Comparator circuit for decreasing shoot-through current on power switches
First Claim
1. A low power, break before make output circuit, comprising:
- an output transistor pair coupled together in series between a first and second voltage potential;
a first control circuit having a first and second input and an output, wherein the first input is coupled to a first digital control input and the output is coupled to a control terminal of a first transistor in the output transistor pair;
a second control circuit having a first and second input and an output, wherein the first input is coupled to a second digital control input and the output is coupled to a control terminal of a second transistor in the output transistor pair;
a first comparator having an input connected to the output of the first control circuit and an output connected to the second input of the second control circuit, wherein the first comparator compares a voltage at the control terminal of the first transistor to a first predetermined voltage and formulates a voltage at its output in response to the comparison, wherein the first comparator comprises;
an input coupled to the control terminal of the first transistor in the output transistor pair;
an output coupled to the second input of the second control circuit;
an upper trip point circuit having a first input coupled to the input of the first comparator, a second input, and an output which forms the output of the first comparator;
a lower trip point circuit having a first input coupled to the input of the first comparator, a second input coupled to the output of the upper trip point circuit, and an output coupled to the second input of the upper trip point circuit; and
wherein the upper trip point circuit outputs a digital high value when the input rises above a first predetermined voltage value and a digital low value otherwise, and wherein the lower trip point circuit outputs a digital high value when the input rises above a second predetermined voltage value and a digital low value otherwise;
a second comparator having an input connected to the output of the second control circuit and an output connected to the second input of the first control circuit, wherein the second comparator compares a voltage at the control terminal of the second transistor to a second predetermined voltage and formulates a voltage at its output in response to the comparison; and
wherein the voltages at the output of first comparator and second comparator influence the outputs of first control circuit and second control circuit thereby ensuring that the first transistor is not conducting when the second transistor is activated.
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Accused Products
Abstract
A low power, break before make output circuit includes an output transistor pair 12 and 14, a first control circuit 20, a second control circuit 22, a first comparator 16, and a second comparator 18. First control circuit 20 has a first input coupled to a first digital control input and an output coupled to a control terminal of a first transistor 12 in the output transistor pair. Second control circuit 22 has a first input coupled to a second digital control input and an output coupled to a control terminal of a second transistor 14 in the output transistor pair. First comparator 16 has an input connected to the output of first control circuit 20 and an output connected to the second input of second control circuit 22. First comparator 16 compares a voltage at the control terminal of first transistor 12 to a first predetermined voltage and formulates a voltage at its output in response to the comparison. Second comparator 18 has an input connected to the output of second control circuit 22 and an output connected to the second input of first control circuit 20. Second comparator 18 compares a voltage at the control terminal of second transistor 14 to a second predetermined voltage and formulates a voltage at its output in response to the comparison. The voltages at the output of first comparator 16 and second comparator 18 influence the outputs of first control circuit 20 and second control circuit 22 thereby ensuring that first transistor 12 is not conducting when second transistor 14 is activated.
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Citations
10 Claims
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1. A low power, break before make output circuit, comprising:
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an output transistor pair coupled together in series between a first and second voltage potential; a first control circuit having a first and second input and an output, wherein the first input is coupled to a first digital control input and the output is coupled to a control terminal of a first transistor in the output transistor pair; a second control circuit having a first and second input and an output, wherein the first input is coupled to a second digital control input and the output is coupled to a control terminal of a second transistor in the output transistor pair; a first comparator having an input connected to the output of the first control circuit and an output connected to the second input of the second control circuit, wherein the first comparator compares a voltage at the control terminal of the first transistor to a first predetermined voltage and formulates a voltage at its output in response to the comparison, wherein the first comparator comprises; an input coupled to the control terminal of the first transistor in the output transistor pair; an output coupled to the second input of the second control circuit; an upper trip point circuit having a first input coupled to the input of the first comparator, a second input, and an output which forms the output of the first comparator; a lower trip point circuit having a first input coupled to the input of the first comparator, a second input coupled to the output of the upper trip point circuit, and an output coupled to the second input of the upper trip point circuit; and wherein the upper trip point circuit outputs a digital high value when the input rises above a first predetermined voltage value and a digital low value otherwise, and wherein the lower trip point circuit outputs a digital high value when the input rises above a second predetermined voltage value and a digital low value otherwise; a second comparator having an input connected to the output of the second control circuit and an output connected to the second input of the first control circuit, wherein the second comparator compares a voltage at the control terminal of the second transistor to a second predetermined voltage and formulates a voltage at its output in response to the comparison; and wherein the voltages at the output of first comparator and second comparator influence the outputs of first control circuit and second control circuit thereby ensuring that the first transistor is not conducting when the second transistor is activated. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A low power, break before make output circuit, comprising:
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an output transistor pair coupled together in series between a first and second voltage potential; a first control circuit having a first and second input and an output, wherein the first input is coupled to a first digital control input and the output is coupled to a control terminal of a first transistor in the output transistor pair; a second control circuit having a first and second input and an output, wherein the first input is coupled to a second digital control input and the output is coupled to a control terminal of a second transistor in the output transistor pair; a first comparator having an input connected to the output of the first control circuit and an output connected to the second input of the second control circuit, wherein the first comparator compares a voltage at the control terminal of the first transistor to a first predetermined voltage and formulates a voltage at its output in response to the comparison; second comparator having an input connected to the output of the second control circuit and an output connected to the second input of the first control circuit, wherein the second comparator compares a voltage at the control terminal of the second transistor to a second predetermined voltage and formulates a voltage at its output in response to the comparison, wherein the second comparator comprises; an input coupled to the control terminal of the second transistor in the output transistor pair; an output coupled to the second input of the first control circuit; an upper trip point circuit, one input of which is coupled to the input of the comparator, a second input, and an output; a lower trip point circuit, one input of which is coupled to the input of the comparator, and a second input of which is coupled to the output of the upper trip point circuit, and an output coupled to the second input of the upper trip point circuit and which forms the output of the second comparator; and wherein the upper trip point circuit outputs a digital high value when the input rises above a third predetermined voltage value and a digital low value otherwise, and wherein the lower trip point circuit outputs a digital high value when the input rises above a fourth predetermined voltage value and a digital low value otherwise, and wherein the output of the comparator is taken as the output of the lower trip point circuit, and is connected to the second input of the first control circuit; and wherein the voltages at the output of first comparator and second comparator influence the outputs of first control circuit and second control circuit thereby ensuring that the first transistor is not conducting when the second transistor is activated.
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9. A low power, break before make output circuit, comprising:
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an output transistor pair coupled together in series between a first and second voltage potential; a first control circuit having a first and second input and an output, wherein the first input is coupled to a first digital control input and the output is coupled to a control terminal of a first transistor in the output transistor pair; a second control circuit having a first and second input and an output, wherein the first input is coupled to a second digital control input and the output is coupled to a control terminal of a second transistor in the output transistor pair; a first comparator having an input connected to the output of the first control circuit and an output connected to the second input of the second control circuit, wherein the first comparator compares a voltage at the control terminal of the first transistor to a first predetermined voltage and formulates a voltage at its output in response to the comparison, wherein the first comparator comprises; an input coupled to the control terminal of the first transistor in the output transistor pair; an upper trip point circuit coupled to the input; a lower trip point circuit coupled to the input and to the upper trip point circuit; a third control circuit coupled to the upper trip point circuit and the lower trip point circuit, wherein the third control circuit has an output that forms the output of the first comparator; and wherein the upper trip point circuit outputs a digital high value when the input rises above a predetermined voltage value and the lower trip point circuit outputs a digital high value when the output rises above a second predetermined voltage value, and further wherein the third control circuit outputs a digital high value when the upper trip point circuit and lower trip point circuit output digital high values, outputs a digital low value when upper trip point circuit and lower trip point circuit output digital low values, and maintains its digital value when the upper trip point circuit outputs a digital low value and lower trip point circuit outputs a digital high value; a second comparator having an input connected to the output of the second control circuit and an output connected to the second input of the first control circuit, wherein the second comparator compares a voltage at the control terminal of the second transistor to a second predetermined voltage and formulates a voltage at its output in response to the comparison; and wherein the voltages at the output of first comparator and second comparator influence the outputs of first control circuit and second control circuit thereby ensuring that the first transistor is not conducting when the second transistor is activated. - View Dependent Claims (10)
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Specification