1 Background of electromechanical coupling of electronic equipment -- 1.1 Introduction -- 1.2 Characteristics of electronic equipment -- 1.3 Components of electronic equipment -- 1.4 On research of electromechanical coupling (EMC) of electronic Equipment -- 1.5 Problem of the traditional design method of electronic equipment -- 1.6 Main science and technology respects of design for electronic equipment -- 1.7 Mechatronics marching toward coupling between mechanical and electronic technologies -- References -- -- Chapter 2 Fundamental of establishing multi-field coupling theoretical model of electronic equipment -- 2.1 Introduction -- 2.2 Mathematical description of electromagnetic (EM), structural deformation (S) and Temperature (T) fields -- 2.3 Consideration of establishing multi-field coupling model -- References -- -- -- -- Chapter 3 Multi-field coupling models of four kind of typical electronic equipment -- 3.1 Introduction -- 3.2 Reflector antennas -- 3.3 Planar slotted waveguide array antennas -- 3.4 Active phased array antennas -- 3.5 High density cabinets -- References -- -- -- -- -- Chapter 4 Solving strategy and method of the multi-field coupling problem of electronic equipment -- 4.1 Introduction -- 4.2 Solving strategy of the multi-field coupling problem -- 4.3 Solving method of the multi-field coupling problem -- 4.4 General approach method of the multi-field coupling problem -- 4.5 The mesh matching among different fields -- 4.6 Mesh transformation and information transfer -- References -- -- -- -- -- -- Chapter 5 Influence mechanism (IM) of nonlinear factors of antenna-servo-feeder systems on performance -- 5.1 Introduction -- 5.2 Data mining of ISFP -- 5.3 ISFP of reflector antennas -- 5.4 ISFP of planar slotted waveguide array antennas -- 5.5 ISFP of microwave feeder and filters -- 5.6 ISFP of radar servo mechanism -- 5.7 ISFP of active phased array antennas with radiating arrays -- References -- -- -- -- -- Chapter 6 EMC based measure & test of typical electronic equipment -- 6.1 Introduction -- 6.2 EMC based analysis of measure & test factors -- 6.3 EMC based measure & test technology for typical case -- 6.4 EMC based measure & test system for typical case -- References -- -- -- Chapter 7 Evaluation on EMC of typical electronic equipment -- 7.1 Introduction -- 7.2 On correct of EMC theory and IM -- 7.3 On validation of EMC theory and IM -- 7.4 Evaluation of EMC theory and IM for PSAA -- 7.5 Evaluation of EMC theory and IM for a radar servo mechanism -- 7.6 Evaluation of EMC theory and IM for filter -- References -- -- -- -- Chapter 8 EMC & IM based optimum design of electronic equipment -- 8.1 Introduction -- 8.2 EMC & IM based reflector optimum design -- 8.3 EMC & IM based cabinet optimum design -- 8.4 EMC & IM based radar servo mechanism optimum design -- 8.5 A general design-vector based optimum design of electronic equipment -- References -- -- -- -- Chapter 9 Computer software platform for coupling analysis and design of electronic equipment -- 9.1 Introduction -- 9.2 General method and system project -- 9.3 Integration of the professional software -- 9.4 Software development of EM-S-T field-coupling analysis -- 9.5 Software development of IM of structural factors on performance -- 9.6 Software of EMC & IM based measure & test and evaluation -- References -- -- -- Chapter 10 Engineering applications of EMC theory and IM of electronic equipment -- 10.1 Introduction -- 10.2 Application of moon-exploration antenna with the diameter of 40 meters -- 10.3 Application of the servomechanism of the gun-guided radar system in warship -- 10.4 Application of planar slotted array antennas -- 10.5 Application of the filter with electrical adjustable and double functioning -- 10.6 Application of FAST-500m aperture spherical radio telescope -- References -- -- -- -- Chapter 11 Development trends of electromechanical coupling theory and method of electronic equipment -- 11.1 Introduction -- 11.2 Extreme frequencies -- 11.3 Extreme environments -- 11.4 Extreme power -- References --.