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47 results on '"Deng Jinyi"'

1. PALM: A Efficient Performance Simulator for Tiled Accelerators with Large-scale Model Training

Author

Fang, Jiahao, Wang, Huizheng, Yang, Qize, Kong, Dehao, Dai, Xu, Deng, Jinyi, Hu, Yang, and Yin, Shouyi

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Deep learning (DL) models are piquing high interest and scaling at an unprecedented rate. To this end, a handful of tiled accelerators have been proposed to support such large-scale training tasks. However, these accelerators often incorporate numerous cores or tiles even extending to wafer-scale, substantial on-chip bandwidth, and distributed memory systems. This results in an exceedingly complex design space. Moreover, conducting actual training experiments to find optimal configurations is impractical due to time constraints. Hence, predicting the optimal mapping of various parallelisms to such tiled system architectures becomes crucial. In this study, leveraging an analysis of existing mainstream DL model training strategies, we introduce a performance simulator named PALM. PALM targets both the training and inference processes for tiled accelerators, aiming to inspire the design of current and future accelerators. Specifically, (i) we establish a scheduling mechanism among tiled accelerators based on an event-driven framework; (ii) we support user-configurable pipeline, tensor, and data parallelism on tiled accelerators, determining the absolute performance throughput under these parallelism strategies; (iii) we model the interaction of on-chip SRAM, NoC, and off-chip DRAM during operator execution. This work is available here: https://github.com/fangjh21/PALM., Comment: 11 pages

Published
2024

2. Efficient Orchestrated AI Workflows Execution on Scale-out Spatial Architecture

Author

Deng, Jinyi, Tang, Xinru, Yue, Zhiheng, Lu, Guangyang, Yang, Qize, Zhang, Jiahao, Li, Jinxi, Li, Chao, Wei, Shaojun, Hu, Yang, and Yin, Shouyi

Subjects
Computer Science - Artificial Intelligence, Computer Science - Hardware Architecture
Abstract

Given the increasing complexity of AI applications, traditional spatial architectures frequently fall short. Our analysis identifies a pattern of interconnected, multi-faceted tasks encompassing both AI and general computational processes. In response, we have conceptualized "Orchestrated AI Workflows," an approach that integrates various tasks with logic-driven decisions into dynamic, sophisticated workflows. Specifically, we find that the intrinsic Dual Dynamicity of Orchestrated AI Workflows, namely dynamic execution times and frequencies of Task Blocks, can be effectively represented using the Orchestrated Workflow Graph. Furthermore, the intrinsic Dual Dynamicity poses challenges to existing spatial architecture, namely Indiscriminate Resource Allocation, Reactive Load Rebalancing, and Contagious PEA Idleness. To overcome these challenges, we present Octopus, a scale-out spatial architecture and a suite of advanced scheduling strategies optimized for executing Orchestrated AI Workflows, such as the Discriminate Dual-Scheduling Mechanism, Adaptive TBU Scheduling Strategy, and Proactive Cluster Scheduling Strategy. Our evaluations demonstrate that Octopus significantly outperforms traditional architectures in handling the dynamic demands of Orchestrated AI Workflows, and possesses robust scalability in large scale hardware such as wafer-scale chip.

Published
2024

4. A kind of DC fault current-limiter with instantaneous by-pass of current-limiting reactor

Author

Deng Jinyi, Li Chen, and Gao Junfeng

Subjects
Environmental sciences, GE1-350
Abstract

With the rapid development of DC power grids, the protection of DC power grids is particularly important. Therefore, this paper proposes a kind of DC fault current-limiter with instantaneous by-pass of current-limiting reactance, analyses its working principle and theoretical calculations, and verifies the correctness of its principle through simulation experiments. At the same time, the experimental results show that the current-limiter proposed in this paper can not only instantaneously and greatly limit the fault current when a short-circuit fault occurs in the power grid, but not affect the normal operation of the power grid. A new device is provided for DC gird fault current-limiting protection.

