The Experts below are selected from a list of 2211897 Experts worldwide ranked by ideXlab platform
Antonio J. Lopez-martin - One of the best experts on this subject based on the ideXlab platform.
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ISCAS - A −72 dB @ 2 MHz Im3 CMOS tunable pseudo-differential transconductor
2008 IEEE International Symposium on Circuits and Systems, 2008Co-Authors: C. Lujan-martinez, Antonio Torralba, Ramon G. Carvajal, Jaime Ramirez-angulo, Antonio J. Lopez-martinAbstract:A novel CMOS highly linear tunable pseudo-differential transconductor is presented. By using different linearization techniques, a new fully CMOS OTA has been designed that outperforms previous CMOS pseudo differential OTA implementations in terms of linearity. It has been designed in a 0.5 mum-CMOS technology with a single 3.3 V voltage supply. Experimental results show a Im3 of -72 dB for a 1 Vpp input signal at 2 MHz with a current consumption under 5 mA. A large tuning range is obtained with the Im3 always under -70 dB for the same input signal.
C. Lujan-martinez - One of the best experts on this subject based on the ideXlab platform.
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ISCAS - A −72 dB @ 2 MHz Im3 CMOS tunable pseudo-differential transconductor
2008 IEEE International Symposium on Circuits and Systems, 2008Co-Authors: C. Lujan-martinez, Antonio Torralba, Ramon G. Carvajal, Jaime Ramirez-angulo, Antonio J. Lopez-martinAbstract:A novel CMOS highly linear tunable pseudo-differential transconductor is presented. By using different linearization techniques, a new fully CMOS OTA has been designed that outperforms previous CMOS pseudo differential OTA implementations in terms of linearity. It has been designed in a 0.5 mum-CMOS technology with a single 3.3 V voltage supply. Experimental results show a Im3 of -72 dB for a 1 Vpp input signal at 2 MHz with a current consumption under 5 mA. A large tuning range is obtained with the Im3 always under -70 dB for the same input signal.
Antonio Torralba - One of the best experts on this subject based on the ideXlab platform.
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a 72 db 2 mhz Im3 cmos tunable pseudo differential transconductor
International Symposium on Circuits and Systems, 2008Co-Authors: C Lujanmartinez, Antonio Torralba, Ramon G. Carvajal, J Ramirezangulo, A J LopezmartinAbstract:A novel CMOS highly linear tunable pseudo-differential transconductor is presented. By using different linearization techniques, a new fully CMOS OTA has been designed that outperforms previous CMOS pseudo differential OTA implementations in terms of linearity. It has been designed in a 0.5 mum-CMOS technology with a single 3.3 V voltage supply. Experimental results show a Im3 of -72 dB for a 1 Vpp input signal at 2 MHz with a current consumption under 5 mA. A large tuning range is obtained with the Im3 always under -70 dB for the same input signal.
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ISCAS - A −72 dB @ 2 MHz Im3 CMOS tunable pseudo-differential transconductor
2008 IEEE International Symposium on Circuits and Systems, 2008Co-Authors: C. Lujan-martinez, Antonio Torralba, Ramon G. Carvajal, Jaime Ramirez-angulo, Antonio J. Lopez-martinAbstract:A novel CMOS highly linear tunable pseudo-differential transconductor is presented. By using different linearization techniques, a new fully CMOS OTA has been designed that outperforms previous CMOS pseudo differential OTA implementations in terms of linearity. It has been designed in a 0.5 mum-CMOS technology with a single 3.3 V voltage supply. Experimental results show a Im3 of -72 dB for a 1 Vpp input signal at 2 MHz with a current consumption under 5 mA. A large tuning range is obtained with the Im3 always under -70 dB for the same input signal.
Ramon G. Carvajal - One of the best experts on this subject based on the ideXlab platform.
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a 72 db 2 mhz Im3 cmos tunable pseudo differential transconductor
International Symposium on Circuits and Systems, 2008Co-Authors: C Lujanmartinez, Antonio Torralba, Ramon G. Carvajal, J Ramirezangulo, A J LopezmartinAbstract:A novel CMOS highly linear tunable pseudo-differential transconductor is presented. By using different linearization techniques, a new fully CMOS OTA has been designed that outperforms previous CMOS pseudo differential OTA implementations in terms of linearity. It has been designed in a 0.5 mum-CMOS technology with a single 3.3 V voltage supply. Experimental results show a Im3 of -72 dB for a 1 Vpp input signal at 2 MHz with a current consumption under 5 mA. A large tuning range is obtained with the Im3 always under -70 dB for the same input signal.
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ISCAS - A −72 dB @ 2 MHz Im3 CMOS tunable pseudo-differential transconductor
2008 IEEE International Symposium on Circuits and Systems, 2008Co-Authors: C. Lujan-martinez, Antonio Torralba, Ramon G. Carvajal, Jaime Ramirez-angulo, Antonio J. Lopez-martinAbstract:A novel CMOS highly linear tunable pseudo-differential transconductor is presented. By using different linearization techniques, a new fully CMOS OTA has been designed that outperforms previous CMOS pseudo differential OTA implementations in terms of linearity. It has been designed in a 0.5 mum-CMOS technology with a single 3.3 V voltage supply. Experimental results show a Im3 of -72 dB for a 1 Vpp input signal at 2 MHz with a current consumption under 5 mA. A large tuning range is obtained with the Im3 always under -70 dB for the same input signal.
Jaime Ramirez-angulo - One of the best experts on this subject based on the ideXlab platform.
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ISCAS - A −72 dB @ 2 MHz Im3 CMOS tunable pseudo-differential transconductor
2008 IEEE International Symposium on Circuits and Systems, 2008Co-Authors: C. Lujan-martinez, Antonio Torralba, Ramon G. Carvajal, Jaime Ramirez-angulo, Antonio J. Lopez-martinAbstract:A novel CMOS highly linear tunable pseudo-differential transconductor is presented. By using different linearization techniques, a new fully CMOS OTA has been designed that outperforms previous CMOS pseudo differential OTA implementations in terms of linearity. It has been designed in a 0.5 mum-CMOS technology with a single 3.3 V voltage supply. Experimental results show a Im3 of -72 dB for a 1 Vpp input signal at 2 MHz with a current consumption under 5 mA. A large tuning range is obtained with the Im3 always under -70 dB for the same input signal.