Impulse radar with swept range gate
First Claim
1. A swept range gate radar for detecting characteristics of objects within a field, comprising:
- a transmitter, including a shielded transmit cavity and a transmit antenna within the shielded transmit cavity, which transmits a sequence of electromagnetic pulses from the transmit antenna into the field in response to a transmit timing signal;
a receiver, including a shielded receive cavity and a receive antenna within the shielded receive cavity, which samples echoes from objects in the field of the sequence of electromagnetic pulses with controlled timing, in response to a receive timing signal, and generates a sample signal in response to the samples;
wherein the transmit and receive cavities are positioned side-by-side and the transmit and receive antennas are mounted in the cavities in a substantially coplanar arrangement and extend in opposed directions;
a timing circuit which supplies the transmit timing signal to the transmitter and supplies the receive timing signal to the receiver, the receive timing signal causing the receiver to sample the echoes such that time between transmission of pulses in the sequence by the transmitter and sampling by the receiver sweeps over a range of delays; and
a signal processor, coupled with the receiver, to indicate a characteristic of the object in response to the sample signal.
4 Assignments
0 Petitions
Accused Products
Abstract
A radar range finder and hidden object locator is based on ultra-wide band radar with a high resolution swept range gate. The device generates an equivalent time amplitude scan with a typical range of 4 inches to 20 feet, and an analog range resolution as limited by a jitter of on the order of 0.01 inches. A differential sampling receiver is employed to effectively eliminate ringing and other aberrations induced in the receiver by the near proximity of the transmit antenna (10), so a background subtraction is not needed, simplifying the circuitry while improving performance. Techniques are used to reduce clutter in the receive signal, such as decoupling the receive (24) and transmit cavities (22) by placing a space between them, using conductive or radiative damping elements on the cavities, and using terminating plates on the sides of the openings. The antennas can be arranged in a side-by-side parallel spaced apart configuration or in a coplanar opposed configuration which significantly reduces main bang coupling.
143 Citations
20 Claims
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1. A swept range gate radar for detecting characteristics of objects within a field, comprising:
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a transmitter, including a shielded transmit cavity and a transmit antenna within the shielded transmit cavity, which transmits a sequence of electromagnetic pulses from the transmit antenna into the field in response to a transmit timing signal; a receiver, including a shielded receive cavity and a receive antenna within the shielded receive cavity, which samples echoes from objects in the field of the sequence of electromagnetic pulses with controlled timing, in response to a receive timing signal, and generates a sample signal in response to the samples; wherein the transmit and receive cavities are positioned side-by-side and the transmit and receive antennas are mounted in the cavities in a substantially coplanar arrangement and extend in opposed directions; a timing circuit which supplies the transmit timing signal to the transmitter and supplies the receive timing signal to the receiver, the receive timing signal causing the receiver to sample the echoes such that time between transmission of pulses in the sequence by the transmitter and sampling by the receiver sweeps over a range of delays; and a signal processor, coupled with the receiver, to indicate a characteristic of the object in response to the sample signal. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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2. A swept range gate radar for detecting characteristics of objects within a range of less than 20 feet, comprising:
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a transmitter, including a shielded transmit cavity and a transmit antenna within the shielded transmit cavity, which transmits a sequence of radio frequency (RF) pulses from the transmit antenna into the field in response to a transmit timing signal having a transmit pulse repetition rate of greater than 1 megaHertz; a receiver, including a shielded receive cavity, a receive antenna within the shielded receive cavity, a first sampling gate coupled to the receive antenna, a second sampling gate coupled to the receive antenna, and a differential amplifier having a first input coupled to the first sampling gate and a second input coupled to the second sampling gate, which samples echoes from objects in the field of the sequence of RF pulses with controlled timing in the first and second sample gates, in response to a receive timing signal, and generates a sample signal in response to the samples; wherein the transmit and receive cavities are positioned side-by-side and the transmit and receive antennas are mounted in the cavities in a substantially coplanar arrangement and extend in opposed directions; a timing circuit which supplies the transmit timing signal to the transmitter and supplies the receive timing signal to the receiver, the receive timing signal causing the receiver to sample the echoes such that time between transmission of pulses in the sequence by the transmitter and sampling by the receiver sweeps over a range of delays in a sweep cycle such that echoes are sampled at the pulse repetition rate and with different delays in the range of delays, such that the sample signal represents the received echoes in equivalent time; and a signal processor, coupled with the receiver, to indicate a characteristic of objects in the range in response to the sample signal. - View Dependent Claims (17, 19)
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3. A radar for detecting characteristics of objects within a field, comprising:
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a transmitter, including a shielded transmit cavity having a transmit opening with a perimeter and facing the field, and a transmit antenna within the shielded transmit cavity, which transmits a sequence of electromagnetic signals from the transmit antenna into the field in response to a transmit timing signal, each of the signals in the sequence having a duration of about 10 nanoseconds or less; a receiver, including a shielded receive cavity having a receive opening with a perimeter and facing the field, and a receive antenna within the shielded receive cavity, which samples echoes from objects in the field of the sequence of electromagnetic signals with controlled timing, in response to a receive timing signal, and generates a sample signal in response to the samples; wherein the transmit and receive cavities are positioned side-by-side and the transmit and receive antennas are mounted in the cavities in a substantially coplanar arrangement and extend in opposed directions; a shielding base, supporting the shielded transmit cavity and the shielded receive cavity such that the transmit cavity is separated from the receive cavity, and shielding receiver and transmitter electronics; and a timing circuit, shielded by the shielding base, which supplies the transmit timing signal to the transmitter and supplies the receive timing signal to the receiver, such that a sampling interval between transmission of a given electromagnetic signal in the sequence and sampling of echoes of said given electromagnetic signal has a length of less than about 300 nanoseconds. - View Dependent Claims (18, 20)
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14. A method for sensing characteristics of objects within a field, comprising:
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transmitting a sequence of electromagnetic signals into the field from a transmit cavity with controlled timing, wherein electromagnetic signals in the sequence have a duration of about 10 nanoseconds or less, and a transmit interval between electromagnetic signals in the sequence has a length which exceeds 100 nanoseconds; sampling, at a receive cavity adjacent the transmit cavity with controlled timing, a sequence of echoes of the sequence of electromagnetic signals reflected from objects within the field, each echo in the sequence sampled within a sampling interval of time of less than 100 nanoseconds from the time of transmission of a corresponding electromagnetic signal in the sequence; and processing the sampled sequence of echoes to indicate a characteristic of an object within the field; and
further comprising;positioning transmit and receive antennas in the transmit and receive cavities so that the electric fields are substantially parallel to the interface between the cavities. - View Dependent Claims (15, 16)
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Specification