Linearization circuit and technique for a power combining network, or diplexer; especially as may use high temperature superconducting filters
First Claim
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1. A reduced-distortion method of bandpass filtering an input signal comprising:
- feeding forward a first portion of an input signal;
while first-bandpass-filtering a major portion of the same input signal in a first bandpass filter, inducing thereby a first distortion; and
second-bandpass-filtering the fed forward small portion of the input signal in a second bandpass filter, inducing thereby a second distortion which second distortion is, however, lower than the first distortion induced in the first-bandpass-filtered signal because the power of the small portion of the input signal is lower than that of the major portion of the same input signal;
feeding forward a small portion of the first-bandpass-filtered signal, first distortion and all;
first subtracting this (i) fed-forward portion of the first-bandpass-filtered signal from (ii) the second-bandpass-filtered signal, therein substantially canceling undistorted parts of the two signals and producing a composite signal in which composite signal distortion is substantially isolated;
amplifying the composite signal, and adjusting it in phase; and
then second-subtracting the amplified phase-adjusted composite signal from the first-bandpass-filtered signal so as to substantially cancel in this first-bandpass-filtered signal the first distortion that was induced by the first-bandpass-filtering, producing thereby a reduced-distortion bandpass-filtered signal.
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Abstract
In a reduced-distortion bandpass filtering circuit, and method, a small portion, normally −20 db, of an input signal, normally narrowband rf, is fed forward while a major signal portion is filtered in a first bandpass filter, inducing distortion. The small portion fed forward is itself bandpass filtered in a second bandpass filter, preferably identical to the first. Because the signal level is lower, less distortion is produced. The second-bandpass-filtered small portion is subtracted from yet another small, −20 db, portion now fed forward from the first-bandpass-filtered signal, distortion and all. Undistorted parts of the two signals cancel, isolating the signal distortion. This distortion is amplified and adjusted in phase, and then subtracted from the first-bandpass-filtered signal, producing a signal in which substantially all distortion induced by filtering in the first bandpass filter is canceled. Bandpass filters having (i) low insertion loss and narrow bandwidth but (ii) high nonlinearity as induces distortion, notably of the high temperature superconductor types, may thus be used to better advantage, particularly in a power combining network of diplexor.
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Citations
16 Claims
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1. A reduced-distortion method of bandpass filtering an input signal comprising:
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feeding forward a first portion of an input signal;
whilefirst-bandpass-filtering a major portion of the same input signal in a first bandpass filter, inducing thereby a first distortion; and
second-bandpass-filtering the fed forward small portion of the input signal in a second bandpass filter, inducing thereby a second distortion which second distortion is, however, lower than the first distortion induced in the first-bandpass-filtered signal because the power of the small portion of the input signal is lower than that of the major portion of the same input signal;
feeding forward a small portion of the first-bandpass-filtered signal, first distortion and all;
first subtracting this (i) fed-forward portion of the first-bandpass-filtered signal from (ii) the second-bandpass-filtered signal, therein substantially canceling undistorted parts of the two signals and producing a composite signal in which composite signal distortion is substantially isolated;
amplifying the composite signal, and adjusting it in phase; and
thensecond-subtracting the amplified phase-adjusted composite signal from the first-bandpass-filtered signal so as to substantially cancel in this first-bandpass-filtered signal the first distortion that was induced by the first-bandpass-filtering, producing thereby a reduced-distortion bandpass-filtered signal. - View Dependent Claims (2, 3, 4)
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5. A circuit for bandpass filtering an input signal comprising:
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a first coupler feeding forward a small first portion of the input signal;
a first bandpass filter first-bandpass-filtering a major portion of the same input signal, inducing first distortion in the first-bandpass-filtered signal; and
a second bandpass filter second-bandpass-filtering the fed forward small portion of the input signal, inducing second distortion which second distortion is, however, lower than the first distortion induced in the first-bandpass-filtered signal by the first bandpass filter because the power of the small portion of the input signal is lower than that of the major portion of the input signal;
a second coupler feeding forward a small portion of the first-bandpass-filtered signal, first distortion and all;
a first subtractor first-subtracting this (i) fed-forward portion of the first-bandpass-filtered signal from (ii) the second-bandpass-filtered signal, therein substantially canceling undistorted parts of the two signals and producing a composite signal in which composite signal distortion is substantially isolated;
an amplifier/phase shifter amplifying the composite signal and adjusting it in phase; and
