Self monitoring/calibrating phased array radar and an interchangeable, adjustable transmit/receive sub-assembly
First Claim
1. A combination for maintaining an accurate phase response in the transmit path from the exciter to each antenna element and in the receive path from each antenna element to the receiver in an m×
- n element phased array radar apparatus, comprising;
A. an exciter providing a signal for calibration and transmission,B. a receiver including a calibration phase error sensing circuit having a reference port coupled to said exciter and a measurement port,C. beamforming means providing m×
n/j plural ports where j is a small integer including 1, disposed in the transmit/receive operating paths from exciter/receiver to antenna elements, said beamformer means having a singular port internally coupled to plural ports, said singular port leading to exciter/receiver, and each of said plural ports leading to a subset j of antenna elements, said beamforming means further including means for separating signals proceeding from the exciter to the antenna elements from signals proceeding from the antenna elements to the receiver, the respective transmit and receive operating paths being coincident at the beamformer plural ports,D. a corporate calibration feed network providing a singular port internally coupled to (m×
n/i) plural ports where i is a small integer not including 1, a power of 2 and greater than or equal to j, each path being of known electrical length to provide a calibrating path from each antenna element to the exciter/receiver,E. an (m×
n/i) fold plurality of phase adjustable transmit/receive sub-assemblies, each disposed in the transmit/receive operating paths for each subset of i antenna elements, each sub-assembly comprising(1) a stripline to microstrip divider network and transition having j stripline ports, each connected to a plural beamformer port, and i microstrip ports,(2) i transmit/receive modules using microstrip transmission paths, each module containing the active electronics for processing the signals of one associated antenna element,each module having;
(i) a bidirectional controllable phase shifter disposed in a transmit/receive operating path connected to one microstrip port of said divider network and transition having a control for setting the phase,(ii) a power amplifier disposed in the transmit operating path for amplifying the exciter signal,(iii) a low noise amplifier disposed in the receive operating path for amplifying signals from the associated antenna element,(iv) a pair of three port transmit/receive branching means for coupling signals from the exciter via the phase shifter, via the power amplifier to an associated antenna element during transmission and for coupling signals from the antenna via the low noise amplifier, via the phase shifter, to the receiver during reception, the transmit/receive port of the first branching means being coupled to said phase shifter,(3) i microstrip to stripline transitions coupled to the transmit/receive ports of said second branching means,(4) a stripline antenna circuit coupled said i stripline transitions comprising;
(i) i linearly aligned adjacent antenna elements,(ii) i directional calibration couplers disposed between said transitions and said antenna elements, each having an antenna port coupled to an antenna element, a transmit/receive port coupled to the stripline port of one transition and a calibration port;
signals received by said antenna being internally coupled to said transmit/receive port, signals coupled to said transmit/receive port being internally coupled to said antenna port and said calibration port, and signals coupled to said calibration port being internally coupled to said transmit/receive port, and(iii) a corporate feed network having a singular port for connection to a calibration network internally coupled to i plural ports through paths of substantially equal electrical length, each plural port being connected to the calibration port of each calibration coupler for serially connecting each transmit/receive operating path with a path in said calibration network to facilitate transmit/receive operating path calibration, andF. means for switching the exciter output for transmit operating path measurement into a loop consisting initially of the transmit operating path, secondly of a calibrating path, and finally returning to the receiver measurement port and for switching the exciter output for receive operating path measurement into a loop consisting initially of a calibrating path, secondly of a receive operating path, and finally returning to the receiver measurement port.
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0 Petitions
Accused Products
Abstract
The invention relates to a self monitoring/calibrating phased array radar in which the operating path for transmission and the operating path for reception may be monitored/calibrated by the addition of a corporate calibration network coupled at the plural end to the antenna elements and at the singular end to the exciter/receiver, and switching means to selectively route the monitoring/calibrating signal derived from the exciter in a transmit path to calibration path sequence or in a calibration path to receive path sequence.
In one embodiment of the invention, a phase shifter common to transmit and receive paths is adjustable in increments under active logical control for calibration, while power and gain performance is monitored but not actively controlled. A novel T/R sub-assembly houses the operating electronics for four antenna elements in the form of four T/R modules with a one to four divider network in the transmit/receive path and in the calibration path. The four antenna elements are an integral part of the T/R sub-assembly.
