Your search keyword '"Luo, Quanming"' showing total 8 results

1. A Suppression Method for Gate-Source Voltage Oscillation With Clamping Function for GaN Devices.

Author

Chen, Jian, Xu, Jianping, Song, Wensheng, Luo, Quanming, and Mantooth, H. Alan

Abstract

Gallium nitride (GaN) devices are generally more prone to severe switching oscillations than Si mosfets due to their fast switching speeds. Different from Si and SiC mosfets, GaN devices typically have a lower maximum gate voltage rating. Taking the Efficient Power Conversion Corporation series as an example, the gate drive voltage is usually 5 V, but the maximum voltage rating is 6 V. Therefore, GaN devices are more susceptible to damage from gate-source voltage oscillation. In this letter, a gate drive circuit with a clamping function is proposed to suppress gate-source voltage oscillation. The adopted method can not only clamp the gate voltage of the GaN device near the drive voltage to protect the device, but also does not affect the switching speed of the device. The proposed method mainly uses some passive components that make the circuit design simpler compared with other active gate driver methods. Finally, the effectiveness of the proposed method is verified by experiments. [ABSTRACT FROM AUTHOR]

Published

2023

2. A Complete Step-by-Step Optimal Design for LLC Resonant Converter.

Author

Wei, Yuqi, Luo, Quanming, Wang, Zhiqing, and Mantooth, Homer Alan

Subjects

*ZERO voltage switching, *ROOT-mean-squares, *TIME-domain analysis, *GRAPHICAL user interfaces

Abstract

LLC resonant converters have been widely used in many different industrial applications. Analysis and design methodologies have great effect on the converter performance. Accordingly, a complete step-by-step optimal design methodology based on time-domain analysis has been proposed for an LLC resonant converter in this article. The proposed design methodology is implemented under the worst operation condition, and the following considerations are included to obtain the suitable design area: operation mode; voltage stress for resonant capacitor; zero voltage switching operation for primary switches; and resonant tank root-mean-square current. Then, by finding all possible design candidates and comparing them based on the power loss model, the optimized design candidate can be found. Compared with the existing design methodologies, the proposed one has the advantages of high accuracy and small computation requirement, which makes it application in industry possible. Finally, a 192-W experimental prototype was built to validate the effectiveness of the proposed design methodology. In addition, a MATLAB graphical user interference program was built based on the proposed design methodology to visualize and facilitate the design process for engineers. [ABSTRACT FROM AUTHOR]

Published

2021

3. A Dual Half-Bridge LLC Resonant Converter With Magnetic Control for Battery Charger Application.

Author

Wei, Yuqi, Luo, Quanming, Du, Xiong, Altin, Necmi, Nasiri, Adel, and Alonso, J. Marcos

Subjects

*MAGNETIC control, *BATTERY chargers, *ZERO current switching, *ZERO voltage switching, *AC DC transformers, *ELECTRIC potential

Abstract

In this paper, a dual half-bridge LLC resonant converter with magnetic control is proposed for the battery charger application. The primary switches are shared by two LLC resonant networks, and their outputs are connected in series. One of the LLC resonant converters is designed to operate at the series resonant frequency, which is also the highest efficiency operating point, and the constant output voltage characteristic is achieved at this operating point. The second LLC resonant converter adopts magnetic control to regulate the total output current and voltage during both constant current charge mode and constant voltage charge mode. Meanwhile, the function decoupling idea is adopted to further improve the system efficiency. The significant amount of the power is handled by the LLC resonant converter operating at the series resonant frequency, whereas the second LLC resonant converter fulfills the responsibility to achieve closed-loop control. By carefully designing the resonant networks, the zero-voltage switching for primary switches and zero-current switching for secondary diodes can be achieved for whole operation range. A 320-W experimental prototype is built to verify the theoretical analysis, and the maximum efficiency is measured about 95.5%. [ABSTRACT FROM AUTHOR]

Published

2020

4. Research on Topology of the High Step-Up Boost Converter With Coupled Inductor.

Author

Chen, Si, Zhou, Luowei, Luo, Quanming, Gao, Wei, Wei, Yuqi, Sun, Pengju, and Du, Xiong

Subjects

ELECTRIC network topology, TOPOLOGY, PHOTOVOLTAIC cells, FUEL cells, QUANTITATIVE research

Abstract

High step-up boost converters with coupled inductor have attracted much attention in the fuel cell or photovoltaic grid-connected generation system, however, there are few literatures elaborated on the construction ideas and derivation methods of them. Accordingly, in order to obtain a clear roadmap on the derivation and inner connection of these converters, a comprehensive review and analysis are presented in this paper. First, the basic boost converter with coupled inductor is regarded as the basic topology, and its merits and demerits are analyzed in detail. Then, in order to address these demerits, various step-up techniques are introduced, such as the rectifier circuit, the active-clamped circuit, the multi-winding coupled inductor, and the voltage doubler rectifier; and numerous new topologies are continuously proposed by combinations and equivalent simplifications. In addition to a detailed synthesis of each topology, a comparative and quantitative analysis among some important converters is presented, and the optimal one is chosen to build a 250 W prototype. Finally, based on comparisons and analysis, the main characteristics and inner connections of these high step-up boost converters with coupled inductor are identified and clarified. [ABSTRACT FROM AUTHOR]

Published

2019

5. Analysis and Design of a Digital-Controlled Single-Stage Series-Type LED Driver With Independent N-Channel Output Currents.

