Antenna-coupled-into-rectifier infrared sensor elements and infrared sensors

US 7,679,057 B2
Filed: 10/30/2007
Issued: 03/16/2010
Est. Priority Date: 10/30/2007
Status: Active Grant

First Claim

Patent Images

1. An infrared sensor element comprising:

a plurality of antennas responsive to infrared radiation, the plurality of antennas having outputs, the plurality of antennas collectively having a beam width and beam angle, wherein the beam width and beam angle conform to an optical exit pupil of an optical system in which the infrared sensor element is positioned; and

a junction diode rectifier coupled to the outputs of the plurality of antennas, the junction diode rectifier configured to convert alternating current induced in the antennas by incident infrared radiation into a rectified signal, the rectified signal corresponding to a magnitude of the incident infrared radiation impinging the antennas.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

An infrared sensor element having an antenna coupled directly into a rectifier. Infrared radiation impinging the antenna induces an alternating current. The rectifier converts the alternating current into a rectified signal. The rectified signal corresponds to a magnitude of the incident infrared radiation impinging the antenna, and can be used for detection and imaging operations. Coupling the antenna directly into the rectifier eliminates the need for a photodetector. The wavelength of sensor elements can be separately tuned. A sensor made up of a plurality of such sensor elements can operate in a time-division multiplexed mode sensing different infrared bandwidths in separate time segments. Two or more sensors each made up of a plurality of sensor elements can be co-located in a single focal plane and operated separately to detect infrared radiation in different bandwidths. A sensor element can also operate in bandwidths other than infrared.

21 Citations

View as Search Results

20 Claims

1. An infrared sensor element comprising:
- a plurality of antennas responsive to infrared radiation, the plurality of antennas having outputs, the plurality of antennas collectively having a beam width and beam angle, wherein the beam width and beam angle conform to an optical exit pupil of an optical system in which the infrared sensor element is positioned; and
  
  a junction diode rectifier coupled to the outputs of the plurality of antennas, the junction diode rectifier configured to convert alternating current induced in the antennas by incident infrared radiation into a rectified signal, the rectified signal corresponding to a magnitude of the incident infrared radiation impinging the antennas.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The infrared sensor element of claim 1, wherein the junction diode rectifier comprises at least a Schottky diode.
  - 3. The infrared sensor element of claim 1, wherein the junction diode rectifier comprises at least a Mott diode.
  - 4. The infrared sensor element of claim 1, wherein the junction diode rectifier comprises a half-wave rectifier.
  - 5. The infrared sensor element of claim 1, wherein the junction diode rectifier comprises a full-wave rectifier.
  - 6. The infrared sensor element of claim 1, the infrared sensor element having a wavelength response, the infrared sensor element further comprising:
    - a tuning circuit configured to tune the wavelength response of the infrared sensor element.
  - 7. The infrared sensor element of claim 6, wherein the tuning circuit comprises at least a varactor.
  - 8. The infrared sensor element of claim 1, the infrared sensor element further comprising:
    - a low noise amplifier circuit coupled to an output of the junction diode rectifier.

9. An infrared sensor comprising:
- a plurality of infrared sensor elements, each of the plurality of sensor elements comprising;
  
  a plurality of antennas responsive to infrared radiation, the plurality of antennas having outputs, the plurality of antennas collectively having a beam width and beam angle, wherein the beam width and beam angle are configured to conform to an optical exit pupil of an optical system in which the infrared sensor element is positioned;
  
  a junction diode rectifier coupled to the outputs of the plurality of antennas, the junction diode rectifier configured to convert alternating current induced in the antennas by incident infrared radiation into a rectified signal, the rectified signal corresponding to a magnitude of the incident infrared radiation impinging the antennas; and
  
