Soft-switching PWM full-bridge converters : topologies, control, and design /

Λεπτομέρειες βιβλιογραφικής εγγραφής
Κύριος συγγραφέας:	Ruan, Xinbo
Μορφή:	Ηλ. βιβλίο
Γλώσσα:	English
Έκδοση:	Singapore : Wiley/Science Press, 2014.
Θέματα:	PWM power converters. Switching power supplies. TECHNOLOGY & ENGINEERING > Mechanical. PWM power converters Electronic books.
Διαθέσιμο Online:	Full Text via HEAL-Link


LEADER	08047nam a2200709 4500
001	ocn875404420
003	OCoLC
005	20170124072328.4
006	m o d
007	cr \|\|\|\|\|\|\|\|\|\|\|
008	140331s2014 si ob 001 0 eng
010			\|a 2014012811
040			\|a DLC \|b eng \|e rda \|c DLC \|d YDX \|d N$T \|d IDEBK \|d EBLCP \|d E7B \|d CUS \|d DG1 \|d UKMGB \|d CUI \|d YDXCP \|d OCLCF \|d COO \|d CDX \|d DEBSZ \|d OCLCO \|d RRP \|d OCL \|d DEBBG \|d GrThAP
016	7		\|a 016727531 \|2 Uk
019			\|a 961663129 \|a 962722935
020			\|a 9781118702239 (ePub)
020			\|a 1118702239 (ePub)
020			\|a 9781118702222 (Adobe PDF)
020			\|a 1118702220 (Adobe PDF)
020			\|z 9781118702208 (cloth)
020			\|a 9781118702215
020			\|a 1118702212
020			\|a 1118702204
020			\|a 9781118702208
029	1		\|a AU@ \|b 000052734071
029	1		\|a NZ1 \|b 15581333
029	1		\|a CHVBK \|b 325943419
029	1		\|a CHBIS \|b 010259605
029	1		\|a NZ1 \|b 15906853
029	1		\|a DEBSZ \|b 431678472
029	1		\|a DEBBG \|b BV043396647
035			\|a (OCoLC)875404420 \|z (OCoLC)961663129 \|z (OCoLC)962722935
042			\|a pcc
050	0	0	\|a TK7872.C8
072		7	\|a TEC \|x 009070 \|2 bisacsh
082	0	0	\|a 621.3815/37 \|2 23
049			\|a MAIN
100	1		\|a Ruan, Xinbo.
245	1	0	\|a Soft-switching PWM full-bridge converters : \|b topologies, control, and design / \|c Xinbo Ruan, Nanjing University of Aeronautics and Astronautics, China.
264		1	\|a Singapore : \|b Wiley/Science Press, \|c 2014.
300			\|a 1 online resource.
336			\|a text \|2 rdacontent
337			\|a computer \|2 rdamedia
338			\|a online resource \|2 rdacarrier
504			\|a Includes bibliographical references and index.
588			\|a Description based on print version record and CIP data provided by publisher.
505	8		\|a 1.4.4.Basic Operating Principle of a Full-Bridge Converter with a Current-Doubler Rectifier Circuit -- 1.5.Summary -- References -- 2.1.PWM Strategies for Full-Bridge Converters -- 2.1.1.Basic PWM Strategy -- 2.1.2.Definition of On-Time of Power Switches -- 2.1.3.A Family of PWM Strategies -- 2.2.Two Types of PWM Strategy -- 2.2.1.The Two Diagonal Power Switches Turn Off Simultaneously -- 2.2.2.The Two Diagonal Power Switches Turn Off in a Staggered Manner -- 2.3.Classification of Soft-Switching PWM Full-Bridge Converters -- 2.4.Summary -- Reference -- 3.1.Topologies and Modulation Strategies of ZVS PWM Full-Bridge Converters -- 3.1.1.Modulation of the Lagging Leg -- 3.1.2.Modulation of the Leading Leg -- 3.1.3.Modulation Strategies of the ZVS PWM Full-Bridge Converters -- 3.2.Operating Principle of ZVS PWM Full-Bridge Converter -- 3.3.ZVS Achievement of Leading and Lagging Legs -- 3.3.1.Condition for Achieving ZVS
505	8		\|a 3.3.2.Condition for Achieving ZVS for the Leading Leg -- 3.3.3.Condition for Achieving ZVS for the Lagging Leg -- 3.4.Secondary Duty Cycle Loss -- 3.5.Commutation of the Rectifier Diodes -- 3.5.1.Full-Bridge Rectifier -- 3.5.2.Full-Wave Rectifier -- 3.6.Simplified Design Procedure and Example -- 3.6.1.Turn Ratio of Transformer -- 3.6.2.Resonant Inductor -- 3.6.3.Output Filter Inductor and Capacitor -- 3.6.4.Power Devices -- 3.6.5.Load Range of ZVS -- 3.7.Experimental Verification -- 3.8.Summary -- References -- 4.1.Current-Enhancement Principle -- 4.2.Auxiliary-Current-Source Network -- 4.3.Operating Principle of a ZVS PWM Full-Bridge Converter with Auxiliary-Current-Source Network -- 4.4.Conditions for Achieving ZVS in the Lagging Leg -- 4.5.Parameter Design -- 4.5.1.Parameter Selection for the Auxiliary-Current-Source Network -- 4.5.2.Determination of Lr, Cr, and Ic -- 4.5.3.Design Example
