000
|
|
camIi |
001
|
|
2210080852073 |
003
|
|
OCoLC |
005
|
|
20190103135228 |
006
|
|
m d |
007
|
|
cr cnu---unuuu |
008
|
|
171104s2017 enk ob 001 0 eng d |
020
|
|
▼a9781785613661▼q(electronic bk.) |
020
|
|
▼a1785613669▼q(electronic bk.) |
035
|
|
▼a1616417▼b(N▼T) |
035
|
|
▼a(OCoLC)1009268182 |
040
|
|
▼aEBLCP▼beng▼erda▼epn▼cEBLCP▼dIDEBK▼dN▼dOCLCF▼dYDX▼dOCLCQ▼dMERUC▼dCDN▼dSTF▼d221008 |
050
|
|
▼aTK7871.95▼b.Z43 2017eb |
072
|
|
▼aTEC▼x009070▼2bisacsh |
072
|
|
▼aB1210▼2inspec |
072
|
|
▼aB2560P▼2inspec |
072
|
|
▼aB2560R▼2inspec |
082
|
|
▼a621.3815284 |
100
|
|
▼aZhang, Zhiliang,▼eauthor. |
245
|
00 |
▼aHigh frequency MOSFET gate drivers :▼btechnologies and applications /▼cZhiLiang Zhang and Yan-Fei Liu. |
260
|
|
▼aLondon :▼bThe Institution of Engineering and Technology,▼c2017. |
300
|
|
▼a1 online resource (xv, 279 pages). |
336
|
|
▼atext▼btxt▼2rdacontent |
337
|
|
▼acomputer▼bc▼2rdamedia |
338
|
|
▼aonline resource▼bcr▼2rdacarrier |
490
|
|
▼aMaterials, Circuits and Devices Ser. |
504
|
|
▼aIncludes bibliographical references and index. |
505
|
|
▼a"Contents"; "Authors"; biographies"; "Preface"; "List of symbols"; "1. Introduction"; "1.1 Introduction"; "1.2 Voltage regulator applications"; "1.3 Voltage source gate driver and high-frequency-dependent loss"; "1.3.1 Switching loss"; "1.3.2 Body diode conduction loss"; "1.3.3 Reverse recovery loss"; "1.3.4 Gate drive loss"; "1.4 Summary"; "References"; "2. Fundamentals of current source driver"; "2.1 Resonant gate drivers"; "2.2 Concept of current source driver"; "2.3 A practical and accurate switching loss model"; "2.3.1 Introduction" |
505
|
|
▼a"2.3.2 Impact of parasitic inductance and load current"; "2.3.3 Proposed switching loss model"; "2.3.4 Turn-on switching loss model"; "2.3.5 Turn-off switching loss model"; "2.3.6 Voltage source drive model verification"; "2.3.7 Experimental validation of the voltage source drive model"; "2.4 Summary"; "References"; "3. Continuous current source driver"; "3.1 Two-channel low-side continuous current source drivers"; "3.1.1 Operating principle"; "3.1.2 Loss comparison"; "3.1.3 Advantages of the proposed current source driver"; "3.1.4 Applications" |
505
|
|
▼a"3.1.5 Experimental results"; "3.2 High-side and low-side continuous current source drivers"; "3.2.1 Operating principle of proposed current source drivers"; "3.2.2 Advantages""; ""3.2.3 Loss analysis"; "3.2.4 Experimental results"; "3.3 Accurate switching loss model with current source drivers"; "3.3.1 Proposed MOSFET loss model with current source resonant driver"; "3.3.2 Analytical modeling and simulation results"; "3.3.3 Proposed optimal design with the accurate switching loss model"; "3.3.4 Experimental verification and discussion" |
505
|
|
▼a"3.4 High-side and low-side current source drivers"; "3.4.1 Problem of high-side and low-side current source drivers"; "3.4.2 Proposed decoupled high-side and low-side current source drivers"; "3.4.3 New current-source gate driver with integrated magnetics"; "3.4.4 Experimental results and discussion"; "3.5 Summary"; "References"; "4. Discontinuous current source drivers"; "4.1 Discontinuous current source driver"; "4.1.1 Proposed low-side discontinuous CSD"; "4.1.2 Driver loss analysis"; "4.1.3 CSD design procedure"; "4.1.4 Design example" |
505
|
|
▼a"4.1.5 Experimental results"; "4.2 High-side discontinuous CSD"; "4.2.1 Proposed CSD for synchronous buck converter and operation""; ""4.2.2 Design example""; ""4.2.3 Experimental results""; "4.3 Discontinuous CSD with reduced inductance"; "4.3.1 Proposed CSD and principle of operation"; "4.3.2 Proposed high-side CSD and hybrid gate-drive scheme"; "4.3.3 Experimental results"; "4.4 Current diversion"; "4.4.1 Introduction"; "4.4.2 Proposed switching loss model considering current diversion"; "4.4.3 Experimental results and discussions"; "4.5 Summary"; "References" |
505
|
|
▼a"5. Adaptive current source drivers" |
520
|
|
▼aThis book describes high frequency power MOSFET gate driver technologies, including gate drivers for GaN HEMTs, which have great potential in the next generation of switching power converters. Gate drivers serve as a critical role between control and power devices. |
588
|
|
▼aPrint version record. |
590
|
|
▼aMaster record variable field(s) change: 072 |
650
|
|
▼aSwitching power supplies. |
650
|
|
▼aMetal oxide semiconductor field-effect transistors. |
650
|
|
▼aTECHNOLOGY & ENGINEERING▼xMechanical.▼2bisacsh |
650
|
|
▼aMetal oxide semiconductor field-effect transistors.▼2fast▼0(OCoLC)fst01017614 |
650
|
|
▼aSwitching power supplies.▼2fast▼0(OCoLC)fst01140643 |
650
|
|
▼aconstant current sources.▼2inspect |
650
|
|
▼adriver circuits.▼2inspect |
650
|
|
▼agallium compounds.▼2inspect |
650
|
|
▼aHEMT circuits.▼2inspect |
650
|
|
▼ainsulated gate bipolar transistors.▼2inspect |
650
|
|
▼apower MOSFET.▼2inspect |
650
|
|
▼asilicon compounds.▼2inspect |
650
|
|
▼aswitching convertors.▼2inspect |
655
|
|
▼aElectronic books. |
700
|
1 |
▼aLiu, Yan-Fei,▼eauthor. |
776
|
|
▼iPrint version:▼aZhang, ZhiLiang.▼tHigh frequency MOSFET gate drivers.▼dLondon : The Institution of Engineering and Technology, 2017▼z9781785613654▼w(OCoLC)1015829191 |
830
|
|
▼aMaterials, circuits and devices series ;▼v33. |
856
|
|
▼3EBSCOhost▼uhttp://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&db=nlabk&AN=1616417 |
938
|
|
▼aEBL - Ebook Library▼bEBLB▼nEBL5109611 |
938
|
|
▼aEBSCOhost▼bEBSC▼n1616417 |
938
|
|
▼aProQuest MyiLibrary Digital eBook Collection▼bIDEB▼ncis38607029 |
938
|
|
▼aYBP Library Services▼bYANK▼n14899509 |
994
|
|
▼a92▼bN |