項(xiàng)目一  晶閘管可控整流電路                     1

  任務(wù)一  晶閘管的特性測(cè)試                      1

    1.1.1  晶閘管的結(jié)構(gòu)                  2

    1.1.2  晶閘管的工作原理               2

    1.1.3  晶閘管的伏安特性                4

    1.1.4  晶閘管的主要參數(shù)                 5

    1.1.5  晶閘管的簡(jiǎn)單測(cè)試方法              7

    1.1.6  晶閘管的派生器件                   8

    1.1.7  晶閘管的過(guò)電壓、過(guò)電流保護(hù)與電壓、電流上升率的限制                 10

  任務(wù)二  單相半波相控整流電路                     16

    1.2.1  電阻性負(fù)載                       16

    1.2.2  電感性負(fù)載                       18

    1.2.3  大電感負(fù)載并聯(lián)續(xù)流二極管            19

    1.2.4  單結(jié)晶體管同步觸發(fā)電路                     21

  任務(wù)三  單相全控橋式整流電路                     25

    1.3.1  電阻性負(fù)載                     25

    1.3.2  大電感負(fù)載                     28

    1.3.3  大電感負(fù)載并聯(lián)續(xù)流二極管                     30

    1.3.4  反電動(dòng)勢(shì)負(fù)載                     32

  任務(wù)四  單相半控橋式整流電路                     34

    1.4.1  電阻性負(fù)載                     34

    1.4.2  大電感負(fù)載                     36

    1.4.3  大電感負(fù)載并聯(lián)續(xù)流二極管                     37

  任務(wù)五  三相半波可控整流電路                     39

    1.5.1  電阻性負(fù)載                     39

    1.5.2  大電感負(fù)載                     43

    1.5.3  大電感負(fù)載并聯(lián)續(xù)流二極管                     45

    1.5.4  同步電壓為鋸齒波的觸發(fā)電路                     47

  任務(wù)六  三相全控橋式整流電路                     51

    1.6.1  電阻性負(fù)載                     52

    1.6.2  大電感負(fù)載                     56

  任務(wù)七  整流電路的有源逆變工作狀態(tài)                     59

    1.7.1  有源逆變的工作原理                     60

    1.7.2  三相半波有源逆變電路                     63

    1.7.3  三相全控橋式有源逆變電路                     64

    1.7.4  有源逆變最小逆變角 β的限制                     64

  任務(wù)八  觸發(fā)脈沖與主電路電壓的同步                     65

    1.8.1  “同步”的概念                     66

    1.8.2  實(shí)現(xiàn)“同步”的步驟及方法                     66

  習(xí)題                     69

項(xiàng)目二  變頻電路                     71

  任務(wù)一  大功率晶體管(GTR)                     71

    2.1.1  GTR的結(jié)構(gòu)與工作原理                     72

    2.1.2  GTR的特性                     73

    2.1.3  GTR的主要參數(shù)                     74

    2.1.4  GTR的驅(qū)動(dòng)和保護(hù)電路                     77

    2.1.5  GTR的應(yīng)用                     80

  任務(wù)二  絕緣柵雙極型晶體管(IGBT)                     81

    2.2.1  IGBT的結(jié)構(gòu)與工作原理                     82

    2.2.2  IGBT的工作特性與主要參數(shù)                     83

    2.2.3  IGBT的安全工作區(qū)                     85

    2.2.4  IGBT的柵極驅(qū)動(dòng)電路及其保護(hù)                     86

  任務(wù)三  變頻電路的作用、原理和換流方式                     90

    2.3.1  變頻電路的作用                     90

    2.3.2  變頻電路的分類                     90

    2.3.3  變頻電路的工作原理                     91

    2.3.4  變頻電路的換流方式                     93

  任務(wù)四  諧振式變頻電路                     94

    2.4.1  并聯(lián)諧振式變頻電路                     94

    2.4.2  串聯(lián)諧振式變頻電路                     96

  任務(wù)五  三相變頻電路                     98

    2.5.1  電壓型三相變頻電路                     98

    2.5.2  電流型三相變頻電路                     101

  任務(wù)六  交-交變頻電路                     103

    2.6.1  方波型交-交變頻電路                     104

    2.6.2  正弦波型交-交變頻電路                     106

  任務(wù)七  脈沖寬度調(diào)制變頻電路                     108

    2.7.1  脈寬調(diào)制變頻電路概述                     108

    2.7.2  單極性PWM變頻電路                     110

    2.7.3  雙極性PWM變頻電路                     111

    2.7.4  三相橋式PWM變頻電路                     112

  習(xí)題                     113

項(xiàng)目三  交流變換電路                     114

  任務(wù)一  雙向晶閘管(TRIAC)                     114

    3.1.1  雙向晶閘管的結(jié)構(gòu)                     114

    3.1.2  雙向晶閘管的型號(hào)及其主要參數(shù)                     116

    3.1.3  雙向晶閘管的工作原理                     118

    3.1.4  雙向晶閘管的簡(jiǎn)易測(cè)試                     122

  任務(wù)二  交流調(diào)壓電路                     124

    3.2.1  單相交流調(diào)壓電路                     125

    3.2.2  三相交流調(diào)壓電路                     129

    3.2.3  交流調(diào)壓電路的應(yīng)用                     132

  習(xí)題                     136

項(xiàng)目四  直流斬波電路                     138

    4.1.1  斬波電路的工作原理與分類                     138

    4.1.2  降壓斬波(Buck)電路                     140

    4.1.3  升壓斬波(Boost)電路                     142

    4.1.4  庫(kù)克(Cuk)變換電路                     143

    4.1.5  直流斬波應(yīng)用電路                     145

  習(xí)題                     147

項(xiàng)目五  電力電子技術(shù)的應(yīng)用                     149

  任務(wù)一  軟開關(guān)技術(shù)                     149

    5.1.1  軟開關(guān)的基本概念                     150

    5.1.2  基本的軟開關(guān)電路                     153

  任務(wù)二  電力電子技術(shù)在變頻調(diào)速中的應(yīng)用                     161

    5.2.1  SPWM變頻調(diào)速裝置                     161

    5.2.2  電力電子技術(shù)在變頻調(diào)速系統(tǒng)中的應(yīng)用                     162

  任務(wù)三  電力電子裝置在新能源技術(shù)中的應(yīng)用                     163

    5.3.1  開關(guān)電源                     164

    5.3.2  有源功率因數(shù)校正                     167

    5.3.3  不間斷電源(UPS)                     168

    5.3.4  靜止無(wú)功補(bǔ)償裝置                     173

    5.3.5  電力電子技術(shù)在光伏發(fā)電中的應(yīng)用                     180

  習(xí)題                     183

參考文獻(xiàn)                     184