�ݺ�ߣshows by User: nagesh024

�ݺ�ߣshows by User: nagesh024 / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: nagesh024 / Wed, 19 Oct 2016 04:19:22 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: nagesh024 A fast acquisition all-digital delay-locked loop using a starting-bit prediction algorithm for the successive-approximation register /slideshow/a-fast-acquisition-alldigital-delaylocked-loop-using-a-startingbit-prediction-algorithm-for-the-successiveapproximation-register-67386264/67386264 afast-acquisitionall-digitaldelay-lockedloopusingastarting-bitpredictionalgorithmforthesuccessive-ap-161019041922
A Fast-Acquisition All-Digital Delay-Locked Loop Using a Starting-Bit Prediction Algorithm for the Successive-Approximation Register This brief presents a fast-acquisition 11-bit all-digital delay-locked loop (ADDLL) using a novel starting-bit prediction algorithm for the successive-approximation register (SBP-SAR). It can effectively eliminate the harmonic lock and the false lock. The achievable acquisition time is within 17.5-23.5 or 17.5-32.5 clock cycles when the ADDLL works at the low or high clock rate, respectively. The digital-controlled delay line and the SBP-SAR of the ADDLL chip are synthesized using Taiwan Semiconductor Manufacturing Company's (TSMC's) 0.18-μm CMOS cell library. The proposed ADDLL can operate at a clock frequency from 60 MHz to 1.1 GHz. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/vlsi-ieee-projects-2016-2017/ Web : http://ieeemaster.com Web : http://ieeemaster.com/vlsi-ieee-projects-2016-2017/ Address: 36, 100 Feet Road Near Indira Gandhi Statue, Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 0413 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
A Fast-Acquisition All-Digital Delay-Locked Loop Using a Starting-Bit Prediction Algorithm for the Successive-Approximation Register This brief presents a fast-acquisition 11-bit all-digital delay-locked loop (ADDLL) using a novel starting-bit prediction algorithm for the successive-approximation register (SBP-SAR). It can effectively eliminate the harmonic lock and the false lock. The achievable acquisition time is within 17.5-23.5 or 17.5-32.5 clock cycles when the ADDLL works at the low or high clock rate, respectively. The digital-controlled delay line and the SBP-SAR of the ADDLL chip are synthesized using Taiwan Semiconductor Manufacturing Company's (TSMC's) 0.18-μm CMOS cell library. The proposed ADDLL can operate at a clock frequency from 60 MHz to 1.1 GHz. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/vlsi-ieee-projects-2016-2017/ Web : http://ieeemaster.com Web : http://ieeemaster.com/vlsi-ieee-projects-2016-2017/ Address: 36, 100 Feet Road Near Indira Gandhi Statue, Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 0413 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Wed, 19 Oct 2016 04:19:22 GMT /slideshow/a-fast-acquisition-alldigital-delaylocked-loop-using-a-startingbit-prediction-algorithm-for-the-successiveapproximation-register-67386264/67386264 nagesh024@slideshare.net(nagesh024) A fast acquisition all-digital delay-locked loop using a starting-bit prediction algorithm for the successive-approximation register nagesh024 A Fast-Acquisition All-Digital Delay-Locked Loop Using a Starting-Bit Prediction Algorithm for the Successive-Approximation Register This brief presents a fast-acquisition 11-bit all-digital delay-locked loop (ADDLL) using a novel starting-bit prediction algorithm for the successive-approximation register (SBP-SAR). It can effectively eliminate the harmonic lock and the false lock. The achievable acquisition time is within 17.5-23.5 or 17.5-32.5 clock cycles when the ADDLL works at the low or high clock rate, respectively. The digital-controlled delay line and the SBP-SAR of the ADDLL chip are synthesized using Taiwan Semiconductor Manufacturing Company's (TSMC's) 0.18-μm CMOS cell library. The proposed ADDLL can operate at a clock frequency from 60 MHz to 1.1 GHz. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/vlsi-ieee-projects-2016-2017/ Web : http://ieeemaster.com Web : http://ieeemaster.com/vlsi-ieee-projects-2016-2017/ Address: 36, 100 Feet Road Near Indira Gandhi Statue, Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 0413 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/afast-acquisitionall-digitaldelay-lockedloopusingastarting-bitpredictionalgorithmforthesuccessive-ap-161019041922-thumbnail.jpg?width=120&height=120&fit=bounds" /> A Fast-Acquisition All-Digital Delay-Locked Loop Using a Starting-Bit Prediction Algorithm for the Successive-Approximation Register This brief presents a fast-acquisition 11-bit all-digital delay-locked loop (ADDLL) using a novel starting-bit prediction algorithm for the successive-approximation register (SBP-SAR). It can effectively eliminate the harmonic lock and the false lock. The achievable acquisition time is within 17.5-23.5 or 17.5-32.5 clock cycles when the ADDLL works at the low or high clock rate, respectively. The digital-controlled delay line and the SBP-SAR of the ADDLL chip are synthesized using Taiwan Semiconductor Manufacturing Company's (TSMC's) 0.18-μm CMOS cell library. The proposed ADDLL can operate at a clock frequency from 60 MHz to 1.1 GHz. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/vlsi-ieee-projects-2016-2017/ Web : http://ieeemaster.com Web : http://ieeemaster.com/vlsi-ieee-projects-2016-2017/ Address: 36, 100 Feet Road Near Indira Gandhi Statue, Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 0413 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

A fast acquisition all-digital delay-locked loop using a starting-bit prediction algorithm for the successive-approximation register from LeMeniz Infotech

