Methods and apparatus to balance reference settling in switched-capacitor pipelined digital to analog converter
First Claim
Patent Images
1. A switched-capacitor digital-to-analog converter comprising:
- a plurality of cells, each cell comprising first and second switches switching respective voltages from a source to a charged capacitor, andrespective switch driver circuits each in electrical communication with a respective one of the first and second switches, each switch driver circuit applying a switch control signal to the switch, the switch control signals that turn the switches on differing to equalize the on-state gate-to-source voltage differences of the first and second switches, each switch driver circuits comprising;
a first element receiving an external input, the first element providing an output responsive to the received input; and
a second element in electrical communication with the first element, the second element receiving the output and conditioning the output according to the difference between the respective voltages from the source.
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Abstract
The linearity of switched-capacitor, pipeline digital to analog converters is improved by balancing the settling behavior of its pre-charge switches. In more detail, a switched capacitor DAC includes a number of substantially identical cells, one cell for each bit of an input digital word. A number of switch driver circuits are used to apply respective switch control signals to turn respective switches on and off. Advantageously, the switch control signals differ by an amount determined to equalize the gate-to-source voltage difference between different switches.
21 Citations
18 Claims
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1. A switched-capacitor digital-to-analog converter comprising:
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a plurality of cells, each cell comprising first and second switches switching respective voltages from a source to a charged capacitor, and respective switch driver circuits each in electrical communication with a respective one of the first and second switches, each switch driver circuit applying a switch control signal to the switch, the switch control signals that turn the switches on differing to equalize the on-state gate-to-source voltage differences of the first and second switches, each switch driver circuits comprising; a first element receiving an external input, the first element providing an output responsive to the received input; and a second element in electrical communication with the first element, the second element receiving the output and conditioning the output according to the difference between the respective voltages from the source. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A switched-capacitor digital-to-analog converter comprising:
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a plurality of cells, each cell comprising first and second switches switching respective voltages from a source to a charged capacitor, respective switch driver circuits each in electrical communication with a respective one of the first and second switches, each switch driver circuit applying a switch control signal to the switch, the switch control signals that turn the switches on differing to equalize the on-state gate-to-source voltage differences of the first and second switches; and respective switches coupled between adjacent cells of the plurality of cells, the switches controllably connecting the cells ultimately producing an analog output corresponding to a digital input word.
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10. A method for data conversion using a switched-capacitor digital-to-analog converter comprising the steps of:
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providing a plurality of cells, each cell comprising first and second switches switching respective different voltages from a source to a charged capacitor; providing respective switch driver circuits each in electrical communication with a respective one of the first and second switches; applying respective switch control signals to each of the first and second switches, the switch control signals that turn the switches on differing to equalize the on-state gate-to-source voltage differences of the first and second switches; receiving an external input, at a first element, the first element providing an output responsive to the received input; and receiving the output at a second element in electrical communication with the first element, and conditioning the output according to the difference between the respective voltages from the source. - View Dependent Claims (11, 12, 13, 14, 15)
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16. A method for data conversion using a switched-capacitor digital-to-analog converter comprising the steps of:
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providing a plurality of cells, each cell comprising first and second switches switching respective different voltages from a source to a charged capacitor; providing respective switch driver circuits each in electrical communication with respective one of the first and second switches, applying respective switch control signals to each of the first and second switches, the switch control signals that turn the switches on differing to equalize the on-state gate-to-source voltage differences of the first and second switches; and providing respective switches coupled between adjacent cells of the plurality of cells, the switches controllably connecting the cells ultimately producing an analog output corresponding to a digital input word.
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17. A switched-capacitor digital-to-analog converter comprising:
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a plurality of cells, each cell comprising first and second switches switching respective voltages from a source to a charged capacitor; and respective switch driver circuits, each in electrical communication with a respective one of the first and second switches, each switch driver circuit applying a switch control signal to the switch, the switch control signals that turn the switches on differing to equalize the on-state gate-to-source voltage differences of the first and second switches, each switch driver circuit including; a first logic gate receiving as external input one bit of a digital input word and a switching control signal, the first logic gate providing an output responsive to the received input; and a second logic gate in electrical communication with the first logic gate, the second logic gate receiving the output and conditioning the output according to the difference between the respective voltages from the source, the second logic gate being powered by a logic source level depending on the difference between the respective voltages from the source.
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18. A method for data conversion using a switched-capacitor digital-to-analog converter comprising the steps of:
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providing a plurality of cells, each cell comprising first and second switches switching respective different voltages from a source to a charged capacitor; providing respective switch driver circuits each in electrical communication with a respective one of the first and second switches; applying respective switch control signals to each of the first and second switches, the switch control signals that turn the switches on differing to equalize the on-state gate-to-source voltage differences of the first and second switches; receiving at a first logic gate an external input of one bit of a digital input word and a switching control signal, the first logic gate providing an output responsive to the received input; receiving the output at a second logic gate in electrical communication with the first logic gate; and conditioning the output according to the difference between the respective voltages from the source.
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Specification