The Experts below are selected from a list of 303 Experts worldwide ranked by ideXlab platform
K. Rajan - One of the best experts on this subject based on the ideXlab platform.
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Simulation and Implementation of the Two Switch Serial Input Interleaved Forward Converter
2016Co-Authors: R. Lakshmi, K. Diwakar, K. RajanAbstract:AbstractThe high voltage DC available in the telecommunication systems has to be converted into low voltage DC for batterycharging etc. This paper deals with simulation and implementation of two switch Interleaved Forward Converter for such application. The DC input is converted into high frequency AC using the Forward Converter. The secondary AC is rectified using a Half-Wave Rectifier. Experimental results obtained from the hardware prototype confirm the theoretical analysi
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Simulation and Implementation of the Two Switch Serial Input Interleaved Forward Converter
Indian Journal of Science and Technology, 2015Co-Authors: R. Lakshmi, K. Diwakar, K. RajanAbstract:The high voltage DC available in the telecommunication systems has to be converted into low voltage DC for battery charging etc. This paper deals with simulation and implementation of two switch Interleaved Forward Converter for such application. The DC input is converted into high frequency AC using the Forward Converter. The secondary AC is rectified using a Half-Wave Rectifier. Experimental results obtained from the hardware prototype confirm the theoretical analysis and the performance of the proposed converter. The experimental results are compared with those of the simulation.
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Closed Loop Control Of Two Switch Serial Input Interleaved Forward Converter
2014Co-Authors: R. Lakshmi, K. RajanAbstract:This paper deals with closed loop control of two switch Interleaved Forward Converter. When any sudden disturbance occurs at the input of open loop two switch interleaved forward converter, the output is also disturbed for a long time. In order to avoid this, a closed looped control is introduced. By using closed loop control steady state error is reduced. The DC input is converted into high frequency AC using Forward Converter. The AC is rectified using Half-Wave Rectifier. The output voltage is regulated using closed loop system.
Thaweesak Worachak - One of the best experts on this subject based on the ideXlab platform.
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electronically controlable gain and dynamic range positive negative Half Wave Rectifier using fd and se otas based on commercially available ics
International Symposium on Communications and Information Technologies, 2012Co-Authors: Chaiyan Chanapromma, Thaweesak WorachakAbstract:This paper presents positive/negative Half-Wave Rectifier. The proposed structure is based on OTA using commercially available ICs (LT1228). The features of the proposed circuit are that: it can rectify and amplify voltage signal with electronically controllable output magnitude via input bias current. The circuit description merely consists of 3 SE and 1 FD OTAs. The performance of the proposed circuit are investigated though PSpice simulation.
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ISCIT - Electronically controlable gain and dynamic range positive/negative Half-Wave Rectifier using FD and SE OTAs based on commercially available ICs
2012 International Symposium on Communications and Information Technologies (ISCIT), 2012Co-Authors: Chaiyan Chanapromma, Thaweesak WorachakAbstract:This paper presents positive/negative Half-Wave Rectifier. The proposed structure is based on OTA using commercially available ICs (LT1228). The features of the proposed circuit are that: it can rectify and amplify voltage signal with electronically controllable output magnitude via input bias current. The circuit description merely consists of 3 SE and 1 FD OTAs. The performance of the proposed circuit are investigated though PSpice simulation.
R. Lakshmi - One of the best experts on this subject based on the ideXlab platform.
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Simulation and Implementation of the Two Switch Serial Input Interleaved Forward Converter
2016Co-Authors: R. Lakshmi, K. Diwakar, K. RajanAbstract:AbstractThe high voltage DC available in the telecommunication systems has to be converted into low voltage DC for batterycharging etc. This paper deals with simulation and implementation of two switch Interleaved Forward Converter for such application. The DC input is converted into high frequency AC using the Forward Converter. The secondary AC is rectified using a Half-Wave Rectifier. Experimental results obtained from the hardware prototype confirm the theoretical analysi
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Simulation and Implementation of the Two Switch Serial Input Interleaved Forward Converter
Indian Journal of Science and Technology, 2015Co-Authors: R. Lakshmi, K. Diwakar, K. RajanAbstract:The high voltage DC available in the telecommunication systems has to be converted into low voltage DC for battery charging etc. This paper deals with simulation and implementation of two switch Interleaved Forward Converter for such application. The DC input is converted into high frequency AC using the Forward Converter. The secondary AC is rectified using a Half-Wave Rectifier. Experimental results obtained from the hardware prototype confirm the theoretical analysis and the performance of the proposed converter. The experimental results are compared with those of the simulation.
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Closed Loop Control Of Two Switch Serial Input Interleaved Forward Converter
2014Co-Authors: R. Lakshmi, K. RajanAbstract:This paper deals with closed loop control of two switch Interleaved Forward Converter. When any sudden disturbance occurs at the input of open loop two switch interleaved forward converter, the output is also disturbed for a long time. In order to avoid this, a closed looped control is introduced. By using closed loop control steady state error is reduced. The DC input is converted into high frequency AC using Forward Converter. The AC is rectified using Half-Wave Rectifier. The output voltage is regulated using closed loop system.
Rahul Verma - One of the best experts on this subject based on the ideXlab platform.
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Study of Half Wave Rectifiers
International Journal of Research, 2017Co-Authors: M Gulabsen, Suryaveer Singh Solanki, Swaroop Lal, Govind Kumar Meena, Rahul VermaAbstract:This paper represents the study of Half Wave Rectifier of single phase AC to DC converter. Performances and outputs have analyzed depending on the equations. Different parameters such as voltage gain, harmonic contents in input current, and parameters of changing output voltage are compared different type of single phase AC to DC converters. AC to DC converter is defined as Rectifier.
Chaiyan Chanapromma - One of the best experts on this subject based on the ideXlab platform.
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electronically controlable gain and dynamic range positive negative Half Wave Rectifier using fd and se otas based on commercially available ics
International Symposium on Communications and Information Technologies, 2012Co-Authors: Chaiyan Chanapromma, Thaweesak WorachakAbstract:This paper presents positive/negative Half-Wave Rectifier. The proposed structure is based on OTA using commercially available ICs (LT1228). The features of the proposed circuit are that: it can rectify and amplify voltage signal with electronically controllable output magnitude via input bias current. The circuit description merely consists of 3 SE and 1 FD OTAs. The performance of the proposed circuit are investigated though PSpice simulation.
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ISCIT - Electronically controlable gain and dynamic range positive/negative Half-Wave Rectifier using FD and SE OTAs based on commercially available ICs
2012 International Symposium on Communications and Information Technologies (ISCIT), 2012Co-Authors: Chaiyan Chanapromma, Thaweesak WorachakAbstract:This paper presents positive/negative Half-Wave Rectifier. The proposed structure is based on OTA using commercially available ICs (LT1228). The features of the proposed circuit are that: it can rectify and amplify voltage signal with electronically controllable output magnitude via input bias current. The circuit description merely consists of 3 SE and 1 FD OTAs. The performance of the proposed circuit are investigated though PSpice simulation.