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0 A fast fault tolerant architecture for sauvola local image thresholding algorithm using stochastic computing /slideshow/a-fast-fault-tolerant-architecture-for-sauvola-local-image-thresholding-algorithm-using-stochastic-computing-67207867/67207867 afastfault-tolerantarchitectureforsauvolalocalimagethresholdingalgorithmusingstochasticcomputing-161015063404
A Fast Fault-Tolerant Architecture for Sauvola Local Image Thresholding Algorithm Using Stochastic Computing Binarization plays an important role in document image processing, particularly in degraded document images. Among all local image thresholding algorithms, Sauvola has excellent binarization performance for degraded document images. However, this algorithm is computationally intensive and sensitive to the noises from the internal computational circuits. In this paper, we present a stochastic implementation of Sauvola algorithm. Our experimental results show that the stochastic implementation of Sauvola needs much less time and area and can tolerate more faults, while consuming less power in comparison with its conventional implementation. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/vlsi-ieee-projects-2016-2017/ Web : http://ieeemaster.com Web : http://ieeemaster.com/vlsi-ieee-projects-2016-2017/ Address: 36, 100 Feet Road Near Indira Gandhi Statue, Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 0413 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
A Fast Fault-Tolerant Architecture for Sauvola Local Image Thresholding Algorithm Using Stochastic Computing Binarization plays an important role in document image processing, particularly in degraded document images. Among all local image thresholding algorithms, Sauvola has excellent binarization performance for degraded document images. However, this algorithm is computationally intensive and sensitive to the noises from the internal computational circuits. In this paper, we present a stochastic implementation of Sauvola algorithm. Our experimental results show that the stochastic implementation of Sauvola needs much less time and area and can tolerate more faults, while consuming less power in comparison with its conventional implementation. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/vlsi-ieee-projects-2016-2017/ Web : http://ieeemaster.com Web : http://ieeemaster.com/vlsi-ieee-projects-2016-2017/ Address: 36, 100 Feet Road Near Indira Gandhi Statue, Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 0413 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Sat, 15 Oct 2016 06:34:04 GMT /slideshow/a-fast-fault-tolerant-architecture-for-sauvola-local-image-thresholding-algorithm-using-stochastic-computing-67207867/67207867 nagesh024@slideshare.net(nagesh024) A fast fault tolerant architecture for sauvola local image thresholding algorithm using stochastic computing nagesh024 A Fast Fault-Tolerant Architecture for Sauvola Local Image Thresholding Algorithm Using Stochastic Computing Binarization plays an important role in document image processing, particularly in degraded document images. Among all local image thresholding algorithms, Sauvola has excellent binarization performance for degraded document images. However, this algorithm is computationally intensive and sensitive to the noises from the internal computational circuits. In this paper, we present a stochastic implementation of Sauvola algorithm. Our experimental results show that the stochastic implementation of Sauvola needs much less time and area and can tolerate more faults, while consuming less power in comparison with its conventional implementation. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/vlsi-ieee-projects-2016-2017/ Web : http://ieeemaster.com Web : http://ieeemaster.com/vlsi-ieee-projects-2016-2017/ Address: 36, 100 Feet Road Near Indira Gandhi Statue, Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 0413 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/afastfault-tolerantarchitectureforsauvolalocalimagethresholdingalgorithmusingstochasticcomputing-161015063404-thumbnail.jpg?width=120&height=120&fit=bounds" /> A Fast Fault-Tolerant Architecture for Sauvola Local Image Thresholding Algorithm Using Stochastic Computing Binarization plays an important role in document image processing, particularly in degraded document images. Among all local image thresholding algorithms, Sauvola has excellent binarization performance for degraded document images. However, this algorithm is computationally intensive and sensitive to the noises from the internal computational circuits. In this paper, we present a stochastic implementation of Sauvola algorithm. Our experimental results show that the stochastic implementation of Sauvola needs much less time and area and can tolerate more faults, while consuming less power in comparison with its conventional implementation. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/vlsi-ieee-projects-2016-2017/ Web : http://ieeemaster.com Web : http://ieeemaster.com/vlsi-ieee-projects-2016-2017/ Address: 36, 100 Feet Road Near Indira Gandhi Statue, Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 0413 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

A fast fault tolerant architecture for sauvola local image thresholding algorithm using stochastic computing from LeMeniz Infotech

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0 A dynamically reconfigurable multi asip architecture for multistandard and multimode turbo decoding /slideshow/a-dynamically-reconfigurable-multi-asip-architecture-for-multistandard-and-multimode-turbo-decoding-67207700/67207700 adynamicallyreconfigurablemulti-asiparchitectureformultistandardandmultimodeturbodecoding-161015062223
A Dynamically Reconfigurable Multi-ASIP Architecture for Multistandard and Multimode Turbo Decoding The multiplication of wireless communication standards is introducing the need of flexible and reconfigurable multistandard baseband receivers. In this context, multiprocessor turbo decoders have been recently developed in order to support the increasing flexibility and throughput requirements of emerging applications. However, these solutions do not sufficiently address reconfiguration performance issues, which can be a limiting factor in the future. This brief presents the design of a reconfigurable multiprocessor architecture for turbo decoding achieving very fast reconfiguration without compromising the decoding performances. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/vlsi-ieee-projects-2016-2017/ Web : http://ieeemaster.com Web : http://ieeemaster.com/vlsi-ieee-projects-2016-2017/ Address: 36, 100 Feet Road Near Indira Gandhi Statue, Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 0413 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
A Dynamically Reconfigurable Multi-ASIP Architecture for Multistandard and Multimode Turbo Decoding The multiplication of wireless communication standards is introducing the need of flexible and reconfigurable multistandard baseband receivers. In this context, multiprocessor turbo decoders have been recently developed in order to support the increasing flexibility and throughput requirements of emerging applications. However, these solutions do not sufficiently address reconfiguration performance issues, which can be a limiting factor in the future. This brief presents the design of a reconfigurable multiprocessor architecture for turbo decoding achieving very fast reconfiguration without compromising the decoding performances. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/vlsi-ieee-projects-2016-2017/ Web : http://ieeemaster.com Web : http://ieeemaster.com/vlsi-ieee-projects-2016-2017/ Address: 36, 100 Feet Road Near Indira Gandhi Statue, Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 0413 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Sat, 15 Oct 2016 06:22:23 GMT /slideshow/a-dynamically-reconfigurable-multi-asip-architecture-for-multistandard-and-multimode-turbo-decoding-67207700/67207700 nagesh024@slideshare.net(nagesh024) A dynamically reconfigurable multi asip architecture for multistandard and multimode turbo decoding nagesh024 A Dynamically Reconfigurable Multi-ASIP Architecture for Multistandard and Multimode Turbo Decoding The multiplication of wireless communication standards is introducing the need of flexible and reconfigurable multistandard baseband receivers. In this context, multiprocessor turbo decoders have been recently developed in order to support the increasing flexibility and throughput requirements of emerging applications. However, these solutions do not sufficiently address reconfiguration performance issues, which can be a limiting factor in the future. This brief presents the design of a reconfigurable multiprocessor architecture for turbo decoding achieving very fast reconfiguration without compromising the decoding performances. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/vlsi-ieee-projects-2016-2017/ Web : http://ieeemaster.com Web : http://ieeemaster.com/vlsi-ieee-projects-2016-2017/ Address: 36, 100 Feet Road Near Indira Gandhi Statue, Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 0413 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/adynamicallyreconfigurablemulti-asiparchitectureformultistandardandmultimodeturbodecoding-161015062223-thumbnail.jpg?width=120&height=120&fit=bounds" /> A Dynamically Reconfigurable Multi-ASIP Architecture for Multistandard and Multimode Turbo Decoding The multiplication of wireless communication standards is introducing the need of flexible and reconfigurable multistandard baseband receivers. In this context, multiprocessor turbo decoders have been recently developed in order to support the increasing flexibility and throughput requirements of emerging applications. However, these solutions do not sufficiently address reconfiguration performance issues, which can be a limiting factor in the future. This brief presents the design of a reconfigurable multiprocessor architecture for turbo decoding achieving very fast reconfiguration without compromising the decoding performances. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/vlsi-ieee-projects-2016-2017/ Web : http://ieeemaster.com Web : http://ieeemaster.com/vlsi-ieee-projects-2016-2017/ Address: 36, 100 Feet Road Near Indira Gandhi Statue, Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 0413 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

A dynamically reconfigurable multi asip architecture for multistandard and multimode turbo decoding from LeMeniz Infotech

