Every article or book consulted is listed below
Books
Behzad Razavi. Design of Analog CMOS Integrated Circuits. McGraw-Hill, international edition, 2001. ISBN 0-07-118839-8
Tony C. Carusone, David A.Johns and Kenneth W. Martin. Analog Integrated Circuit Design. Wiley, Second Edition, 2011. ISBN 978-0-470-77010-8
Adel S. Sedra, Kenneth C. Smith. Microeletronic Circuits. Fifth Edition, 2004
Chi-Wah Kok and Wing-Shan Tam. CMOS Voltage References: An analytical and practical perspective. First Edition, 2013. ISBN: 9781118275689
References
[1] Qadeer Ahmad Khan, Sanjay Kumar Wadhwa, Kulbhushan Misri (2003). “A Low Voltage Switched-Capacitor Current Reference Circuit with low dependence on Process, Voltage and Temperature”
[2] Y. Dai, D.T. Comer, D.J. Comer and C.S. Petrie (2004). “Threshold voltage based CMOS voltage reference”
[3] C. Yoo and J. Park. “CMOS current reference with supply and temperature compensation”, ELECTRONICS LETTERS 6th December 2007 Vol. 43 No. 25
[4] Miller, Perry and Doug Moore, "Precision Voltage References," Analog Applications Journal, November 1999
[5] Shopan din Ahmad Hafiz, Md. Shafiullah, Shamsul Azam Chowdhury. “Design of a Simple CMOS Bandgap Reference”. International Journal of Electrical & Computer Sciences IJECS-IJENS Vol:10 No:05 2010
[6] G. Torelli, A.de la Plaza. “Tracking switched-capacitor CMOS current reference”. IEE Proc. -Circuits Devices Syst., Vol. 145, No. 1, February 1998
[7] S. Q. Malik, M. E. Schlarmann, and R. L. Geiger. “A Low Temperature Sensitivity Switched-Capacitor Current Reference”
[8] A. Olesin, K. L. Luke, and R. D. Lee, “Switched capacitor precision current source,” U.S. Patent, 4,374,357 Feb. 15, 1983. Available at http://www.uspto.gov.
[9] Suhas Vishwasrao Shinde. “PVT Insensitive Reference Current Generation”. Proceedings of the International MultiConference of Engineers and Computer Scientists 2014 Vol II, IMECS 2014, March 12 - 14, 2014, Hong Kong
[10] Michał Łukaszewicz, Tomasz Borejko and Witold A. Pleskacz. “A Resistorless Current Reference Source for 65 nm CMOS Technology with Low Sensitivity to Process, Supply Voltage and Temperature Variations” 2011
[11] Yeong-Tsair Lin, Mei-Chu Jen, Dong-Shiuh Wu, and Huan-Ren Cheng. “A Low-Variation, Low-Voltage CMOS Bangap Reference Circuit” 2008
[12] S. Q. Malik *, M. E. Schlarmann *, and R. L. Geiger*. “A Low Temperature Sensitivity Switched-Capacitor Current Reference”
[13] Ashray Vinayak Gogte1 and Anu Gupta. “Low Power Temperature Compensated CMOS Current Reference” International Journal of Recent Trends in Engineering ,Vol 1, No. 3, May 2009
[14] Abdelhalim Bendali and Yves Audet. “A 1-V CMOS Current Reference With Temperature and Process Compensation”. IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS—I: REGULAR PAPERS, VOL. 54, NO. 7, JULY 2007
[15] Abhisek Dey and Tarun Kanti Bhattacharyya. “DESIGN OF A CMOS BANDGAP REFERENCE WITH LOWTEMPERATURE COEFFICIENT AND HIGH POWER SUPPLY REJECTION PERFORMANCE”. International Journal of VLSI design & Communication Systems (VLSICS) Vol.2, No.3, September 2011
[16] Wen Wu, Wen Zhiping and Zhang Yongxue. “An Improved CMOS Bandgap Reference with Self-biased Cascoded Current Mirrors”. 1-4244-0637-4/07/$20.OO ©2007 IEEE
[17] S. Q. Malik *, M. E. Schlarmann *, and R. L. Geiger*. “A Low Temperature Sensitivity Switched-Capacitor Current Reference”.
[18] Juan Pablo Martinez Brito, Sergio Bampi. “A 4-Bits Trimmed CMOS Bandgap Reference with an Improved Matching Modeling Design”.