Method and apparatus for avoiding gated diode breakdown in transistor circuits
First Claim
1. A method for avoiding gated diode breakdown in a voltage conversion circuit having at least two N-channel output driver transistors in series, said voltage conversion circuit capable of switching between a high voltage level and a lower rail voltage in a high voltage mode, said method comprising the steps of:
- providing a logic input value to select between said high voltage level and said lower rail voltage; and
gating one of said at least two N-channel output driver transistors in said high voltage mode with an intermediate voltage level that is between one transistor threshold above said lower rail voltage and one transistor threshold above a breakdown voltage of said at least two N-channel output driver transistors.
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Abstract
An N-channel transistor protection circuit and method are disclosed that prevent gated diode breakdown in N-channel transistors that have a high voltage on their drain. The disclosed N-channel protection circuit may be switched in a high voltage mode between a high voltage level and a lower rail voltage. A high voltage conversion circuit prevents gated diode breakdown in N-channel transistors by dividing the high voltage across two N-channel transistors, MXU0 and MXU1, such that no transistor exceeds the breakdown voltage, Vbreakdown. An intermediate voltage drives the top N-channel transistor, MXU0. The top N-channel transistor, MXU0, is gated with a voltage level that is at least one N-channel threshold, Vtn, below the high voltage level, Vep, using the intermediate voltage level, nprot. The drain voltage of MXU0 will be at least one N-channel threshold, Vtn, lower than the input voltage level, nprot, and the drain voltage Vd of the bottom N-channel transistor, MXU1, is limited to less than the breakdown voltage, Vbreakdown.
7 Citations
26 Claims
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1. A method for avoiding gated diode breakdown in a voltage conversion circuit having at least two N-channel output driver transistors in series, said voltage conversion circuit capable of switching between a high voltage level and a lower rail voltage in a high voltage mode, said method comprising the steps of:
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providing a logic input value to select between said high voltage level and said lower rail voltage; and
gating one of said at least two N-channel output driver transistors in said high voltage mode with an intermediate voltage level that is between one transistor threshold above said lower rail voltage and one transistor threshold above a breakdown voltage of said at least two N-channel output driver transistors. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A voltage conversion circuit capable of switching between a high voltage level and a lower rail voltage in a high voltage mode, comprising:
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at least two N-channel output driver transistors in series;
a logic input that selects between said high voltage level and said lower rail voltage; and
at least one of said at least two N-channel output driver transistors gated by an intermediate voltage level between one transistor threshold above said lower rail voltage and one transistor threshold above a breakdown voltage of said at least two N-channel output driver transistors. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21)
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22. A voltage conversion circuit capable of switching between a high voltage level and a lower rail voltage in a high voltage mode, comprising:
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at least two N-channel output driver transistors in series;
a logic input that selects between said high voltage level and said lower rail voltage; and
at least one of said at least two N-channel output driver transistors gated by an intermediate voltage level that is at least one N-channel threshold below said high voltage level. - View Dependent Claims (23, 24, 25, 26)
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Specification