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0 Interleaved digital power factor correction based on the sliding mode approach /slideshow/interleaved-digital-power-factor-correction-based-on-the-sliding-mode-approach/66808842 interleaveddigitalpowerfactorcorrectionbasedonthesliding-modeapproach-161006125819
Interleaved Digital Power Factor Correction Based on the Sliding-Mode Approach This study describes a digitally controlled power factor correction (PFC) system based on two interleaved boost converters operating with pulsewidth modulation (PWM). Both converters are independently controlled by an inner control loop based on a discrete-time sliding-mode (SM) approach that imposes loss-free resistor (LFR) behavior on each cell. The switching surface implements an average current-mode controller so that the power factor (PF) is high. The SM-based digital controller is designed to operate at a constant switching frequency so that the interleaving technique, which is recommended for ac-dc power conversion systems higher than 1 kW, can be readily applied. An outer loop regulates the output voltage by means of a discrete-time proportional-integral (PI) compensator directly obtained from a discrete-time small-signal model of the ideal sliding dynamics. The control law proposed has been validated using numerical simulations and experimental results in a 2-kW prototype. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 ]]>
Interleaved Digital Power Factor Correction Based on the Sliding-Mode Approach This study describes a digitally controlled power factor correction (PFC) system based on two interleaved boost converters operating with pulsewidth modulation (PWM). Both converters are independently controlled by an inner control loop based on a discrete-time sliding-mode (SM) approach that imposes loss-free resistor (LFR) behavior on each cell. The switching surface implements an average current-mode controller so that the power factor (PF) is high. The SM-based digital controller is designed to operate at a constant switching frequency so that the interleaving technique, which is recommended for ac-dc power conversion systems higher than 1 kW, can be readily applied. An outer loop regulates the output voltage by means of a discrete-time proportional-integral (PI) compensator directly obtained from a discrete-time small-signal model of the ideal sliding dynamics. The control law proposed has been validated using numerical simulations and experimental results in a 2-kW prototype. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 ]]> Thu, 06 Oct 2016 12:58:19 GMT /slideshow/interleaved-digital-power-factor-correction-based-on-the-sliding-mode-approach/66808842 nagesh024@slideshare.net(nagesh024) Interleaved digital power factor correction based on the sliding mode approach nagesh024 Interleaved Digital Power Factor Correction Based on the Sliding-Mode Approach This study describes a digitally controlled power factor correction (PFC) system based on two interleaved boost converters operating with pulsewidth modulation (PWM). Both converters are independently controlled by an inner control loop based on a discrete-time sliding-mode (SM) approach that imposes loss-free resistor (LFR) behavior on each cell. The switching surface implements an average current-mode controller so that the power factor (PF) is high. The SM-based digital controller is designed to operate at a constant switching frequency so that the interleaving technique, which is recommended for ac-dc power conversion systems higher than 1 kW, can be readily applied. An outer loop regulates the output voltage by means of a discrete-time proportional-integral (PI) compensator directly obtained from a discrete-time small-signal model of the ideal sliding dynamics. The control law proposed has been validated using numerical simulations and experimental results in a 2-kW prototype. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/interleaveddigitalpowerfactorcorrectionbasedonthesliding-modeapproach-161006125819-thumbnail.jpg?width=120&height=120&fit=bounds" /> Interleaved Digital Power Factor Correction Based on the Sliding-Mode Approach This study describes a digitally controlled power factor correction (PFC) system based on two interleaved boost converters operating with pulsewidth modulation (PWM). Both converters are independently controlled by an inner control loop based on a discrete-time sliding-mode (SM) approach that imposes loss-free resistor (LFR) behavior on each cell. The switching surface implements an average current-mode controller so that the power factor (PF) is high. The SM-based digital controller is designed to operate at a constant switching frequency so that the interleaving technique, which is recommended for ac-dc power conversion systems higher than 1 kW, can be readily applied. An outer loop regulates the output voltage by means of a discrete-time proportional-integral (PI) compensator directly obtained from a discrete-time small-signal model of the ideal sliding dynamics. The control law proposed has been validated using numerical simulations and experimental results in a 2-kW prototype. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

Interleaved digital power factor correction based on the sliding mode approach from LeMeniz Infotech

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0 Bumpless control for reduced thd in power factor correction circuits /slideshow/bumpless-control-for-reduced-thd-in-power-factor-correction-circuits/66808184 bumplesscontrolforreducedthdinpowerfactorcorrectioncircuits-161006124019
Bumpless Control for Reduced THD in Power Factor Correction Circuits It is well known that power factor correction (PFC) circuits suffer from two fundamentally different operating modes over a given AC input cycle. These two modes, continuous conduction mode (CCM) and discontinuous conduction mode (DCM), have very different frequency-response characteristics that can make control design for PFC circuits challenging. The problem is exacerbated by attempts to improve efficiency by dynamically adjusting the PWM switching frequency based on the load. Adjusting the PWM frequency based on the load limits controller bandwidth and restricts dynamic performance. Prior work has made use of multiple controllers, however, they have not addressed the discontinuity (bump) that exists when switching between controllers. In this paper, bumpless controllers will be synthesized for a 750 watt, semi-bridgeless PFC for the CCM-DCM operating modes. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
Bumpless Control for Reduced THD in Power Factor Correction Circuits It is well known that power factor correction (PFC) circuits suffer from two fundamentally different operating modes over a given AC input cycle. These two modes, continuous conduction mode (CCM) and discontinuous conduction mode (DCM), have very different frequency-response characteristics that can make control design for PFC circuits challenging. The problem is exacerbated by attempts to improve efficiency by dynamically adjusting the PWM switching frequency based on the load. Adjusting the PWM frequency based on the load limits controller bandwidth and restricts dynamic performance. Prior work has made use of multiple controllers, however, they have not addressed the discontinuity (bump) that exists when switching between controllers. In this paper, bumpless controllers will be synthesized for a 750 watt, semi-bridgeless PFC for the CCM-DCM operating modes. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Thu, 06 Oct 2016 12:40:19 GMT /slideshow/bumpless-control-for-reduced-thd-in-power-factor-correction-circuits/66808184 nagesh024@slideshare.net(nagesh024) Bumpless control for reduced thd in power factor correction circuits nagesh024 Bumpless Control for Reduced THD in Power Factor Correction Circuits It is well known that power factor correction (PFC) circuits suffer from two fundamentally different operating modes over a given AC input cycle. These two modes, continuous conduction mode (CCM) and discontinuous conduction mode (DCM), have very different frequency-response characteristics that can make control design for PFC circuits challenging. The problem is exacerbated by attempts to improve efficiency by dynamically adjusting the PWM switching frequency based on the load. Adjusting the PWM frequency based on the load limits controller bandwidth and restricts dynamic performance. Prior work has made use of multiple controllers, however, they have not addressed the discontinuity (bump) that exists when switching between controllers. In this paper, bumpless controllers will be synthesized for a 750 watt, semi-bridgeless PFC for the CCM-DCM operating modes. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/bumplesscontrolforreducedthdinpowerfactorcorrectioncircuits-161006124019-thumbnail.jpg?width=120&height=120&fit=bounds" /> Bumpless Control for Reduced THD in Power Factor Correction Circuits It is well known that power factor correction (PFC) circuits suffer from two fundamentally different operating modes over a given AC input cycle. These two modes, continuous conduction mode (CCM) and discontinuous conduction mode (DCM), have very different frequency-response characteristics that can make control design for PFC circuits challenging. The problem is exacerbated by attempts to improve efficiency by dynamically adjusting the PWM switching frequency based on the load. Adjusting the PWM frequency based on the load limits controller bandwidth and restricts dynamic performance. Prior work has made use of multiple controllers, however, they have not addressed the discontinuity (bump) that exists when switching between controllers. In this paper, bumpless controllers will be synthesized for a 750 watt, semi-bridgeless PFC for the CCM-DCM operating modes. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

Bumpless control for reduced thd in power factor correction circuits from LeMeniz Infotech

