Subject Areas : Electrical Engineering
Shahrbanoo Ghorbanzadeh 1 , Hadi Dehbovid 2 , Alireza Ghorbani 3 , Mehdi Abedi Pahnekola 4
1 - Department of Electrical Engineering, Sari Branch, Islamic
Azad University, Sari, Iran
2 - Department of Electrical Engineering , Nour Branch, Islamic Azad University, Nour, Iran
3 - Department of Electrical Engineering, Sari Branch, Islamic
Azad University, Sari, Iran
4 - Department of Electrical Engineering, Sari Branch, Islamic
Azad University, Sari, Iran
Keywords:
Abstract :
[1] Francesco, C.,Pietro, M.,Gaetano, P.,Pasquale, T.,Alessandro, T.(2018). A Topology of Fully Differential Class-AB Symmetrical OTA With Improved CMRR. IEEE Transactions on Circuits and Systems II: Express Briefs, 65(11), 1504 – 1508.
[2] F, Centurelli., P, Monsurro., G, Parisi., P,Tommasino., A, Trifiletti. (2018). A 0.6 V class-AB rail-to-rail CMOS OTA exploiting threshold lowering. Electronics Letters, 54(15), 930-932.
[3] Torralba, A., Carvajal, R.G., Jimenez, M., et al.(2006). Compact low-voltage class-AB analogue buffer. Electron. Lett, 42 (3), 152–154.
[4] Peluso, V., Vancorenland, P., Steyaert, M., et al. (1997). 900 mV differential class AB OTA for switched opamp applications, Electron. Lett, 33 (17), 1455–1456.
[5] Tomasz, K. ,Fabian, K.(2020). A Compact 0.3-V Class AB Bulk-Driven OTA.. IEEE Transactions on Very Large Scale Integration (VLSI) Systems. 28 (1) ,224 – 232.
[6] Shirin, P. , Jaime, R. , Alejandro, R. , Manaswini, G. (2019) . Gain and Bandwidth Enhanced Class-AB OTAs.IEEE 62nd International Midwest Symposium on Circuits and Systems (MWSCAS) , 778- 781.
[7] Luis HC, F., Tales Cleber, P., Robson L, M. (2007). An ultra-low-voltage ultra-low-power CMOS Miller OTA with rail-to-rail input/output swing.IEEE Transactions on Circuits and Systems II: Express Briefs,54(10), 843–847.
[8] George, R.,Spyridon, V. (2011). Low-voltage bulk-driven input stage with improved transconductance.International Journal of Circuit Theory and Applications, 39 (3) ,327-339.
[9] Luis HC, F., Sameer R, S. (2014). 60-dB gain OTA operating at 0.25-V power supply in 130-nm digital CMOS process.IEEE Transactions on Circuits and Systems I: Regular Papers, 61 (6) 1609-1617.
[10] Thandri, B. K.;Silva-Martinez, J.(2003). A robust feedforward compensation scheme for multistage operational trans-conductance amplifiers with no Miller Capacitors, IEEE Journal of Solid-State Circuits. 38 (2) 237-243.
[11] L. Callewaert, W. Sansen. (1990). Class AB CMOS amplifiers with high efficiency. IEEE Journal of Solid-State Circuits, 25 (3) 684–691.
[12] JA. Galan, AJ. López-Martín, RG. Carvajal, J. Ramírez-Angulo, C. Rubia-Marcos.(2007). Super class-AB OTAs with adaptive biasing and dynamic output current scaling. Circuits and Systems I: Regular Papers, 54(3)449-457.
[13] Lopez-Martin, A., Baswa, S., Ramirez-Angulo, J., Carvajal, R.G. (2005). Low-voltage super class AB CMOS OTA cells with very high slew rate and power efficiency. IEEE J. Solid-State Circuits. 40 (5) 1068–1077.
[14] Garde, M.P., Lopez-Martin, A., Carvajal, R.G., Ramirez-Angulo, J. (2018). Super class AB recycling folded cascode OTA. IEEE Journal of Solid-State Circuits, 53 (9) 2614 - 2623.
[15] Garde, M.P., Lopez-Martin, A., Ramirez-Angulo, J.( 2018). Power-efficient class AB telescopic cascode opamp. Electron. Lett, 54, (10) 620-622.
[16] Zuo, L., Islam, S.K. (2013). Low-voltage bulk-driven operational amplifier with improved transconductance, IEEE Trans. Cir. Syst. I, 60 (8) 2084-2091.
[17] Stepan Sutula, Michele Dei , LluísTerés, Francisco Serra-Graells, Variable-Mirror Amplifier: A New Family of Process-Independent Class-AB Single-Stage OTAs for Low-Power SC Circuits, IEEE Transactions on Circuits and Systems I: Regular Papers. 63 (2016) 1101-1110.
[18] Saso, J.M. Lopez-Martin, A., Garde, M.P., Ramirez-Angulo, J.(2017). Power-efficient class AB fully differential amplifier. Electron. Lett., 53 (19) 1298-1300.
[19] JEONGJIN, R. (2006). High-gain class-AB OTA with low quiescent current, Journal Analog Integr. Circuits Signal Process. 47,225–228.
[20] Sutula, S., Dei, M., Teres, L., and Serra-Graells, F.(2016). Variable-mirror amplifier: A new family of process-independent class-AB single-stage OTAs for low-power SC circuits. IEEE Trans. Cir. Syst. I , 63 (8) 1101-1110.
[21] Mohamad, Y.Tohid, M. (2014). A single-stage operational amplifier with enhanced transconductance and slew rate for switched-capacitor circuits.Journal. Analog Integr. Circuits Signal Process, 79(3) 589–598.
[22] Mohamad, Y.(2005). Hybrid cascode compensation for two-stage CMOS op-amps, IEICE transactions Electronics, 88 (22) 1161-1165.
[23] R.G. Carvajal, J. Ramirez-Angulo, A. Torralba, J.A.G. Galan, A. Carlosena, F.M. Chavero.The Flipped Voltage Follower: A Useful Cell for Low-Voltage Low-Power Circuit Design. IEEE Transactions on Circuits and Systems I: Regular Papers. 52 (7), 1276 – 1291.
[24] J. Guo, M. Ho, KY. Kwong, KN. Leung. (2015). Power-area-efficient transient-improved capacitor-free FVF-LDO with digital detecting technique. Electronics Letters, 51 (1), 94–96.
[25] M. J. M. Pelgrom, A. C. J. Duinmaijer, A. P. G. Welbers. (1989). Matching Properties of MOS Transistors. IEEE Journal Solid-State Circuits. 24 (5).