a second subtractor second-subtracting the amplified phase-adjusted composite signal from the first-bandpass-filtered signal so as to substantially cancel in the first-bandpass-filtered signal the first distortion that was induced by the first-bandpass-filter, producing thereby a reduced-distortion bandpass-filtered signal. - View Dependent Claims (6, 7)
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8. In a power combining network, or diplexor, serving to combine in a plurality of non-linear bandpass filters a plurality of input narrowband radio frequency signals into a corresponding plurality of bandpass-filtered narrowband radio frequency signals to produce in wired-OR combination a single output broadband radio frequency signal, an improvement wherein each of the plurality of non-linear bandpass filters comprises:
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a first signal coupler 12 splitting an input narrowband radio frequency signal 101 into a major first signal portion 121 communicated along a first signal path and a minor second signal portion 123 of lessor magnitude communicated along a second signal path;
the first signal path including in order a first bandpass filter 14, inevitably exhibiting a first-filter non-linearity, bandpass-filtering the major first signal portion 121 of the input narrowband radio frequency signal 101 to produce a first-bandpass-filtered narrowband radio frequency signal 141 inevitably having, as result of non-linearity of the first bandpass filter 14, both an undistorted and an associated distorted part, a second signal coupler 16 splitting the first-bandpass-filtered narrowband radio frequency signal 141 from the first bandpass filter 14 into a major signal portion 161 and a minor signal portion 163 likewise each having undistorted and distorted parts, and a third signal coupler 18 subtracting a specified signal from the major signal portion 161 of the first-bandpass-filtered narrowband radio frequency signal from the second signal coupler 16 to produce a bandpass-filtered narrowband radio frequency signal 181; and
the second signal path including in order a combination of a first phase shifter 22, and a second bandpass filter 24 bandpass-filtering the second portion 123 of the input narrowband radio frequency signal 101, jointly producing a phase-reversed second-bandpass-filtered narrowband radio frequency signal 241 inevitably having, as result of the non-linearity of the second bandpass filter 24, both non-distorted and associated distorted parts, wherein, because the minor second signal portion 123 is of lessor magnitude than is the major first signal portion 121, the distorted part of the phase-reversed second-bandpass-filtered narrowband radio frequency signal 241 is less than the distorted part of the minor signal portion 163 of the second signal coupler 16, and a first signal splitter 26 combining the phase-reversed second-bandpass-filtered narrowband radio frequency signal 241 from the combined phase reverser 22 and second bandpass filter 24 with the minor second signal portion 163 from the second coupler 16 in a manner so as to substantially cancel non-distorted parts of both signals 241, 163 while the unequal distorted parts of both signals 241, 163 serve to produce a signal output from the first signal splitter that is called a distortion signal, and a combination of an amplifier, and a second phase shifter;
jointly producing an amplified double-phase-reversed second-bandpass-filtered narrowband radio frequency signal 301 having a distorted part substantially equal to the distorted part of the major signal portion 163 of the second signal coupler 16;
wherein the specified signal subtracted from the major signal portion 161 in the third signal coupler 18 is the amplified double-phase-reversed second-bandpass-filtered narrowband radio frequency signal 301, and since the distortion of these two signals are substantially equal, the subtraction results in a substantial cancellation of distortion in the produced bandpass-filtered narrowband radio frequency signal 181. - View Dependent Claims (9, 10, 11, 12, 13)
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14. A bandpass filtering method for producing a bandpass-filtered output signal from an input signal, the bandpass filtering method comprising:
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splitting in a first coupler the input signal into a major portion and a minor portion;
first-bandpass-filtering, in a first bandpass filter having an inevitable first nonlinearity, the major portion of the input signal to produce therefrom a first bandpass-filtered signal having inevitable first distortion;
second-bandpass-filtering, in a second bandpass filter having an inevitable second nonlinearity, the minor portion of the input signal to produce therefrom a second bandpass-filtered signal having a second distortion that is, although inevitable, much less than the first distortion of the first bandpass-filtered signal;
coupling in a second coupler a small portion of the first bandpass-filtered signal, distortion and all, that is roughly equal in magnitude to the second bandpass-filtered signal;
combining in a first signal splitter the second-coupled small portion of the first bandpass-filtered signal with the roughly equal magnitude second bandpass-filtered signal so that undistorted portions of the signal subtract and substantially cancel, leaving only a distorted signal portion;
amplifying in an amplifier, and phase shifting in a phase shifter, the distorted signal portion to produce an amplified phase-shifted distorted signal portion; and
coupling in a third coupler the amplified phase-shifted distorted signal portion to a major portion of the input signal so that a bandpass-filter output signal wherein distortion is substantially canceled is produced.
