Photonic field probe and calibration means thereof
First Claim
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1. An optical field probe for measuring an electromagnetic field comprising:
- probe head means for converting said electromagnetic field into modulated light signals;
detector transport means connected to probe head means for transporting said modulated light signals to a location remote from said light modulating means;
output means for receiving said transported modulated light signals and converting said modulated light signals into electrical output signals representing said electromagnetic fields; and
calibration means for determining a relationship between said electrical output signals and said electromagnetic field while the field probe is measuring said electromagnetic field.
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Abstract
A photonic radio-frequency (RF) field probe for detecting and measuring RF fields incorporates a probe head, a fiber cable and a photodetector/power-laser unit. An antenna drives a small, fiber-coupled laser, biased by a fiber-coupled optical power converter through series resistors, together with electrical connections and supporting apparatus. Methods of calibration include use of a reference oscillator in the probe head, use of the relationship between optical power sent to the optical power converter and resulting photodetector signal, and measurement of signal-fiber attenuation from light reflected by the laser in the probe head. Other probe embodiments utilize a reflective multiple quantum well modulator and embodiments which measure all three directional components of the RF field.
154 Citations
17 Claims
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1. An optical field probe for measuring an electromagnetic field comprising:
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probe head means for converting said electromagnetic field into modulated light signals;
detector transport means connected to probe head means for transporting said modulated light signals to a location remote from said light modulating means;
output means for receiving said transported modulated light signals and converting said modulated light signals into electrical output signals representing said electromagnetic fields; and
calibration means for determining a relationship between said electrical output signals and said electromagnetic field while the field probe is measuring said electromagnetic field. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
an electrical signal generator for generating an electrical signal; and
means for supplying electrical power to said electrical signal generator.
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4. An optical field probe according to claim 3 wherein means for supplying electrical power comprises:
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a light-source means for supplying a light; and
a power-converter means for converting said light into electrical power and for providing said electrical power to said electrical signal generator.
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5. An optical field probe according to claim 3 further comprising:
electrical network means for applying the electrical signal from said electrical signal generator without substantially affecting the relationship between said output signals and said electromagnetic fields.
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6. An optical field probe according to claim 1 further comprising:
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means for detecting a change in said relationship between said output signals and said electromagnetic fields; and
means for correcting said output signals in response to a change detected by said means for detecting a change.
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7. An optical field probe according to claim 1 wherein said probe head means further comprises:
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means for generating a light located remote from said probe head means for generating light energy;
power conversion means associated with said probe head means for converting said light energy into DC electrical power to power said probe head means; and
connecting means linking said light source means and said power conversion means for transporting said light energy from said light source means to said power conversion means.
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8. An optical field probe according to claim 7 further comprising means of monitoring changes in said relationship between said output signals and said electromagnetic fields comprising:
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means of providing an accurately known variation of the light generated by said light source means;
means of measuring changes in said output signals due to said variation of the light generated; and
data relating changes in said output signals to said relationship between said output signals and said electromagnetic fields.
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9. An optical field probe according to claim 1 further comprising:
means for supplying power for biasing said light modulation means, comprising a separate light-source means for supplying a light, and a power-converter means for converting said light into electrical power for biasing said light modulation means.
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10. An optical field probe according to claim 9 wherein said calibration means comprises:
internal calibration means for detecting the relationship between said output signals and said electromagnetic fields in the absence of motion of said optical field probe and in the absence of calibrated electromagnetic field signals.
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11. An optical field probe according to claim 10 wherein said internal calibration means comprises a calibration signal means connected to said light-source means.
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12. An optical field probe according to claim 11 wherein said calibration means comprises an electrical signal generator.
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13. An optical field probe according to claim 12 in which electrical power for said electrical signal generator is provided by light comprising:
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a separate light-source means for supplying said light to power said electrical signal generator;
a power-converter means for converting said light into electrical power for said electrical signal generator.
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14. An optical field probe according to claim 13 further comprising:
electrical network means for the purpose of applying the signal from said electrical signal generator to said light-source means without substantially affecting the relationship between said output signals and said electromagnetic fields.
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15. An optical field probe according to claim 14 further comprising compensation means by which said output signals are corrected in response to changes in said relationship between said output signals and said electromagnetic fields.
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16. An optical field probe according to claim 15 further comprising means of monitoring changes in said relationship between said output signals and said electromagnetic fields comprising:
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means of providing an accurately known variation of the light modulation provided by said light modulation means;
means of measuring changes in said output signals due to said variation of the light modulation; and
data relating said changes in said output signals to said relationship between said output signals and said electromagnetic fields.
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17. An optical field probe according to claim 1 wherein said probe head means further comprises:
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light source means remote from said probe head means for generating light energy;
power conversion means associated with said probe head means for converting said light energy into DC electrical power to power said probe head means; and
connecting means for linking said light source means and said power conversion means and for transporting said light energy from said light source means to said power conversion means.
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Specification
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Current AssigneeRichard S. Smith III
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Original AssigneeRichard S. Smith III
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InventorsSmith, Richard S. III
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Primary Examiner(s)Metjahic, Safet
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Assistant Examiner(s)Deb, Anjan K
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Application NumberUS09/121,877Time in Patent Office991 DaysField of Search324/95, 324/96, 324/753, 324/601, 359/245, 359/251, 359/109, 359/195, 359/248, 359/154, 359/189, 359/159, 359/152, 250/227.17US Class Current324/95CPC Class CodesG01R 1/06772 High frequency probesG01R 35/00 Testing or calibrating of a...
