Method and apparatus for generating a variable capacitance for synthesizing high-frequency signals for wireless communications
First Claim
1. A frequency synthesizer integrated circuit having at least one variable frequency output, the output frequency varying as a capacitance within the synthesizer varies, comprises:
- a controllable oscillator integrated within the frequency synthesizer;
a variable capacitance circuit integrated within the frequency synthesizer integrated circuit and operatively coupled to the controllable oscillator circuit, the variable capacitance circuit comprising, a first capacitor and a second capacitor coupled in series between a first node and a second node, a third node coupled between the first and second capacitors, and a variable resistance element coupled between the third node and the second node, the first and second capacitors being independent of a capacitance of the variable resistance element, if such capacitance of the variable resistance element exists; and
a variable control signal coupled to the variable resistance element, the controllable oscillator being provided electrically between the variable frequency output and the variable control signal, wherein changes in the variable control signal result in changes in a capacitance between the first node and the second node of the variable capacitance circuit due to changes in the resistance of the variable resistance element, the changes in the resistance of the variable resistance element resulting from changes in the variable control signal that is coupled to the variable resistance element.
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Abstract
A method and apparatus for synthesizing high-frequency signals, such as wireless communication signals, includes a phase-locked loop (PLL) frequency synthesizer with a variable capacitance voltage controlled oscillator (VCO) that has a discretely variable capacitance in conjunction with a continuously variable capacitance. The discretely variable capacitance may provide coarse tuning adjustment of the variable capacitance to compensate for capacitor and inductor tolerances and to adjust the output frequency to be near the desired frequency output. The continuously variable capacitance may provide a fine tuning adjustment of the variable capacitance to focus the output frequency to match precisely the desired frequency output. The continuously variable capacitance may be formed by using a plurality of separate capacitance circuits. The individual capacitance circuits may include two capacitors coupled to a variable resistance element. The variable resistance element may be a transistor controlled by an analog control voltage. The total capacitance of the continuously variable capacitance may be substantially linear with respect to the phase of the VCO output while the individual capacitance circuits exhibit nonlinear behavior.
114 Citations
39 Claims
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1. A frequency synthesizer integrated circuit having at least one variable frequency output, the output frequency varying as a capacitance within the synthesizer varies, comprises:
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a controllable oscillator integrated within the frequency synthesizer;
a variable capacitance circuit integrated within the frequency synthesizer integrated circuit and operatively coupled to the controllable oscillator circuit, the variable capacitance circuit comprising, a first capacitor and a second capacitor coupled in series between a first node and a second node, a third node coupled between the first and second capacitors, and a variable resistance element coupled between the third node and the second node, the first and second capacitors being independent of a capacitance of the variable resistance element, if such capacitance of the variable resistance element exists; and
a variable control signal coupled to the variable resistance element, the controllable oscillator being provided electrically between the variable frequency output and the variable control signal, wherein changes in the variable control signal result in changes in a capacitance between the first node and the second node of the variable capacitance circuit due to changes in the resistance of the variable resistance element, the changes in the resistance of the variable resistance element resulting from changes in the variable control signal that is coupled to the variable resistance element. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 38)
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9. A method of operating a frequency synthesizer integrated circuit, comprising:
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providing a controllable oscillator integrated within the frequency synthesizer;
providing a capacitance circuit integrated within the frequency synthesizer integrated circuit and coupling the capacitance circuit with the controllable oscillator, the capacitance circuit comprising a first capacitor and a second capacitor coupled in series between a first node and a second node, a third node being between the first and second capacitors;
providing a variable resistance element coupled to the third node;
generating a variable control signal; and
controlling the resistance of the variable resistance element with the variable control signal to vary the capacitance of the capacitance circuit, the first and second capacitors being independent of a capacitance of the variable resistance element, if such capacitance of the variable resistance element exists;
wherein changes in the variable control signal result in changes in a capacitance between the first node and the second node of the capacitance circuit due to changes in the resistance of the variable resistance element, the changes in the resistance of the variable resistance element resulting from changes in the variable control signal that is coupled to the variable resistance element. - View Dependent Claims (10, 11, 12, 13, 14, 15, 39)
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16. A frequency synthesizer having at least one variable frequency output, the output frequency varying as a capacitance within the synthesizer varies, comprising:
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a controllable oscillator integrated within the frequency synthesizer;
a variable capacitance circuit integrated within the frequency synthesizer, the variable capacitance circuit coupled to the controllable oscillator, the variable capacitance circuit comprising, a first capacitor and a second capacitor coupled in series between a first node and a second node, a third node coupled between the first and second nodes, and a variable resistance element coupled between the third node and the second node, the variable resistance element being in parallel with the second capacitor, the second capacitor being independent of a capacitance of the variable resistance element, if such capacitance of the variable resistance element exists; and
