Voltage controlled oscillator with efficient process compensation
First Claim
1. A voltage controlled oscillator circuit comprising:
- a first current source for providing a substantially constant current independent of process, temperature and supply voltage;
a second current source for providing a variable current that varies in response to process, temperature and supply voltage;
an attenuator, coupled to said first current source and said second current source so as to subtract said second current from said first current to produce a compensated net current, said attenuator including a differentiation circuit that attenuates said compensated net current by splitting said net current into first and second split currents in accordance with an input voltage and a reference voltage and converting said second split current into a control current signal; and
a multistage ring oscillator including a plurality of series-connected inverter stages, the ring oscillator responsive to said control current signal for controlling the frequency of oscillation of the ring oscillator;
wherein said first current source and said second current source respectively generate said constant current and variable current independent of said input voltage.
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Accused Products
Abstract
A voltage controlled oscillator (VCO) provides an output signal with an output frequency that varies only minimally for any given input control voltage despite variations in the manufacturing process, temperature and supply voltage. The VCO also includes a multistage ring oscillator which includes a plurality of series-connected current-starved inverter stages. The VCO utilizes a first current source to provide a substantially constant current independent of process, temperature and supply voltage and a second current source to provide a variable current that varies in response to process, temperature and supply voltage. Both current sources generate a respective current signal independent of the input signal to the VCO. An attenuator, responsive to the VCO'"'"'s input voltage signal (typically from a phase-locked loop filter) provides a control current signal to the ring oscillator. The attenuator receives a supply current created by subtracting the second current from the first current, and utilizes a differentiation subcircuit that attenuates the supply current in response to changes in an input voltage to produce a current control signal that sets the current level in the ring oscillator'"'"'s cells. The frequency of oscillation of the ring oscillator is determined by the control current signal. Additionally, the VCO circuit may include a current mirror for receiving the control current signal from the attenuator and mirroring the control current signal to the ring oscillator.
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Citations
13 Claims
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1. A voltage controlled oscillator circuit comprising:
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a first current source for providing a substantially constant current independent of process, temperature and supply voltage; a second current source for providing a variable current that varies in response to process, temperature and supply voltage; an attenuator, coupled to said first current source and said second current source so as to subtract said second current from said first current to produce a compensated net current, said attenuator including a differentiation circuit that attenuates said compensated net current by splitting said net current into first and second split currents in accordance with an input voltage and a reference voltage and converting said second split current into a control current signal; and a multistage ring oscillator including a plurality of series-connected inverter stages, the ring oscillator responsive to said control current signal for controlling the frequency of oscillation of the ring oscillator; wherein said first current source and said second current source respectively generate said constant current and variable current independent of said input voltage. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of generating an oscillating clock signal, the method comprising the steps of:
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receiving an input voltage signal; generating a substantially constant current independent of process, temperature and supply voltage and independent of said input voltage signal; generating a variable current that varies in response to process, temperature and supply voltage and independent of said input voltage signal; subtracting said second current from said first current to produce a compensated net current, and attenuating said compensated net current by splitting said net current into first and second split currents in accordance with said input voltage signal and a reference voltage and converting said second split current into a control current signal; and providing current, in accordance with said control current signal, to a current-starved multistage ring oscillator to generate an oscillating clock signal. - View Dependent Claims (12, 13)
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Specification