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0 A bidirectional single stage three phase rectifier with high-frequency isolation and power factor correction /nagesh024/a-bidirectional-single-stage-three-phase-rectifier-with-highfrequency-isolation-and-power-factor-correction abidirectionalsingle-stagethreephaserectifierwithhigh-frequencyisolationandpowerfactorcorrection-161006122436
A bidirectional single-stage three-phase Rectifier with high-frequency Isolation and power factor Correction This paper proposes a single-stage three-phase rectifier with high-frequency isolation, power factor correction, and bidirectional power flow. The presented topology is adequate for dc grids (or smart-grids), telecommunications (telecom) power supplies, and more recent applications such as electric vehicles. The converter is based on the three-phase version of the dual active bridge (DAB) associated with the three-state-switching cell (3SSC), whose power flow between the primary and secondary sides is controlled by the phase-shift angle. A theoretical analysis is presented and validated through simulation and experimental. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
A bidirectional single-stage three-phase Rectifier with high-frequency Isolation and power factor Correction This paper proposes a single-stage three-phase rectifier with high-frequency isolation, power factor correction, and bidirectional power flow. The presented topology is adequate for dc grids (or smart-grids), telecommunications (telecom) power supplies, and more recent applications such as electric vehicles. The converter is based on the three-phase version of the dual active bridge (DAB) associated with the three-state-switching cell (3SSC), whose power flow between the primary and secondary sides is controlled by the phase-shift angle. A theoretical analysis is presented and validated through simulation and experimental. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Thu, 06 Oct 2016 12:24:36 GMT /nagesh024/a-bidirectional-single-stage-three-phase-rectifier-with-highfrequency-isolation-and-power-factor-correction nagesh024@slideshare.net(nagesh024) A bidirectional single stage three phase rectifier with high-frequency isolation and power factor correction nagesh024 A bidirectional single-stage three-phase Rectifier with high-frequency Isolation and power factor Correction This paper proposes a single-stage three-phase rectifier with high-frequency isolation, power factor correction, and bidirectional power flow. The presented topology is adequate for dc grids (or smart-grids), telecommunications (telecom) power supplies, and more recent applications such as electric vehicles. The converter is based on the three-phase version of the dual active bridge (DAB) associated with the three-state-switching cell (3SSC), whose power flow between the primary and secondary sides is controlled by the phase-shift angle. A theoretical analysis is presented and validated through simulation and experimental. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/abidirectionalsingle-stagethreephaserectifierwithhigh-frequencyisolationandpowerfactorcorrection-161006122436-thumbnail.jpg?width=120&height=120&fit=bounds" /> A bidirectional single-stage three-phase Rectifier with high-frequency Isolation and power factor Correction This paper proposes a single-stage three-phase rectifier with high-frequency isolation, power factor correction, and bidirectional power flow. The presented topology is adequate for dc grids (or smart-grids), telecommunications (telecom) power supplies, and more recent applications such as electric vehicles. The converter is based on the three-phase version of the dual active bridge (DAB) associated with the three-state-switching cell (3SSC), whose power flow between the primary and secondary sides is controlled by the phase-shift angle. A theoretical analysis is presented and validated through simulation and experimental. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

A bidirectional single stage three phase rectifier with high-frequency isolation and power factor correction from LeMeniz Infotech

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0 A bidirectional three level llc resonant converter with pwam control /slideshow/a-bidirectional-three-level-llc-resonant-converter-with-pwam-control-66465584/66465584 abidirectionalthree-levelllcresonantconverterwithpwamcontrol-160927121605
A Bidirectional Three-Level LLC Resonant Converter With PWAM Control This paper proposes a bidirectional three-level LLC resonant converter with a new pulse width and amplitude modulation control method. With different control signals, it has three different operation modes with different voltage gains. Therefore, it can achieve wide voltage gain range by switching among these three modes, which is attractive for energy storage system applications needing wide voltage variation. The proposed topology operates with constant switching frequency, which is easy to implement with digital control, and it can achieve soft switching for all the switches and diodes in the circuit as a conventional LLC resonant converter. The performance of the proposed converter is validated by the experimental results from a 1-kW prototype with 20 A maximum output current. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
A Bidirectional Three-Level LLC Resonant Converter With PWAM Control This paper proposes a bidirectional three-level LLC resonant converter with a new pulse width and amplitude modulation control method. With different control signals, it has three different operation modes with different voltage gains. Therefore, it can achieve wide voltage gain range by switching among these three modes, which is attractive for energy storage system applications needing wide voltage variation. The proposed topology operates with constant switching frequency, which is easy to implement with digital control, and it can achieve soft switching for all the switches and diodes in the circuit as a conventional LLC resonant converter. The performance of the proposed converter is validated by the experimental results from a 1-kW prototype with 20 A maximum output current. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Tue, 27 Sep 2016 12:16:05 GMT /slideshow/a-bidirectional-three-level-llc-resonant-converter-with-pwam-control-66465584/66465584 nagesh024@slideshare.net(nagesh024) A bidirectional three level llc resonant converter with pwam control nagesh024 A Bidirectional Three-Level LLC Resonant Converter With PWAM Control This paper proposes a bidirectional three-level LLC resonant converter with a new pulse width and amplitude modulation control method. With different control signals, it has three different operation modes with different voltage gains. Therefore, it can achieve wide voltage gain range by switching among these three modes, which is attractive for energy storage system applications needing wide voltage variation. The proposed topology operates with constant switching frequency, which is easy to implement with digital control, and it can achieve soft switching for all the switches and diodes in the circuit as a conventional LLC resonant converter. The performance of the proposed converter is validated by the experimental results from a 1-kW prototype with 20 A maximum output current. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/abidirectionalthree-levelllcresonantconverterwithpwamcontrol-160927121605-thumbnail.jpg?width=120&height=120&fit=bounds" /> A Bidirectional Three-Level LLC Resonant Converter With PWAM Control This paper proposes a bidirectional three-level LLC resonant converter with a new pulse width and amplitude modulation control method. With different control signals, it has three different operation modes with different voltage gains. Therefore, it can achieve wide voltage gain range by switching among these three modes, which is attractive for energy storage system applications needing wide voltage variation. The proposed topology operates with constant switching frequency, which is easy to implement with digital control, and it can achieve soft switching for all the switches and diodes in the circuit as a conventional LLC resonant converter. The performance of the proposed converter is validated by the experimental results from a 1-kW prototype with 20 A maximum output current. Web : http://www.lemenizinfotech.com web : http://www.lemenizinfotech.com/tag/ieee-projects-in-pondicherry/ Web : http://ieeemaster.com Web : http://ieeemaster.com/power-electronics-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

A bidirectional three level llc resonant converter with pwam control from LeMeniz Infotech

