Low voltage differential voltage-controlled ring oscillator
First Claim
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1. A ring oscillator comprising:
- a voltage-to-current converter for producing at least one control current from at least one control voltage; and
, a plurality of delay cells coupled to the converter, wherein at least one output of the one of the delay cells is coupled to the input of another of the delay cells, wherein the voltage-to-current converter produces a substantially linear output when the at least one control voltage is varied between zero volts and a rail supply voltage, wherein the voltage-to-current converter includes at least two stages, a first stage for producing a first component of the control current, and a second stage for producing a second component of the control current, wherein the first stage of the voltage-to-current converter comprises;
a first transistor having a gate terminal coupled to the at least one control voltage;
a second transistor having a gate terminal coupled to a source of the first transistor;
a third transistor having a gate terminal and a drain terminal coupled to a drain of the second transistor; and
, a fourth transistor having a gate terminal coupled to the drain of the second transistor.
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Abstract
A ring oscillator including a voltage-to-current converter for producing at least one control current from at least one control voltage and, a plurality of delay cells coupled to the converter, wherein at least one output of the one of the delay cells is coupled to the input of another of the delay cells, wherein the voltage-to-current converter produces a substantially linear output when the at least one control voltage is varied between zero volts and a rail supply voltage. Since the ring oscillator operates from a low voltage source, it can be used in applications where power supply (e.g., battery size) is small (e.g., pagers, cellular phone applications).
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Citations
12 Claims
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1. A ring oscillator comprising:
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a voltage-to-current converter for producing at least one control current from at least one control voltage; and
,a plurality of delay cells coupled to the converter, wherein at least one output of the one of the delay cells is coupled to the input of another of the delay cells, wherein the voltage-to-current converter produces a substantially linear output when the at least one control voltage is varied between zero volts and a rail supply voltage, wherein the voltage-to-current converter includes at least two stages, a first stage for producing a first component of the control current, and a second stage for producing a second component of the control current, wherein the first stage of the voltage-to-current converter comprises;
a first transistor having a gate terminal coupled to the at least one control voltage;
a second transistor having a gate terminal coupled to a source of the first transistor;
a third transistor having a gate terminal and a drain terminal coupled to a drain of the second transistor; and
,a fourth transistor having a gate terminal coupled to the drain of the second transistor. - View Dependent Claims (2, 3, 4, 5)
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6. A ring oscillator comprising:
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a voltage-to-current converter for producing at least one control current from at least one control voltage; and
,a plurality of delay cells coupled to the converter, wherein at least one output of the one of the delay cells is coupled to the input of another of the delay cells, wherein the voltage-to-current converter produces a substantially linear output when the at least one control voltage is varied between zero volts and a rail supply voltage, wherein the voltage-to-current converter includes at least two stages, a first stage for producing a first component of the control current, and a second stage for producing a second component of the control current, wherein the second stage of the voltage-to-current converter comprises;
a first transistor having a gate terminal coupled to the at least one control voltage;
a second transistor having a gate terminal coupled to a drain of the first transistor; and
,a third transistor having a gate terminal coupled to a drain of the first transistor. - View Dependent Claims (7, 8)
a fourth transistor having a drain terminal coupled to a drain terminal of the third transistor.
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8. The ring oscillator of claim 7, wherein the first, second, third and fourth transistors comprise Metal-Oxide Semiconductor Field Effect Transistors.
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9. A ring oscillator comprising:
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a voltage-to-current converter for producing at least one control current from at least one control voltage; and
,a plurality of delay cells coupled to the converter, wherein at least one output of the one of the delay cells is coupled to the input of another of the delay cells, wherein the voltage-to-current converter produces a substantially linear output when the at least one control voltage is varied between zero volts and a rail supply voltage, and wherein each of the plurality of delay cells comprise;
at least four transistors having their gates coupled to a bias voltage generated from the control current; and
,at least two differential input transistors; and
,at least two cross-coupled transistors. - View Dependent Claims (10, 11)
at least two diodes for limiting voltage swing.
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11. The ring oscillator of claim 9, wherein the at least four transistors, the at least two differential input transistors and the at least two cross-coupled transistors comprise Metal-Oxide Semiconductor Field Effect Transistors.
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12. A ring oscillator comprising:
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a voltage-to-current converter for producing at least one control current from at least one control voltage; and
,a plurality of delay cells coupled to the converter, wherein at least one output of the one of the delay cells is coupled to the input of another of the delay cells, wherein the voltage-to-current converter produces a substantially linear output when the at least one control voltage is varied between zero volts and a rail supply voltage, wherein each of the plurality of delay cells includes;
at least one first input terminal;
at least one second input terminal; and
,at least one first output terminal, and wherein the at least one first input terminal, the at least one second input terminal and the at least one first output terminal each comprise a pair of terminals.
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Specification