Published
2021
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5. Towards Efficient Control Flow Handling in Spatial Architecture via Architecting the Control Flow Plane

Author

Deng, Jinyi, Tang, Xinru, Zhang, Jiahao, Li, Yuxuan, Zhang, Linyun, Han, Boxiao, He, Hongjun, Tu, Fengbin, Liu, Leibo, Wei, Shaojun, Hu, Yang, and Yin, Shouyi

Subjects
Computer Science - Hardware Architecture, C.1.3, F.1.2
Abstract

Spatial architecture is a high-performance architecture that uses control flow graphs and data flow graphs as the computational model and producer/consumer models as the execution models. However, existing spatial architectures suffer from control flow handling challenges. Upon categorizing their PE execution models, we find that they lack autonomous, peer-to-peer, and temporally loosely-coupled control flow handling capability. This leads to limited performance in intensive control programs. A spatial architecture, Marionette, is proposed, with an explicit-designed control flow plane. The Control Flow Plane enables autonomous, peer-to-peer and temporally loosely-coupled control flow handling. The Proactive PE Configuration ensures timely and computation-overlapped configuration to improve handling Branch Divergence. The Agile PE Assignment enhance the pipeline performance of Imperfect Loops. We develop full stack of Marionette (ISA, compiler, simulator, RTL) and demonstrate that in a variety of challenging intensive control programs, compared to state-of-the-art spatial architectures, Marionette outperforms Softbrain, TIA, REVEL, and RipTide by geomean 2.88x, 3.38x, 1.55x, and 2.66x.

Published
2023
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9. Rethinking Control Flow in Spatial Architectures: Insights Into Control Flow Plane Design

Author

Deng, Jinyi, Tang, Xinru, Zhang, Jiahao, Li, Yuxuan, Zhang, Linyun, Tu, Fengbin, Wei, Shaojun, Hu, Yang, and Yin, Shouyi

Abstract

Spatial architecture is a high-performance paradigm that employs control flow graphs and data flow graphs as computation model, and producer/consumer models as execution model. However, existing spatial architectures struggle with control flow handling challenges. Upon thoroughly characterizing their PE execution models, we observe that they lack autonomous, peer-to-peer, and temporally loosely-coupled control flow handling capability. This degrades its performance in intensive control programs. To tackle the existing control flow handling challenges, Marionette, a spatial architecture with an explicit-designed control flow plane, is proposed. We elaborately develop a full stack of Marionette architecture, from ISA, compiler, simulator to RTL. Marionette's flexible Control Flow Plane enables autonomous, peer-to-peer, and temporally loosely-coupled control flow management. Its Proactive PE Configuration ensures computation-overlapped and timely configuration to promote Branch Divergence handling capability. Besides, Marionette's Agile PE Assignment improves pipeline performance of imperfect loops. Compared to state-of-the-art spatial architectures, the experimental results demonstrate that Marionette outperforms Softbrain, TIA, REVEL, and RipTide by geomean 2.88$\mathbf{\times}$×, 3.38$\mathbf{\times}$×, 1.55$\mathbf{\times}$×, and 2.66$\mathbf{\times}$× in a variety of challenging intensive control programs.

Published
2025
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13. Analysis and Design of Zero-Voltage-Switching Multiphase AC/DC Converters

Author

Min Chen, Dehong Xu, Keyan Shi, and Deng Jinyi

Subjects
Switching cycle, Multi phase, Computer science, Photovoltaic system, Electronic engineering, Energy Engineering and Power Technology, Inverter, Enhanced Data Rates for GSM Evolution, Electrical and Electronic Engineering, Converters, Zero voltage switching, Pulse-width modulation
Abstract