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0 Efficient single phase transformerless inverter for grid tied pvg system with reactive power control /slideshow/efficient-single-phase-transformerless-inverter-for-grid-tied-pvg-system-with-reactive-power-control/66207373 efficientsinglephasetransformerlessinverterforgrid-tiedpvgsystemwithreactivepowercontrol-160920103542
Efficient Single Phase Transformerless Inverter for Grid-Tied PVG System With Reactive Power Control There has been an increasing interest in transformerless inverter for grid-tied photovoltaic (PV) system due to low cost, high efficiency, light weight, etc. Therefore, many transformerless topologies have been proposed and verified with real power injection only. Recently, almost every international regulation has imposed that a definite amount of reactive power should be handled by the grid-tied PV inverter. According to the standard VDE-AR-N 4105, grid-tied PV inverter of power rating below 3.68KVA, should attain power factor (PF) from 0.95 leading to 0.95 lagging. In this paper, a new high efficiency transformerless topology is proposed for grid-tied PV system with reactive power control. The new topology structure and detail operation principle with reactive power flow is described. The high frequency common-mode (CM) model and the control of the proposed topology are analyzed. The inherent circuit structure of the proposed topology does not lead itself to the reverse recovery issues even when inject reactive power which allow utilizing MOSFET switches to boost the overall efficiency. The CM voltage is kept constant at mid-point of dc input voltage, results low leakage current. Finally, to validate the proposed topology, a 1 kW laboratory prototype is built and tested. The experimental results show that the proposed topology can inject reactive power into the utility grid without any additional current distortion and leakage current. The maximum efficiency and European efficiency of the proposed topology are measured and found to be 98.54% and 98.29%, respectively. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
Efficient Single Phase Transformerless Inverter for Grid-Tied PVG System With Reactive Power Control There has been an increasing interest in transformerless inverter for grid-tied photovoltaic (PV) system due to low cost, high efficiency, light weight, etc. Therefore, many transformerless topologies have been proposed and verified with real power injection only. Recently, almost every international regulation has imposed that a definite amount of reactive power should be handled by the grid-tied PV inverter. According to the standard VDE-AR-N 4105, grid-tied PV inverter of power rating below 3.68KVA, should attain power factor (PF) from 0.95 leading to 0.95 lagging. In this paper, a new high efficiency transformerless topology is proposed for grid-tied PV system with reactive power control. The new topology structure and detail operation principle with reactive power flow is described. The high frequency common-mode (CM) model and the control of the proposed topology are analyzed. The inherent circuit structure of the proposed topology does not lead itself to the reverse recovery issues even when inject reactive power which allow utilizing MOSFET switches to boost the overall efficiency. The CM voltage is kept constant at mid-point of dc input voltage, results low leakage current. Finally, to validate the proposed topology, a 1 kW laboratory prototype is built and tested. The experimental results show that the proposed topology can inject reactive power into the utility grid without any additional current distortion and leakage current. The maximum efficiency and European efficiency of the proposed topology are measured and found to be 98.54% and 98.29%, respectively. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Tue, 20 Sep 2016 10:35:42 GMT /slideshow/efficient-single-phase-transformerless-inverter-for-grid-tied-pvg-system-with-reactive-power-control/66207373 nagesh024@slideshare.net(nagesh024) Efficient single phase transformerless inverter for grid tied pvg system with reactive power control nagesh024 Efficient Single Phase Transformerless Inverter for Grid-Tied PVG System With Reactive Power Control There has been an increasing interest in transformerless inverter for grid-tied photovoltaic (PV) system due to low cost, high efficiency, light weight, etc. Therefore, many transformerless topologies have been proposed and verified with real power injection only. Recently, almost every international regulation has imposed that a definite amount of reactive power should be handled by the grid-tied PV inverter. According to the standard VDE-AR-N 4105, grid-tied PV inverter of power rating below 3.68KVA, should attain power factor (PF) from 0.95 leading to 0.95 lagging. In this paper, a new high efficiency transformerless topology is proposed for grid-tied PV system with reactive power control. The new topology structure and detail operation principle with reactive power flow is described. The high frequency common-mode (CM) model and the control of the proposed topology are analyzed. The inherent circuit structure of the proposed topology does not lead itself to the reverse recovery issues even when inject reactive power which allow utilizing MOSFET switches to boost the overall efficiency. The CM voltage is kept constant at mid-point of dc input voltage, results low leakage current. Finally, to validate the proposed topology, a 1 kW laboratory prototype is built and tested. The experimental results show that the proposed topology can inject reactive power into the utility grid without any additional current distortion and leakage current. The maximum efficiency and European efficiency of the proposed topology are measured and found to be 98.54% and 98.29%, respectively. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/efficientsinglephasetransformerlessinverterforgrid-tiedpvgsystemwithreactivepowercontrol-160920103542-thumbnail.jpg?width=120&height=120&fit=bounds" /> Efficient Single Phase Transformerless Inverter for Grid-Tied PVG System With Reactive Power Control There has been an increasing interest in transformerless inverter for grid-tied photovoltaic (PV) system due to low cost, high efficiency, light weight, etc. Therefore, many transformerless topologies have been proposed and verified with real power injection only. Recently, almost every international regulation has imposed that a definite amount of reactive power should be handled by the grid-tied PV inverter. According to the standard VDE-AR-N 4105, grid-tied PV inverter of power rating below 3.68KVA, should attain power factor (PF) from 0.95 leading to 0.95 lagging. In this paper, a new high efficiency transformerless topology is proposed for grid-tied PV system with reactive power control. The new topology structure and detail operation principle with reactive power flow is described. The high frequency common-mode (CM) model and the control of the proposed topology are analyzed. The inherent circuit structure of the proposed topology does not lead itself to the reverse recovery issues even when inject reactive power which allow utilizing MOSFET switches to boost the overall efficiency. The CM voltage is kept constant at mid-point of dc input voltage, results low leakage current. Finally, to validate the proposed topology, a 1 kW laboratory prototype is built and tested. The experimental results show that the proposed topology can inject reactive power into the utility grid without any additional current distortion and leakage current. The maximum efficiency and European efficiency of the proposed topology are measured and found to be 98.54% and 98.29%, respectively. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

Efficient single phase transformerless inverter for grid tied pvg system with reactive power control from LeMeniz Infotech

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0 Highly reliable transformerless photovoltaic inverters with leakage current and pulsating power elimination /slideshow/highly-reliable-transformerless-photovoltaic-inverters-with-leakage-current-and-pulsating-power-elimination/66206446 highlyreliabletransformerlessphotovoltaicinverterswithleakagecurrentandpulsatingpowerelimination-160920101059
Highly Reliable Transformerless Photovoltaic Inverters With Leakage Current and Pulsating Power Elimination This paper presents a transformerless inverter topology, which is capable of simultaneously solving leakage current and pulsating power issues in grid-connected photovoltaic (PV) systems. Without adding any additional components to the system, the leakage current caused by the PV-to-ground parasitic capacitance can be bypassed by introducing a common-mode (CM) conducting path to the inverter. The resulting ground leakage current is therefore well controlled to be below the regulation limit. Furthermore, the proposed inverter can also eliminate the well-known double-line-frequency pulsating power that is inherent in single-phase PV systems. By properly injecting CM voltages to the output filter capacitors, the pulsating power can be decoupled from the dc-link. Therefore, it is possible to use long-lifetime film capacitors instead of electrolytic capacitors to improve the reliability of the PV system. The mechanism of leakage current suppression and the closed-loop control of pulsating power decoupling are discussed in this paper in detail. A 500-W prototype was also built and tested in the laboratory, and both simulation and experimental results are finally presented to show the excellent performance of the proposed PV inverter. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
Highly Reliable Transformerless Photovoltaic Inverters With Leakage Current and Pulsating Power Elimination This paper presents a transformerless inverter topology, which is capable of simultaneously solving leakage current and pulsating power issues in grid-connected photovoltaic (PV) systems. Without adding any additional components to the system, the leakage current caused by the PV-to-ground parasitic capacitance can be bypassed by introducing a common-mode (CM) conducting path to the inverter. The resulting ground leakage current is therefore well controlled to be below the regulation limit. Furthermore, the proposed inverter can also eliminate the well-known double-line-frequency pulsating power that is inherent in single-phase PV systems. By properly injecting CM voltages to the output filter capacitors, the pulsating power can be decoupled from the dc-link. Therefore, it is possible to use long-lifetime film capacitors instead of electrolytic capacitors to improve the reliability of the PV system. The mechanism of leakage current suppression and the closed-loop control of pulsating power decoupling are discussed in this paper in detail. A 500-W prototype was also built and tested in the laboratory, and both simulation and experimental results are finally presented to show the excellent performance of the proposed PV inverter. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Tue, 20 Sep 2016 10:10:59 GMT /slideshow/highly-reliable-transformerless-photovoltaic-inverters-with-leakage-current-and-pulsating-power-elimination/66206446 nagesh024@slideshare.net(nagesh024) Highly reliable transformerless photovoltaic inverters with leakage current and pulsating power elimination nagesh024 Highly Reliable Transformerless Photovoltaic Inverters With Leakage Current and Pulsating Power Elimination This paper presents a transformerless inverter topology, which is capable of simultaneously solving leakage current and pulsating power issues in grid-connected photovoltaic (PV) systems. Without adding any additional components to the system, the leakage current caused by the PV-to-ground parasitic capacitance can be bypassed by introducing a common-mode (CM) conducting path to the inverter. The resulting ground leakage current is therefore well controlled to be below the regulation limit. Furthermore, the proposed inverter can also eliminate the well-known double-line-frequency pulsating power that is inherent in single-phase PV systems. By properly injecting CM voltages to the output filter capacitors, the pulsating power can be decoupled from the dc-link. Therefore, it is possible to use long-lifetime film capacitors instead of electrolytic capacitors to improve the reliability of the PV system. The mechanism of leakage current suppression and the closed-loop control of pulsating power decoupling are discussed in this paper in detail. A 500-W prototype was also built and tested in the laboratory, and both simulation and experimental results are finally presented to show the excellent performance of the proposed PV inverter. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/highlyreliabletransformerlessphotovoltaicinverterswithleakagecurrentandpulsatingpowerelimination-160920101059-thumbnail.jpg?width=120&height=120&fit=bounds" /> Highly Reliable Transformerless Photovoltaic Inverters With Leakage Current and Pulsating Power Elimination This paper presents a transformerless inverter topology, which is capable of simultaneously solving leakage current and pulsating power issues in grid-connected photovoltaic (PV) systems. Without adding any additional components to the system, the leakage current caused by the PV-to-ground parasitic capacitance can be bypassed by introducing a common-mode (CM) conducting path to the inverter. The resulting ground leakage current is therefore well controlled to be below the regulation limit. Furthermore, the proposed inverter can also eliminate the well-known double-line-frequency pulsating power that is inherent in single-phase PV systems. By properly injecting CM voltages to the output filter capacitors, the pulsating power can be decoupled from the dc-link. Therefore, it is possible to use long-lifetime film capacitors instead of electrolytic capacitors to improve the reliability of the PV system. The mechanism of leakage current suppression and the closed-loop control of pulsating power decoupling are discussed in this paper in detail. A 500-W prototype was also built and tested in the laboratory, and both simulation and experimental results are finally presented to show the excellent performance of the proposed PV inverter. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

