Sub 1-V supply voltage-reference based on mutual temperature cancellation of VT and VTH
Author:
Publisher
Springer Science and Business Media LLC
Subject
Surfaces, Coatings and Films,Hardware and Architecture,Signal Processing
Link
https://link.springer.com/content/pdf/10.1007/s10470-020-01704-y.pdf
Reference12 articles.
1. Lee, K., Lande, T. S., & Hafliger, P. (2015). A sub-μW bandgap reference circuit with an inherent curvature-compensation property. IEEE Transactions on Circuits and System_I Regular Papers, 62(1), 1–9. https://doi.org/10.1109/tcsi.2014.2340553.
2. Kazeminia, S., Hadidi, K., & Khoei, A. (2014). Reanalyzing the basic bandgap reference voltage circuit considering thermal dependence of bandgap energy. Analog Integr Circuit Signal Process, 79, 141–147. https://doi.org/10.1007/s10470-013-0248-y.
3. Zhou, Z. K., Zhu, P. S., Shi, Y., Wang, H. Y., Ma, Y. Q., Xu, X., et al. (2012). A CMOS voltage reference based on mutual compensation of Vtn and Vtp. IEEE Journal of Transaction on Circuits and System_II, Express Brief, 59(6), 341–345. https://doi.org/10.1109/tcsii.2012.2195065.
4. Wang, Y., Zhu, Z., Yao, J., & Yang, Y. (2015). A 0.45-V, 14.6-nW CMOS subthreshold voltage reference with no resistors and no BJTs. IEEE Journal of Transactions on Circuits and SystemII Express Brief, 62(7), 621–625. https://doi.org/10.1109/tcsii.2015.2415292.
5. Jiang, J., Shu, W., & Chang, J. S. (2017). A 56 ppm/OC temperature coefficient, 87-dB PSRR, Sub-1-V voltage reference in 65-nm CMOS exploiting the zero-temperature-coefficient point. IEEE Journal of Solid-State Circuits, 52(3), 623–633. https://doi.org/10.1109/jssc.2016.2627544.
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