212 Citations
24 Claims
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1. A combination for maintaining an accurate phase response in the transmit path from the exciter to each antenna element and in the receive path from each antenna element to the receiver in an m×
- n element phased array radar apparatus, comprising;
A. an exciter providing a signal for calibration and transmission, B. a receiver including a calibration phase error sensing circuit having a reference port coupled to said exciter and a measurement port, C. beamforming means providing m×
n/j plural ports where j is a small integer including 1, disposed in the transmit/receive operating paths from exciter/receiver to antenna elements, said beamformer means having a singular port internally coupled to plural ports, said singular port leading to exciter/receiver, and each of said plural ports leading to a subset j of antenna elements, said beamforming means further including means for separating signals proceeding from the exciter to the antenna elements from signals proceeding from the antenna elements to the receiver, the respective transmit and receive operating paths being coincident at the beamformer plural ports,D. a corporate calibration feed network providing a singular port internally coupled to (m×
n/i) plural ports where i is a small integer not including 1, a power of 2 and greater than or equal to j, each path being of known electrical length to provide a calibrating path from each antenna element to the exciter/receiver,E. an (m×
n/i) fold plurality of phase adjustable transmit/receive sub-assemblies, each disposed in the transmit/receive operating paths for each subset of i antenna elements, each sub-assembly comprising(1) a stripline to microstrip divider network and transition having j stripline ports, each connected to a plural beamformer port, and i microstrip ports, (2) i transmit/receive modules using microstrip transmission paths, each module containing the active electronics for processing the signals of one associated antenna element, each module having; (i) a bidirectional controllable phase shifter disposed in a transmit/receive operating path connected to one microstrip port of said divider network and transition having a control for setting the phase, (ii) a power amplifier disposed in the transmit operating path for amplifying the exciter signal, (iii) a low noise amplifier disposed in the receive operating path for amplifying signals from the associated antenna element, (iv) a pair of three port transmit/receive branching means for coupling signals from the exciter via the phase shifter, via the power amplifier to an associated antenna element during transmission and for coupling signals from the antenna via the low noise amplifier, via the phase shifter, to the receiver during reception, the transmit/receive port of the first branching means being coupled to said phase shifter, (3) i microstrip to stripline transitions coupled to the transmit/receive ports of said second branching means, (4) a stripline antenna circuit coupled said i stripline transitions comprising; (i) i linearly aligned adjacent antenna elements, (ii) i directional calibration couplers disposed between said transitions and said antenna elements, each having an antenna port coupled to an antenna element, a transmit/receive port coupled to the stripline port of one transition and a calibration port;
signals received by said antenna being internally coupled to said transmit/receive port, signals coupled to said transmit/receive port being internally coupled to said antenna port and said calibration port, and signals coupled to said calibration port being internally coupled to said transmit/receive port, and(iii) a corporate feed network having a singular port for connection to a calibration network internally coupled to i plural ports through paths of substantially equal electrical length, each plural port being connected to the calibration port of each calibration coupler for serially connecting each transmit/receive operating path with a path in said calibration network to facilitate transmit/receive operating path calibration, and F. means for switching the exciter output for transmit operating path measurement into a loop consisting initially of the transmit operating path, secondly of a calibrating path, and finally returning to the receiver measurement port and for switching the exciter output for receive operating path measurement into a loop consisting initially of a calibrating path, secondly of a receive operating path, and finally returning to the receiver measurement port. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- n element phased array radar apparatus, comprising;
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11. A phase adjustable T/R sub-assembly for a set of i antenna elements where i is a small integer not including 1 and a power of 2, said T/R sub-assembly being adapted for use with a plurality of similar T/R sub-assemblies in a self-calibrating phased array radar apparatus having m×
- n antenna elements and including a calibration network providing a calibration path for each set of i antenna elements, said T/R sub-assembly comprising;
