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2010-11-06
EMC Management: How to Compare Electromagnetic Environmental Measurements and Equipment Immunity Levels
By
Progress In Electromagnetics Research Letters, Vol. 18, 165-177, 2010
Abstract
The straightforward comparison between electromagnetic environment measurements and immunity levels for industrial, scientific, and medical equipment has been used in the technical literature as an ordinary method to provide electromagnetic compatibility management within critical areas, such as hospital and industrial environments. This paper addresses a theoretical discussion concerning emission and immunity test features to focus the aforementioned problem. Finally, a more reliable comparison method is proposed, the environmental compatibility level definition, using analytical analysis and measurement results.
Citation
Wilson Valente Junior, Matheus Hammes Amaral, and Adroaldo Raizer, "EMC Management: How to Compare Electromagnetic Environmental Measurements and Equipment Immunity Levels," Progress In Electromagnetics Research Letters, Vol. 18, 165-177, 2010.
doi:10.2528/PIERL10092011
References

1. Arnofsky, S., P. Doshi, K. Foster, D. Hanover, R. Mercado, D. Schleck, and M. Soltys, "Radiofrequency field surveys in hospitals," Proc. of IEEE 21st Annual Northeast Bioeng. Conf., 129-131, May 1995.

2. Bassen, H., P. Ruggera, J. Casamento, and D. Witters, "Sources of radiofrequency interference for medical devices in the non clinical environment," Proc. of the 16th Annual Int. Conf. of the IEEE EMBS, Vol. 2, 896-897, Nov. 1994.

3. Boyd, S. M., W. S. Boivin, J. N. Coletta, C. D. Harris, and L. M. Neunaber, "Documenting radiated electromagnetic field strength in the hospital environment," Journal of Clinical Eng., 124-132, Mar./Apr. 1999.

4. Davis, D., B. Segal, A. Cinquino, K. Hoege, R. Mastrocola, and T. Pavlasek, "Electromagnetic compatibility in hospital corridors," Proc. of IEEE Int. Symp. on Electromag. Compatibility, Vol. 1, 268-272, Aug. 1999.

5. Davis, D., B. Skulic, B. Segal, P. Vlach, and T. Pavlasek, "Hospital emergency room electromagnetic environment," Proc. of 19th International. Conf. IEEE/EMBS, Vol. 6, 2543-2546, Oct./Nov. 1997.

6. Phaiboon, S. and S. Somkuarnpanit, "Modeling and analysis the effect of radio-frequency fields in hospitals to the medical equipment," Proceedings of TENCON, Vol. 1, 92-95, Sep. 2000.

7. Schäfer, T., J. Maurer, J. Hagen, and W. Wiesbeck, "Experimental characterization of radio wave propagation in hospitals," IEEE Trans. on Electromagnetic Compatibility, Vol. 47, 304-311, May 2005.
doi:10.1109/TEMC.2005.847376

8. Vlach, P., B. Segal, and T. Pavlasek, "The measures & predicted electromagnetic environment at urban hospitals," Proc. of IEEE Int. Symposium on Electromagnetic Compatibility, 4-7, 1995.

9. Young, C., A. Saoudy, and S. Budwill, "EMI levels at a `patient care' location in a hospital," Proc. of IEEE CCECE, 625-628, 1997.

10. IEC 61000-4-3 Electromagnetic Compatibility (EMC) --- Part 4-3: Testing and Measurement Techniques-Radiated, Radio-frequency, Electromagnetic Field Immunity Test, 2.1 Ed., 107, Geneva, 2002.

11. ANSI Std. C63.2, , American National Standard for Electromagnetic Noise and Field Strength Instrumentation, 10 Hz to 40 GHz --- Specifications, Vol. 25, New York, 1996.

12. ISO/BIPM Guide to the Expression of Uncertainty in Measurements, 1 Ed., Geneva, 1993.