Design of Self-Calibration Comparator for 12-Bit SAR ADCs
Abstract
:1. Introduction
2. Design of Comparator Circuit
2.1. Overall Circuit Structure of Comparator
2.2. Design of the Common-Mode Buffer
2.3. Design of the OTA
2.4. Design of the Differential Preamplifier
2.5. Design of the Offset Cancellation Technology
2.6. Design of the Offset Trimming Circuit
2.7. Layout Design
3. Simulation and Analysis of the Proposed Comparator
3.1. Voltage Gain and GBW of Comparator
3.2. Transient Simulation of the Comparator
4. Self-Calibration and Implementation of the Comparator
4.1. Self-Calibration of the Proposed Comparator
4.2. Implementation and Measurement of the Proposed Comparator
5. Conclusions
Author Contributions
Funding
Data Availability Statement
Acknowledgments
Conflicts of Interest
References
- Ali, K.; Teo, J.H.; Sarkar, S.; Alioto, M. Dual-Mode Conversion Gating, Comparator Merging, and Reference-Less Calibration for 2.7× Energy Reduction in SAR ADCs under Low-Activity Inputs. IEEE Solid-State Circuits Lett. 2023, 6, 57–60. [Google Scholar] [CrossRef]
- Ghasemi, R.; Karami, M.A. A low-power high-speed two-stage dynamic comparator with a new offset cancellation technique in 90 nm CMOS technology. In Proceedings of the 2020 28th Iranian Conference on Electrical Engineering (ICEE), Tabriz, Iran, 4–6 August 2020. [Google Scholar]
- Qiu, L.; Meng, T.; Yao, B.; Du, Z.; Yuan, X. A High-Speed Low-Noise Comparator with Auxiliary-Inverter-Based Common Mode-Self-Regulation for Low-Supply-Voltage SAR ADCs. IEEE Trans. Very Large Scale Integr. (VLSI) Syst. 2023, 31, 152–156. [Google Scholar] [CrossRef]
- Bandla, K.; Krishnan, A.H.; Sethi, S.; Pal, D. Design of High Speed and Low Offset SR Latch Based Dynamic Comparator. In Proceedings of the 2020 IEEE Region 10 Symposium (TENSYMP), Dhaka, Bangladesh, 5–7 June 2020. [Google Scholar]
- Campos, A.L.; Navarro, J.; Luppe, M. Design of a low power 10-bit 12 MS/s asynchronous SAR ADC in 65 nm CMOS. In Proceedings of the 2019 32nd Symposium on Integrated Circuits and Systems Design (SBCCI), Sao Paulo, Brazil, 26–30 August 2019; pp. 1–6. [Google Scholar]
- da Costa, J.P.D.C.; Gounella, R.H.; Bastos, W.B.; Longo, E.; Carmo, J.P. Photovoltaic Sub-Module with Optical Sensor for Angular Measurements of Incident Light. IEEE Sens. J. 2019, 19, 3111–3120. [Google Scholar] [CrossRef]
- Wang, T.Y.; Li, H.Y.; Ma, Z.Y.; Huang, Y.J.; Peng, S.Y. A Bypass-Switching SAR ADC with a Dynamic Proximity Comparator for Biomedical Applications. IEEE J. Solid-State Circuits 2018, 53, 1743–1754. [Google Scholar] [CrossRef]
- Enz, C.C.; Temes, G.C. Circuit techniques for reducing the effects of op-amp imperfections: Autozeroing, correlated double sampling, and chopper stabilization. Proc. IEEE 1996, 84, 1584–1614. [Google Scholar] [CrossRef]
- Cheng, Y.; Tong, Y. Techniques for offset calibration in comparators. In Proceedings of the 2021 International Conference on Electronic Information Engineering and Computer Science (EIECS), Changchun, China, 23–26 September 2021. [Google Scholar]
- Kouhalvandi, L.; Aygün, S.; Özdemir, G.G.; Güneş, E.O. 10-bit High-speed CMOS comparator with offset cancellation technique. In Proceedings of the 2017 5th IEEE Workshop on Advances in Information, Electronic and Electrical Engineering (AIEEE), Riga, Latvia, 24–25 November 2017. [Google Scholar]
