Single chip CMOS transmitter/receiver
First Claim
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1. A method of generating local oscillator signals, comprising:
- receiving a reference signal having a reference frequency;
generating a plurality of first clock signals from the reference signal, each first clock signal having a different phase and a first frequency that is less than the reference frequency;
mixing the plurality of first clock signals to generate a plurality of local oscillator signals each having a second higher frequency;
multiplying the plurality of local oscillator signals with input signals to provide output signals at output terminals;
RF filtering received input signals;
amplifying the filtered received input signals with a gain to generate the input signals;
low pass filtering the output signals having a reduced frequency;
A/D converting the low pass filtered frequency reduced signals into digital signals; and
discrete-time signal processing the digital signals.
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Abstract
A single chip RF communication system and method is provided including a transmitter and a receiver. The RF communication system in accordance with the present invention includes an antenna for receiving transmitting RF signals, a PLL for generating multi-phase clock signals having a frequency different from a carrier frequency in response to the multi-phase clock signals and a reference signal having the carrier frequency, a demodulation-mixing unit for mixing the received RF signals with the multi-phase clock signals having the frequency different from the carrier frequency to output the RF signals having a frequency reduced by the carrier frequency and an A/D converting unit for converting the RF signals from the mixing unit into digital signals.
104 Citations
19 Claims
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1. A method of generating local oscillator signals, comprising:
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receiving a reference signal having a reference frequency;
generating a plurality of first clock signals from the reference signal, each first clock signal having a different phase and a first frequency that is less than the reference frequency;
mixing the plurality of first clock signals to generate a plurality of local oscillator signals each having a second higher frequency;
multiplying the plurality of local oscillator signals with input signals to provide output signals at output terminals;
RF filtering received input signals;
amplifying the filtered received input signals with a gain to generate the input signals;
low pass filtering the output signals having a reduced frequency;
A/D converting the low pass filtered frequency reduced signals into digital signals; and
discrete-time signal processing the digital signals. - View Dependent Claims (2, 3, 4, 5, 6)
first combining corresponding first clock signals to output a corresponding first local oscillator signal; and
second combining corresponding first clock signals to output a corresponding second local oscillator signal.
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5. The method of claim 1, wherein the input signals are RF signals, and wherein the local oscillator signals have a frequency greater than one GHz.
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6. The method of claim 1, wherein the said mixing comprises:
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receiving a first subset of the first clock signals;
first transmitting a selected signal according to a first pair of the first subset of the first clock signals;
second transmitting the selected signal according to a second pair of the first subset of the first clock signals;
third transmitting the selected signal according to a third pair of the first subset of the first clock signals; and
receiving the first, second and third transmitted selected signals in a prescribed order to generate a first local oscillator signal at a frequency higher than the first frequency.
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7. A method of generating local oscillator signals, comprising:
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receiving a reference signal having a reference frequency;
generating a plurality of first clock signals from the reference signal, each first clock signal having a different phase and a first frequency that is less than the reference frequency;
mixing the plurality of first clock signals to generate a plurality of local oscillator signals each having a second higher frequency; and
multiplying the plurality of local oscillator signals with input signals to provide output signals at output terminals, wherein the mixing combines the plurality of first clock signals to generate the plurality of local oscillator signals having the second frequency substantially the same as the reference frequency, and wherein the input signals have the reference frequency and the output signals are baseband.
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8. A method of generating local oscillator signals, comprising:
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receiving a reference signal having a reference frequency;
generating a plurality of first clock signals from the reference signal, each first clock signal having a different phase and a first frequency that is less than the reference frequency;
mixing the plurality of first clock signals to generate a plurality of local oscillator signals each having a second higher frequency;
multiplying the plurality of local oscillator signals with input signals to provide output signals at output terminals, modulation mixing the plurality of first clock signals combined as the local oscillator signals with transmission data to modulate the transmission data; and
power amplifying the modulated transmission data and transmitting the data. - View Dependent Claims (9)
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10. A method of generating local oscillator signals, comprising:
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receiving a reference signal having a reference frequency;
generating a plurality of first clock signals from the reference signal, each first clock signal having a different phase and a first frequency that is less than the reference frequency;
mixing the plurality of first clock signals to generate a plurality of local oscillator signals each having a second higher frequency; and
multiplying the plurality of local oscillator signals with input signals to provide output signals at output terminals, wherein the local oscillator signals have a frequency greater than 1 Ghz.
