Low-voltage constant-gm rail-to-rail CMOS input stage with improved gain
First Claim
1. An apparatus comprising:
- a first circuit configured to (i) generate an output signal in response to a differential input signal, a first power supply and a ground, wherein said output signal has a rail-to-rail voltage with a magnitude between said first power supply and said ground, and (ii) source an intermediate differential signal in response to said differential input signal, said first power supply and said ground; and
a second circuit configured to sink said differential intermediate signal in response to said differential input signal, said first power supply, said ground and a second power supply, wherein said second circuit flattens a transconductance of said first circuit relative to a common mode voltage of said differential input signal by shifting said differential input signal when said common mode voltage is close to said ground.
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Accused Products
Abstract
The present invention concerns an apparatus comprising a first circuit and a second circuit. The first circuit may be configured to generate an output signal in response to a differential input signal, a first power supply and a ground. The output signal may have a rail-to-rail voltage with a magnitude between the first power supply and the ground. The first circuit may also be configured to source an intermediate differential signal in response to the differential input signal, the first power supply and ground. The second circuit may be configured to sink the differential intermediate signal in response to the differential input signal, the first power supply, ground and a second power supply. The second circuit may flatten the transconductance of the first circuit relative to a common mode voltage of the differential input signal.
9 Citations
13 Claims
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1. An apparatus comprising:
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a first circuit configured to (i) generate an output signal in response to a differential input signal, a first power supply and a ground, wherein said output signal has a rail-to-rail voltage with a magnitude between said first power supply and said ground, and (ii) source an intermediate differential signal in response to said differential input signal, said first power supply and said ground; and a second circuit configured to sink said differential intermediate signal in response to said differential input signal, said first power supply, said ground and a second power supply, wherein said second circuit flattens a transconductance of said first circuit relative to a common mode voltage of said differential input signal by shifting said differential input signal when said common mode voltage is close to said ground. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 12, 13)
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10. An apparatus comprising:
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means for generating an output signal in response to a differential input signal, a first power supply and a ground, wherein (i) said output signal has a rail-to-rail voltage with a magnitude between said first power supply and said ground, and (ii) source an intermediate differential signal in response to said differential input signal, said first power supply and said ground; and means for sinking said differential intermediate signal in response to said differential input signal, said first power supply, said ground and a second power supply, wherein said means for sinking said differential intermediate signal flattens a transconductance of said apparatus relative to a common mode voltage of said differential input signal by shifting said differential input signal when said common mode voltage is close to said ground.
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11. A method for providing a constant transconductance input stage, comprising the steps of:
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(A) generating an output signal in response to a differential input signal, a first power supply and a ground, wherein (i) said output signal has a rail-to-rail voltage with a magnitude between said first power supply and said ground, and (ii) source an intermediate differential signal in response to said differential input signal, said first power supply and said ground; and (B) sinking said differential intermediate signal in response to said differential input signal, said first power supply, said ground and a second power supply, wherein said method flattens a transconductance of said output signal relative to a common mode voltage of said differential input signal by shifting said differential input signal when said common mode voltage is close to said around.
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Specification