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开关电源可靠性设计与测试 安全 热管理 电磁兼容书籍详细信息
- ISBN:9787111654988
- 作者:暂无作者
- 出版社:暂无出版社
- 出版时间:2020-07
- 页数:暂无页数
- 价格:77.40
- 纸张:胶版纸
- 装帧:平装-胶订
- 开本:16开
- 语言:未知
- 丛书:暂无丛书
- TAG:暂无
- 豆瓣评分:暂无豆瓣评分
寄语:
阐述了开关电源可靠性的新设计技术
内容简介:
本书结合国内外开关电源的应用和发展现状,以开关电源可靠性设计为主线进行编写,突出实用性,全面系统地阐述了开关电源可靠性的新设计技术。全书共分为 6章,在简要介绍开关电源可靠性的定义、指标及设计原则的基础上,系统地讲述了开关电源安全设计、开关电源热设计、开关电源电路的电磁兼容性及设计、开关电源 PCB电磁兼容设计、开关电源可靠性测试等内容。本书题材新颖实用,内容丰富,深入浅出,具有很高的实用价值。
本书可供电信、信息、航天、军事及家电等领域从事开关电源可靠性设计的工程技术人员阅读,也可供高等院校、职业技术学院相关专业的师生阅读参考。
书籍目录:
前言
第1章 概述········································································ 1
1.1 开关电源可靠性 ··········································································
1 1.1.1 可靠性的定义及指标····························································
1 1.1.2 影响开关电源可靠性的因素 ··················································· 8
1.2 开关电源可靠性设计 ·································································· 12
1.2.1 开关电源可靠性设计原则及方法 ··········································· 12
1.2.2 元器件降额使用································································ 17
第2章 开关电源安全设计···················································· 25
2.1 开关电源安全距离及安全器件选择················································· 25
2.1.1 安全距离与绝缘分类·························································· 25
2.1.2 开关电源安全器件选择······················································· 27
2.1.3 安规电容选择··································································· 36
2.2 开关电源输入保护电路及滤波器···················································· 40
2.2.1 开关电源输入保护电路······················································· 40
2.2.2 开关电源滤波器································································ 48
2.3 开关电源吸收电路 ····································································· 52
2.3.1 吸收回路的作用及类型······················································· 52
2.3.2 开关电源吸收电路设计······················································· 57
第3章 开关电源热设计······················································ 65
3.1 开关电源热设计目的及原则 ························································· 65
3.1.1 开关电源环境温度及热设计目的 ··········································· 65
3.1.2 开关电源热设计的原则······················································· 68
3.2 开关电源转换效率及热设计层次···················································· 70
3.2.1 开关电源转换效率及温度···················································· 70
3.2.2 热设计层次及热设计功耗(TDP)·········································· 73
3.3 开关电源表面贴装元器件热设计及金属芯 PCB ································· 76
3.3.1 开关电源表面贴装元器件热设计 ··········································· 76
3.3.2 金属芯 PCB ····································································· 80
3.4 开关电源 PCB热设计 ································································· 84
3.4.1 开关电源 PCB热量的来源及 PCB热设计的要求 ······················· 84
3.4.2 开关电源 PCB热设计对元器件布局、布线的要求 ····················· 86
3.4.3 开关电源 PCB热设计的具体措施·········································· 90
3.5 开关电源热设计规则及散热器设计要点··········································· 92
3.5.1 开关电源热设计规则及方法 ················································· 92
3.5.2 开关电源散热器设计要点···················································· 95
第4章 开关电源电路的电磁兼容性及设计 ····························· 105
4.1 开关电源的电磁干扰及传播方式··················································· 105