Author

Huang, Jian, Luo, Quanming, He, Qingqing, Zu, Aqian, and Zhou, Luowei

Subjects

*AC DC transformers, *LIGHT emitting diodes, *REFERENCE values

Abstract

In the applications such as mixed-color light emitting diode (LED) lighting system, LED drivers are always required to provide constant current for each LED string and each current should be controlled independently. For this purpose, a single-stage series-type LED driver with independent control of N-channel output currents is proposed in this paper. The function of power factor correction can be realized inherently to obtain high power factor. N active output units, each one made up of a power switch, a diode, and an output filter capacitor, are series-connected to form the series-type N-channel outputs structure. According to different current reference values, N-channel output currents can be independently regulated just by sampling each output current to adjust the duty cycle of each secondary output-switch automatically. The operating principle and independent closed-loop control strategy of the proposed LED driver with N = 3 are analyzed as an example in detail. Finally, the quantitative parameter design method for a 120 W prototype is elaborated. And, the experimental results are presented to verify the effectiveness of the LED driver and the correctness of parameter design method. [ABSTRACT FROM AUTHOR]

Published

2019

6. Analysis and Design of a Single-Stage Bridgeless High-Frequency Resonant AC/AC Converter.

Author

He, Qingqing, Luo, Quanming, Ma, Kun, Sun, Pengju, and Zhou, Luowei

Subjects

*CONVERTERS (Electronics), *RESONANT states, *ALTERNATING currents, *ELECTRIC currents, *ELECTRIC current rectifiers

Abstract

A single-stage high-frequency resonant ac/ac converter converts the ac-line input voltage into the high-frequency sinusoidal output voltage, which consists of two power conversion units, i.e., a power factor correction (PFC) unit and a high-frequency resonant dc/ac unit, and it can be used to derive a modular multichannel constant current LED driver. By adopting a totem-pole bridgeless PFC boost rectifier to reduce conduction losses, a single-stage bridgeless high-frequency resonant ac/ac converter is proposed in this paper. The operating principle is described, and the performance analysis is presented in detail. Moreover, the quantitative parameter design method of the main circuit is presented, which is suitable for other single-stage ac input converters, such as a single-stage PFC rectifier. Finally, a 130-W prototype has been built and tested to verify the correction of related theoretical analysis and parameter design. [ABSTRACT FROM AUTHOR]

Published

2019

7. Analysis and Design of a Single-Stage Isolated AC?DC LED Driver With a Voltage Doubler Rectifier.

Author

Luo, Quanming, Huang, Jian, He, Qingqing, Ma, Kun, and Zhou, Luowei

Subjects

*LIGHT emitting diode design & construction, *PERFORMANCE of light emitting diodes, *AC DC transformers, *ELECTRIC current rectifiers, *VOLTAGE doublers, *ELECTRIC power factor correction, *COMPARATIVE method

Abstract

In order to reduce the cost and volume of small-medium power ac–dc light-emitting diode (LED) lighting systems, single-stage LED drivers are often used to drive LEDs with constant current. In this paper, a single-stage isolated high-power factor ac–dc LED driver is proposed and analyzed in detail, which is composed of a buck–boost power factor correction unit operating in discontinuous conduction mode and an isolated dc/dc unit with a voltage doubler rectifier, and the two units are integrated together by sharing the same power switch. Very high input power factor is achieved since the PFC unit operates with almost fixed duty ratio during half period of the utility line voltage. Since a voltage doubler rectifier is included in the isolated dc/dc unit, magnetic core size of the transformer and voltage stress of the secondary side diodes are reduced remarkably. First, the operating principle and performance of the LED driver are analyzed. Then, the main parameters are quantitatively calculated out in detail. Finally, a comparative analysis is presented and a 120 W experimental prototype with 1 A output current is built according to the calculated parameters and the experimental results are presented to verify the correctness of the theoretical analysis and parameter design. [ABSTRACT FROM PUBLISHER]

Published

2017

8. Online Condition Monitoring for Both IGBT Module and DC-Link Capacitor of Power Converter Based on Short-Circuit Current Simultaneously.

Author

Sun, Pengju, Gong, Can, Du, Xiong, Luo, Quanming, Wang, Haibo, and Zhou, Luowei

Subjects

INSULATED gate bipolar transistors, POWER capacitors, CONVERTERS (Electronics), ELECTRIC resistance, ELECTROLYTIC capacitors, SHORT-circuit currents

Abstract

Insulated-gate bipolar transistor (IGBT) modules and dc-link capacitors are important parts in the majority of power electronic converters which contribute to cost, size, and failure rate on a considerable scale. This paper presents an online condition monitoring method for both IGBT modules and dc-link capacitors of power converters based on short-circuit current of an IGBT module, which is a good condition indicator according to the theory analysis. The failure prediction of dc-Link capacitor is realized by equivalent series resistance, which can be calculated by short-circuit current and a step voltage, and the bond wires fatigue can also be identified by the short-circuit current. The proposed method is capable for detecting small changes in the failure indicators of IGBT modules and electrolytic capacitors, and its effectiveness is validated by a confirmatory experiment. The novelty of the proposed method is that the degradations of IGBT modules and capacitors can be identified simultaneously, and has the merits of low cost and circuit simplicity [ABSTRACT FROM PUBLISHER]

Published

2017