Doppler microwave sensor

US 5,563,617 A
Filed: 07/29/1994
Issued: 10/08/1996
Est. Priority Date: 07/31/1993
Status: Expired due to Term

First Claim

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1. A Doppler microwave sensor, comprising:

a mixer stage having an output;

a signal processing stage following the mixer stage, the signal processing stage including a signal amplifying means for amplifying a signal from the output of the mixer stage, a filtering means for filtering out signals other than a wanted low-frequency Doppler signal at an output of the signal amplifying means, a rectifying means fed from the filtering means, and a comparator means fed from the rectifying means, the comparator means being arranged to provide a sensor output signal when the signal at its input exceeds a given threshold;

the mixer stage and the signal processing stage being mounted on a printed circuit board having first and second faces, the first face having disposed thereon conductive tracks for the mounting of component parts of the mixer stage and the signal processing stage on the board, and the second face having disposed thereon a ground plane having defined therein a slot antenna which is coupled to the mixer stage; and

an electrically conductive enclosure which is electrically connected to the ground plane, the enclosure being disposed behind the slot antenna and enclosing the component parts of the mixer stage and the signal processing stage.

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Abstract

A Doppler microwave sensor for a vehicle alarm employs a mixer stage and a signal-processing stage on a printed circuit board, the printed circuit board having a ground plane containing a slot antenna which is coupled to the mixer stage. The ground plane is electrically connected to an electrically conductive enclosure which is disposed behind the slot antenna and encloses the component parts of the mixer and signal-processing stages. A dielectric lens may be placed over the slot antenna to provide a transmission beam pattern which is configured to the vehicle in which the sensor is to be used. In a preferred embodiment, the mixer stage is based arounda self-oscillating mixer arrangement in which the active element is a bipolar transistor and a single antenna is employed both to transmit the oscillator signal and to receive the Doppler-shifted return signal.

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11 Claims

1. A Doppler microwave sensor, comprising:
- a mixer stage having an output;
  
  a signal processing stage following the mixer stage, the signal processing stage including a signal amplifying means for amplifying a signal from the output of the mixer stage, a filtering means for filtering out signals other than a wanted low-frequency Doppler signal at an output of the signal amplifying means, a rectifying means fed from the filtering means, and a comparator means fed from the rectifying means, the comparator means being arranged to provide a sensor output signal when the signal at its input exceeds a given threshold;
  
  the mixer stage and the signal processing stage being mounted on a printed circuit board having first and second faces, the first face having disposed thereon conductive tracks for the mounting of component parts of the mixer stage and the signal processing stage on the board, and the second face having disposed thereon a ground plane having defined therein a slot antenna which is coupled to the mixer stage; and
  
  an electrically conductive enclosure which is electrically connected to the ground plane, the enclosure being disposed behind the slot antenna and enclosing the component parts of the mixer stage and the signal processing stage.
- View Dependent Claims (2, 3, 5, 6, 7)
- - 2. A Doppler microwave sensor, as claimed in claim 1, in which a microwave lens comprising an area of dielectric material is disposed over the slot antenna to modify the beam pattern of the slot antenna.
  - 3. A Doppler microwave sensor, as claimed in claim 2, in which the dielectric lens comprises a series of chevrons situated one behind the other along an axis substantially perpendicular to a longitudinal axis of the slot antenna and substantially bisecting that longitudinal axis, those chevrons being incomplete which come to a virtual point outside the area occupied by the lens, the chevrons being formed by raised portions of the material composing the lens.
  - 5. A Doppler microwave sensor, as claimed in claim 1, in which the comparator means comprises a diode pump for providing a weighted sensor output signal.
  - 6. A Doppler microwave sensor, as claimed in claim 1 or claim 4, in which the mixer stage is a mixer arrangement comprising a self-oscillating mixer stage and an antenna connected to the self-oscillating mixer stage, the antenna serving both as a transmit antenna and as a receive antenna, the self-oscillating mixer stage comprising a bipolar transistor roving a base, a collector and an emitter, and comprising first and second potential levels and a reference potential level, the collector of the transistor being coupled to the first potential level by means of a first inductance and to the reference potential level by means of a first capacitance and at ceramic resonator in series, the base of the transistor being coupled by means of a second inductance to the mid-point of a bias potential divider connected between the first and second potential levels, and the emitter of the transistor being coupled to the second potential level by means of a resistance and a second capacitance in parallel, the antenna being coupled to the emitter, and the output of the mixer arrangement being taken from the emitter or collector of the transistor.
  - 7. A vehicle comprising a Doppler microwave sensor as claimed in claim 1 or claim 4.

