Fiber optical measuring device with compensating properties
First Claim
1. A fiber optical measuring device, comprising in combination:
- (a) a fiber optical transmission line having an input end and an output end for transmitting light therebetween;
(b) means for generating a first light beam having a first wavelength;
(c) means for generating a second light beam having a second wavelength differing from said first wavelength;
(d) means for directing said first and second light beam into said input end of said transmission line, said first and said second light beam thereby being transmitted from said input end to said output end of said transmission line;
(e) a first mirror associated with said output end for passing at least a portion of said transmitted second light beam therethrough and for reflecting at least a portion of said transmitted first light beam back into said transmission line, the reflected first light beam thereby being transmitted from said output end to said input end thereof;
(f) a sensor associated with said output end for measuring a physical parameter, for receiving said second light beam and returning a portion of said second beam dependent upon the physical parameter back into said output end of said transmission line;
(g) an optical device arranged with said input end for separating the reflected portion of said first light beam from the returned portion of said second light beam;
(h) a first optical detector exposed to light from said optical device for transforming said reflected first light beam portion into a first electric signal;
(i) a second optical detector exposed to light from said optical device for transforming said returned second light beam portion into a second electric signal; and
(j) a signal processor for determining the ratio between said second and first electric signals, said ratio indicating the value of the physical parameter to be measured.
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Accused Products
Abstract
The fiber optical measuring device contains a fiber optical transmission line into whose input end are directed a first and a second light beam. Both light beams have wavelengths differing from each other. Associated with the output end of the transmission line is a mirror. This mirror passes the transmitted second light beam therethrough and reflects the transmitted first light beam back into the transmission line. Associated with the output end is also a sensor for measuring a physical parameter. This sensor receives the second light beam and returns a portion thereof back into the output end. This portion depends on the parameter to be measured. Arranged at the input end of the transmission line is an optical device which separates the reflected portion of the first light beam from the returned portion of the second light beam. A first optical detector transforms the first light beam portion into a first electric signal, and a second optical detector transforms the second light beam portion into a second electric signal. A signal processor determines the ratio between the second and the first electric signals. This ratio indicates the value of the physical parameter to be measured.
57 Citations
13 Claims
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1. A fiber optical measuring device, comprising in combination:
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(a) a fiber optical transmission line having an input end and an output end for transmitting light therebetween; (b) means for generating a first light beam having a first wavelength; (c) means for generating a second light beam having a second wavelength differing from said first wavelength; (d) means for directing said first and second light beam into said input end of said transmission line, said first and said second light beam thereby being transmitted from said input end to said output end of said transmission line; (e) a first mirror associated with said output end for passing at least a portion of said transmitted second light beam therethrough and for reflecting at least a portion of said transmitted first light beam back into said transmission line, the reflected first light beam thereby being transmitted from said output end to said input end thereof; (f) a sensor associated with said output end for measuring a physical parameter, for receiving said second light beam and returning a portion of said second beam dependent upon the physical parameter back into said output end of said transmission line; (g) an optical device arranged with said input end for separating the reflected portion of said first light beam from the returned portion of said second light beam; (h) a first optical detector exposed to light from said optical device for transforming said reflected first light beam portion into a first electric signal; (i) a second optical detector exposed to light from said optical device for transforming said returned second light beam portion into a second electric signal; and (j) a signal processor for determining the ratio between said second and first electric signals, said ratio indicating the value of the physical parameter to be measured. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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Specification
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- Resources
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Current AssigneeSiemens Corp. (Siemens AG)
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Original AssigneeSiemens Corp. (Siemens AG)
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InventorsKlement, Ekkehard, Ruell, Hartwig
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Primary Examiner(s)Nelms, David C.
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Application NumberUS06/217,452Time in Patent Office678 DaysField of Search250/226, 250/227, 250/205, 350/96.1, 350/96.24US Class Current250/227.23CPC Class CodesG01D 5/268 using optical fibres G01D5/...G01D 5/30 the beams of light being de...
