Tianyu Wang
Orcid: 0000-0001-7555-1382Affiliations:
- University of Illinois at Urbana-Champaign, Department of Electrical and Computering Engineering, Urbana, IL, USA
According to our database1,
Tianyu Wang
authored at least 10 papers
between 2019 and 2024.
Collaborative distances:
Collaborative distances:
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Bibliography
2024
7.8 A 69.3fs Ring-Based Sampling-PLL Achieving 6.8GHz-14GHz and -54.4dBc Spurs Under 50mV Supply Noise.
Proceedings of the IEEE International Solid-State Circuits Conference, 2024
2023
A Temperature- and Aging-Compensated RC Oscillator With ±1030-ppm Inaccuracy From40 °C to 85 °C After Accelerated Aging for 500 h at 125 °C.
IEEE J. Solid State Circuits, December, 2023
A 20-μs Turn-On Time, 24-kHz Resolution, 1.5-100-MHz Digitally Programmable Temperature-Compensated Clock Generator.
IEEE J. Solid State Circuits, March, 2023
A 1-μW/MHz RC Oscillator With Three-Point Trimmed 2.1-ppm/°C and Single-Point Trimmed 8.7-ppm/°C Stability From40 °C to 95 °C.
IEEE J. Solid State Circuits, 2023
A 5.2 Gb/s 3 mm Air-Gap 4.7 pJ/bit Capacitively-Coupled Transceiver for Giant Video Walls Enabled by a Dual-Edge Tracking Clock and Data Recovery Loop.
Proceedings of the 2023 IEEE Symposium on VLSI Technology and Circuits (VLSI Technology and Circuits), 2023
A $1.4\mu$ W/MHz 100MHz RC Oscillator with $\pm$ 1030ppm Inaccuracy from $-40^{\circ}\mathrm{C}$ to $85^{\circ}\mathrm{C}$ After Accelerated Aging for 500 Hours at $125^{\circ}\mathrm{C}$.
Proceedings of the IEEE International Solid- State Circuits Conference, 2023
2022
IEEE J. Solid State Circuits, 2022
A 20µs turn-on time, 24kHz resolution, 1.5-100MHz digitally programmable temperature-compensated clock generator with 7.5ppm/°C inaccuracy.
Proceedings of the IEEE Custom Integrated Circuits Conference, 2022
2021
A second-order temperature compensated 1μW/MHz 100MHz RC oscillator with ±140ppm inaccuracy from -40°C to 95°C.
Proceedings of the IEEE Custom Integrated Circuits Conference, 2021
2019
IEEE Trans. Circuits Syst. II Express Briefs, 2019