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15. A reduced-distortion bandpass filtering method comprising:
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first bandpass filtering in a distortion-inducing first bandpass filter an input signal to produce a first-bandpass-filtered input signal having a first distortion;
first feeding forward in a first signal coupler a small portion of the input signal;
second bandpass filtering in a distortion-inducing second bandpass filter the first-fed-forward small portion of the input signal to produce a second-bandpass-filtered input signal having a second distortion much less than the first distortion;
second feeding forward in a second signal coupler a small portion of the first-bandpass-filtered input signal, first distortion and all;
subtracting in a first signal splitter the second-bandpass-filtered input signal from the second-fed-forward small portion of the first-bandpass-filtered input signal to produce a distortion correction signal;
amplifying the distortion correction signal to produce an amplified distortion correction signal; and
coupling in a third signal splitter the first-bandpass-filtered input signal to the distortion correction signal so as to substantially cancel first distortion in the first-bandpass-filtered input signal;
wherein by action of the coupling distortion arising from the first bandpass filtering is reduced.
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16. A reduced-distortion bandpass filtering circuit comprising:
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a first signal coupler 12 feeding forward a minor portion 123 of an unfiltered input signal 101 while communicating a major portion 121 of this signal to a first bandpass filter 14 performing bandpass filtering on the major portion 121 of the input signal 101, producing a first-bandpass-filtered signal 141 having distortion;
a second bandpass filter 24 performing bandpass filtering on the fed forward minor portion 123 of the input signal 101, producing a second-bandpass-filtered signal 241 having, because the signal level is lower, less distortion than does the first-bandpass-filtered signal 141;
a second signal coupler 16 feeding forward a minor portion 163 of the first-bandpass-filtered signal 141, distortion and all, while communicating a major portion 161 of this signal to a third signal coupler 18;
a signal splitter 26 subtracting the fed forward minor portion 163 of the first-bandpass-filtered signal 141 from the second-bandpass-filtered signal 241 so that undistorted parts of the two signals 163, 241 cancel, leaving in isolation a signal 261 that represents the distortion of the first-bandpass-filtering; and
an amplifier 28 and phase adjuster 30 amplifying and adjusting in phase the signal 261 representing distortion to produce and amplified and phase-adjusted distortion signal 301;
wherein the third signal coupler 18 subtracts this amplified and phase-adjusted distortion signal 301 from the major portion 161 of the first-bandpass-filtered signal 141, canceling distortion in the first-bandpass-filtered signal 141 induced by the first-bandpass-filtering in the first bandpass filter 14.
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Specification
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Current AssigneeRegents of the University of California (University of California)
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Original AssigneeRegents of the University of California (University of California)
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InventorsWillemsen, Balam, Asbeck, Peter, Chase, David, Larson, Lawrence, Hammond, Robert
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Application NumberUS09/808,908Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current330/151CPC Class CodesH03F 1/3229 using a loop for error extr...H03F 2200/372 Noise reduction and elimina...H03F 3/602 Combinations of several amp...H03H 7/46 Networks for connecting sev...