- Razavi, B.; Wooley, B.A. Design techniques for high-speed, high-resolution comparators. IEEE J. Solid-State Circuits 1992, 27, 1916–1926. [Google Scholar] [CrossRef]
- Li, J.; Weisheng, X.; Youling, Y. A high-speed and high-resolution CMOS comparator with three-stage preamplifier. J. Semicond. 2010, 31, 045006. [Google Scholar] [CrossRef]
- Park, H.; Yu, C.; Kim, H.; Roh, Y.; Burm, J. Low Power CMOS Image Sensors Using Two Step Single Slope ADC with Bandwidth-Limited Comparators & Voltage Range Extended Ramp Generator for Battery-Limited Application. IEEE Sens. J. 2020, 20, 2831–2838. [Google Scholar]
- Li, W.; Li, F.; Liu, J.; Li, H.; Wang, Z. A 13-bit 160MS/s pipelined subranging-SAR ADC with low-offset dynamic comparator. In Proceedings of the 2017 IEEE Asian Solid-State Circuits Conference (A-SSCC), Seoul, Republic of Korea, 6–8 November 2017. [Google Scholar]
- Chen, Y.; Wang, Z.; Zhuang, Y.; Tang, H. Analysis and Design of Sigma-Delta ADCs for Automotive Control Systems. In Proceedings of the 2021 IEEE 3rd International Conference on Circuits and Systems (ICCS), Chengdu, China, 29–31 October 2021. [Google Scholar]
- Pei, R.; Liu, J.; Tang, X.; Li, F.; Wang, Z. A low-offset dynamic comparator with input offset-cancellation. In Proceedings of the 2017 IEEE 12th International Conference on ASIC (ASICON), Guiyang, China, 25–28 October 2017. [Google Scholar]
- Fan, X.P.; Chan, P.K. A CMOS high-speed multistage preamplifier for comparator design. In Proceedings of the 2004 IEEE International Symposium on Circuits and Systems (IEEE Cat. No. 04CH37512), Vancouver, BC, Canada, 23–26 May 2004. [Google Scholar]
- Lee, M.J.; Dally, W.J.; Chiang, P. Low-power area-efficient high-speed I/O circuit techniques. IEEE J. Solid-State Circuits 2000, 35, 1591–1599. [Google Scholar] [CrossRef]
- Jung, H.; Youn, E.; Jang, Y.C. An 11-Bit 10 MS/s SAR ADC with C–R DAC Calibration and Comparator Offset Calibration. Electronics 2022, 11, 3654. [Google Scholar] [CrossRef]
- Xu, Y.; Belostotski, L.; Haslett, J.W. Offset-corrected 5GHz CMOS dynamic comparator using bulk voltage trimming: Design and analysis. In Proceedings of the 2011 IEEE 9th International New Circuits and Systems Conference, Bordeaux, France, 26–29 June 2011. [Google Scholar]
- Wang, S.-H.; Hung, C.-C. A 0.3V 10b 3MS/s SAR ADC with Comparator Calibration and Kickback Noise Reduction for Biomedical Applications. IEEE Trans. Biomed. Circuits Syst. 2020, 14, 558–569. [Google Scholar] [PubMed]
- Lee, J.; Lim, Y.; Sung, B.; Oh, S.; Chun, J.H.; Lee, J. An Effective Transconductance Controlled Offset Calibration for Dynamic Comparators. In Proceedings of the 2020 IEEE International Symposium on Circuits and Systems (ISCAS), Seville, Spain, 10–21 October 2020. [Google Scholar]
- Mohammadi, M.; Sadeghipour, K.D. A 0.5V 200 MHz offset trimmable latch comparator in standard 0.18 um CMOS process. In Proceedings of the 2013 21st Iranian Conference on Electrical Engineering (ICEE), Mashhad, Iran, 14–16 May 2013. [Google Scholar]
- Verma, D.; Shehzad, K.; Khan, D.; Kim, S.J.; Pu, Y.G.; Yoo, S.-S.; Hwang, K.C.; Yang, Y.; Lee, K.-Y. A Design of Low-Power 10-bit 1-MS/s Asynchronous SAR ADC for DSRC Application. Electronics 2020, 9, 1100. [Google Scholar] [CrossRef]