an analog variable control signal coupled to the variable resistance element, the controllable oscillator being provided electrically between the variable frequency output and the analog variable control signal, wherein changes in the analog variable control signal result in changes in a capacitance between the first node and the second node of the variable capacitance circuit due to changes in the resistance of the variable resistance element, the changes in the resistance of the variable resistance element resulting from changes in the analog variable control signal that is coupled to the variable resistance element. - View Dependent Claims (17, 18, 19, 20, 21, 22, 23)
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24. A method of operating a frequency synthesizer integrated circuit, comprising:
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providing a controllable oscillator integrated within the frequency sysnthesizer;
providing a capacitance circuit integrated within the frequency synthesizer integrated circuit, the capacitance circuit coupled to the controllable oscillator, the capacitance circuit comprising a first capacitor and a second capacitor coupled in series between a first node and a second node, a third node being between the first and second nodes;
providing a variable resistance element coupled to the third node, the variable resistance element being in parallel with the second capacitor, the second capacitor being independent of a capacitance of the variable resistance element, if such capacitance of the variable resistance element exits;
generating an analog variable control signal; and
controlling the resistance of the variable resistance element with the variable control signal to vary the capacitance of the capacitance circuit, wherein changes in the variable control signal result in changes in a capacitance between the first node and the second node of the capacitance circuit due to changes in the resistance of the variable resistance element, the changes in the resistance of the variable resistance element resulting from changes in the analog variable control signal that is coupled to the variable resistance element. - View Dependent Claims (25, 26, 27, 28, 29)
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30. A frequency synthesizer having at least one variable frequency output, the output frequency varying as a capacitance within the synthesizer varies, comprising:
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at least one or more variable control signals, the variable control signals being based at least in part upon the output frequency of the frequency synthesizer; and
a substantially linearly variable capacitance circuit integrated within the frequency synthesizer, the variable capacitance circuit comprising, a plurality of nonlinear capacitance circuits integrated within the substantially linearly variable capacitance circuit, at least some of the nonlinear capacitance circuits controlled by the at least one or more variable control signals, wherein capacitances of the plurality of nonlinear capacitance circuits combine to form a capacitance within the substantially linearly variable capacitance circuit and wherein the nonlinear capacitance circuits are variable between a plurality of capacitance amounts including at least two non-zero capacitance amounts;
wherein the substantially linearly variable capacitance circuit has a substantially linear relationship between a signal derived from the frequency output and the capacitance of the linear variable capacitance circuit, even though the substantially linearly variable capacitance circuit includes the plurality of nonlinear capacitance circuits. - View Dependent Claims (31, 32, 33, 34)
a first capacitor coupled between a first node and a second node;
a third node coupled between the first and second nodes, and a variable resistance element coupled between the third node and the second node.
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33. The frequency synthesizer of claim 32, wherein each of the plurality of nonlinear capacitance circuits further comprises:
a second capacitor coupled between a first node and a second node, the third node being coupled between the first capacitor and the second capacitor.
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34. The frequency synthesizer of claim 30, further comprising a controllable oscillator operatively connected to the nonlinear capacitance circuits, wherein an output frequency of the controllable oscillator is controlled by controlling the nonlinear capacitance circuits.
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35. A method of operating a frequency synthesizer, comprising:
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providing integrated variable capacitance circuitry having a substantially linear relationship between a signal derived from a frequency output of the frequency synthesizer and the capacitance of the variable capacitance circuitry, the variable capacitance circuitry formed from a plurality of individual capacitance circuits;
providing a plurality of variable control signals based at least in part upon an output frequency of the frequency synthesizer, the variable control signals configured to control a capacitance of each of the plurality of individual capacitance circuits in a nonlinear manner, the nonlinear capacitance circuits being variable between a plurality of capacitance amounts including at least two non-zero capacitance amounts; and
adjusting the variable control signals to vary a total capacitance of the variable capacitance circuitry in a substantially linear manner, even though the individual capacitance circuits have capacitances that vary in a nonlinear manner. - View Dependent Claims (36, 37)
for each of the plurality of capacitance circuits, providing a first capacitor and a second capacitor coupled in series between a first node and a second node, providing a third node between the first and second capacitors;
for each of the plurality of capacitance circuits, providing a variable resistance element coupled to the third node;
for each of the plurality of capacitance circuits, generating a variable control signal; and
for each of the plurality of capacitance circuits, controlling the resistance of the variable resistance element with the variable control signal to vary the capacitance of the capacitance circuit.
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37. The method of operating a frequency synthesizer of claim 35, further comprising the steps of providing a controllable oscillator operatively connected to the integrated variable capacitance circuitry, and controlling an output frequency of the controllable oscillator by controlling the capacitance circuits.
Specification