In this paper, the generic analysis and design of Zero-Voltage-Switching (ZVS) multi-phase AC/DC converters are proposed. With the Edge Aligned PWM (EA-PWM) scheme, all switches of ZVS multi-phase AC/DC converters can realize ZVS operation. Besides, the switching frequency is fixed and the auxiliary switch only operates once in each switching period. Its operation stages in a switching cycle are analyzed and a generic ZVS condition is derived. Based on the proposed theory, a ZVS two-stage three-phase photovoltaic (PV) inverter is investigated, which is regarded as a 5-phase converter. Its ZVS condition under different working conditions is discussed. Finally, a 10kW prototype with 150kHz switching frequency of the ZVS two-stage three-phase PV inverter is built and the experiment results are given to verify the analysis. In addition, the extension of the ZVS multi-phase converter in different applications is introduced.

Published
2022
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21. A General Pulse Width Modulation Method for Zero-Voltage-Switching Active-clamping Three-phase Power Converters: Edge Aligned Pulse Width Modulation (EA-PWM)

Author

Deng Jinyi, Keyan Shi, and Dehong Xu

Subjects
Physics, edge-aligned PWM, Zero-Voltage-Switching, active-clamping, Converters, Topology, ZVS condition, Three-phase, Modulation, Harmonic, RLC circuit, Commutation, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:TK1-9971, Pulse-width modulation, Voltage
Abstract

A general PWM method for soft-switching three-phase power converters—Edge Aligned PWM (EA-PWM) is proposed. It aligns all the high loss commutation instants of the converter bridges in a switching cycle at the same instant so that all the switches of the three-phase converter can realize zero-voltage-switching (ZVS) with the help of the resonant auxiliary circuit which operates once each switching cycle. EA-PWM scheme for ZVS active-clamping three-phase converter is introduced. ZVS condition and voltage stress of the converters is derived. EA-PWM can adapt to various modulation methods such as SPWM, Harmonic Injected SPWM, Continuous Pulse Width Modulation (CPWM), Discontinuous Pulse Width Modulation (DPWM), etc. The ZVS condition of three-phase Compound Active Clamping (CAC) converter are discussed. Finally, EA-PWM scheme is verified in Back-to-Back (BTB) converter prototype.

Published
2020

25. Zero-Voltage-Switching SiC-MOSFET Three-Phase Four-Wire Back-to-Back Converter

Author

Keyan Shi, Zhao An, Dehong Xu, and Deng Jinyi

Subjects
Computer science, business.industry, 020209 energy, 020208 electrical & electronic engineering, Electrical engineering, Energy Engineering and Power Technology, Topology (electrical circuits), 02 engineering and technology, Zero voltage switching, Rectifier, Three-phase, Modulation, MOSFET, 0202 electrical engineering, electronic engineering, information engineering, Inverter, Electrical and Electronic Engineering, business, Pulse-width modulation
Abstract

This paper proposes a novel zero-voltage-switching (ZVS) three-phase four-wire back-to-back (BTB) converter topology and its ZVS sinusoidal pulsewidth modulation (ZVS-SPWM) scheme. With the proposed ZVS-SPWM scheme, all the main switches in both the rectifier side and inverter side and the auxiliary switch can realize ZVS turn on with only one auxiliary circuit. In addition, the auxiliary switch only needs to operate once in each switching period, which can cut down an extra loss of the auxiliary circuit. The operation stage analysis is introduced, and the ZVS condition for the switches is derived. The ZVS BTB converter is investigated with respect to both balanced and unbalanced load conditions. In additon, the soft-switching parameter design guideline is discussed. Finally, the proposed ZVS BTB converter and its ZVS-SPWM scheme are verified on a 9-kW prototype with the SiC-MOSFET device.

