, CMOS circuit design, and integration techniques. Applications span DNA/RNA detection, proteomics, drug screening, gas sensing, and wearable biosensors, bridging electronics with biological systems.

Electronics for communications systems, with emphasis on realization. Low noise amplifiers, modulators and demodulators, transmit amplifiers and oscillators are discussed in the context of wireless communications. Wireless receiver, transmitter and frequency synthesizer will be described. Importance of and trade offs among sensitivity, linearity and selectivity are discussed extensively.

This course focuses on the advanced concepts and designs of wireless circuits and systems. The first half introduces key building blocks and popular topologies of low noise amplifiers, power amplifiers, T/R switches, phase shifters, variable gain amplifiers, and combiners/splitters. The second half will cover advanced phased array systems for 5G/6G, satellite communication (SATCOM), and radars.

Introductory lecture on electronic circuits. Transistor fundamentals, analysis and design of transistor based electronic circuits such as amplifiers and filters; operational amplifiers and circuits based thereon.

Lab with principal electronic circuit experiments on the transistor and operational amplifier basis.

The course has the following main goals: (a) to give a comprehensive overview of challenges on communication equipment imposed by space flight missions, (b) to present the theoretical fundamentals and existing practical solutions of communication technology for space missions, and (c) to review existing and future communication technologies for inter-satellite links, inter-spacecraft links, as wel

This course explores the design of wireline communication circuits for high-speed data links, covering transmitters, receivers, equalizers, CDRs, PLLs, and SerDes. Emphasis is placed on analog and mixed-signal techniques, signal integrity, and interconnect challenges in multi-Gb/s electrical and optical systems.