Method and system utilizing radio frequency for testing the electromagnetic shielding effectiveness of an electromagnetically shielded enclosure
First Claim
1. A method of continuously measuring the shielding effectiveness of an electromagnetically shielded enclosure, the method comprising the steps of:
- a) continuously transmitting a radio frequency (RF) signal through atmospheric free space at a predetermined frequency from a location remote from said electromagnetically shielded enclosure;
b) receiving said continuously transmitted RF signals by way of a reference receiver having its receiving antenna positioned outside of said enclosure, the signals received by said reference receiver being reference signals;
c) receiving said continuously transmitted RF signals by way of an enclosure receiver positioned within said shielded enclosure, the signals received by said enclosure receiver being enclosure signals;
d) continuously computing the ratio, in a comparator, of the received reference signals versus the received enclosure signals, these ratios being indicative of the shielding effectiveness of the electromagnetic shield of said enclosure; and
e) determining the electromagnetic shielding effectiveness by analyzing said computed ratios.
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Accused Products
Abstract
A system and method for continuously monitoring the shielding effectivenessf an electromagnetically shielded enclosure is disclosed including an RF transmitter positioned remote from the shielded enclosure. RF signals emitted from the remotely positioned transmitter are received by both an enclosure receiver positioned inside of the enclosure and simultaneously by a reference receiver having its antenna positioned outside of the shielded enclosure. These two received signals are mixed so as to produce IF signals which are subsequently forwarded to a synchronous detector which determines the ratio of the two signal levels by comparing their strengths. This ratio is indicative of the enclosure'"'"'s electromagnetic shielding effectiveness. If the effectiveness drops below a predetermined or threshold limit, such is determined by a comparator positioned within the enclosure and an alarm may be sounded so as to indicate that the shield is failing. Accordingly, the effectiveness of the electromagnetic shield may be monitored twenty-four hours a day. It is also noted that the remotely positioned transmitter may be that of an existing radio station according to certain embodiments of this invention.
63 Citations
6 Claims
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1. A method of continuously measuring the shielding effectiveness of an electromagnetically shielded enclosure, the method comprising the steps of:
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a) continuously transmitting a radio frequency (RF) signal through atmospheric free space at a predetermined frequency from a location remote from said electromagnetically shielded enclosure; b) receiving said continuously transmitted RF signals by way of a reference receiver having its receiving antenna positioned outside of said enclosure, the signals received by said reference receiver being reference signals; c) receiving said continuously transmitted RF signals by way of an enclosure receiver positioned within said shielded enclosure, the signals received by said enclosure receiver being enclosure signals; d) continuously computing the ratio, in a comparator, of the received reference signals versus the received enclosure signals, these ratios being indicative of the shielding effectiveness of the electromagnetic shield of said enclosure; and e) determining the electromagnetic shielding effectiveness by analyzing said computed ratios. - View Dependent Claims (2, 3, 4, 5)
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6. A system for continuously monitoring the shielding effectiveness of an electromagnetically shielded enclosure, the system comprising:
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an electromagnetically shielded enclosure; a radio frequency (RF) transmitter located remote from said shielded enclosure for continuously broadcasting RF signals through atmospheric free space at a predetermined frequency; a reference receiver, located in or adjacent said shielded enclosure, for continuously receiving said broadcast RF signals by way of an antenna positioned outside of said shielded enclosure, the signals received by said reference receiver being reference signals; an enclosure receiver located within said shielded enclosure for continuously receiving said broadcast RF signals by way of an antenna also located inside of said shielded enclosure, the signals received by said enclosure receiver being enclosure signals; at least one oscillator located within said shielded enclosure for controlling both receivers'"'"' LDs signals and said received enclosure signals thereby producing reference IF signals and enclosure IF signals; and a synchronous detector located within said shielded enclosure for continuously determining the ratio of said reference IF signals versus said enclosure IF signals, said continuously determined ratios being indicative of the shielding effectiveness of said electromagnetically shielded enclosure.
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Specification