Published
2019
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26. Soft-switching SiC power electronic conversion for distributed energy resources and storage applications

Author

Dehong Xu, Zhao An, Deng Jinyi, and Keyan Shi

Subjects
TK1001-1841, Computer science, 020209 energy, Energy Engineering and Power Technology, Distributed energy resources, TJ807-830, 02 engineering and technology, Energy storage, Renewable energy sources, law.invention, Electric power system, Reliability (semiconductor), Flexible AC transmission system, Production of electric energy or power. Powerplants. Central stations, law, Flexible AC transmission systems (FACTS), 0202 electrical engineering, electronic engineering, information engineering, SiC MOSFET, Wind power, Renewable Energy, Sustainability and the Environment, business.industry, 020208 electrical & electronic engineering, Photovoltaic system, Transistor, Electrical engineering, Power electronic conversion, Distributed generation, business, Soft-switching
Abstract

Power electronic conversion plays an important role in flexible AC or DC transmission and distribution systems, integration of renewable energy resources, and energy storage systems to enhance efficiency, controllability, stability, and reliability of the grid. The efficiency and reliability of power electronic conversion are critical to power system applications. One way to enhance the efficiency and reliability of power electronic conversion is soft-switching technology. This paper introduces a generic zero-voltage-switching (ZVS) technique based on silicon carbide (SiC) power device. Using the proposed ZVS technique, all semiconductor switching devices in a power converter can realize ZVS operations. Next, the applications of the ZVS technique in different power electronic conversion systems such as photovoltaic inverters, wind power systems, energy storage systems and flexible AC transmission system devices are discussed. Finally, as an example, the operation performance and efficiency improvement of a SiC metal-oxide-semiconductor field-effect transistor (MOSFET) ZVS back-to-back converter are discussed.

Published
2019

27. Zero-voltage-switching Three-phase T-type Inverter

Author

Deng Jinyi, Dehong Xu, Min Chen, and Keyan Shi

Subjects
Physics, Stress (mechanics), Three-phase, Control theory, Control system, Inverter, Zero voltage switching, Voltage
Abstract

A novel zero-voltage-switching (ZVS) three-phase T-type inverter and its control scheme are proposed, which can realize ZVS operation of all switches. The operation principle of the proposed ZVS T-type inverter is analyzed. Furthermore, the ZVS condition is derived and the voltage stress is analyzed. Finally, the proposed ZVS three-phase T-type inverter is verified by the simulation.

Published
2021
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29. Evolver: A Deep Learning Processor with On-Device Quantization-Voltage-Frequency Tuning

Author

Tu, Fengbin, Wu, Weiwei, Wang, Yang, Chen, Hongjiang, Xiong, Feng, Shi, Man, Li, Ning, Deng, Jinyi, Chen, Tianbao, Liu, Leibo, Wei, Shaojun, Xie, Yuan, Yin, Shouyi, Tu, Fengbin, Wu, Weiwei, Wang, Yang, Chen, Hongjiang, Xiong, Feng, Shi, Man, Li, Ning, Deng, Jinyi, Chen, Tianbao, Liu, Leibo, Wei, Shaojun, Xie, Yuan, and Yin, Shouyi

Abstract

When deploying deep neural networks (DNNs) onto deep learning processors, we usually exploit mixed-precision quantization and voltage-frequency scaling to make tradeoffs among accuracy, latency, and energy. Conventional methods usually determine the quantization-voltage-frequency (QVF) policy before DNNs are deployed onto local devices. However, they are difficult to make optimal customizations for local user scenarios. In this article, we solve the problem by enabling on-device QVF tuning with a new deep learning processor architecture Evolver. Evolver has a QVF tuning mode to deploy DNNs with local customizations before normal execution. In this mode, Evolver uses reinforcement learning to search the optimal QVF policy based on direct hardware feedbacks from the chip itself. After that, Evolver runs the newly quantized DNN inference under the searched voltage and frequency. To improve the performance and energy efficiency of both training and inference, we introduce bidirectional speculation and runtime reconfiguration techniques into the architecture. To the best of our knowledge, Evolver is the first deep learning processor that utilizes on-device QVF tuning to achieve both customized and optimal DNN deployment. © 1966-2012 IEEE.