Highly reliable transformerless photovoltaic inverters with leakage current and pulsating power elimination from LeMeniz Infotech

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0 Grid current-feedback active damping for lcl resonance in grid-connected voltage-source converters /slideshow/grid-currentfeedback-active-damping-for-lcl-resonance-in-gridconnected-voltagesource-converters/66153700 grid-current-feedbackactivedampingforlclresonanceingrid-connectedvoltage-sourceconverters-160919041831
Grid-Current-Feedback Active Damping for LCL Resonance in Grid-Connected Voltage-Source Converters This paper investigates active damping of LCL-filter resonance in a grid-connected voltage-source converter with only grid-current feedback control. Basic analysis in the s-domain shows that the proposed damping technique with a negative high-pass filter along its damping path is equivalent to adding a virtual impedance across the grid-side inductance. This added impedance is more precisely represented by a series RL branch in parallel with a negative inductance. The negative inductance helps to mitigate phase lag caused by time delays found in a digitally controlled system. The mitigation of phase-lag, in turn, helps to shrink the region of nonminimum-phase behavior caused by negative virtual resistance inserted unintentionally by most digitally implemented active damping techniques. The presented high-pass-filtered active damping technique with a single grid-current feedback loop is thus a more effective technique, whose systematic design in the z-domain has been developed in this paper. For verification, experimental testing has been performed with results obtained matching the theoretical expectations closely. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
Grid-Current-Feedback Active Damping for LCL Resonance in Grid-Connected Voltage-Source Converters This paper investigates active damping of LCL-filter resonance in a grid-connected voltage-source converter with only grid-current feedback control. Basic analysis in the s-domain shows that the proposed damping technique with a negative high-pass filter along its damping path is equivalent to adding a virtual impedance across the grid-side inductance. This added impedance is more precisely represented by a series RL branch in parallel with a negative inductance. The negative inductance helps to mitigate phase lag caused by time delays found in a digitally controlled system. The mitigation of phase-lag, in turn, helps to shrink the region of nonminimum-phase behavior caused by negative virtual resistance inserted unintentionally by most digitally implemented active damping techniques. The presented high-pass-filtered active damping technique with a single grid-current feedback loop is thus a more effective technique, whose systematic design in the z-domain has been developed in this paper. For verification, experimental testing has been performed with results obtained matching the theoretical expectations closely. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Mon, 19 Sep 2016 04:18:31 GMT /slideshow/grid-currentfeedback-active-damping-for-lcl-resonance-in-gridconnected-voltagesource-converters/66153700 nagesh024@slideshare.net(nagesh024) Grid current-feedback active damping for lcl resonance in grid-connected voltage-source converters nagesh024 Grid-Current-Feedback Active Damping for LCL Resonance in Grid-Connected Voltage-Source Converters This paper investigates active damping of LCL-filter resonance in a grid-connected voltage-source converter with only grid-current feedback control. Basic analysis in the s-domain shows that the proposed damping technique with a negative high-pass filter along its damping path is equivalent to adding a virtual impedance across the grid-side inductance. This added impedance is more precisely represented by a series RL branch in parallel with a negative inductance. The negative inductance helps to mitigate phase lag caused by time delays found in a digitally controlled system. The mitigation of phase-lag, in turn, helps to shrink the region of nonminimum-phase behavior caused by negative virtual resistance inserted unintentionally by most digitally implemented active damping techniques. The presented high-pass-filtered active damping technique with a single grid-current feedback loop is thus a more effective technique, whose systematic design in the z-domain has been developed in this paper. For verification, experimental testing has been performed with results obtained matching the theoretical expectations closely. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/grid-current-feedbackactivedampingforlclresonanceingrid-connectedvoltage-sourceconverters-160919041831-thumbnail.jpg?width=120&height=120&fit=bounds" /> Grid-Current-Feedback Active Damping for LCL Resonance in Grid-Connected Voltage-Source Converters This paper investigates active damping of LCL-filter resonance in a grid-connected voltage-source converter with only grid-current feedback control. Basic analysis in the s-domain shows that the proposed damping technique with a negative high-pass filter along its damping path is equivalent to adding a virtual impedance across the grid-side inductance. This added impedance is more precisely represented by a series RL branch in parallel with a negative inductance. The negative inductance helps to mitigate phase lag caused by time delays found in a digitally controlled system. The mitigation of phase-lag, in turn, helps to shrink the region of nonminimum-phase behavior caused by negative virtual resistance inserted unintentionally by most digitally implemented active damping techniques. The presented high-pass-filtered active damping technique with a single grid-current feedback loop is thus a more effective technique, whose systematic design in the z-domain has been developed in this paper. For verification, experimental testing has been performed with results obtained matching the theoretical expectations closely. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

Grid current-feedback active damping for lcl resonance in grid-connected voltage-source converters from LeMeniz Infotech

