EDP Sciences logo
Web of Conferences logo
Search
Menu
All issues Volume 355 (2022) MATEC Web Conf., 355 (2022) 03050 References
Open Access
Issue
MATEC Web Conf.
Volume 355, 2022
2021 International Conference on Physics, Computing and Mathematical (ICPCM2021)
Article Number 03050
Number of page(s) 10
Section Computing Methods and Computer Application
DOI https://doi.org/10.1051/matecconf/202235503050
Published online 12 January 2022
  1. “A 50-MHZ CMOS Variable Gain Amplifier for Magnetic Data Storage Systems” JSSC, 1992. R. Gone z, A.A.Abid [Google Scholar]
  2. “A Low-Power CMOS VGA for 50Mb/s Disk Drive Read Channels” IEEE Trans, Circuits Sys, 1995 [Google Scholar]
  3. “A 95dB Linear Low-Power Variable Gain Amplifier” IEEE Trans, Circuits Sys, 2006. Quoc-Hoang Duong, Quan Le [Google Scholar]
  4. “A Lower-Voltage Lower-Power Fully Integrated Automatic Gain Control for Hearing Instruments” JSSC, 1994. W.A. Serdjin, Van der Woerd, J. Davidse, and A.h.m.Van Roermund [Google Scholar]
  5. “Multi-Channel Frond-End Readout IC for Position Sensitive Solid-State Detectors” IEEE, TU may o. Tumer, Victoria B. Cajipe. [Google Scholar]
  6. “Integrated Readout Electronics: Enabling Advanced Applications of Position-Sensitive Solid-State Radiation Detectors” IEEE, 2004. Victoria B. Cajipe, Robert F. Calderwood. [Google Scholar]
  7. ”A 71-MHZ CMOS IF-Basedband Strip for GSM” IEEE JSSC, 2000. Daolo Orsatti, Francesco Piazza, and Qiuting Huang [Google Scholar]
  8. “Adaptive Analog IF Signal Processor for a Wide-Band CMOS Wireless Receiver” JSSC, 2001. Farbod Behbahani, Ali Karimi-San jaani, Wee-Guan Tan, Andreas Roithmeier [Google Scholar]
  9. “A Signal-Stage Variable-Gain Amplifier With 70-dB Dynamic Range for CDMA2000 Transmit Applications” JSSC, 2003. Sudhir Aggarwal, Abolfazl khosrowbeygi, Amd Auton Daaneninho Ko, Jongmoon Kim, Sanghyun Cho Lee “A 19-mW 2.6-mm L1/L2 Dual-Band COMS GPS Receiver” IEEE Journal of Solod State Circuits. Vol.40. No.7. July 2005 [Google Scholar]
  10. “Pseudo-Exponential Function for Mosfets in Saturation” IEEE Trans. Circuits, sys. 2000 Cheng-Chieh, Shen-Iuan Liu [Google Scholar]
  11. “A 3.3-V CMOS Wideband Exponential Control Variable-Gain-Amplifier” IEEE 1998. Po-Chiun Huang, LiYu Chiou and Chorng-Kuang Wang [Google Scholar]
  12. “A Temperature Stable CMOS Variable Gain Amplifier with 80-dB Linearly Controlled Gain Range” [Google Scholar]
  13. 2001 Symposium on VLSI Circuits Digest of Technical Papers Takafumi Yamaji, Nobuo kanou, and Tetsuro Itakura [Google Scholar]
  14. “A Low-Power Low-Noise Accurate Linear-in-Db Variable-Gain Amplifier with 500-MHA Bandwidth” JSSC, 2000. Shoji Otaka, Gaku Takemura, and Hiroshi Tanimoto [Google Scholar]
  15. Behzad Razavi “Design of Analog CMOS Integrated Circuits” [Google Scholar]
  16. “Improved Dynamic MODE of Fast-Settling Linear-in-dB Automatic Gain Control Circuit” Hsuan-Yu Marcus Pan and Lawrence E. Larson IEEE 2007 [Google Scholar]
  17. “On the Design of Constant Settling Time AGC Circuits” John M. Khoung, IEEE Trans. Circuits, sys. 1999 [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.