Zobrazeno 1 - 7
of 7
pro vyhledávání: '"Wei Te Chou"'
Autor:
Tianwei Li, Kowen Lai, Chi-Ming Hsiao, Xi Chen, Young Shin, Randall Perlow, Hanson Hung-Sen Huang, Ardie Venes, Ada Hing T. Hung, Vijayaramalingam Periasamy, Cynthia Dang, William Ngai, Chun-Ying Chen, Giuseppe Cusmai, Jerry Lin, Bryan Juo-Jung Hung, Loke Kun Tan, Pete Cangiane, Ning-Yi Wang, Gregory Unruh, Xicheng Jiang, Hong Liu, Ramon Gomez, Binning Chen, Yau-Cheng Yang, Maco Sha-Ting Lin, Tao Wang, Aravind Kumar Padyana, James Y. C. Chang, Massimo Brandolini, Ming-Hung Hsieh, Lakshminarasimhan Krishnan, Yen Ding, Deepak Lakshminarasimhan, Acer Wei-Te Chou, Jiangfeng Wu, Jianlong Chen, Yen-Jen Ko, Jackie Koon Lun Wong, Pin-En Su, Wei-Ta Shih, Chun-Sheng Huang, Vincent Cheng-Hsun Yang, Larry Wassermann, Bo Shen, Lin He, Ayaskant Shrivastava
Publikováno v:
IEEE Journal of Solid-State Circuits. 51:845-859
A direct sampling full-band capture (FBC) receiver for cable and digital TV applications is presented. It consists of a 0.18 μm BiCMOS low-noise amplifier (LNA) and a 28 nm CMOS direct RF sampling receiver based on a 2.7 GS/s analog-to-digital conve
Autor:
Mo Maggie Zhang, Young Shin, Hung Sen Huang, Yen-Jen Ko, Massimo Brandolini, Wei-Ta Shih, Giuseppe Cusmai, Chun-Sheng Huang, Chun-Ying Chen, Jiangfeng Wu, Yuan Yao, Bryan Juo-Jung Hung, Acer Wei-Te Chou, Rong Wu, Ayaskant Shrivastava, Yen Ding, Greg Unruh, Ming-Hung Hsieh, Ardie Venes, Tao Wang, Karthik Raviprakash, Hemasundar Mohan Geddada, Dominique Yi-Chun Chen, Tianwei Li
Publikováno v:
IEEE Journal of Solid-State Circuits. 50:2922-2934
This paper presents a 28 nm CMOS 10 b SHA-less pipelined/SAR hybrid ADC, designed to enable a direct-sampling receiver system. To achieve low power at 5 GS/s, the ADC combines pipelined and SAR quantizers, powered at 1.8 V and 1 V, respectively. A 2.
Publikováno v:
Journal of Molecular Spectroscopy. 310:57-67
Irradiation of a p-H2 matrix containing methyl nitrite (CH3ONO) at 3.2 K with laser light at 355 nm yielded vibrational fundamental absorption lines at 2773.1/2804.5 (1+ mixed with background states), 2866.5/2887.5?/2967.0? (1− mixed with 4+ and 22
Autor:
Acer Wei-Te Chou, Young Shin, Hung-Sen Huang, Tao Wang, Juo-Jung Hung, Po Tang Yang, Chun-Ying Chen, Massimo Brandolini, Cheng-Hsun Yang, Tianwei Li, Sha-Ting Lin, Ardie Venes, Dongsoo Koh, Jiangfeng Wu, Gregory Unruh, Mo M. Zhang, Rong Wu, Qingqi Dou, Giuseppe Cusmai, Sunny Raj Dommaraju, H. Mohan Geddada, Xi Chen, Wei-Ting Lin
Publikováno v:
ISSCC
In recent years, we have seen the emergence of multi-GS/s medium-to-high-resolution ADCs. Presently, SAR ADCs dominate low-speed applications and time-interleaved SARs are becoming increasingly popular for high-speed ADCs [1,2]. However the SAR archi
Autor:
Karthik Raviprakash, Hemasundar Mohan Geddada, Chun-Sheng Huang, Ardie Venes, Yen Ding, Chun-Ying Chen, Wei-Te Chou, Yen-Jen Ko, Ayaskant Shrivastava, Ming-Hung Hsieh, Rong Wu, Giuseppe Cusmai, Yi-Chun Chen, Tao Wang, Tianwei Li, Mo M. Zhang, Greg Unruh, Juo-Jung Hung, Hung Sen Huang, Massimo Brandolini, Young Shin, Jiangfeng Wu, Wei-Ta Shin
Publikováno v:
ISSCC
The recent emergence of direct sampling in residential broadband satellite and cable receivers has spurred the need for low-power, high-speed (∼5GS/s), mid-resolution (∼10b) A/D converters. Recently, time-interleaved (TI) SARs have been a popular
INFRARED ABSORPTION OF CH3O/CD3O RADICALS PRODUCED UPON PHOTOLYSIS OF CH3ONO/CD3ONO IN A p-H2 MATRIX
Publikováno v:
Proceedings of the 69th International Symposium on Molecular Spectroscopy.
Autor:
Wei-Te Chou, 周維德
96
The associative memory is of significant attention in the field of pattern recognition and recovery. It is proven that the cellular nonlinear network with the aid of ratio memory (RMCNN) can be used to implement as a kind of associative memor
The associative memory is of significant attention in the field of pattern recognition and recovery. It is proven that the cellular nonlinear network with the aid of ratio memory (RMCNN) can be used to implement as a kind of associative memor
Externí odkaz:
http://ndltd.ncl.edu.tw/handle/v9fhdw