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0 Delay dependent stability of single-loop controlled grid-connected inverters with lcl filters /slideshow/delay-dependent-stability-of-singleloop-controlled-gridconnected-inverters-with-lcl-filters-66153545/66153545 delay-dependentstabilityofsingle-loopcontrolledgrid-connectedinverterswithlclfilters-160919040913
Delay-Dependent Stability of Single-Loop Controlled Grid-Connected Inverters with LCL Filters LCL filters have been widely used for grid-connected inverters. However, the problem that how time delay affects the stability of digitally controlled grid-connected inverters with LCL filters has not been fully studied. In this paper, a systematic study is carried out on the relationship between the time delay and stability of single-loop controlled grid-connected inverters that employ inverter current feedback (ICF) or grid current feedback (GCF). The ranges of time delay for system stability are analyzed and deduced in the continuous s-domain and discrete z-domain. It is shown that in the optimal range, the existence of time delay weakens the stability of the ICF loop, whereas a proper time delay is required for the GCF loop. The present work explains, for the first time, why different conclusions on the stability of ICF loop and GCF loop have been drawn in previous studies. To improve system stability, a linear predictor-based time delay reduction method is proposed for ICF, while a time delay addition method is used for GCF. A controller design method is then presented that guarantees adequate stability margins. The delay-dependent stability study is verified by simulation and experiment. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
Delay-Dependent Stability of Single-Loop Controlled Grid-Connected Inverters with LCL Filters LCL filters have been widely used for grid-connected inverters. However, the problem that how time delay affects the stability of digitally controlled grid-connected inverters with LCL filters has not been fully studied. In this paper, a systematic study is carried out on the relationship between the time delay and stability of single-loop controlled grid-connected inverters that employ inverter current feedback (ICF) or grid current feedback (GCF). The ranges of time delay for system stability are analyzed and deduced in the continuous s-domain and discrete z-domain. It is shown that in the optimal range, the existence of time delay weakens the stability of the ICF loop, whereas a proper time delay is required for the GCF loop. The present work explains, for the first time, why different conclusions on the stability of ICF loop and GCF loop have been drawn in previous studies. To improve system stability, a linear predictor-based time delay reduction method is proposed for ICF, while a time delay addition method is used for GCF. A controller design method is then presented that guarantees adequate stability margins. The delay-dependent stability study is verified by simulation and experiment. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Mon, 19 Sep 2016 04:09:13 GMT /slideshow/delay-dependent-stability-of-singleloop-controlled-gridconnected-inverters-with-lcl-filters-66153545/66153545 nagesh024@slideshare.net(nagesh024) Delay dependent stability of single-loop controlled grid-connected inverters with lcl filters nagesh024 Delay-Dependent Stability of Single-Loop Controlled Grid-Connected Inverters with LCL Filters LCL filters have been widely used for grid-connected inverters. However, the problem that how time delay affects the stability of digitally controlled grid-connected inverters with LCL filters has not been fully studied. In this paper, a systematic study is carried out on the relationship between the time delay and stability of single-loop controlled grid-connected inverters that employ inverter current feedback (ICF) or grid current feedback (GCF). The ranges of time delay for system stability are analyzed and deduced in the continuous s-domain and discrete z-domain. It is shown that in the optimal range, the existence of time delay weakens the stability of the ICF loop, whereas a proper time delay is required for the GCF loop. The present work explains, for the first time, why different conclusions on the stability of ICF loop and GCF loop have been drawn in previous studies. To improve system stability, a linear predictor-based time delay reduction method is proposed for ICF, while a time delay addition method is used for GCF. A controller design method is then presented that guarantees adequate stability margins. The delay-dependent stability study is verified by simulation and experiment. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/delay-dependentstabilityofsingle-loopcontrolledgrid-connectedinverterswithlclfilters-160919040913-thumbnail.jpg?width=120&height=120&fit=bounds" /> Delay-Dependent Stability of Single-Loop Controlled Grid-Connected Inverters with LCL Filters LCL filters have been widely used for grid-connected inverters. However, the problem that how time delay affects the stability of digitally controlled grid-connected inverters with LCL filters has not been fully studied. In this paper, a systematic study is carried out on the relationship between the time delay and stability of single-loop controlled grid-connected inverters that employ inverter current feedback (ICF) or grid current feedback (GCF). The ranges of time delay for system stability are analyzed and deduced in the continuous s-domain and discrete z-domain. It is shown that in the optimal range, the existence of time delay weakens the stability of the ICF loop, whereas a proper time delay is required for the GCF loop. The present work explains, for the first time, why different conclusions on the stability of ICF loop and GCF loop have been drawn in previous studies. To improve system stability, a linear predictor-based time delay reduction method is proposed for ICF, while a time delay addition method is used for GCF. A controller design method is then presented that guarantees adequate stability margins. The delay-dependent stability study is verified by simulation and experiment. Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

Delay dependent stability of single-loop controlled grid-connected inverters with lcl filters from LeMeniz Infotech

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0 Connection of converters to a low and medium power dc network using an inductor circuit /slideshow/connection-of-converters-to-a-low-and-medium-power-dc-network-using-an-inductor-circuit/66153262 connectionofconverterstoalowandmediumpowerdcnetworkusinganinductorcircuit-160919034642
Connection of Converters to a Low and Medium Power DC Network Using an Inductor Circut This paper describes an alternative to connect power converters to a direct-current network with an inductor circuit. The circuit allows the connection of converters through a coil and avoids short-circuit currents with different instantaneous values of voltage output. A description of the calculation and the choice of components together with a real implemented example in a dc network within Smart City project (Endesa Utility) is presented Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
Connection of Converters to a Low and Medium Power DC Network Using an Inductor Circut This paper describes an alternative to connect power converters to a direct-current network with an inductor circuit. The circuit allows the connection of converters through a coil and avoids short-circuit currents with different instantaneous values of voltage output. A description of the calculation and the choice of components together with a real implemented example in a dc network within Smart City project (Endesa Utility) is presented Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Mon, 19 Sep 2016 03:46:42 GMT /slideshow/connection-of-converters-to-a-low-and-medium-power-dc-network-using-an-inductor-circuit/66153262 nagesh024@slideshare.net(nagesh024) Connection of converters to a low and medium power dc network using an inductor circuit nagesh024 Connection of Converters to a Low and Medium Power DC Network Using an Inductor Circut This paper describes an alternative to connect power converters to a direct-current network with an inductor circuit. The circuit allows the connection of converters through a coil and avoids short-circuit currents with different instantaneous values of voltage output. A description of the calculation and the choice of components together with a real implemented example in a dc network within Smart City project (Endesa Utility) is presented Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/connectionofconverterstoalowandmediumpowerdcnetworkusinganinductorcircuit-160919034642-thumbnail.jpg?width=120&height=120&fit=bounds" /> Connection of Converters to a Low and Medium Power DC Network Using an Inductor Circut This paper describes an alternative to connect power converters to a direct-current network with an inductor circuit. The circuit allows the connection of converters through a coil and avoids short-circuit currents with different instantaneous values of voltage output. A description of the calculation and the choice of components together with a real implemented example in a dc network within Smart City project (Endesa Utility) is presented Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/power-system-ieee-projects-2016-2017/ Web : http://ieeemaster.com/power-system-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

Connection of converters to a low and medium power dc network using an inductor circuit from LeMeniz Infotech

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0 Stamp enabling privacy preserving location proofs for mobile users /slideshow/stamp-enabling-privacy-preserving-location-proofs-for-mobile-users/65767720 stampenablingprivacy-preservinglocationproofsformobileusers-160907071324
STAMP Enabling Privacy Preserving Location Proofs for Mobile Users Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
STAMP Enabling Privacy Preserving Location Proofs for Mobile Users Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Wed, 07 Sep 2016 07:13:24 GMT /slideshow/stamp-enabling-privacy-preserving-location-proofs-for-mobile-users/65767720 nagesh024@slideshare.net(nagesh024) Stamp enabling privacy preserving location proofs for mobile users nagesh024 STAMP Enabling Privacy Preserving Location Proofs for Mobile Users Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/stampenablingprivacy-preservinglocationproofsformobileusers-160907071324-thumbnail.jpg?width=120&height=120&fit=bounds" /> STAMP Enabling Privacy Preserving Location Proofs for Mobile Users Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

