Electromagnetic wave, reflective type, low cost, active proximity sensor for harsh environments

US 5,905,380 A
Filed: 04/26/1996
Issued: 05/18/1999
Est. Priority Date: 05/08/1995
Status: Expired due to Term

First Claim

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1. An electromagnetic wave, reflective type, active proximity sensor, which comprises:

a transmitter for transmitting radiated energy to a target, the transmitter including an oscillator circuit, the oscillator circuit generating a signal which is radiated by the transmitter to the target; and

a receiver, the receiver including first and second waveguides and first and second detectors respectively coupled to the first and second waveguides, the first and second waveguides receiving radiated energy reflected from the target and providing the radiated energy to the first and second detectors, respectively, each of the first and second detectors generating an output signal which corresponds to the radiated energy received by the first and second waveguides, the receiver further including a summer, the summer being coupled to the first and second detectors and being responsive to the output signals of the first and second detectors, the summer generating an output signal corresponding to the sum of the output signals of the first and second detectors;

wherein the first and second waveguides are positioned with respect to each other in different spatial locations in order to substantially provide that at least one of the first and second detectors, respectively coupled to the first and second waveguides, will detect a portion of the radiated energy reflected from the target; and

wherein the first and second waveguides of the receiver are positioned to have different Z coordinates with respect to each other.

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Abstract

An electromagnetic, reflective type, active proximity sensor includes a transmitter, the transmitter including a voltage controlled oscillator circuit, a transmitter circular waveguide and a transmitter polarization circuit. The voltage controlled oscillator circuit generates an output signal which is modulated such that the frequency of the output signal varies over time between a range of frequencies. The frequency varying, output signal is provided to the transmitter circular waveguide and propagated to the transmitter polarization circuit where it is circularly polarized in a first circular direction. The circularly polarized, frequency varying, output signal is radiated by the transmitter to the target, where it strikes the target and reflects back toward the sensor to form return signals. The return signals, upon being reflected, rotate in a second circular direction opposite to the first circular direction. The return signals also respectively exhibit one of the frequencies corresponding to the range of frequencies associated with the circularly polarized, frequency varying, output signal. The active proximity sensor also includes a receiver, the receiver including a receiver circular waveguide, a receiver polarization circuit and a detector. The receiver circular waveguide receives the return signals reflected from the target and the receiver polarization circuit circularly de-polarizes the return signals. Next, the detector receives and averages the return signals and generates an output signal which corresponds to the return signals. The active proximity sensor also includes an analog processor/driver circuit for processing the output signal provided by the detector.

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8 Claims

1. An electromagnetic wave, reflective type, active proximity sensor, which comprises:
- a transmitter for transmitting radiated energy to a target, the transmitter including an oscillator circuit, the oscillator circuit generating a signal which is radiated by the transmitter to the target; and
  
  a receiver, the receiver including first and second waveguides and first and second detectors respectively coupled to the first and second waveguides, the first and second waveguides receiving radiated energy reflected from the target and providing the radiated energy to the first and second detectors, respectively, each of the first and second detectors generating an output signal which corresponds to the radiated energy received by the first and second waveguides, the receiver further including a summer, the summer being coupled to the first and second detectors and being responsive to the output signals of the first and second detectors, the summer generating an output signal corresponding to the sum of the output signals of the first and second detectors;
  
  wherein the first and second waveguides are positioned with respect to each other in different spatial locations in order to substantially provide that at least one of the first and second detectors, respectively coupled to the first and second waveguides, will detect a portion of the radiated energy reflected from the target; and
  
  wherein the first and second waveguides of the receiver are positioned to have different Z coordinates with respect to each other.

2. An electromagnetic wave, reflective type, active proximity sensor, which comprisesa transmitter for transmitting radiated energy to a target, the transmitter including an oscillator circuit, the oscillator circuit generating a signal which is radiated by the transmitter to the target;
- anda receiver, the receiver including first and second waveguides and first and second detectors respectively coupled to the first and second waveguides, the first and second waveguides receiving radiated energy reflected from the target and providing the radiated energy to the first and second detectors respectively each of the first and second detectors generating an output signal which corresponds to the radiated energy received by the first and second waveguides, the receiver further including a summer, the summer being coupled to the first and second detectors and being responsive to the output signals of the first and second detectors, the summer generating an output signal corresponding to the sum of the output signals of the first and second detectors;
  
  wherein the first and second waveguides are positioned with respect to each other in different spatial locations in order to substantially provide that at least one of the first and second detectors, respectively coupled to the first and second waveguides, will detect a portion of the radiated energy reflected from the target; and
  
  wherein the first and second waveguides of the receiver are positioned to have the same Z coordinate with respect to each other, while the transmitter is positioned to have a different Z coordinate than the first and second waveguides.

