Ali Dadashi
Publications
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Dadashi, Ali; Berg, Yngvar & Mirmotahari, Omid (2018). Energy-efficient, fast-settling, modified nested-current-mirror, single-stage-amplifier for high-resolution LCDs in 90-nm CMOS. Analog Integrated Circuits and Signal Processing. ISSN 0925-1030. 97(2), p. 253–259. doi: 10.1007/s10470-018-1220-7.
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Mirmotahari, Omid; Dadashi, Ali; Azadmehr, Mehdi & Berg, Yngvar (2016). High-speed dynamic dual-rail ultra low voltage static CMOS logic operating at 300 mV. In Bosio, Alberto (Eds.), 2016 11th IEEE International Conference on Design and Technology of Integrated Systems in Nanoscale Era (DTIS). IEEE conference proceedings. ISSN 978-1-5090-0336-5. doi: 10.1109/DTIS.2016.7483898.
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Dadashi, Ali; Mirmotahari, Omid & Berg, Yngvar (2016). A New Fully Differential Adaptive CMOS Line Driver Using Fuzzy Controller Suitable for ADSL Modems. Circuits and Systems. ISSN 2153-1285. 7(8), p. 1307–1323. doi: 10.4236/cs.2016.78114. Full text in Research Archive
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Dadashi, Ali; Mirmotahari, Omid & Berg, Yngvar (2016). NP-Domino, Ultra-Low-Voltage, High-Speed, Dual-Rail, CMOS NOR Gates . Circuits and Systems. ISSN 2153-1285. 7(8), p. 1916–1926. doi: 10.4236/cs.2016.78166.
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Dadashi, Ali; Mirmotahari, Omid & Berg, Yngvar (2015). An ultra-low-voltage, semi-floating-gate, domino, dual-rail, NOR gate. In Abbas, Mohamad; Chrzanowska-Jesk, M. & El-Kharashi, Watheq (Ed.), 2015 IEEE International Conference on Electronics, Circuits, and Systems (ICECS). IEEE conference proceedings. ISSN 978-1-5090-0246-7. p. 61–64. doi: 10.1109/ICECS.2015.7440249.
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Mirmotahari, Omid; Dadashi, Ali; Azadmehr, Mehdi & Berg, Yngvar (2015). Novel high-speed dynamic differential ultra low voltage logic for supply-voltage below 300 mV. In Abbas, Mohamad; Chrzanowska-Jesk, M. & El-Kharashi, Watheq (Ed.), 2015 IEEE International Conference on Electronics, Circuits, and Systems (ICECS). IEEE conference proceedings. ISSN 978-1-5090-0246-7. p. 53–56. doi: 10.1109/ICECS.2015.7440247.
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Dadashi, Ali; Berg, Yngvar & Mirmotahari, Omid (2015). High-Speed, Modified, Bulk stimulated, Ultra-Low-Voltage, Domino Inveter. In O'Conner, Lisa (Eds.), 2015 IEEE Computer Society Annual Symposium on VLSI (ISVLSI). IEEE Press. ISSN 978-1-4799-8718-4. p. 86–90. doi: 10.1109/ISVLSI.2015.100.
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Lee, Dong-Soo; Dadashi, Ali & Lee, Kang-Yoon (2013). A high DC-gain modified CMOS OTA. Proceedings of the IEEE International SOC Conference (SOCC). ISSN 2164-1676. doi: 10.1109/isocc.2013.6864041.
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Dadashi, Ali (2013). Modified telescopic amplifier with improved DC gain in 0.18 µm CMOS process. International journal of circuit theory and applications. ISSN 0098-9886. 41(8), p. 818–830. doi: 10.1002/cta.819.
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Dadashi, Ali; Sadrafshari, S; Hadidi, K & Khoei, A (2012). Fast-settling CMOS Op-Amp with improved DC-gain. Analog Integrated Circuits and Signal Processing. ISSN 0925-1030. 70, p. 283–292. doi: 10.1007/s10470-011-9668-8.
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Dadashi, Ali; Sadrafshari, S; Hadidi, K & Khoei, A (2011). An enhanced folded cascode Op-Amp using positive feedback and bulk amplification in 0.35 μm CMOS process. Analog Integrated Circuits and Signal Processing. ISSN 0925-1030. 67, p. 213–222. doi: 10.1007/s10470-010-9561-x.
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Dadashi, Ali; Berg, Yngvar & Mirmotahari, Omid (2017). Fast-settling, energy-efficient, amplifier for high-resolution LCD displays.
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Dadashi, Ali; Mirmotahari, Omid & Berg, Yngvar (2016). Domino DualRail, HighSpeed, NOR Logic, with 300mV supply in 90 nm CMOS Technology.
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Dadashi, Ali; Berg, Yngvar & Mirmotahari, Omid (2016). A High-Performance CMOS Modified Amplifier.
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Mirmotahari, Omid; Dadashi, Ali & Berg, Yngvar (2016). High-speed dynamic dual-rail ultra low voltage static CMOS logic operating at 300 mV.
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Dadashi, Ali; Mirmotahari, Omid & Berg, Yngvar (2015). Ultra-Low-Voltage, Semi-Floating-Gate, Domino, Dual-Rail, Nor Gate.
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Dadashi, Ali (2013). A high speed power efficient pipeline ADC in 0.18μm CMOS.
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Dadashi, Ali (2012). A High Speed A/D Converter for Using in Low Power CMOS Image Sensors.
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Dadashi, Ali (2012). Dc-Gain Enhanced Fast-settling CMOS Triple folded cascode Op-Amp.
Published Dec. 3, 2015 1:24 PM
- Last modified Feb. 23, 2018 7:30 PM