Method and apparatus for generating a discretely variable capacitance for synthesizing high-frequency signals for wireless communications
DCFirst Claim
1. A frequency synthesizer having at least one variable frequency output, the output frequency varying as a capacitance within the synthesizer varies, comprising:
- a discretely variable capacitance circuit integrated within the frequency synthesizer including a plurality of capacitor circuits, each capacitor circuit comprising;
a capacitor coupled between a first node and a second node; and
a switch coupled between the second node and a third node to selectively couple the capacitor between the first node and the third node depending upon a control signal applied to a control node for the switch;
a multiple-bit digital control signal coupled to the control nodes of the plurality of switches to include or exclude the capacitors within the plurality of capacitor circuits within an overall capacitance for the discretely variable capacitance circuit; and
a continuously variable capacitance circuit integrated within the frequency synthesizer and having a plurality of analog signals as inputs, the analog signals controlling a plurality of capacitor circuits within the continuously variable capacitance circuit;
wherein at least two of the capacitor circuits within the discretely variable capacitance circuit have different capacitances with respect to each other.
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Abstract
A method and apparatus for synthesizing high-frequency signals is disclosed that overcomes integration problem associated with prior implementations while meeting demanding phase noise and other impurity requirements. In one embodiment, a phase-locked loop (PLL) frequency synthesizer is disclosed having a voltage controlled oscillator (VCO) with a variable capacitance that includes a discretely variable capacitance in conjunction with a continuously variable capacitance. The discretely variable capacitance may provide coarse tuning adjustment of the variable capacitance, and the continuously variable capacitance may provide a fine tuning adjustment of the variable capacitance. In a further detail, a plurality of connected capacitor circuits for the discretely variable capacitance are disclosed each having a first switch that selectively couples a capacitor between two nodes. A multiple-bit digital control signal is also disclosed that couples to the control nodes of the plurality of switches to select an overall capacitance for the discretely variable capacitance circuit, with at least two of the capacitors have different capacitance values with respect to each other.
79 Citations
33 Claims
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1. 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 discretely variable capacitance circuit integrated within the frequency synthesizer including a plurality of capacitor circuits, each capacitor circuit comprising;
a capacitor coupled between a first node and a second node; and
a switch coupled between the second node and a third node to selectively couple the capacitor between the first node and the third node depending upon a control signal applied to a control node for the switch;
a multiple-bit digital control signal coupled to the control nodes of the plurality of switches to include or exclude the capacitors within the plurality of capacitor circuits within an overall capacitance for the discretely variable capacitance circuit; and
a continuously variable capacitance circuit integrated within the frequency synthesizer and having a plurality of analog signals as inputs, the analog signals controlling a plurality of capacitor circuits within the continuously variable capacitance circuit;
wherein at least two of the capacitor circuits within the discretely variable capacitance circuit have different capacitances with respect to each other. - View Dependent Claims (2, 3, 4)
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5. 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 discretely variable capacitance circuit integrated within the frequency synthesizer including a plurality of capacitor circuits, each capacitor circuit comprising;
a capacitor coupled between a first node and a second node; and
a switch coupled between the second node and a third node to selectively couple the capacitor between the first node and the third node depending upon a control signal applied to a control node for the switch; and
a multiple-bit digital control signal coupled to the control nodes of the plurality of switches to include or exclude each of the capacitors within the capacitor circuits within an overall capacitance for the discretely variable capacitance circuit;
wherein at the capacitor circuits have different capacitances so that they are weighted with respect to each other; and
wherein the switches are MOS transistors and wherein a size for each MOS transistor is scaled proportionally with a size of the respective capacitor to which each MOS transistor is coupled.
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6. 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 discretely variable capacitance circuit integrated within the frequency synthesizer including a plurality of capacitor circuits, each capacitor circuit comprising;
a capacitor coupled between a first node and a second node; and
a switch coupled between the second node and a third node to selectively couple the capacitor between the first node and the third node depending upon a control signal applied to a control node for the switch; and
a multiple-bit digital control signal coupled to the control nodes of the plurality of switches to include or exclude each of the capacitors within the capacitor circuits within an overall capacitance for the discretely variable capacitance circuit;
wherein the capacitances associated with the plurality of capacitor circuits are weighted with respect to each other by two or more different scaling factors.