4.1.1 开关电源中的电磁干扰源··················································· 105
4.1.2 开关电源中电磁干扰分类及耦合通道 ···································· 113
4.2 开关电源电磁干扰抑制技术 ························································ 120
4.2.1 减小干扰源能量及抑制网侧高次谐波电流 ······························ 120
4.2.2 抑制共模干扰及尖峰干扰技术 ············································· 123
4.2.3 开关电源接地技术···························································· 129
4.2.4 开关电源调制频率控制及无源补偿技术 ································· 132
4.3 开关电源电路的电磁兼容及输入 /输出布线设计······························· 136
4.3.1 开关电源电路的电磁兼容设计 ············································· 136
4.3.2 开关电源输入 /输出布线设计·············································· 140
第5章 开关电源 PCB电磁兼容设计 ···································· 148
5.1 开关电源 PCB电磁干扰抑制措施及地线设计··································· 148
5.1.1 开关电源 PCB电磁干扰及抑制措施······································ 148
5.1.2 开关电源 PCB地线设计····················································· 150
5.2 开关电源 PCB布局布线设计 ······················································· 155
5.2.1 开关电源 PCB布局设计····················································· 155
5.2.2 开关电源 PCB布线设计····················································· 159
5.3 开关电源 PCB电磁兼容设计要点 ················································· 167
5.3.1 PCB中带状线、电线、电缆间的串音和电磁耦合 ····················· 167
5.3.2 开关电源 PCB电流回路及电压节点设计要点 ·························· 172
5.3.3 开关电源 PCB滤波电路布局及退耦电容配置要点 ···················· 175
第6章 开关电源可靠性测试 ··············································· 180
6.1 开关电源电磁兼容性测试 ··························································· 180
6.1.1 电磁兼容测试技术···························································· 180
6.1.2 开关电源电磁兼容测试电路及波形 ······································· 187
6.2 PCB质量评价及可靠性试验 ························································ 195
6.2.1 PCB质量评价 ································································· 195
6.2.2 PCB可靠性试验 ······························································ 198
6.3 开关电源技术安规及可靠性测试方法············································· 203
6.3.1 开关电源安规测试方法······················································ 203
6.3.2 开关电源可靠性测试方法··················································· 210
参考文献······················································································· 226
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在线阅读地址:开关电源可靠性设计与测试 安全 热管理 电磁兼容在线阅读
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编辑推荐
读者可以本书为“桥梁”,系统、全面地了解和掌握开关电源的设计和应用技术。
结合国内外开关电源技术的发展动向,系统地介绍了开关电源可靠性设计中应掌握的设计方法、设计原则。
本书在内容上将开关电源安全设计、开关电源热设计、开关电源电路的电磁兼容性及设计、开关电源PCB电磁兼容设计、开关电源可靠性测试融于一体,通俗易懂并结合实际。
拓展阅读,推荐同套系图书《开关电源工程化设计实战》《线性电源设计实例——原理剖析、制作调试、性能提升》。
前言
随着电子技术的快速发展,电子设备的应用领域越来越广泛,电子设备的种类也越来越多。而电子设备都离不开可靠的电源,电源性能的优劣直接关系到整个电子设备的安全性和可靠性。电子设备的小型化和低成本化使电源以轻、薄、小和高效率为主要发展方向,对电源的要求更加灵活多样。开关频率的持续提高使开关电源的性能进一步优化,集成度更高,功耗更低,电路更加简单,工作更加可靠。
目前,我国通信、信息、家电、国防等领域的电子设备普遍采用开关电源,以开关电源的开发、研制和生产为主的产业已成为发展前景十分诱人的朝阳产业。在全球倡导节能环保、提高能效的背景下,开关电源的设计正面临前所未有的挑战。为此,本书结合国内外开关电源技术的发展动向,系统地讲述了开关电源可靠性设计中应掌握的设计方法、设计原则等内容。本书在写作上将开关电源安全设计、开关电源热设计、开关电源电路的电磁兼容性及设计、开关电源 PCB电磁兼容设计、开关电源可靠性测试融为一体,力求做到通俗易懂和结合实际,使得从事开关电源可靠性设计的工程技术人员从中获益。作为从事开关电源可靠性设计的工程技术人员的参考书,读者可以以本书为“桥梁”,系统、全面地了解和掌握开关电源的设计和应用技术。
本书在写作过程中,在资料的收集和技术信息交流上得到了国内外专家学者、同行及开关电源制造商的大力支持,在此表示衷心的感谢。
由于作者水平有限,书中难免有错误和疏漏之处,敬请读者批评指正。
作 者 2019年 12月
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