Waveguide excited enhancement and inherent rejection of interference in a subharmonic mixer
First Claim
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1. In microstrip circuitry wherein a ground plane is formed on one surface of a slab fabricated from a dielectric material and printed circuitry is formed on a second opposing surface of the slab to define signal paths for a local oscillator and for beat frequency signals including desired IF signals, the printed circuitry being disposed to form a heterodyning arrangement responsive to coupled RF signals and to the LO signal to produce the desired IF signals, such circuitry comprising:
- (a) a 3 dB divider having an input port for receiving the LO signal and a first and a second output arm dimensioned to produce a first and a second LO signal with a phase difference of 45°
between such signals;
(b) a first pair of diodes, each having an anode and a cathode, connected between the first output arm of the 3 dB divider and the ground plane, the anode of each one of the diodes being connected to the cathode of the other one of the diodes, the first pair of diodes also being optically coupled to RF signals, to produce a first spectrum of IF signals including a first portion of the desired IF signals;
(c) a second pair of diodes, similar to the first pair of diodes, connected between the second output arm of the 3 dB divider and the ground plane, the second pair of diodes also being optically coupled to RF signals, to produce a second spectrum of IF signals including a second portion of the desired IF signals in quadrature with the first portion of desired IF signals from the first pair of diodes; and
(d) a quadrature hybrid having a first and a second input port and a first and a second output port, said first input port being responsive to the first portion of the desired IF signals from the first pair of diodes and said second input port being responsive to the second portion of the IF signals from the second pair of diodes with said first portion and said second portion of the desired IF signals being substantially in phase at the first output port and substantially 180°
out-to-phase at the second output port.
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Abstract
A subharmonic mixer is shown to comprise two pairs of matched antiparallel GaAs diodes disposed on a dielectric slab and operative with microstrip circuitry. By suppressing the fundamental mixing products, mixing the radio frequency signal with the second harmonic of a local oscillator (LO) signal and using relative phase differences of the LO signals in the two pairs of diodes, undesirable effects from spurious signals are minimized.
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Citations
9 Claims
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1. In microstrip circuitry wherein a ground plane is formed on one surface of a slab fabricated from a dielectric material and printed circuitry is formed on a second opposing surface of the slab to define signal paths for a local oscillator and for beat frequency signals including desired IF signals, the printed circuitry being disposed to form a heterodyning arrangement responsive to coupled RF signals and to the LO signal to produce the desired IF signals, such circuitry comprising:
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(a) a 3 dB divider having an input port for receiving the LO signal and a first and a second output arm dimensioned to produce a first and a second LO signal with a phase difference of 45°
between such signals;(b) a first pair of diodes, each having an anode and a cathode, connected between the first output arm of the 3 dB divider and the ground plane, the anode of each one of the diodes being connected to the cathode of the other one of the diodes, the first pair of diodes also being optically coupled to RF signals, to produce a first spectrum of IF signals including a first portion of the desired IF signals; (c) a second pair of diodes, similar to the first pair of diodes, connected between the second output arm of the 3 dB divider and the ground plane, the second pair of diodes also being optically coupled to RF signals, to produce a second spectrum of IF signals including a second portion of the desired IF signals in quadrature with the first portion of desired IF signals from the first pair of diodes; and (d) a quadrature hybrid having a first and a second input port and a first and a second output port, said first input port being responsive to the first portion of the desired IF signals from the first pair of diodes and said second input port being responsive to the second portion of the IF signals from the second pair of diodes with said first portion and said second portion of the desired IF signals being substantially in phase at the first output port and substantially 180°
out-to-phase at the second output port. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification
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Current AssigneeRaytheon Company (Rtx Corporation)
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Original AssigneeRaytheon Company (Rtx Corporation)
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InventorsRaposo, Mark E., Round, Winslow G., Pavio, Raymond T., Connerney, William R.
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Primary Examiner(s)Eisenzopf, Reinhard J.
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Assistant Examiner(s)FAILE, ANDREW I
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Application NumberUS07/414,340Time in Patent Office340 DaysField of Search455/325, 455/327, 455/328, 455/330, 455/302-306, 455/317, 455/319US Class Current455/325CPC Class CodesH03B 19/18 and elements comprising dis...H03D 2200/0017 Intermediate frequency filterH03D 2200/0023 Balun circuitsH03D 2200/0082 Quadrature arrangementsH03D 7/1408 with diodesH03D 9/0633 mounted on a stripline circuitH03D 9/0641 located in a hollow waveguide
