Fibreoptical sensor

US 5,053,693 A
Filed: 12/21/1990
Issued: 10/01/1991
Est. Priority Date: 12/22/1989
Status: Expired due to Fees

First Claim

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1. Fiberoptic sensor for measuring electrical fields or voltages, in whicha) a sensor fiber having a given length section is attached to at least one piezoelectric sensor element in such a manner that the electrical field to be measured leads to a change in length of the sensor fiber by means of the inverse piezoelectric effect,b) means for the interferometric detection of the change in length are provided andc) a piezoelectric modulator is provided which is driven in such a manner that the change in length of the sensor fiber induced by the electrical field to be measured is compensated, whereind) the piezoelectric modulator comprises at least one piezoelectric modulator element which is identical with the at least one sensor element with respect to material, geometric shape and crystal orientation,e) modulator element and sensor element are essentially at the same temperature, andf) separate means for operating point control are additionally provided.

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Abstract

In an interferometric fiberoptic sensor with homodyne detection for measuring electrical fields or voltages, the measurement signal is compensated separately from operating point control. The measurement signal originating from the electrical field is compensated in a piezoelectric modulator (5) which consists of modulator elements which are identical with the at least one sensor element (3) with respect to material, geometric shape and crystal orientation. Additional separate apparatus (4) with a sufficiently large phase swing are provided for operating point control. Modulator element and sensor element (3) are essentially at the same temperature so that the temperature-dependence of the matter constants of the sensor element and the temperature-dependence of the fiber interferometer are eliminated. The sensor preferably operates in accordance with the principle of a fiberoptic two-mode interferometer.

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10 Claims

1. Fiberoptic sensor for measuring electrical fields or voltages, in whicha) a sensor fiber having a given length section is attached to at least one piezoelectric sensor element in such a manner that the electrical field to be measured leads to a change in length of the sensor fiber by means of the inverse piezoelectric effect,b) means for the interferometric detection of the change in length are provided andc) a piezoelectric modulator is provided which is driven in such a manner that the change in length of the sensor fiber induced by the electrical field to be measured is compensated, whereind) the piezoelectric modulator comprises at least one piezoelectric modulator element which is identical with the at least one sensor element with respect to material, geometric shape and crystal orientation,e) modulator element and sensor element are essentially at the same temperature, andf) separate means for operating point control are additionally provided.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. Fiberoptic sensor as claimed in claim 1, wherein the means for the interferometric detection are based on the interference of two modes in a sensor fiber or are constructed in the manner of a Mach-Zehnder interferometer.
  - 3. Fiberoptic sensor as claimed in claim 1, wherein the at least one sensor element and the corresponding at least one modulator element are directionally sensitive.
  - 4. Fiberoptic sensor as claimed in claim 1, whereina) several modulator elements are provided,b) the modulator elements can be stacked to form a simple prismatic or cylindrical body, andc) are assembled to form a stack in which all modulator elements are connected in parallel.
  - 5. Fiberoptic sensor as claimed in claim 1, whereina) the modulator elements are disk-shaped and of monocrystalline quartz and exclusively detect one component of the electrical field which are parallel to a disk normal, andb) they are assembled to form a stack in such a manner that adjacent modulator elements have an oppositely identical orientation andc) electrodes for parallel driving of the modulator elements are provided between the modulator elements resting against one another.
  - 6. Fiberoptic sensor as claimed in claim 1, wherein the means for operating point control comprise a fiber stretcher, particularly a piezoceramic hollow cylinder.
  - 7. Fiberoptic sensor as claimed in claim 1, wherein the at least one sensor element and the modulator act on the same sensor fiber.
  - 8. Fiberoptic sensor as claimed in claim 1, wherein the interferometric means comprise a laser having a variable wavelength and the means for operating point control comprise a circuit for controlling the wavelength of the laser.
  - 9. Fiberoptic sensor as claimed in claim 1, whereina) a first PI controller having an upper cut-off frequency above a frequency of the electrical field to be measured is provided for driving the piezoelectric modulator,b) the means for operating point control comprise a second PI controller having an upper cut-off frequency below the said frequency andc) a reset circuit for resetting the second PI controller in accordance with a phase shift of a multiple of 2π
    - .

10. Process for measuring an electrical field or an electrical voltage, in whicha) light, which is conducted in a sensor fiber, is subjected to a phase shift due to a change in length of the sensor fiber induced by means of a piezoelectric sensor element,b) the phase shift is interferometrically detected, andc) is calibrated to zero in accordance with a control signal by means of a piezoelectric modulator acting on the sensor fiber, the intensity of the field or of the voltage, respectively, being determined from the control signal, whereind) modulator elements are used in the modulator which are identical with the piezoelectric sensor element with respect to material, geometric shape and crystal orientation,e) sensor and modulator elements are kept at the same temperature, andf) a separate operating point controller having a large phase swing is used for operating point control so that a dynamic range of at least +/- 2n is achieved.

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Current Assignee
Asea Brown Boveri Ltd (ABB Limited)
Original Assignee
Asea Brown Boveri Ltd (ABB Limited)
Inventors
Buser, Werner, Bohnert, Klaus
Primary Examiner(s)
Wieder, Kenneth A.
Assistant Examiner(s)
BURNS, WILLIAM

Application Number

US07/631,439
Time in Patent Office

284 Days
Field of Search

324/244, 324/244.1, 324/72, 324/72.5, 324/96, 250/227.14, 250/227.16, 250/227.19, 350/96.29
US Class Current

324/96
CPC Class Codes

G01R 15/248   using a constant light sour...

G01R 29/0885   using optical probes, e.g. ...

G01R 29/12   Measuring electrostatic fie...

Fibreoptical sensor

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Fibreoptical sensor

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Abstract

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