关注
Colin Weltin-Wu
Colin Weltin-Wu
Aeonsemi, Inc
在 aeonsemi.com 的电子邮件经过验证
标题
引用次数
引用次数
年份
An event-driven clockless level-crossing ADC with signal-dependent adaptive resolution
C Weltin-Wu, Y Tsividis
IEEE Journal of Solid-State Circuits 48 (9), 2180-2190, 2013
1462013
A 3 GHz fractional all-digital PLL with a 1.8 MHz bandwidth implementing spur reduction techniques
E Temporiti, C Weltin-Wu, D Baldi, R Tonietto, F Svelto
IEEE Journal of Solid-State Circuits 44 (3), 824-834, 2009
1392009
A 3.5 GHz wideband ADPLL with fractional spur suppression through TDC dithering and feedforward compensation
E Temporiti, C Weltin-Wu, D Baldi, M Cusmai, F Svelto
IEEE Journal of Solid-State Circuits 45 (12), 2723-2736, 2010
1172010
A 3GHz fractional-N all-digital PLL with precise time-to-digital converter calibration and mismatch correction
C Weltin-Wu, E Temporiti, D Baldi, F Svelto
2008 IEEE International Solid-State Circuits Conference-Digest of Technical …, 2008
612008
Event-driven GHz-range continuous-time digital signal processor with activity-dependent power dissipation
M Kurchuk, C Weltin-Wu, D Morche, Y Tsividis
IEEE Journal of Solid-State Circuits 47 (9), 2164-2173, 2012
512012
Understanding phase error and jitter: Definitions, implications, simulations, and measurement
I Galton, C Weltin-Wu
IEEE Transactions on Circuits and Systems I: Regular Papers 66 (1), 1-19, 2018
452018
An event-driven, alias-free ADC with signal-dependent resolution
C Weltin-Wu, Y Tsividis
2012 Symposium on VLSI Circuits (VLSIC), 28-29, 2012
402012
A 3.5 GHz digital fractional-PLL frequency synthesizer based on ring oscillator frequency-to-digital conversion
C Weltin-Wu, G Zhao, I Galton
IEEE Journal of Solid-State Circuits 50 (12), 2988-3002, 2015
322015
A 3.5 GHz wideband ADPLL with fractional spur suppression through TDC dithering and feedforward compensation
C Weltin-Wu, E Temporiti, D Baldi, M Cusmai, F Svelto
2010 IEEE International Solid-State Circuits Conference-(ISSCC), 468-469, 2010
292010
Time-interleaved digital-to-time converter
C Weltin-wu, Y Huang, M Seth
US Patent 8,860,514, 2014
282014
Frequency synthesizer with hit-less transitions between frequency-and phase-locked modes
C Weltin-wu, Y Huang
US Patent 8,786,341, 2014
202014
GHz-range continuous-time programmable digital FIR with power dissipation that automatically adapts to signal activity
M Kurchuk, C Weltin-Wu, D Morche, Y Tsividis
2011 IEEE International Solid-State Circuits Conference, 232-234, 2011
192011
Method of improving noise characteristics of an ADPLL and a relative ADPLL
C Weltin-wu, EST Milani, D Baldi
US Patent 7,940,099, 2011
182011
Digital fractional-N PLL based upon ring oscillator delta-sigma frequency conversion
I Galton, C Weltin-wu
US Patent 10,158,366, 2018
162018
Systems, devices, and methods for continuous-time digital signal processing and signal representation
M Kurchuk, C Weltin-wu, Y Tsividis, D Morche, D Lachartre
US Patent 8,749,421, 2014
152014
Insights into wideband fractional ADPLLs: Modeling and calibration of nonlinearity induced fractional spurs
C Weltin-Wu, E Temporiti, M Cusmai, D Baldi, F Svelto
IEEE Transactions on Circuits and Systems I: Regular Papers 57 (9), 2259-2268, 2010
142010
Insights into wideband fractional all-digital PLLs for RF applications
E Temporiti, C Weltin-Wu, D Baldi, R Tonietto, F Svelto
2009 IEEE Custom Integrated Circuits Conference, 37-44, 2009
132009
25.1 A highly-digital frequency synthesizer using ring-oscillator frequency-to-digital conversion and noise cancellation
C Weltin-Wu, G Zhao, I Galton
2015 IEEE International Solid-State Circuits Conference-(ISSCC) Digest of …, 2015
122015
A Linearized Model for the Design of Fractional- Digital PLLs Based on Dual-Mode Ring Oscillator FDCs
C Weltin-Wu, E Familier, I Galton
IEEE Transactions on Circuits and Systems I: Regular Papers 62 (8), 2013-2023, 2015
112015
Delta-Sigma FDC Enhancements for FDC-Based Digital Fractional-N PLLs
E Alvarez-Fontecilla, AI Eissa, E Helal, C Weltin-Wu, I Galton
IEEE Transactions on Circuits and Systems I: Regular Papers 68 (3), 965-974, 2020
72020
系统目前无法执行此操作,请稍后再试。
文章 1–20