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7. An oscillator for a frequency synthesizer, the output frequency varying as a capacitance within the oscillator varies, comprising:
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a discretely variable capacitance circuit integrated within the frequency synthesizer including a plurality of capacitor circuits, each capacitor circuit comprising;
a capacitor coupled between a first node and a second node; and
a switch coupled between the second node and a third node to selectively couple the capacitor between the first node and the third node depending upon a control signal applied to a control node for the switch; and
a multiple-bit digital control signal coupled to the control nodes of the plurality of switches to include or exclude the capacitors within the plurality of capacitor circuits within an overall capacitance for the discretely variable capacitance circuit; and
a continuously variable capacitance circuit integrated within the frequency synthesizer and having a plurality of analog signals as inputs, the analog signals controlling a plurality of capacitor circuits within the continuously variable capacitance circuit;
wherein at least two of the capacitor circuits within the discretely variable capacitance circuit have different capacitances with respect to each other. - View Dependent Claims (8, 9, 10, 11, 12)
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13. An oscillator for a frequency synthesizer, the output frequency varying as a capacitance within the oscillator varies, comprising:
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a discretely variable capacitance circuit integrated within the frequency synthesizer including a plurality of capacitor circuits, each capacitor circuit comprising;
a capacitor coupled between a first node and a second node; and
a switch coupled between the second node and a third node to selectively couple the capacitor between the first node and the third node depending upon a control signal applied to a control node for the switch; and
a multiple-bit digital control signal coupled to the control nodes of the plurality of switches to include or exclude the capacitors within the plurality of capacitor circuits within an overall capacitance for the discretely variable capacitance circuit;
wherein the capacitances associated with the plurality of capacitor circuits are weighted with respect to each other by two or more different scaling factors. - View Dependent Claims (14, 15)
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16. An oscillator for a frequency synthesizer, the output frequency varying as a capacitance within the oscillator varies, comprising:
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a discretely variable capacitance circuit integrated within the frequency synthesizer including a plurality of capacitor circuits, each capacitor circuit comprising;
a capacitor coupled between a first node and a second node; and
a switch coupled between the second node and a third node to selectively couple the capacitor between the first node and the third node depending upon a control signal applied to a control node for the switch; and
a multiple-bit digital control signal coupled to the control nodes of the plurality of switches to include or exclude the capacitors within the plurality of capacitor circuits within an overall capacitance for the discretely variable capacitance circuit;
wherein the capacitor circuits within the discretely variable capacitance circuit have capacitances that are scaled with respect to each other by an identical factor; and
wherein the identical factor is greater than 1 and less than 2.
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17. An oscillator for a frequency synthesizer, the output frequency varying as a capacitance within the oscillator varies, comprising:
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a discretely variable capacitance circuit integrated within the frequency synthesizer including a plurality of capacitor circuits, each capacitor circuit comprising;
a capacitor coupled between a first node and a second node; and
a switch coupled between the second node and a third node to selectively couple the capacitor between the first node and the third node depending upon a control signal applied to a control node for the switch; and
a multiple-bit digital control signal coupled to the control nodes of the plurality of switches to include or exclude the capacitors within the plurality of capacitor circuits within an overall capacitance for the discretely variable capacitance circuit;
wherein the capacitor circuits within the discretely variable capacitance circuit have weighted capacitances with respect to each other; and
wherein the switches are MOS transistors and wherein a size for each MOS transistor is scaled proportionally with the weighting of the respective capacitance with which each MOS transistor is associated.