505	8		\|a 4.6.Secondary Duty Cycle Loss and Selection of Dead Time for the Drive Signals of the Lagging Leg -- 4.6.1.Secondary Duty Cycle Loss -- 4.6.2.Selection of Dead Time between Drive Signals of the Lagging Leg -- 4.6.3.Comparison with Full-Bridge Converter with Saturable Inductor -- 4.7.Experimental Verification -- 4.8.Other Auxiliary-Current-Source Networks for ZVS PWM Full-Bridge Converters -- 4.8.1.Auxiliary-Current-Source Networks with Uncontrolled Auxiliary Current Magnitude -- 4.8.2.Auxiliary-Current-Source Networks with Controlled Auxiliary Current Magnitude -- 4.8.3.Auxiliary-Current-Source Network with Auxiliary Current Magnitude Proportional to Primary Duty Cycle -- 4.8.4.Auxiliary-Current-Source Network with Auxiliary Current Magnitude Adaptive to Load Current -- 4.8.5.Auxiliary-Current-Source Networks with Adaptive Resonant Inductor Current -- 4.9.Summary -- References
505	8		\|a 5.1.Modulation Strategies and Topologies of a ZVZCS PWM Full-Bridge Converter -- 5.1.1.Modulation of the Leading Leg -- 5.1.2.Modulation of the Lagging Leg -- 5.1.3.Modulation Strategies of ZVZCS PWM Full-Bridge Converters -- 5.1.4.Method for Resetting the Primary Current at Zero State -- 5.2.Operating Principle of a ZVZCS PWM Full-Bridge Converter -- 5.3.Theoretical Analysis -- 5.3.1.Peak Voltage of the Block Capacitor -- 5.3.2.Achieving ZVS for the Leading Leg -- 5.3.3.Maximum Effective Duty Cycle -- 5.3.4.Achieving ZCS for the Lagging Leg -- 5.3.5.Voltage Stress of the Lagging Leg -- 5.3.6.Blocking Capacitor -- 5.4.Simplified Design Procedure and Example -- 5.4.1.Transformer Winding-Turns Ratio -- 5.4.2.Calculation of Blocking Capacitance -- 5.4.3.Verification of the Transformer Turns Ratio and Blocking Capacitance -- 5.4.4.Dead Time between the Gate Drive Signals of the Leading Leg -- 5.5.Experimental Verification -- 5.6.Summary -- References
505	8		\|a 6.1.Introduction -- 6.2.Causes of Voltage Oscillation in the Output Rectifier Diode in ZVS PWM Full-Bridge Converters -- 6.3.Voltage Oscillation Suppression Approaches -- 6.3.1.RC Snubber -- 6.3.2.RCD Snubber -- 6.3.3.Active Clamp Circuit -- 6.3.4.Auxiliary Winding of Transformer and Clamping Diode Circuit -- 6.3.5.Clamping Diode Circuit -- 6.4.Operating Principle of the Tr-Lead-Type ZVS PWM Full-Bridge Converter -- 6.5.Operating Principle of the Tr-Lag-Type ZVS PWM Full-Bridge Converter -- 6.6.Comparisons of Tr-Lead-Type and Tr-Lag-Type ZVS PWM Full-Bridge Converters -- 6.6.1.Clamping Diode Conduction Times -- 6.6.2.Achievement of ZVS -- 6.6.3.Conduction Loss in Zero State -- 6.6.4.Duty Cycle Loss -- 6.6.5.Effect of the Blocking Capacitor -- 6.7.Experimental Verification -- 6.8.Summary -- References -- 7.1.Introduction -- 7.2.Operating Principle of the ZVS PWM Full-Bridge Converter with Clamping Diodes under Light Load Conditions
505	8		\|a 7.2.1.Case I: 0.5Vin/Zr1 < ILf(t1)/K < Vin/Zr1 (Referring to Figure 7.2a) -- 7.2.2.Case II: ILf/(t1)/K < 0.5Vin/4r1 (Referring to Figure 7.2b) -- 7.3.Clamping Diode Current-Reset Scheme -- 7.3.1.Reset Voltage Source -- 7.3.2.Implementation of the Reset Voltage Source -- 7.4.Operating Principle of the ZVS PWM Full-Bridge Converter with Current Transformer -- 7.4.1.Operating Principle under Heavy Load Conditions -- 7.4.2.Operating Principle under Light Load Conditions -- 7.5.Choice of Current Transformer Winding-Turns Ratio -- 7.5.1.Clamping Diode Current-Reset Time -- 7.5.2.Output Rectifier Diode Voltage Stress -- 7.5.3.Current Transformer Winding-Turns Ratio -- 7.6.Experimental Verification -- 7.7.Summary -- References -- 8.1.Operating Principle -- 8.2.Realization of ZVS for the Switches -- 8.3.Design Considerations -- 8.3.1.Transformer Winding-Turns Ratio -- 8.3.2.Output Filter Inductance -- 8.3.3.Blocking Capacitor -- 8.4.Experimental Verification
650		0	\|a PWM power converters.
650		0	\|a Switching power supplies.
650		7	\|a TECHNOLOGY & ENGINEERING \|x Mechanical. \|2 bisacsh
650		7	\|a PWM power converters \|2 fast \|0 (OCoLC)fst01910092
650		7	\|a Switching power supplies. \|2 fast \|0 (OCoLC)fst01140643
655		4	\|a Electronic books.
655		0	\|a Electronic books.
776	0	8	\|i Print version: \|a Ruan, Xinbo. \|t Soft-switching PWM full-bridge converters \|d Singapore : John Wiley & Sons Inc., 2014 \|z 9781118702208 \|w (DLC) 2013051277
856	4	0	\|u https://doi.org/10.1002/9781118702215 \|z Full Text via HEAL-Link
994			\|a 92 \|b DG1

Soft-switching PWM full-bridge converters : topologies, control, and design /

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