Published
2021

30. Edge Aligned PWM for Soft-switching Three-phase Power Converters

Author

Dehong Xu, Keyan Shi, and Deng Jinyi

Subjects
Physics, Three-phase, 020208 electrical & electronic engineering, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Harmonic, RLC circuit, 02 engineering and technology, Commutation, Converters, AC power, Inductor, Pulse-width modulation
Abstract

Fundamental of Edge Aligned PWM (EA-PWM) for soft-switching three-phase power converters is presented. It aligns all the high loss commutation instants of the converter bridges in a switching cycle at the same instant so that all the switches of the three-phase converter can realize zero-voltage-switching (ZVS) with the help of the resonant auxiliary circuit which operates once each switching cycle. EA-PWM scheme for ZVS active-clamping three-phase converter is introduced. ZVS condition and voltage stress of the converters is derived. EA-PWM can adapt to various modulation methods such as SPWM, Harmonic Injected SPWM, Continuous Pulse Width Modulation (CPWM), Discontinuous Pulse Width Modulation (DPWM), etc. The ZVS condition of three-phase CAC converter are discussed.

Published
2020
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31. Dynamic Detection of Grooved Rail Irregularity Based on Inertial Reference Method

Author

Dong-Xiu Feng, Jian-Jian Xia, Deng Jinyi, Kai-Feng Guo, Xie Yongjun, Yu Bai, Rong Zeng, Hao Feng, and Zhan Hongyuan

Subjects
Inertial frame of reference, Basis (linear algebra), Computer science, Acoustics, Frequency domain, Line (geometry), Improved algorithm, Integration algorithm, Track (rail transport), Stability (probability)
Abstract

In recent years, modern tramcar has developed rapidly. The grooved rail is used widely in its main line track. However, at present, the main detection method of its geometric parameters of grooved rail is manual detection, with low working efficiency. Therefore, this paper proposes a set of dynamic detection system of grooved rail irregularity based on inertial reference method, which can realize the detection of grooved rail irregularity such as longitudinal irregularity, alignment irregularity, etc. On the basis of previous work, improvement & application of measuring longitudinal irregularity and alignment irregularity has been proposed. The key points of this improved algorithm are to put forward synthesized filtering algorithm based upon grooved rail's geometric features, which enhances the stability of the detect system; and use the frequency domain integration algorithm, which improves the accuracy of the detect system. Experiment verification shows that the dynamic detection system has the characteristics of high detection accuracy and splendid stability, which provides a new tool for dynamic detection of geometric parameters of grooved rail of modern tramcars.

Published
2020
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32. Research on Track Irregularity Full Speed Segment Detection Based on Adaptive Fuzzy Neural Network

Author

Liu Yutong, Zhichao He, Yongiun Xie, Zhan Hongyuan, Fang Liu, Deng Jinyi, Yu Bai, and Hao Feng

Subjects
Measurement method, Inertial frame of reference, Artificial neural network, Computer science, Rail transportation, Real-time computing, Speed factor, Chord (peer-to-peer), Fuzzy logic
Abstract

In recent years, the construction of China’s rail transportation has grown rapidly. Whether it is an I-shaped track or a grooved-shaped track, the detection of track irregularities is mostly based on the inertial reference method or the string measurement method, but both methods are limited by the speed factor to varying degrees. This paper studies a comprehensive detection method based on fuzzy neural network that combines the inertial reference method with the four-point chord method. It can realize high-precision detection of speed fuzzy speed section (transition speed section), so as to achieve detection of full speed section, and overcome system errors caused by algorithm factors.

