Charge modulation network for multiple power domains for silicon-on-insulator technology
First Claim
Patent Images
1. A silicon-on-insulator (SOI) integrated circuit including electrostatic discharge (ESD) protection comprising:
- an SOI chip;
a first power domain in the SOI chip;
a second power domain in the SOI chip;
an ESD protection device in the SOI chip electrically connecting the first power domain and the second power domain via a low metal layer to provide a discharge path for accumulated charge; and
a logic signal line between the first and second power domains and wherein the ESD protection device electrically connects the first power domain and the second power domain at a metal level lower than or equal to the highest metal level on which the logic signal line is routed to provide a discharge path for accumulated charge.
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Abstract
An SOI integrated circuit includes ESD protection on an SOI chip. A first power domain and a second power domain are provided in the SOI chip. In one embodiment, a charge modulation network in the SOI chip between the first power domain and the second power domain mitigates accumulation of electrical charge in an electrically isolated region of the SOI chip. In another embodiment, an ESD protection device in the SOI chip electrically connects the first power domain and the second power domain via a low metal layer to provide a discharge path for accumulated charge.
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Citations
8 Claims
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1. A silicon-on-insulator (SOI) integrated circuit including electrostatic discharge (ESD) protection comprising:
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an SOI chip; a first power domain in the SOI chip; a second power domain in the SOI chip; an ESD protection device in the SOI chip electrically connecting the first power domain and the second power domain via a low metal layer to provide a discharge path for accumulated charge; and a logic signal line between the first and second power domains and wherein the ESD protection device electrically connects the first power domain and the second power domain at a metal level lower than or equal to the highest metal level on which the logic signal line is routed to provide a discharge path for accumulated charge. - View Dependent Claims (2, 3, 4)
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5. A method of implementing electrostatic discharge protection in a silicon-on-insulator (SOI) integrated circuit comprising:
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defining a plurality of SOI devices in the integrated circuit; identifying a plurality of power domains in the SOI integrated circuit; determining if a logic signal traverses more than one of the plurality of power domains; determining if a circuit path for the logic signal is timing critical; and connecting a power supply wire for an ESD protection network at a metal level lower than or equal to a highest metal level on which the logic signal is routed if the logic signal traverses more than one power domain and if the circuit path is timing critical. - View Dependent Claims (6, 7)
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8. A method of implementing electrostatic discharge protection in a silicon-on-insulator (SOI) integrated circuit comprising:
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defining a plurality of SOI devices in the integrated circuit; identifying a plurality of power domains in the SOI integrated circuit; determining if a logic signal traverses more than one of the plurality of power domains; determining if a circuit path for the logic signal is not timing critical; and connecting a power supply wire at a metal level higher than a metal level on which a power supply connection for the ESD protection network is routed if the logic signal traverses a single power domain or if the circuit path is not timing critical.
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Specification