System and method for zero intermediate frequency filtering of information communicated in wireless networks
First Claim
1. An apparatus for communicating information, comprising:
- a filtering module in communication with a zero intermediate frequency (ZIF) communication circuit, wherein the filtering module comprises;
a first mixer circuit in communication with an output of the ZIF communication circuit, wherein the first mixer circuit is configured to down-convert a transmission signal at a first frequency from the ZIF communication circuit to a second frequency to generate a down-converted transmission signal;
a first filtering circuit in communication with an output of the first mixer circuit, wherein the first filtering circuit is configured to filter the down-converted transmission signal to generate a filtered down-converted transmission signal;
a second mixer circuit in communication with an output of the first filtering circuit, wherein the second mixer circuit is configured to up-convert the filtered down-converted transmission signal to a third frequency to generate a filtered transmission signal;
a third mixer circuit, wherein the third mixer circuit is configured to receive a received signal at a fourth frequency, and wherein the third mixer circuit is configured to down-convert the received signal to a fifth frequency to generate a down-converted received signal;
a second filtering circuit in communication with an output of the third mixer circuit, wherein the second filtering circuit is configured to filter the down-converted received signal to generate a filtered down-converted received signal;
a fourth mixer circuit in communication with the second filtering circuit, wherein the fourth mixer circuit is configured to up-convert the filtered down-converted received signal to a sixth frequency to generate a filtered received signal, and wherein the ZIF communication circuit is in communication with an output of the fourth mixer circuit; and
at least one oscillator circuit in communication with the first, second, third and fourth mixer circuits, wherein the at least one oscillator circuit is configured to control mixing frequencies of the first, second, third and fourth mixer circuits, wherein the first frequency and the third frequency are substantially identical, and wherein the fourth frequency and the sixth frequency are substantially identical.
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Accused Products
Abstract
A circuit for communicating information in a wireless network includes a filtering circuit in communication with a zero intermediate frequency (ZIF) transceiver circuit. The filtering circuit includes a first mixer in communication with an output of the ZIF transceiver circuit. The filtering circuit includes a first Surface Acoustic Wave (SAW) filter circuit in communication with an output of the first mixer. The filtering circuit includes a second mixer in communication with an output of the first SAW filter circuit. The filtering circuit includes a third mixer, and a second SAW filter circuit in communication with an output of the third mixer. The filtering circuit includes a fourth mixer in communication with an output of the second SAW filter circuit and an input of the ZIF transceiver circuit. The filtering circuit also includes a local oscillator circuit in communication with the first, second, third and fourth mixers.
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Citations
28 Claims
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1. An apparatus for communicating information, comprising:
a filtering module in communication with a zero intermediate frequency (ZIF) communication circuit, wherein the filtering module comprises; a first mixer circuit in communication with an output of the ZIF communication circuit, wherein the first mixer circuit is configured to down-convert a transmission signal at a first frequency from the ZIF communication circuit to a second frequency to generate a down-converted transmission signal; a first filtering circuit in communication with an output of the first mixer circuit, wherein the first filtering circuit is configured to filter the down-converted transmission signal to generate a filtered down-converted transmission signal; a second mixer circuit in communication with an output of the first filtering circuit, wherein the second mixer circuit is configured to up-convert the filtered down-converted transmission signal to a third frequency to generate a filtered transmission signal; a third mixer circuit, wherein the third mixer circuit is configured to receive a received signal at a fourth frequency, and wherein the third mixer circuit is configured to down-convert the received signal to a fifth frequency to generate a down-converted received signal; a second filtering circuit in communication with an output of the third mixer circuit, wherein the second filtering circuit is configured to filter the down-converted received signal to generate a filtered down-converted received signal; a fourth mixer circuit in communication with the second filtering circuit, wherein the fourth mixer circuit is configured to up-convert the filtered down-converted received signal to a sixth frequency to generate a filtered received signal, and wherein the ZIF communication circuit is in communication with an output of the fourth mixer circuit; and at least one oscillator circuit in communication with the first, second, third and fourth mixer circuits, wherein the at least one oscillator circuit is configured to control mixing frequencies of the first, second, third and fourth mixer circuits, wherein the first frequency and the third frequency are substantially identical, and wherein the fourth frequency and the sixth frequency are substantially identical. - View Dependent Claims (2, 3, 4, 5, 6, 26)
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7. A circuit for communicating information in a wireless network, comprising:
a filtering circuit in communication with a zero intermediate frequency communication circuit, wherein the filtering circuit comprises; a first frequency down-converter circuit in communication with an output of the zero intermediate frequency communication circuit; a first filter circuit in communication with an output of the first frequency down-converter circuit; a first frequency up-converter circuit in communication with an output of the first filter circuit; a second frequency down-converter circuit; a second filter circuit in communication with an output of the second frequency down-converter circuit; a second frequency up-converter circuit in communication with an output of the second filter circuit and an input of the zero intermediate frequency communication circuit; and a local oscillator circuit in communication with the first and second frequency down-converter circuits and the first and second frequency up-converter circuits, wherein the frequencies of (i) an input to the first frequency down-converter circuit and (ii) an output from the first frequency up-converter circuit are substantially identical, and wherein, (iii) an input to the second frequency down-converter circuit and (iv) an output from the second frequency up-converter circuit are substantially identical. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16, 27)
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17. A method of communicating information to/from a zero intermediate frequency (ZIF) communication circuit, comprising the steps of:
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(a) down-converting a transmission signal at a first frequency from the ZIF communication circuit to a second frequency to generate a down-converted transmission signal; (b) filtering the down-converted transmission signal to generate a filtered down-converted transmission signal; (c) up-converting the filtered down-converted transmission signal to a third frequency to generate a filtered transmission signal; (d) down-converting a received signal at a fourth frequency to a fifth frequency to generate a down-converted received signal; (e) filtering the down-converted received signal to generate a filtered down-converted received signal; and (f) up-converting the filtered down-converted received signal to a sixth frequency to generate a filtered received signal for the ZIF communication circuit, and wherein the first filtering step substantially mitigates co-radio interference, wherein the first frequency and the third frequency are substantially identical, and wherein the fourth frequency and the sixth frequency are substantially identical. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24, 25, 28)
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Specification