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Hao Guo
Hao Guo
Verified email at rice.edu - Homepage
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Cited by
Cited by
Year
A 0.083-mm2 25.2-to-29.5 GHz Multi-LC-Tank Class-F234 VCO With a 189.6-dBc/Hz FOM
H Guo, Y Chen, PI Mak, RP Martins
IEEE Solid-State Circuits Letters 1 (4), 86-89, 2018
562018
26.2 A 0.08 mm2 25.5-to-29.9 GHz Multi-Resonant-RLCM-Tank VCO Using a Single-Turn Multi-Tap Inductor and CM-Only Capacitors Achieving 191.6 dBc/Hz FoM and 130kHz 1/f3 PN Corner
H Guo, Y Chen, PI Mak, RP Martins
2019 IEEE International Solid-State Circuits Conference-(ISSCC), 410-412, 2019
512019
20.1 A 5.0-to-6.36GHz Wideband-Harmonic-Shaping VCO Achieving 196.9dBc/Hz Peak FoM and 90-to-180kHz 1/f3 PN Corner Without Harmonic Tuning
H Guo, Y Chen, PI Mak, RP Martins
2021 IEEE International Solid-State Circuits Conference (ISSCC) 64, 294-296, 2021
272021
A 3.3-mW 25.2-to-29.4-GHz current-reuse VCO using a single-turn multi-tap inductor and differential-only switched-capacitor arrays with a 187.6-dBc/Hz FOM
Y Huang, Y Chen, H Guo, PI Mak, RP Martins
IEEE Transactions on Circuits and Systems I: Regular Papers 67 (11), 3704-3717, 2020
252020
A millimeter-wave CMOS VCO featuring a mode-ambiguity-aware multi-resonant-RLCM tank
H Guo, Y Chen, C Yang, PI Mak, RP Martins
IEEE Transactions on Circuits and Systems I: Regular Papers 69 (1), 172-185, 2021
122021
A 0.082mm2 24.5-to-28.3GHz Multi-LC-Tank Fully-Differential VCO Using Two Separate Single-Turn Inductors and a 1D-Tuning Capacitor Achieving 189.4dBc/Hz FOM and …
H Guo, Y Chen, PI Mak, RP Martins
2020 IEEE Radio Frequency Integrated Circuits Symposium (RFIC), 235-238, 2020
102020
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