Published
2020
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33. Analysis and Prediction of Time Series Geometric Parameters of Groove Rail Based on Big Data Technology

Author

He Zhichao, Xie Yongjun, Fang Liu, Hao Feng, Liu Yutong, Yu Bai, and Deng Jinyi

Subjects
Artificial neural network, Computer science, business.industry, Limit (music), Rail inspection, Big data, Track (rail transport), business, Groove (engineering), Preventive maintenance, Automotive engineering, Track gauge
Abstract

In recent years, modern trams have developed rapidly and groove rails are mainly used for tramway tracks. Whether their geometric parameters exceed the limit is related to the safety of train operation. In addition, the health of the grooved rail also affects the service life of the rail equipment. Therefore, track maintenance activities play an important role in maintaining the health of track equipment, extending its service life, and operating safety of railways. With the previous research, we have developed a rail inspection trolley based on the inertial reference method, and it can achieve high-precision detection of geometric parameters of groove rails. On this basis, this paper proposes a set of prediction algorithms based on RBF radial basis neural network. It can accurately predict the change trend of geometric parameters such as track gauge, abrasion, track longitudinal level irregularity and track direction, so as to further analyze the detection data and explore its inherent value, providing a more scientific basis for the preventive track maintenance.

Published
2020
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34. Research on Detection Algorithm for Groove Track Wear of Modern Tram

Author

Fang Liu, Deng Jinyi, Yu Bai, Hao Feng, Xie Yongjun, Jian-Jian Xia, and Liu Yutong

Subjects
Vibration, Set (abstract data type), Matching (graph theory), Computer science, Filter (signal processing), Interference (wave propagation), Error detection and correction, Track (rail transport), Groove (engineering), Algorithm
Abstract

In recent years, modern trams have developed rapidly and groove rails are mainly used for tramway tracks. However, there is less research on the wear detection of groove rails, and even fewer wear detection applications. With the help of the laser triangulation method, this paper developed a set of wear detection of modern tramway groove rails. Among them, a set of data filtering algorithms with self-adaptive function and combined with the geometric characteristics of the groove track are proposed to eliminate data interference points and smooth the data. At the same time, an error correction algorithm is used to correct the detection error angle caused by snake driving, vibration and sensor installation deviation. In addition, this paper also proposes a set of groove rails profile matching algorithms and wear calculation algorithms to achieve accurate measurement of the vertical wear, side wear and total wear of the grooved rail. Experimental verification shows that the wear detection algorithm has strong anti-interference ability and comprehensive data error correction ability.

Published
2020
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35. Research on Dynamic Detection of Geometric Parameters of Groove Rail Based on Laser Triangulation and Four-Point Chord Measurement

Author

Deng Jinyi, Xie Yongjun, Yu Bai, Zhichao He, Hao Feng, Liu Yutong, Fang Liu, and Hongru Fan

Subjects
Vibration, Measurement method, Data processing, Chord (geometry), Inertial frame of reference, Laser triangulation, Data collection, Computer science, Data redundancy, Algorithm
Abstract

At present, with the rapid development of trams, most of the tracks adopt groove rails. However, most of the methods for dynamic detection of geometric parameters of groove rails in the market adopt inertial reference method or three-point chord measurement method, whose requirement for the installation of sensors is high, selection of points is not reasonable enough and parameter accuracy is not high enough. In the thesis, a new dynamic detection algorithm for geometric parameters of groove rails based on the four-point chord measurement method and laser triangulation principle is developed which uses the laser triangulation principle to obtain the track contour data, so as to realize real-time data collection, improve data redundancy and solve the difficulties caused by sensor installation. In order to eliminate the errors caused by serpentine motion and vibration of the vehicle body, data processing is carried out by means of adaptive limiting filtering and segmented mean filtering. In order to improve the data accuracy of geometric parameters, the track longitudinal irregularity and alignment irregularity are obtained by four-point chord measurement. Experimental verification shows that this method solves the problem of difficult installation and distribution of the sensor in four-point chord measurement, improves the accuracy and stability of the system measurement and provides new ideas and methods for the detection of groove rail irregularity parameters.