- Baek, S.-Y.; Lee, J.-K.; Ryu, S.-T. An 88-dB max-SFDR 12-bit SAR ADC with speed enhanced ADEC and dual registers. IEEE Trans. Circuits Syst. II Exp. Briefs 2013, 60, 562–566. [Google Scholar] [CrossRef]
- Behzad, R. Design of Analog CMOS Integrated Circuits; Mc-Graw Hill Inc.: New York, NY, USA, 2015. [Google Scholar]
- Hesham, O. Fast and accurate technique for comparator offset voltage simulation. Microelectron. J. 2019, 89, 91–97. [Google Scholar]
- Peng, X.; Gao, A.; Chen, Z.; Zhang, H.; Li, Y.; Cao, W.; Liu, X.; Tang, H. A Novel Comparator Offset Calibration Technique for SAR ADCs. In Proceedings of the 2018 IEEE International Conference on Electron Devices and Solid State Circuits (EDSSC), Shenzhen, China, 6–8 June 2018. [Google Scholar]
- Zhang, Y.; Cai, J.; Li, X.; Zhang, Y.; Su, B. A 3.66 μW 12-bit 1 MS/s SAR ADC with mismatch and offset foreground calibration. Microelectron. J. 2021, 116, 105–244. [Google Scholar] [CrossRef]
OPT<4:0> Code | Offset Variation (LSB) | OPT<4:0> Code | Offset Variation (LSB) |
---|---|---|---|
00000 | 0 | 10000 | 0 |
00001 | +0.5 | 10001 | −0.5 |
00010 | +1 | 10010 | −1 |
00011 | +1.5 | 10011 | −1.5 |
00100 | +2 | 10100 | −2 |
00101 | +2.5 | 10101 | −2.5 |
00110 | +3 | 10110 | −3 |
00111 | +3.5 | 10111 | −3.5 |
01000 | +4 | 11000 | −4 |
01001 | +4.5 | 11001 | −4.5 |
01010 | +5 | 11010 | −5 |
01011 | +5.5 | 11011 | −5.5 |
01100 | +6 | 11100 | −6 |
01101 | +6.5 | 11101 | −6.5 |
01110 | +7 | 11110 | −7 |
01111 | +7.5 | 11111 | −7.5 |
Parameters | This Work | [19] | [24] | [26] | [28] |
---|---|---|---|---|---|
Technology method (nm) | 95 | 180 | 55 | 350 | 55 |
Supplied voltage (V) | 5 | 1.8 | 1 | 2.3 | - |
Fs (MS/s) | 2.5 | 10 | 1 | 3 | 100 |
Resolution (bit) | 12 | 11 | 10 | 12 | 10 |
Power (μW) | 4580 | 583 | 14.8 | 1230 | 4400 |
Area (mm2) | 0.173 | 0.29 | - | 0.34 | 0.052 |
ENOB (bit) | 11.33 | 10.3 | 9.74 | - | 9.52 |
SFDR (bit) | 85.40 | 78.57 | - | 70.1 | 69.03 |
SNDR (dB) | 70 | 63.77 | 60.39 | 62.7 | 59.11 |
FoMw * (fJ/Conv. step) | 726.6 | 46.2 | 17.3 | 368 | 59.9 |
Disclaimer/Publisher’s Note: The statements, opinions and data contained in all publications are solely those of the individual author(s) and contributor(s) and not of MDPI and/or the editor(s). MDPI and/or the editor(s) disclaim responsibility for any injury to people or property resulting from any ideas, methods, instructions or products referred to in the content. |
© 2023 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
Share and Cite
Tang, J.; Wang, Y.; Gu, H.; Zou, W. Design of Self-Calibration Comparator for 12-Bit SAR ADCs. Electronics 2023, 12, 2277. https://doi.org/10.3390/electronics12102277
Tang J, Wang Y, Gu H, Zou W. Design of Self-Calibration Comparator for 12-Bit SAR ADCs. Electronics. 2023; 12(10):2277. https://doi.org/10.3390/electronics12102277
Chicago/Turabian StyleTang, Junlong, Yaodong Wang, Hongbo Gu, and Wanghui Zou. 2023. "Design of Self-Calibration Comparator for 12-Bit SAR ADCs" Electronics 12, no. 10: 2277. https://doi.org/10.3390/electronics12102277
APA StyleTang, J., Wang, Y., Gu, H., & Zou, W. (2023). Design of Self-Calibration Comparator for 12-Bit SAR ADCs. Electronics, 12(10), 2277. https://doi.org/10.3390/electronics12102277