(1) j stripline signal input ports, where j is a small integer including 1, less than or equal to i, (2) a stripline to microstrip divider network and transition having j stripline ports, each connected to a signal input port and i microstrip ports, (3) i transmit/receive modules using microstrip transmission paths, each module containing the active electronics for processing the signals of one associated antenna element, each module having; (i) a bidirectional controllable phase shifter disposed in a transmit/receive operating path connected to one microstrip port of said divider network and transition having a control for setting the phase, (ii) a power amplifier disposed in the transmit operating path for amplifying the exciter signal, (iii) a low noise amplifier disposed in the receive operating path for amplifying signals from the associated antenna element, (iv) a pair of three port transmit/receive branching means, the first branching means having a transmit/receive port coupled to said phase shifter for coupling signals from said phase shifter via the power amplifier to an associated antenna element during transmission and the second branching means having a transmit/receive port for coupling signals from the antenna via the low noise amplifier to said phase shifter during reception, (4) i microstrip to stripline transitions coupled to the transmit/receive ports of said second branching means, (5) a stripline antenna circuit comprising; (i) i linearly aligned adjacent antenna elements, (ii) i directional calibration couplers disposed between said transitions and said antenna elements, each having an antenna port coupled to an antenna element, a transmit/receive port coupled to the stripline port of one transition and a calibration port;
signals received by said antenna being internally coupled to said transmit/receive port, signals coupled to said transmit/receive port being internally coupled to said antenna port and said calibration port, and signals coupled to said calibration port being internally coupled to said transmit/receive port, and(iii) a corporate feed network having a singular port for connection to a calibration network internally coupled to i plural ports through paths of equal electrical length, each plural port being connected to the calibration port of each calibration coupler for serially connecting each transmit/receive operating path with a path in said calibration network to facilitate transmit/receive operating path calibration. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
- n antenna elements and including a calibration network providing a calibration path for each set of i antenna elements, said T/R sub-assembly comprising;
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23. A combination for calibration of the transmit path from the exciter to each antenna element and of the receive path from each antenna element to the receiver in an m×
- n element phased array radar apparatus, comprising;
A. an exciter providing a signal for calibration and transmission, B. a receiver including a calibration error sensing circuit having a reference port coupled to said exciter and a measurement port, C. beamforming means providing m×
n/j plural ports where j is a small integer including 1, disposed in the transmit/receive operating paths from exciter/receiver to antenna elements, said beamformer means having a singular port internally coupled to plural ports, said singular port leading to exciter/receiver, and each of said plural ports leading to a subset j of antenna elements, said beamforming means further including means for separating signals proceeding from the exciter to the antenna elements from signals proceeding from the antenna elements to the receiver, the respective transmit and receive operating paths being coincident at the beamformer plural ports,D. a corporate calibration feed network providing a singular port internally coupled to (m×
n/i) plural ports where i is a small integer, each path being of known electrical length to provide a calibrating path for each antenna element to the exciter/receiver,E. an (m×
n/i) fold plurality of transmit/receive sub-assemblies, each disposed in the transmit/receive operating paths for each subset of i antenna elements, each sub-assembly comprising(1) i transmit/receive module(s), each module containing the active electronics for processing the signals of one associated antenna element, each module having; (i) a bidirectional phase shifter disposed in a transmit/receive operating path, (ii) a power amplifier disposed in the transmit operating path for amplifying the exciter signal, (iii) a low noise amplifier disposed in the receive operating path for amplifying signals from the associated antenna element, (iv) a pair of three port transmit/receive branching means for coupling signals from the exciter via the phase shifter, via the power amplifier to an associated antenna element during transmission and for coupling signals from the antenna via the low noise amplifier via the phase shifter to the receiver during reception, the transmit/receive port of the first branching means being coupled to said phase shifter, (2) an antenna circuit coupled to the transmit/receive ports of said second branching means comprising; (i) i linearly aligned adjacent antenna element(s), (ii) i directional calibration coupler(s) disposed between said transitions and said antenna elements, each having an antenna port coupled to an antenna element, a transmit/receive port coupled to the stripline port of one transition and a calibration port;
signals received by said antenna being internally coupled to said transmit/receive port, signals coupled to said transmit/receive port being internally coupled to said antenna port and said calibration port, and signals coupled to said calibration port being internally coupled to said transmit/receive port, and(iii) a network having a singular port for connection to a calibration network internally coupled to a set of i port(s) through paths of substantially equal electrical length, each of said i set of ports being connected to the calibration port of each calibration coupler for serially connecting each transmit/receive operating path with a path in said calibration network to facilitate transmit/receive operating path calibration, and F. means for selectively switching the exciter output for transmit operating path measurement into a loop consisting initially of the transmit operating path, secondly of a calibrating path, and finally returning to the receiver measurement port and for switching the exciter output for receive operating path measurement into a loop consisting initially of a calibrating path, secondly of a receive operating path, and finally returning to the receiver measurement port. - View Dependent Claims (24)
- n element phased array radar apparatus, comprising;
Specification