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Journal Article
Shielding Effectiveness Measurement With Wide Dynamic Range for a Small Enclosure in a Nested Reverberation Chamber
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- Authors
- Jung-Hwan Hwang, Hyun Ho Park, Chang Hee Hyoung, Jong Hwa Kwon
- Issue Date
- 2021-10
- Citation
- IEEE Transactions on Electromagnetic Compatibility, v.63, no.5, pp.1407-1416
- ISSN
- 0018-9375
- Publisher
- IEEE
- Language
- English
- Type
- Journal Article
- Abstract
- For a small shielding enclosure, its shielding effectiveness (SE) is measured using the frequency-domain method that is defined in the IEEE 299.1 standard. The frequency-domain method, however, has a reduced dynamic range so that a high level of SE is measured inaccurately. Such dynamic range reduction in SE measurement is caused by cable coupling of transmitting signal during measurement. This article proposes a time-domain method that measures even a high level of SE accurately. Unlike the frequency-domain method, the proposed method does not experience dynamic range reduction. Instead of a continuous wave signal, a pulse signal is transmitted in a nested reverberation chamber for SE measurement. After the pulse transmission, a receiving signal is measured and sampled for the SE calculation. The receiving signal is sampled only after the transmitting pulse signal dissipates completely in the nested reverberation chamber. As a result, the cable coupling and dynamic range reduction do not occur in proposed time-domain method. The proposed time-domain method extends a dynamic range over 30 dB in comparison with the frequency-domain method. The proposed method can measure a high level of SE over 120 dB accurately without being affected by the cable coupling.
- KSP Keywords
- Frequency-domain method, IEEE 299, Nested reverberation chamber, Pulse transmission, Shielding effectiveness measurement, Small enclosure, cable coupling, continuous wave(CW), dynamic range reduction, frequency domain(FD), pulse signal