Wide-band/multi-band voltage controlled oscillator
First Claim
1. A variable frequency signal generator, comprising:
- first and second LC oscillator circuits including voltage controlled capacitance elements;
a first control voltage input coupled to the LC oscillator circuits to control the capacitance of said voltage controlled capacitance elements;
a transconductance control circuit cross-coupling said first and second LC oscillator circuits;
a second control voltage input coupled to the transconductance control circuit to control transconductance coupling between the first and second oscillator circuits; and
a variable frequency signal output coupled to generate an output signal from one of the first and second oscillator circuits, wherein the frequency of the output signal is controllable by independently controlling the voltages at the first and second control voltage inputs.
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Accused Products
Abstract
A variable frequency signal generator, in the form of a voltage controlled oscillator, provides wide-band and/or multi-band output frequency operation using two control voltage inputs. A pair of LC oscillator circuits are cross-coupled through a transconductance control circuit. The oscillator circuits provide quadrature output frequency signals. The oscillator circuits include MOSFET varactors controllable by a first control voltage which can be used to drive the varactors into inversion or depletion operating modes which correspond to respective output signal frequency bands. A second control voltage is provided to the transconductance control circuit to control currents injected from each oscillator to the other, thereby selecting a particular output frequency within the range of the frequency band determined by the first control voltage. A control voltage compensation circuit is included to prevent variations in the second control voltage from altering the frequency band range selected by the first control voltage. Output signals with frequencies in the range 850 MHz to 2.4 GHz with favorable harmonic content and low phase noise are possible with relatively low supply voltages.
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Citations
17 Claims
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1. A variable frequency signal generator, comprising:
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first and second LC oscillator circuits including voltage controlled capacitance elements;
a first control voltage input coupled to the LC oscillator circuits to control the capacitance of said voltage controlled capacitance elements;
a transconductance control circuit cross-coupling said first and second LC oscillator circuits;
a second control voltage input coupled to the transconductance control circuit to control transconductance coupling between the first and second oscillator circuits; and
a variable frequency signal output coupled to generate an output signal from one of the first and second oscillator circuits, wherein the frequency of the output signal is controllable by independently controlling the voltages at the first and second control voltage inputs. - View Dependent Claims (2, 3, 4, 5, 6, 7)
a pair of transistors cross-coupled to first and second common nodes; and
a respective LC load coupled to each of the first and second common nodes, each LC load comprising an inductive element coupled between the common node and a supply voltage and a varactor capacitive element coupled between the common node and a controlled voltage node;
wherein the first and second common nodes provide input/output connections for coupling to said transconductance control circuit and said variable frequency signal output.
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4. A variable frequency signal generator as claimed in claim 3, wherein the transconductance control circuit comprises first and second coupling circuits, each coupling circuit having a pair of inputs and a pair of outputs, and wherein:
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the inputs of the first coupling circuit are coupled to the common nodes of the first oscillator circuit;
the outputs of the first coupling circuit are coupled to the common nodes of the second oscillator circuit;
the inputs of the second coupling circuit are coupled to the common nodes of the second oscillator circuit; and
the outputs of the second coupling circuit are coupled to the common nodes of the first oscillator circuit.
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5. A variable frequency signal generator as claimed in claim 4, wherein each of the coupling circuits comprises a pair of coupling transistors having first conduction nodes forming said coupling circuit outputs and second conduction nodes coupled to a supply voltage through a control transistor, the coupling transistors having control nodes forming said coupling circuit inputs, and said control transistor having a control node coupled to said second control voltage input.
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6. A variable frequency signal generator as claimed in claim 5, wherein said control voltage compensation circuit includes a resistive element that provides a controlled voltage drop between said first control voltage input and said controlled voltage node so as to maintain the potential difference between the common nodes of said oscillator circuits and the controlled voltage node substantially constant with respect to changes in voltage at said second control voltage input.
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7. A variable frequency signal generator as claimed in claim 1 which acts as a wide-band voltage controlled oscillator which is tunable to obtain output signals at said variable frequency signal output through at least the range of 900 MHz to 2200 MHz by application of control voltages at said first and second control voltage inputs.
- 8. A variable frequency signal generator comprising a pair of LC oscillator circuits interconnected by a transconductance control circuit, the oscillator circuits having outputs that in use provide respective quadrature frequency output signals, the transconductance control circuit having a second control voltage input effective in use to change the frequency of output signals from said oscillator circuits within a selected frequency band, and the oscillator circuits having a first control voltage input effective to change said selected frequency band.
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15. A method of operating a variable frequency signal generator having a pair of LC oscillator circuits interconnected by a transconductance control circuit, the oscillator circuits having outputs that in use provide respective quadrature frequency output signals, the oscillator circuits having a first control voltage input and the transconductance control circuit having a second control voltage input, the method comprising:
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applying a first control voltage to the oscillator circuits through said first control voltage input, the first control voltage being selected from first and second predetermined voltage levels corresponding to first and second output signal frequency bands; and
applying a second control voltage to the transconductance control circuit through said second voltage input, the second control voltage being within a predetermined voltage range corresponding to an output signal frequencies within the first and second frequency bands. - View Dependent Claims (16, 17)
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Specification