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11. A method of operating a communication system, comprising:
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receiving a reference signal and generating a plurality of first clock signals having N different phases, N being an integer greater than 1, each first clock signal having a first frequency substantially equal to double a second frequency divided by N; and
mixing the plurality of first clock signals to generate at least one local oscillator signal therein having the second frequency, wherein said mixing multiplies the at least one local oscillator signal with input signals to provide output signals at output terminals, wherein the input signals are RF signals, and wherein the local oscillator signals have a frequency greater than one GHz. - View Dependent Claims (12, 13, 14)
receiving a first subset of first clock signals at a combining unit;
switching a selected signal according to a first one of the first subset of first clock signals;
switching the selected signal according to a second one of the first subset of first clock signals;
switching the selected signal according to a third one of the first clock signals; and
combining the selected signal responsive to the first, second and third switching to generate a first local oscillator signal at a frequency higher than the first frequency.
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14. The method of claim 11, wherein the said mixing comprises:
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receiving a first subset of the first clock signals;
first transmitting a selected signal according to a first pair of the first subset of the first clock signals;
second transmitting the selected signal according to a second pair of the first subset of the first clock signals;
third transmitting the selected signal according to a third pair of the first subset of the first clock signals; and
receiving the first, second and third transmitted selected signals to generate a first local oscillator signal at a frequency higher than the first frequency.
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15. A method of operating a communication system, comprising:
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receiving a reference signal and generating a plurality of first clock signals having N different phases, N being an integer greater than 1, each first clock signal having a first frequency substantially equal to double a second frequency divided by N; and
mixing the plurality of first clock signals to generate at least one local oscillator signal therein having the second frequency, wherein said mixing multiplies the at least one local oscillator signal with input signals to provide output signals at output terminals, wherein the mixing combines the plurality of first clock signals to generate the plurality of local oscillator signals having the second frequency substantially the same as the reference frequency, and wherein the input signals have the reference frequency and the output signals are baseband.
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16. A method of operating a communication system, comprising:
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receiving a reference signal and generating a plurality of first clock signals having N different phases, N being an integer greater than 1, each first clock signal having a first frequency substantially equal to double a second frequency divided by N; and
mixing the plurality of first clock signals to generate at least one local oscillator signal therein having the second frequency, wherein said mixing multiplies the at least one local oscillator signal with input signals to provide output signals at output terminals, wherein the mixing combines the plurality of first clock signals to generate the plurality of local oscillator signals having the second frequency substantially the same as the reference signal, and wherein the input signals are baseband and the output signals have the reference frequency.
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17. A method of operating a single chip CMOS RF transceiver, comprising:
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receiving a reference signal having a reference frequency;
generating a plurality of first clock signals from the reference signal, each first clock signal having a different phase and a first frequency that is less than the reference frequency;
mixing the plurality of first clock signals to generate a plurality of local oscillator signals each having a second higher frequency; and
multiplying the plurality of local oscillator signals with input signals to provide output signals at output terminals, wherein the mixing combines the plurality of first clock signals to generate the plurality of local oscillator signals having the second frequency substantially the same as the reference frequency, and wherein the input signals have the reference frequency and the output signals are baseband. - View Dependent Claims (18)
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19. A method of operating a single chip CMOS RF transceiver, comprising:
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receiving a reference signal having a reference frequency;
generating a plurality of first clock signals from the reference signal, each first clock signal having a different phase and a first frequency that is less than the reference frequency;
mixing the plurality of first clock signals to generate a plurality of local oscillator signals each having a second higher frequency; and
multiplying the plurality of local oscillator signals with input signals to provide output signals at output terminals, wherein the input signals are RF signals, and wherein the local oscillator signals have a frequency greater than one GHz.
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Specification
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Current AssigneeGCT Semiconductor Incorporated
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Original AssigneeGCT Semiconductor Incorporated
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InventorsJeong, Deog-Kyoon, Lee, Kyeongho
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Primary Examiner(s)Pham, Chi
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Assistant Examiner(s)Bayard, Emmanuel
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Application NumberUS09/897,975Publication NumberTime in Patent Office565 DaysField of Search375/215, 375/339, 375/280, 375/294, 375/351, 375/352, 375/327, 375/376, 375/373, 329/307, 329/325, 329/360, 327/156, 327/147, 327/355, 327/356, 327/113, 327/116, 327/359, 327/357, 455/260, 455/180.5, 455/326, 455/353US Class Current375/327CPC Class CodesH03D 7/1441 using field-effect transist...H03H 11/22 providing two or more phase...H03H 2011/0494 Complex filtersH03K 9/00 Demodulating pulses which h...H03L 7/0891 the up-down pulses controll...H03L 7/0995 the oscillator comprising a...H03L 7/1974 for fractional frequency di...H04B 1/403 using the same oscillator f...