  a multiplexing circuit coupled to the infrared sensor elements, the multiplexing circuit configured to combine the signals generated in the infrared sensor elements by impinging infrared radiation into a serial signal.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
- - 10. The infrared sensor of claim 9, wherein the junction diode rectifiers of the infrared sensor elements comprise at least Schottky diodes.
  - 11. The infrared sensor of claim 9, wherein the junction diode rectifiers of the infrared sensor elements comprise at least Mott diodes.
  - 12. The infrared sensor of claim 9, wherein the junction diode rectifiers of the plurality of infrared sensor elements comprise half-wave rectifiers.
  - 13. The infrared sensor of claim 9, wherein the junction diode rectifiers of the plurality of infrared sensor elements comprise full-wave rectifiers.
  - 14. The infrared sensor of claim 9, the infrared sensor elements having a wavelength response, the infrared sensor elements further comprising:
    - tuning circuits configured to tune the wavelength response of the infrared sensor element.
  - 15. The infrared sensor of claim 14, wherein the tuning circuits comprise at least varactors.
  - 16. The infrared sensor of claim 14 further comprising a time division multiplexing circuit configured to control the tuning circuits during each of at least two time segments, wherein during the time segments the sensor elements are tuned to different infrared wavebands.

17. An infrared sensor comprising:
- at least two arrays of sensor elements, the at least two arrays of sensor elements physically coincident, but each of the at least two arrays operating as separate sensors, each of the at least two arrays of sensor elements further comprising;
  
  a plurality of sensor elements, each of the sensor elements comprising;
  
  a plurality of antennas responsive to infrared radiation, the plurality of antennas having outputs, the antennas collectively having a beam width and beam angle, wherein the beam width and beam angle are configured to conform to an optical exit pupil of an optical system in which the infrared sensor element is positioned;
  
  a junction diode rectifier coupled to the outputs of the plurality of antennas, the junction diode rectifier configured to convert alternating current induced in the antennas by incident infrared radiation into a rectified signal, the rectified signal corresponding to a magnitude of the incident infrared radiation impinging the antennas, wherein the junction diode rectifier is configured to be connected directly to signal processing circuitry; and
  
  a multiplexing circuit coupled to the infrared sensor elements, the multiplexing circuit combining the signals generated in the infrared sensor elements by impinging infrared radiation into a serial signal.
- View Dependent Claims (18)
- - 18. The infrared sensor of claim 17 wherein each of the arrays of infrared sensors are adapted to operate in different infrared bandwidths.

19. A sensor element comprising:
- a tunable antenna responsive to radiation spanning from infrared to ultra-high frequency microwave, the tunable antenna having an output; and
  
  a junction diode rectifier directly coupled to the output of the tunable antenna, the junction diode rectifier configured to convert alternating current induced in the tunable antenna by incident radiation corresponding to a frequency spanning infrared to ultra-high microwave frequencies into a rectified signal, the rectified signal corresponding to a magnitude of the incident radiation impinging the tunable antenna, wherein the sensor element is configured to operate without cooling.

20. A sensor comprising:
- a plurality of sensor elements, each of the plurality of sensor elements comprising;
  
  a tunable antenna responsive to radiation spanning from infrared to ultra-high frequency microwave, the tunable antenna having an output;
  
  a junction diode rectifier directly coupled to the output of the tunable antenna, the junction diode rectifier configured to convert alternating current induced in the tunable antenna by incident radiation corresponding to a frequency spanning infrared to ultra-high microwave frequencies into a rectified signal, the rectified signal corresponding to a magnitude of the incident radiation impinging the tunable antenna; and
  
  a multiplexing circuit coupled to the sensor elements, the multiplexing circuit configured to combine signals generated in the sensor elements by the incident radiation into a serial signal, wherein the sensor is configured to operate without cooling.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Raytheon Company (Rtx Corporation)
Original Assignee
Raytheon Company (Rtx Corporation)
Inventors
Wellman, William H., Hernandez, Rafael, Gritz, Michael A.
Primary Examiner(s)
Hannaher; Constantine

Application Number

US11/978,880
Publication Number

US 20090108202A1
Time in Patent Office

868 Days
Field of Search

250/338.1
US Class Current

250/338.1
CPC Class Codes

G01J 5/08   Optical arrangements

G01J 5/0837   Microantennas, e.g. bow-tie

G01J 5/10   using electric radiation de...

Antenna-coupled-into-rectifier infrared sensor elements and infrared sensors

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

21 Citations

20 Claims

Specification

Solutions

Use Cases

Quick Links

Antenna-coupled-into-rectifier infrared sensor elements and infrared sensors

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

21 Citations

20 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links