4. A Doppler microwave sensor, comprising:
- a mixer stage and a signal processing stage following the mixer stage, the mixer stage and the signal processing stage being mounted on a printed circuit board, the printed circuit board having a ground plane, in which is defined a slot antenna coupled to the mixer stage and to which an electrically conductive enclosure is electrically connected, the enclosure being disposed behind the slot antenna and enclosing the component parts of the mixer stage and signal processing stage, a microwave lens comprising an area of dielectric material being disposed over the slot antenna to modify the beam pattern of the slot antenna, the dielectric lens comprising a series of chevrons situated one behind the other along an axis substantially perpendicular to a longitudinal axis of the slot antenna and substantially bisecting the longitudinal axis, those chevrons being incomplete which come to a virtual point outside the area occupied by the lens, the chevrons being formed by raised portions of the material composing the lens, the signal processing stage comprising a signal-amplifying means for amplifying the signal from the output of the mixer stage, a filtering means for filtering out signals other than a wanted low-frequency Doppler signal at an output of the amplifying means, a rectifying means fed from the filtering means and comparator means fed from the rectifying means, the comparator means being arranged to provide a sensor output signal when the signal at its input exceeds a given threshold.

8. A mixer arrangement, comprising:
- a self-oscillating mixer stage and an antenna connected to the self-oscillating mixer stage, the antenna serving both as a transmit antenna and as a receive antenna, the self-oscillating mixer stage comprising a bipolar transistor having a base, a collector and an emitter, and comprising first and second potential levels and a reference potential level, the collector of the transistor being coupled to the first potential level by means of a first inductance and to the reference potential level by means of a first capacitance and a ceramic resonator in series, the base of the transistor being coupled by means of a second inductance to the mid-point of a bias potential divider connected between the first and second potential levels, a lower half of the potential divider comprising a series-connected diode for the compensation of variations in the base-emitter voltage of the transistor with temperature, and the emitter of the transistor being coupled to the second potential level by means of a resistance and a second capacitance in parallel, the antenna being coupled to the emitter, and the output of the mixer arrangement being taken from the emitter or collector of the transistor.

9. A mixer arrangement, comprising:
- a self-oscillating mixer stage and an antenna connected to the self-oscillating mixer stage, the antenna sewing both as a transmit antenna and as a receive antenna, the self-oscillating mixer stage comprising a bipolar transistor having a base, a collector and an emitter, and comprising first and second potential levels and a reference potential level, the collector of the transistor being coupled to the first potential level by means of a first inductance and to the reference potential level by means of a first capacitance and a ceramic resonator in series, the base of the transistor being coupled by means of a second inductance to the mid-point of a bias potential divider connected between the first and second potential levels, and the emitter of the transistor being coupled to the second potential level by means of a resistance and a second capacitance in parallel, the antenna being coupled to the emitter, and the output of the mixer arrangement being taken from the emitter or collector of the transistor.
- View Dependent Claims (10, 11)
- - 10. A mixer arrangement as claimed in claim 9, in which the self-oscillating mixer stage comprises a diode means for compensating for variations in the base-emitter voltage of the transistor with temperature, the diode means being connected in series with a lower half of the bias potential divider.
  - 11. A mixer arrangement, as claimed in claim 8 or claim 10, in which the reference potential level and the first or second potential level are substantially the same.

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Current Assignee
E2V Technologies PLC
Original Assignee
Plessey Semiconductors Limited (Plessey Group Holdings Ltd.)
Inventors
Blunden, Peter P., Redfern, Stephen W., Tyson, Paul A.
Primary Examiner(s)
Hajec, Donald T.
Assistant Examiner(s)
Wigmore, Steven

Application Number

US08/283,022
Time in Patent Office

802 Days
Field of Search

343/702, 343/711, 343/713, 343/767, 343/909, 343/910, 343/911 R, 455/129, 455/280, 455/281, 455/291, 455/293
US Class Current

343/767
CPC Class Codes

G01S 13/56   for presence detection pres...

G01S 7/032   Constructional details for ...

H01Q 1/247   with frequency mixer, e.g. ...

H03D 7/12   by means of semiconductor d...

Doppler microwave sensor

First Claim

11 Assignments

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Abstract

31 Citations

11 Claims

Specification

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Doppler microwave sensor

First Claim

11 Assignments

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0 Petitions

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Accused Products

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Abstract

31 Citations

11 Claims

Specification

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Use Cases

Quick Links

Others