Circuit and method improving linearity, and reducing distortion, in microwave RF bandpass filters, especially superconducting filters
First Claim
1. A bandpass filter circuit for producing a bandpass-filtered output signal from an input signal, the bandpass filter circuit comprising:
- a first coupler for splitting the input signal into a first portion and a second portion;
a first bandpass filter having an inevitable first-filter non-linearity, this first bandpass filter receiving the first portion of the input signal and producing therefrom a first-bandpass-filtered signal having inevitable distortion that includes first-filter intermodulation products that include first-filter third-order intermodulation products which first-filter third-order intermodulation products are collectively of a first power;
a second bandpass filter having substantially identical passband and noise characteristics to the first bandpass filter but a second-filter non-linearity that is much greater than is the first-filter non-linearity, this second bandpass filter receiving the second portion of the input signal and producing therefrom a second-bandpass-filtered signal having inevitable distortion that includes second-filter intermodulation products that include second-filter third-order intermodulation products which second-filter third-order intermodulation products are collectively of a second power;
wherein proportionality between the first bandpass filter and the second bandpass filter is adjusted in and by construction of each filter so that the second power equals insofar as is possible the first power;
a phase reverser for reversing the phase of the second-bandpass-filtered signal relative to the first-bandpass-filtered signal; and
a second coupler for coupling the phase-reversed second-bandpass-filtered signal to the first-bandpass-filtered signal to produce the bandpass-filtered output signal, the coupling of phase-reversed signals being in a manner so as to cancel as best as is possible the first-filter third-order intermodulation products by and with the second-filter third-order intermodulation products of substantially equal power;
wherein the inevitable non-linearity of the bandpass filter circuit has effectively been improved.
1 Assignment
0 Petitions
Accused Products
Abstract
In a bandpass filter circuit usable at the front end of a cellular microwave radio receiver, and particularly suitable for implementation with high temperature superconductor transmission lines, an rf input signal is split in a first coupler into a major first portion and a minor second portion. A first bandpass filter of inevitable non-linearity receives the first signal portion and produces therefrom a first-bandpass-filtered signal having distortion products collectively of a first power. A second bandpass filter having substantially identical passband and noise characteristics to, but with a non-linearity much greater than, the first bandpass filter receives the second signal portion of the input signal and produces therefrom a second-bandpass-filtered signal which has distortion products substantially collectively equal to the first power. A phase reverser reverses the phase of the second-bandpass-filtered signal relative to the first-bandpass-filtered signal, and the signals are coupled in a second coupler to produce a bandpass-filtered output signal in which the distortion products are substantially canceled.
The first-bandpass-filtered is preferably amplified in first low noise amplifier, and the second-bandpass-filtered amplified in a second low noise amplifier of variable gain as well as being phase reversed in a phase reverser of variable phase, both so as to (i) “fine tune” the circuit, and (ii) overcome a slight trade-off that is made in the sensitivity of the bandpass filter circuit to the input signal.
71 Citations
16 Claims
-
1. A bandpass filter circuit for producing a bandpass-filtered output signal from an input signal, the bandpass filter circuit comprising:
-
a first coupler for splitting the input signal into a first portion and a second portion;
a first bandpass filter having an inevitable first-filter non-linearity, this first bandpass filter receiving the first portion of the input signal and producing therefrom a first-bandpass-filtered signal having inevitable distortion that includes first-filter intermodulation products that include first-filter third-order intermodulation products which first-filter third-order intermodulation products are collectively of a first power;
a second bandpass filter having substantially identical passband and noise characteristics to the first bandpass filter but a second-filter non-linearity that is much greater than is the first-filter non-linearity, this second bandpass filter receiving the second portion of the input signal and producing therefrom a second-bandpass-filtered signal having inevitable distortion that includes second-filter intermodulation products that include second-filter third-order intermodulation products which second-filter third-order intermodulation products are collectively of a second power;
wherein proportionality between the first bandpass filter and the second bandpass filter is adjusted in and by construction of each filter so that the second power equals insofar as is possible the first power;
a phase reverser for reversing the phase of the second-bandpass-filtered signal relative to the first-bandpass-filtered signal; and
a second coupler for coupling the phase-reversed second-bandpass-filtered signal to the first-bandpass-filtered signal to produce the bandpass-filtered output signal, the coupling of phase-reversed signals being in a manner so as to cancel as best as is possible the first-filter third-order intermodulation products by and with the second-filter third-order intermodulation products of substantially equal power;
wherein the inevitable non-linearity of the bandpass filter circuit has effectively been improved. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 14, 15)
-
-
12. A bandpass filtering method for producing a bandpass-filtered output signal from an input signal, the bandpass filtering method comprising:
-
splitting in a first coupler the input signal into a major portion and a minor portion;
filtering, in a primary first bandpass filter having an inevitable first-filter non-linearity, the major portion of the input signal to produce therefrom a first-bandpass-filtered signal having inevitable distortion that includes first-filter intermodulation products that include first-filter third-order intermodulation products which first-filter third-order intermodulation products are collectively of a first power;
filtering, in a secondary second bandpass filter having a substantially identical passband and noise characteristics to the first bandpass filter but having a second-filter non-linearity that is much greater than is the first-filter non-linearity, the minor portion of the input signal to produce therefrom a second-bandpass-filtered signal having inevitable distortion that includes second-filter intermodulation products that include second-filter third-order intermodulation products which second-filter third-order intermodulation products are collectively of a second power;
adjusting by construction of each of the first and the second bandpass filter a proportionality therebetween so that the second power equals insofar as is possible the first power;
reversing in a phase reverser the phase of the second-bandpass-filtered signal relative to the first-bandpass-filtered signal; and
coupling in a second coupler the phase-reversed second-bandpass-filtered signal to the first-bandpass-filtered signal to produce the bandpass-filtered output signal, the coupling of phase-reverse signals being in a manner so as to cancel as best as is possible the first-filter third-order intermodulation products by and with the second-filter third-order intermodulation products of substantially equal power while having but a slight effect on minimum detectable power of the input signal;
wherein the inevitable non-linearity of the bandpass filtering has effectively been improved.
-
-
16. A method of bandpass filtering an input signal to produce a bandpass-filtered output signal, the bandpass filtering method comprising:
-
splitting in a first coupler the input signal into a major first signal portion and a minor second signal portion;
first-filtering the first signal portion in a first filter to produce a first-filtered first signal portion having a third-order intermodulation product of a first power;
second-filtering the second signal portion in a second filter, which second filter has a non-linearity that is much greater than was a non-linearity of the first filter, to produce a second-filtered second signal portion of substantially identical passband and noise characteristics to the first-filtered first signal portion and having a third-order intermodulation product also of substantially the first power;
phase reversing in a phase reverser the phase of the second-filtered second signal portion relative to the first-filtered first signal portion; and
coupling in a second coupler the phase-reversed second-filtered second signal portion and the first-filtered first signal portion in a manner so as to cancel as best as is possible the third-order intermodulation product to produce the bandpass-filtered output signal;
wherein the inevitable non-linearity of the bandpass filtering has effectively been improved.
-
Specification