Pulse train controlled buck converter with coupled inductors

Yu, Dongsheng; Wang, Long; Geng, Yisen; Ma, Chunrui; Ye, Zongbin; Liu, Yang

doi:10.1049/iet-pel.2016.0798

Cited by 10 publications

(6 citation statements)

References 22 publications

(39 reference statements)

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“…Note that buck converters may work in both continuous conduction mode (CCM) and discontinuous conduction mode(DCM). Here, it is assumed that the buck converter is always operated in CCM [34]. Let x = x − x * , ũ = u − u * , where x * , u * represents the equilibrium point (i.e.…”

Section: Fcs Affine Systems With Switching Frequency Constraintmentioning

confidence: 99%

A practical stable control scheme under end point equivalence modulation for DC power supply converters

Lin

et al. 2021

IET Power Electronics

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A series of DC power supply converters can be described as linear affine systems with finite inputs and constrained switching frequency. In this study, a practical‐stability‐oriented general control framework with duty‐cycle‐like characteristics is deduced for such converters. First, a concept called End Point Equivalence Modulation (EPEM) is introduced to release constraints. Following this, a Control Lyapunov Function (CLF) is employed to design the switching law and the relationship between the boundary of the convergence zone and the switching frequency is derived. In addition, an optimized switching strategy is presented to halve the switching frequency without degrading the control performance, which is also helpful for reducing switching loss. Finally, a single‐phase inverter and buck converter are considered as case studies and analysis show that Sinusoidal Pulse Width Modulation (SPWM) and volt‐second balance guarantee their practical stability, respectively, which can be theoretically derived and proved under EPEM. All the proposed methods and controllers are validated both by simulations on MATLAB/Simulink and experiments in a rapid control prototype platform based on a FPGA module.

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Section: Fcs Affine Systems With Switching Frequency Constraintmentioning

confidence: 99%

A practical stable control scheme under end point equivalence modulation for DC power supply converters

Lin

et al. 2021

IET Power Electronics

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“…In PPS‐PT controlled buck converter, the output voltage would increase during P H or decrease during P L , and hence the low frequency oscillation could be eliminated naturally. In addition to employ new control methods, the low frequency oscillation could be eliminated by improving the topology of the converter, while it would magnify the implementation complexity [14–17].…”

Section: Introductionmentioning

confidence: 99%

Constant On/Off Time Pulse Train Controlled Buck Converter

Qin

2020

IEEJ Transactions Elec Engng

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For pulse train (PT) controlled switching converter operating in continuous conduction mode (CCM), a problem of low frequency oscillation is existed, which enlarges the output voltage ripple. In order to solve this issue, a constant on/off time pulse train (COOT-PT) control technique with a buck converter is proposed, and the working principle is introduced in detail. Based on the variation of the output voltage during one control pulse, the pulse train, output voltage ripple and dynamic behaviors of the COOT-PT controlled buck converter are studied. The experimental results verify the theoretical analysis and indicate that the COOT-PT controlled buck converter eliminates low frequency oscillation and enjoys smaller output voltage ripple compared with PT control technique.

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“…is converter enjoyed wide power range without low-frequency oscillation, but the efficiency of the converter was poor due to the freewheeling phase. In addition, by improving the topology of the converter, the lowfrequency oscillation could be suppressed, but it was complicated to the integration of the switching converter [15][16][17][18][19][20].…”

Section: Introductionmentioning

confidence: 99%

Research on Dual-Carrier Pulse-Train-Controlled Buck Converter

Qin

2019

Journal of Control Science and Engineering

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In order to solve the low-frequency oscillation of pulse-train- (PT-) controlled switching converter operating in a continuous conduction mode (CCM), a dual-carrier pulse-train (DCPT) control technique is proposed in this paper. With the CCM buck converter as an example, the operational principle, pulse control law, and output voltage ripple of the DCPT-controlled converter are studied. The experimental results are provided to verify the theoretical analysis and simulation results. Compared with the PT-controlled converter, the DCPT-controlled CCM buck converter enjoys much better operating characteristics and smaller output voltage ripple.

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Pulse train controlled buck converter with coupled inductors

Cited by 10 publications

References 22 publications

A practical stable control scheme under end point equivalence modulation for DC power supply converters

A practical stable control scheme under end point equivalence modulation for DC power supply converters

Constant On/Off Time Pulse Train Controlled Buck Converter

Research on Dual-Carrier Pulse-Train-Controlled Buck Converter

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