Micro motion sensor
First Claim
1. A microwave motion sensor for detecting multiple levels of motion of a target comprising:
- a transceiver for broadcasting a signal into a predetermined area and receiving a reflected signal for producing first and second directional signals;
a signal conditioning circuit for amplifying the first and second directional signals and digitizing the directional signals, said signal conditioning circuit including a micro motion amplifier for separately amplifying one of the directional signals and producing a micro motion signal;
a processor for receiving the first and second directional signals transmitted by the signal conditioning circuit, and for receiving the micro motion signal, said processor including means for comparing the first and second directional signals; and
means for analyzing the micro motion signal by digitizing the micro motion signal at a resolution greater than the first and second directional signals are digitized to produce a high resolution signal;
said processor defining a first mode in which motion is detected based on the first and second directional signals, and a second mode in which motion is detected based on the high resolution signal;
said processor automatically switching from the first mode to the second mode when motion is detected during the first mode.
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Accused Products
Abstract
A microwave motion sensor for detecting multiple levels of motion of a target is disclosed. The motion sensor includes a transceiver for broadcasting a signal into a predetermined area and receiving a reflected signal with a receiver for producing first and second directional signals. A signal conditioning circuit is provided for amplifying the first and second directional signals and digitizing the directional signals. The signal conditioning circuit includes a micro motion amplifier for separately amplifying one of the directional signals and producing a micro motion signal. A processor is provided for receiving the first and second directional signals transmitted by the signal conditioning circuit, and for receiving the micro motion signal. The processor includes a circuit for analyzing the directional signals, and a circuit for comparing the micro motion signal to a threshold. The processor is capable of adaptively switching between a first mode for detecting a threshold level of motion, a second mode for detecting a level of motion which is less than the threshold level of motion, and a third mode for detecting a level of motion which is greater than the threshold level of motion.
61 Citations
20 Claims
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1. A microwave motion sensor for detecting multiple levels of motion of a target comprising:
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a transceiver for broadcasting a signal into a predetermined area and receiving a reflected signal for producing first and second directional signals; a signal conditioning circuit for amplifying the first and second directional signals and digitizing the directional signals, said signal conditioning circuit including a micro motion amplifier for separately amplifying one of the directional signals and producing a micro motion signal; a processor for receiving the first and second directional signals transmitted by the signal conditioning circuit, and for receiving the micro motion signal, said processor including means for comparing the first and second directional signals; and means for analyzing the micro motion signal by digitizing the micro motion signal at a resolution greater than the first and second directional signals are digitized to produce a high resolution signal; said processor defining a first mode in which motion is detected based on the first and second directional signals, and a second mode in which motion is detected based on the high resolution signal; said processor automatically switching from the first mode to the second mode when motion is detected during the first mode. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A microwave motion sensor for detecting multiple levels of motion of a target comprising:
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a transceiver for broadcasting a microwave signal into a predetermined area and receiving a reflected signal with a two-channel receiver for producing first and second doppler signals, the doppler signals representing directional motion of the target within the predetermined area; a signal conditioning circuit having first and second circuits for amplifying the doppler signals and digitizing the doppler signals above a predetermined signal threshold level, the signal conditioning circuit including a micro motion amplifier having a frequency response lower than the first and second circuits for separately amplifying one of the doppler signals and producing an analog micro motion signal; a processor for receiving the doppler signals generated by the signal conditioning circuit, and for receiving the micro motion signal, said processor including means for comparing the relative phase of the first and second doppler signals, and an algorithm for analyzing the micro motion signal; the processor automatically switching between a first mode for detecting a first threshold level of motion, a second mode for detecting a second level of motion, the second level of motion being slower than the threshold level of motion, and a third mode for detecting a third level of motion, the third level of motion being faster than the threshold level of motion; and the algorithm evaluating the micro motion signal for maximum and minimum voltage values over a given time period and calculating a differential voltage value between the maximum and minimum voltage values, and the algorithm comparing the differential voltage value to a micro motion voltage threshold, wherein the second level of motion is detected when the differential voltage value is greater than the micro motion voltage threshold and the processor is operating in the second mode. - View Dependent Claims (13, 14, 15, 16)
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17. A method for detecting multiple levels of motion of a target within a predetermined area comprising the steps of:
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providing a microwave transceiver circuit for producing at least two phase-shifted doppler signals, and a micro motion signal in response to the motion of the target within the predetermined area; providing a processor for comparing the relative phases of the doppler signals, and comparing the micro motion signal to a predetermined threshold; said processor defining a first mode in which motion is detected based on the phase-shifted doppler signals, and a second mode in which motion is detected based on the micro motion signal; scanning in the first mode for a threshold level of motion of the target by analyzing the doppler signals; producing an event signal upon detecting the threshold level of motion; and automatically switching to the second mode for scanning for a second level of motion while the event signal is being produced, the second level of motion being less than the threshold level of motion. - View Dependent Claims (18, 19)
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20. A microwave motion sensor for detecting multiple levels of motion of a target and operating an automatic door in response to motion of said target, said microwave motion sensor comprising:
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a transceiver for broadcasting a microwave signal into a predetermined area associated with the automatic door and receiving a signal reflected from the target with a two-channel receiver for producing first and second doppler signals, the doppler signals representing directional motion of the target within the predetermined area; a signal conditioning circuit having first and second amplifier circuits for amplifying the doppler signals and first and second comparator circuits for digitizing the doppler signals; a micro motion amplifier for receiving one of the first and second doppler signals, the micro motion amplifier having a frequency response which is lower than the frequency response of the first and second amplifier circuits for separately amplifying one of the doppler signals and producing an analog micro motion signal; a processor defining a first detection mode in which motion is detected based on the doppler signals generated by the signal conditioning circuit, and a second detection mode in which motion is detected based on the analog micro motion signal; said processor including a first algorithm operative in the first detection mode for comparing the relative phase of the first and second doppler signals, and analyzing the voltage level of one of the first and second doppler signals for detecting a threshold level of motion; and said processor including a second algorithm operative in the second detection mode for analyzing the analog micro motion signal for maximum and minimum voltage values over a given time period and calculating a differential voltage value between the maximum and minimum voltage values, the second algorithm comparing the differential voltage value to a micro motion voltage threshold, wherein a second level of motion is detected when the differential voltage value is greater than the micro motion voltage threshold, the second level of motion being slower than the threshold level of motion; whereby in the first detection mode the processor opens the automatic door upon detecting the threshold level of motion and automatically switches into the second detection mode, and in the second detection mode the processor closes the automatic door when the differential voltage value is less that the micro motion voltage threshold for a predetermined amount of time.
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Specification