Stamp enabling privacy preserving location proofs for mobile users from LeMeniz Infotech

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0 Sbvlc secure barcode based visible light communication for smartphones /slideshow/sbvlc-secure-barcode-based-visible-light-communication-for-smartphones-65767220/65767220 sbvlcsecurebarcode-basedvisiblelightcommunicationforsmartphones-160907065938
SBVLCSecure Barcode based Visible Light Communication for Smartphones Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
SBVLCSecure Barcode based Visible Light Communication for Smartphones Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Wed, 07 Sep 2016 06:59:38 GMT /slideshow/sbvlc-secure-barcode-based-visible-light-communication-for-smartphones-65767220/65767220 nagesh024@slideshare.net(nagesh024) Sbvlc secure barcode based visible light communication for smartphones nagesh024 SBVLCSecure Barcode based Visible Light Communication for Smartphones Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/sbvlcsecurebarcode-basedvisiblelightcommunicationforsmartphones-160907065938-thumbnail.jpg?width=120&height=120&fit=bounds" /> SBVLCSecure Barcode based Visible Light Communication for Smartphones Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

Sbvlc secure barcode based visible light communication for smartphones from LeMeniz Infotech

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0 Read2 me a cloud based reading aid for the visually impaired /slideshow/read2-me-a-cloud-based-reading-aid-for-the-visually-impaired/65766986 read2meacloudbasedreadingaidforthevisuallyimpaired-160907065245
Read2Me A Cloud based Reading Aid for the Visually Impaired Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
Read2Me A Cloud based Reading Aid for the Visually Impaired Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Wed, 07 Sep 2016 06:52:45 GMT /slideshow/read2-me-a-cloud-based-reading-aid-for-the-visually-impaired/65766986 nagesh024@slideshare.net(nagesh024) Read2 me a cloud based reading aid for the visually impaired nagesh024 Read2Me A Cloud based Reading Aid for the Visually Impaired Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/read2meacloudbasedreadingaidforthevisuallyimpaired-160907065245-thumbnail.jpg?width=120&height=120&fit=bounds" /> Read2Me A Cloud based Reading Aid for the Visually Impaired Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

Read2 me a cloud based reading aid for the visually impaired from LeMeniz Infotech

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0 Privacy preserving location sharing services for social networks /slideshow/privacy-preserving-location-sharing-services-for-social-networks/65736390 privacy-preservinglocationsharingservicesforsocialnetworks-160906123002
Privacy Preserving Location Sharing Services for Social Networks Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
Privacy Preserving Location Sharing Services for Social Networks Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Tue, 06 Sep 2016 12:30:02 GMT /slideshow/privacy-preserving-location-sharing-services-for-social-networks/65736390 nagesh024@slideshare.net(nagesh024) Privacy preserving location sharing services for social networks nagesh024 Privacy Preserving Location Sharing Services for Social Networks Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/privacy-preservinglocationsharingservicesforsocialnetworks-160906123002-thumbnail.jpg?width=120&height=120&fit=bounds" /> Privacy Preserving Location Sharing Services for Social Networks Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

Privacy preserving location sharing services for social networks from LeMeniz Infotech

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0 Pass byo bring your own picture for securing graphical passwords /slideshow/pass-byo-bring-your-own-picture-for-securing-graphical-passwords/65736193 passbyobringyourownpictureforsecuringgraphicalpasswords-160906122438
PassBYO Bring Your Own Picture for Securing Graphical Passwords Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
PassBYO Bring Your Own Picture for Securing Graphical Passwords Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Tue, 06 Sep 2016 12:24:38 GMT /slideshow/pass-byo-bring-your-own-picture-for-securing-graphical-passwords/65736193 nagesh024@slideshare.net(nagesh024) Pass byo bring your own picture for securing graphical passwords nagesh024 PassBYO Bring Your Own Picture for Securing Graphical Passwords Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/passbyobringyourownpictureforsecuringgraphicalpasswords-160906122438-thumbnail.jpg?width=120&height=120&fit=bounds" /> PassBYO Bring Your Own Picture for Securing Graphical Passwords Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

Pass byo bring your own picture for securing graphical passwords from LeMeniz Infotech

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0 Eplq efficient privacy preserving location-based query over outsourced encrypted data /slideshow/eplq-efficient-privacy-preserving-locationbased-query-over-outsourced-encrypted-data-65734746/65734746 eplqefficientprivacy-preservinglocation-basedqueryoveroutsourcedencrypteddata-160906114401
Eplq efficient privacy preserving location-based query over outsourced encrypted data Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
Eplq efficient privacy preserving location-based query over outsourced encrypted data Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Tue, 06 Sep 2016 11:44:01 GMT /slideshow/eplq-efficient-privacy-preserving-locationbased-query-over-outsourced-encrypted-data-65734746/65734746 nagesh024@slideshare.net(nagesh024) Eplq efficient privacy preserving location-based query over outsourced encrypted data nagesh024 Eplq efficient privacy preserving location-based query over outsourced encrypted data Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/eplqefficientprivacy-preservinglocation-basedqueryoveroutsourcedencrypteddata-160906114401-thumbnail.jpg?width=120&height=120&fit=bounds" /> Eplq efficient privacy preserving location-based query over outsourced encrypted data Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

Eplq efficient privacy preserving location-based query over outsourced encrypted data from LeMeniz Infotech

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0 Analyzing ad library updates in android apps /slideshow/analyzing-ad-library-updates-in-android-apps/65727354 analyzingadlibraryupdatesinandroidapps-160906080925
Analyzing Ad Library Updates in Android Apps Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
Analyzing Ad Library Updates in Android Apps Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Tue, 06 Sep 2016 08:09:25 GMT /slideshow/analyzing-ad-library-updates-in-android-apps/65727354 nagesh024@slideshare.net(nagesh024) Analyzing ad library updates in android apps nagesh024 Analyzing Ad Library Updates in Android Apps Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/analyzingadlibraryupdatesinandroidapps-160906080925-thumbnail.jpg?width=120&height=120&fit=bounds" /> Analyzing Ad Library Updates in Android Apps Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

Analyzing ad library updates in android apps from LeMeniz Infotech

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0 An exploration of geographic authentication scheme /slideshow/an-exploration-of-geographic-authentication-scheme/65656570 anexplorationofgeographicauthenticationscheme-160903122127
An Exploration of Geographic Authentication Scheme Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]>
An Exploration of Geographic Authentication Scheme Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976]]> Sat, 03 Sep 2016 12:21:27 GMT /slideshow/an-exploration-of-geographic-authentication-scheme/65656570 nagesh024@slideshare.net(nagesh024) An exploration of geographic authentication scheme nagesh024 An Exploration of Geographic Authentication Scheme Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/anexplorationofgeographicauthenticationscheme-160903122127-thumbnail.jpg?width=120&height=120&fit=bounds" /> An Exploration of Geographic Authentication Scheme Web : http://www.lemenizinfotech.com Web : http://ieeemaster.com Web : http://www.lemenizinfotech.com/android-ieee-projects-2016-2017-2/ Web : http://ieeemaster.com/android-ieee-projects-2016-2017/ Address: 36, 100 Feet Road(Near Indira Gandhi Statue), Natesan Nagar, Pondicherry-605 005 Contact numbers: +91 95663 55386, 99625 88976 (0413) 420 5444 Mail : projects@lemenizinfotech.com Mobile : 9566355386 / 9962588976

An exploration of geographic authentication scheme from LeMeniz Infotech

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