3. An electromagnetic wave, reflective type, active proximity sensor which comprises:
- a transmitter for transmitting radiated energy to a target, the transmitter including a voltage controlled oscillator circuit, the voltage controlled oscillator circuit generating an output signal, the output signal being modulated such that the frequency of the output signal varies over time between a range of frequencies;
  
  a first circular waveguide, the first circular waveguide being coupled to the voltage controlled oscillator circuit and propagating the frequency varying, output signal generated by the voltage controlled oscillator circuit;
  
  a first polarization circuit, the first polarization circuit being coupled to the first circular waveguide, the first polarization circuit circularly polarizing, in a first circular direction, the frequency varying output signal generated by the voltage controlled oscillator circuit and propagated by the first circular waveguide, the circularly polarized, frequency varying, output signal being radiated by the transmitter, striking the target and reflecting back toward the proximity sensor to form return signals, the return signals rotating in a second circular direction opposite to the first circular direction;
  
  a receiver, the receiver including a second circular waveguide, the second circular waveguide receiving the return signals reflected from the target;
  
  a second polarization circuit, the second polarization circuit being coupled to the second circular waveguide and being responsive to signals polarized in the second circular direction; and
  
  a detector, the detector receiving the return signals from the second polarization circuit and generating an output signal which corresponds to the return signals.
- View Dependent Claims (4, 5, 6)
- - 4. An electromagnetic wave, reflective type, active proximity sensor as defined in claim 3, wherein the voltage controlled oscillator circuit discretely varies the output signal generated by the transmitter between at least two frequencies.
  - 5. An electromagnetic wave, reflective type, active proximity sensor as defined in claim 3, wherein the voltage controlled oscillator circuit sinusoidally varies the output signal generated by the transmitter between at least two frequencies.
  - 6. An electromagnetic wave, reflective type, active proximity sensor as defined in claim 3, wherein the transmitter further includes a transmitter probe, the transmitter probe being positioned within the first circular wave guide, the transmitter probe transforming the frequency varying, output signal generated by the voltage controlled oscillator circuit from a first signal mode to a second signal mode, the second signal mode being appropriate for propagating the frequency varying, output signal through the first circular waveguide, and wherein the receiver further includes a receiver probe, the receiver probe being positioned within the second circular wave guide, the receiver probe transforming the return signals reflected from the target from a first signal mode to a second signal mode, the second signal mode being appropriate for presenting the return signals to the detector, the transmitter probe being orthogonally positioned in the first circular waveguide of the transmitter relative to the position of the receiver probe positioned in the second circular wave guide of the receiver.

7. An electromagnetic wave, reflective type, active proximity sensor which comprises:
- a transmitter for transmitting radiated energy to a target, the transmitter including a voltage controlled oscillator circuit, the voltage controlled oscillator circuit generating an output signal, the output signal being modulated such that the frequency of the output signal varies over time between a range of frequencies, the frequency varying, output signal being radiated by the transmitter to the target; and
  
  a receiver, the receiver receiving return signals, the return signals corresponding to the radiated energy reflected from the target, the receiver including a detector, the detector averaging the return signals and generating an output signal which corresponds to the return signals, wherein a portion of the signal radiated by the transmitter to the target is received by the receiver in the form of a leakage signal; and
  
  which further comprises means for substantially eliminating the leakage signal radiated by the transmitter and received by the receiver.
- View Dependent Claims (8)
- - 8. An electromagnetic wave, reflective type, active proximity sensor as defined in claim 7, wherein the means for substantially eliminating the leakage signal comprises:
    - a beam splitter, the beam splitter being positioned between the transmitter and the target, the beam splitter being responsive to the radiated energy transmitted by the transmitter and generating a reflected signal portion and a transmitted signal portion, the reflected signal portion being reflected from the beam splitter to the proximity sensor and being approximately 180 degrees out of phase with the leakage signal received by the receiver, the transmitted signal portion being passed through the beam splitter to the target;
      
      wherein the receiver receives the transmitted signal portion reflected from the target and the reflected signal portion reflected from the beam splitter, and whereby the reflected signal portion substantially cancels the leakage signal, while the detector generates an output signal which corresponds to the transmitted signal portion reflected from the target.

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Current Assignee
Macc Co.
Original Assignee
Eaton Corp. (Wisconsin) (Eaton Corporation PLC.)
Inventors
Weiner, Scott M., Paczkowski, Henry C., Cohen, Leonard D., Zuercher, Joseph C.
Primary Examiner(s)
Ballato, Josie
Assistant Examiner(s)
VALONE, THOMAS F

Application Number

US08/633,191
Time in Patent Office

1,117 Days
Field of Search

324/771, 324/644, 324/642, 324/637, 342/128, 343/372, 343/777, 333/249, 340/532, 340/539
US Class Current

324/644
CPC Class Codes

G01S 13/04   Systems determining presenc...

G01S 7/02   of systems according to gro...

G01S 7/032   Constructional details for ...

G01V 8/005   operating with millimetre w...

Electromagnetic wave, reflective type, low cost, active proximity sensor for harsh environments

First Claim

3 Assignments

0 Petitions

Accused Products

Abstract

40 Citations

8 Claims

Specification

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Electromagnetic wave, reflective type, low cost, active proximity sensor for harsh environments

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

40 Citations

8 Claims

Specification

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Solutions

Use Cases

Quick Links