국문목차
표제지=0,1,4
목차=i,5,1
그림목차=ii,6,1
표목차=iii,7,1
Abstract=iv,8,1
I. 서론=1,9,3
II. 노이즈의 발생과 방지대책=4,12,1
1. 노이즈의 발생=4,12,3
2. 인버터 노이즈의 종류=6,14,3
3. 노이즈에 의한 영향=9,17,1
4. 노이즈 방지기술=9,17,7
5. 노이즈 방지대책=16,24,4
III. 인버터 노이즈 트러블 사례연구=20,28,1
1. 연구 배경=20,28,1
2. 인버터 드라이브 시스템 구성현황=20,28,4
3. 트립실적 및 원인분석=24,32,5
4. 주요 요인별 대책수립=28,36,6
IV. 결론=34,42,1
V. 참고 문헌=35,43,2
감사의 글=37,45,1
Fig.1. Inverter configuration=4,12,1
Fig.2. The route of noise transmission=6,14,1
Fig.3. Transmission noise=7,15,1
Fig.4. Induction noise=7,15,1
Fig.5. Emission noise=8,16,1
Fig.6. Micro surge=8,16,1
Fig.7. Transmission noise of power system=9,17,1
Fig.8. Isolation seperation of power system=10,18,1
Fig.9. Recurrence noise of leakage current noise=11,19,1
Fig.10. Example:Electromagnetic induction noise=12,20,1
Fig.11. The methods of removing electromagnetic induction noise=13,21,1
Fig.12. Electrostatic induction noise=13,21,1
Fig.13. Connection method of shielding=14,22,1
Fig.14. Removal of ground connection=14,22,1
Fig.15. The methods of removing micro surge noise=15,23,1
Fig.16. Vector drive system=21,29,1
Fig.17. Converter section=22,30,1
Fig.18. Inverter section=23,31,1
Fig.19. Data tracing:Inverter trip=26,34,1
Fig.20. The theory of over current:Actual speed of motor&detecting speed of PLG=28,36,1
Fig.21. Bridle roll micro surge data=29,37,1
Fig.22. Mixed power&control cable=30,38,1
Fig.23. Grounding inverter system=32,40,1
Fig.24. Grounding test box=32,40,1
Fig.25. Rubber coupling type of PLG=33,41,1
Table1. Noise features of electronic equipment=5,13,1
Table2. Types of inverter noise=5,13,1
Table3. Effect of noise=9,17,1
Table4. Type of noise prevention=16,24,1
Table5. Basic principles of reducing noise=17,25,1
Table6. Methods for reducing noise:Drive equipment=18,26,1
Table7. Methods for reducing noise:PLC/DCS and controller=19,27,1
Table8. Vector drive at 3POL=20,28,1
Table9. Trouble records=24,32,1