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18. A wireless communication system, comprising:
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a frequency synthesizer, the output frequency varying as a capacitance within the frequency synthesizer varies, comprising;
a discretely variable capacitance circuit integrated within the frequency synthesizer including a plurality of capacitor circuits, each capacitor circuit including a control node to include or exclude capacitance associated with the capacitor circuit within an overall capacitance for the discretely variable capacitance circuit, the capacitance for at least two of the capacitor circuits being different;
a multiple-bit digital control signal coupled to the control nodes of the plurality of capacitor circuits to include or exclude the capacitors within the plurality of capacitor circuits within the overall capacitance for the discretely variable capacitance circuit; and
a continuously variable capacitance circuit integrated within the frequency synthesizer and having a plurality of analog signals as inputs, the analog signals controlling a plurality of capacitor circuits within the continuously variable capacitance circuit; and
a mixing circuit coupled to mix an input signal with the output signal from the frequency synthesizer. - View Dependent Claims (19, 20)
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21. A method of operating a frequency synthesizer, comprising:
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providing a discretely variable capacitance circuit integrated within the frequency synthesizer including a plurality of capacitor circuits;
for each capacitor circuit, providing a capacitor coupled between a first node and a second node and a switch coupled between the second node and a third node to selectively couple the capacitor between the first node and the third node depending upon a control signal applied to a control node for the switch;
selecting capacitances for the plurality of capacitor circuits so that at least two of the capacitor circuits have different capacitances;
applying a multiple-bit digital control signal to the control nodes of the plurality of switches to select an overall capacitance for the discretely variable capacitance circuit;
providing a continuously variable capacitance circuit integrated within the frequency synthesizer and having a plurality of analog signals as inputs; and
utilizing the analog signals to control a plurality of capacitor circuits within the continuously variable capacitance circuit. - View Dependent Claims (22, 23)
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24. A method of operating a frequency synthesizer, comprising:
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providing a discretely variable capacitance circuit integrated within the frequency synthesizer including a plurality of capacitor circuits;
for each capacitor circuit, providing a capacitor coupled between a first node and a second node and a switch coupled between the second node and a third node to selectively couple the capacitor between the first node and the third node depending upon a control signal applied to a control node for the switch;
selecting capacitances for the plurality of capacitor circuits so that at least two of the capacitor circuits have different capacitances; and
applying a multiple-bit digital control signal to the control nodes of the plurality of switches to select an overall capacitance for the discretely variable capacitance circuit;
wherein the capacitances associated with the plurality of capacitor circuits are weighted with respect to each other by by two or more different scaling factors.
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25. A method of operating an oscillator for a frequency synthesizer, the output frequency varying as a capacitance within the controlled oscillator varies, comprising:
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providing a discretely variable capacitance circuit integrated within the controlled oscillator including a plurality of capacitor circuits;
for each capacitor circuit, providing a capacitor coupled between a first node and a second node and a switch coupled between the second node and a third node to selectively couple the capacitor between the first node and the third node depending upon a control signal applied to a control node for the switch;
selecting capacitances for the plurality of capacitor circuits so that at least two of the capacitor circuits have different capacitance values;
applying a multiple-bit digital control signal to the control nodes of the plurality of switches to select an overall capacitance for the discretely variable capacitance circuit;
providing a continuously variable capacitance circuit integrated within the frequency synthesizer and having a plurality of analog signals as inputs; and
utilizing the analog signals to control a plurality of capacitor circuits within the continuously variable capacitance circuit. - View Dependent Claims (26, 27, 28)
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29. A method of operating an oscillator for a frequency synthesizer, the output frequency varying as a capacitance within the controlled oscillator varies, comprising:
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providing a discretely variable capacitance circuit integrated within the controlled oscillator including a plurality of capacitor circuits;
for each capacitor circuit, providing a capacitor coupled between a first node and a second node and a switch coupled between the second node and a third node to selectively couple the capacitor between the first node and the third node depending upon a control signal applied to a control node for the switch;
selecting capacitances for the plurality of capacitor circuits so that at least two of the capacitor circuits have different capacitance values; and
applying a multiple-bit digital control signal to the control nodes of the plurality of switches to select an overall capacitance for the discretely variable capacitance circuit;
wherein the capacitances associated with the plurality of capacitor circuits are weighted with respect to each other by by two or more different scaling factors.
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30. A method for operating a wireless communication system, comprising:
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synthesizing a mixing signal having a frequency that is dependent upon the overall capacitance of a discretely variable capacitance circuit integrated within a frequency synthesizer, the discretely variable capacitance circuit including a plurality of capacitor circuits, each capacitor circuit having a control node to include or exclude capacitance associated with the capacitor circuit within the overall capacitance for the discretely variable capacitance circuit, and the capacitance for at least two of the capacitor circuits being different;
applying a multiple-bit digital control signal to the control nodes of the plurality of capacitor circuits to select the frequency of the mixing signal;
providing a continuously variable capacitance circuit integrated within the frequency synthesizer and having a plurality of analog signals as inputs; and
utilizing the analog signals to control a plurality of capacitor circuits within the continuously variable capacitance circuit; and
combining the mixing signal with an input signal to produce an output signal. - View Dependent Claims (31, 32, 33)
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Specification