Published
2020
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41. Integration of Minimum-Voltage Active-Clamping to Three-Phase Four-Wire Rectifiers with a Balancing Leg

Author

Keyan Shi, Changsheng Hu, Dehong Xu, Deng Jinyi, Zhao An, and Huang Yangtao

Subjects
business.industry, Computer science, 05 social sciences, Electrical engineering, 020207 software engineering, 02 engineering and technology, Integrated circuit, Converters, Inductor, law.invention, Power (physics), Rectifier, Three-phase, law, 0202 electrical engineering, electronic engineering, information engineering, 0501 psychology and cognitive sciences, business, 050107 human factors, Pulse-width modulation, Voltage
Abstract

Three-phase four-wire rectifiers with a balancing leg are often used as front-end converters in uninterruptible power supplies (UPS). The integration of minimum-voltage active-clamping (MVAC) to these rectifiers is proposed. With the proposed Zero-Voltage-Switching Sinusoidal PWM (ZVS-SPWM) scheme, ZVS operation for all power semiconductor devices of the rectifier are realized. The ZVS conditions under balanced and unbalanced load are derived. Then voltage and current stress of switching devices and auxiliary circuit are compared with the compound-active-clamping (CAC) three-phase four-wire rectifier. Finally, the proposed circuit and its control scheme are verified with a 10kW experiment prototype.

Published
2019
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42. Universal Zero-Voltage-Switching Technique for Multi-phase AC/DC Converter

Author

Deng Jinyi, Zhao An, Keyan Shi, and Dehong Xu

Subjects
Multi phase, business.industry, Computer science, 020209 energy, 020208 electrical & electronic engineering, Electrical engineering, 02 engineering and technology, Inductor, Zero voltage switching, Dc converter, law.invention, Auxiliary circuit, Capacitor, law, 0202 electrical engineering, electronic engineering, information engineering, business, Electronic circuit
Abstract

Universal zero-voltage-switching (ZVS) technique for multi-phase AC/DC converter is proposed. With the proposed technique, all switches of the multi-phase AC/DC converter can realize ZVS operation by using one auxiliary circuit. A ZVS-SPWM scheme for the multi-phase converter is introduced. The operation principle and the stage analysis are presented. Generic ZVS condition is derived according to the equivalent resonant circuits. Next, the design guideline of the resonant parameters is presented. Finally, a ZVS four-phase AC/DC converter called ZVS single-phase back-to-back (BTB) converter is investigated as an example and the prototype is set up to validate the proposed universal ZVS technique for the multi-phase converter.

Published
2019
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44. Audio Noise-free UPS with Zero-Voltage-Switching Back-to-Back Converter

Author

Zhao An, Dehong Xu, Keyan Shi, and Deng Jinyi

Subjects
Busbar, business.industry, Computer science, 020208 electrical & electronic engineering, Electrical engineering, 02 engineering and technology, Zero voltage switching, Noise (electronics), Auxiliary circuit, Rectifier, 0202 electrical engineering, electronic engineering, information engineering, Inverter, business, Uninterruptible power supply, Pulse-width modulation
Abstract

An audio noise-free Uninterruptible Power Supply (UPS) with Zero-Voltage-Switching (ZVS) back-to- back (BTB) converter is proposed. Firstly its ZVS sinusoidal pulse width modulation (SPWM) scheme is introduced. Using the proposed ZVS-SPWM scheme, all the switches in both the rectifier side and inverter side as well as the auxiliary switch can realize ZVS turn-on with only one commonly shared auxiliary circuit. Besides, the auxiliary switch only needs to operate once in each switching period, which can reduce the extra loss caused by the auxiliary circuit. The ZVS conditions with respect to both balanced and unbalanced load situations are given. A resonant parameter design guideline and a low stray inductance bus bar design is introduced. Finally the proposed UPS system with ZVS BTB converter is verified on a 50kVA experimental prototype.

Published
2018
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