An RC triggered ESD protection device comprises a discharge transistor, a driver circuit and a trigger circuit. The trigger circuit comprises a plurality of native NMOS transistors connected in parallel with a plurality of PMOS transistors operating as resistors. The relatively small resistance of t
An RC triggered ESD protection device comprises a discharge transistor, a driver circuit and a trigger circuit. The trigger circuit comprises a plurality of native NMOS transistors connected in parallel with a plurality of PMOS transistors operating as resistors. The relatively small resistance of the plurality of native NMOS transistors helps to keep a stable RC time constant value so that the ESD protection device can avoid a leakage current during a power up operation.
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1. A device comprising: a native n-type metal oxide semiconductor (NMOS) transistor having a first drain/source region directly connected to a first voltage potential and a second drain/source region directly connected to a first terminal of a capacitor, wherein a gate of the native NMOS transistor
1. A device comprising: a native n-type metal oxide semiconductor (NMOS) transistor having a first drain/source region directly connected to a first voltage potential and a second drain/source region directly connected to a first terminal of a capacitor, wherein a gate of the native NMOS transistor is connected to the first terminal of the capacitor, and wherein parameter values of the native NMOS transistor are selected such that the native NMOS transistor functions as a pull-up resistor;a resistance element connected between the first voltage potential and the first terminal of the capacitor, wherein the resistance element comprises at least a p-type metal oxide semiconductor (PMOS) transistor, and wherein the resistance element has at least two resistance values, and wherein a first resistance value of the resistance element is greater than a resistance value of the pull-up resistor, and a second resistance value of the resistance element is less than the resistance value of the pull-up resistor; andthe capacitor having a second terminal coupled to a second voltage potential, wherein the first voltage potential is higher than the second voltage potential, and wherein the native NMOS transistor, the resistance element and the capacitor form an electrostatic discharge (ESD) trigger circuit. 2. The device of claim 1, wherein the capacitor is formed by a plurality of metal oxide semiconductor (MOS) capacitors connected in parallel. 3. The device of claim 1, wherein the resistance element comprises a plurality of p-type metal oxide semiconductor (PMOS) transistors connected in series, each of which having a gate coupled to the second voltage potential. 4. The device of claim 3, further comprising a resistor coupled between the gates of the plurality of PMOS transistors and the second voltage potential. 5. The device of claim 1, wherein the resistance element comprises a plurality of NMOS transistors connected in series, each of which having a gate coupled to the first voltage potential. 6. The device of claim 5, further comprising a resistor coupled between the gates of the plurality of NMOS transistors and the first voltage potential. 7. The device of claim 1, wherein the native NMOS transistor comprises a plurality of native NMOS transistors connected either in parallel or in series. 8. A system comprising: a discharge transistor coupled between a first voltage potential and a second voltage potential;a driver circuit generating an output signal fed to a gate terminal of the discharge transistor; anda trigger device having an output coupled to the driver circuit comprising: a native n-type metal oxide semiconductor (NMOS) transistor having a first drain/source region directly connected to the first voltage potential and a second drain/source region directly connected to a first terminal of a capacitor, wherein a gate of the native NMOS transistor is connected to the first terminal of the capacitor, and wherein parameter values of the native NMOS transistor are selected such that the native NMOS transistor functions as a pull-up resistor;a resistance element connected between the first voltage potential and the first terminal of the capacitor, wherein the resistance element comprises at least a p-type metal oxide semiconductor (PMOS) transistor, and wherein the resistance element has at least two resistance values, and wherein a first resistance value of the resistance element is greater than a resistance value of the native NMOS transistor, and a second resistance value of the resistance element is less than the resistance value of the native NMOS transistor; andthe capacitor having a second terminal coupled to the second voltage potential, wherein the first voltage potential is higher than the second voltage potential. 9. The system of claim 8, wherein the discharge transistor comprises a plurality of NMOS transistors connected in parallel. 10. The system of claim 9, wherein the driver circuit comprises an odd number of inverters connected in cascade. 11. The system of claim 8, wherein the discharge transistor comprises a plurality of p-type metal oxide semiconductor (PMOS) transistors connected in parallel. 12. The system of claim 11, wherein the driver circuit comprises an even number of inverters connected in cascade. 13. The system of claim 8, wherein the driver circuit is an inverter comprising: a PMOS transistor having a source coupled to the first voltage potential; anda NMOS transistor having a drain coupled to a drain of the PMOS transistor, a source coupled to the second voltage potential and a gate coupled to a gate of the PMOS transistor. 14. The system of claim 8, wherein the trigger device, the driver circuit and the discharge transistor are configured such that: a current flows through the discharge transistor when an Electrostatic Discharge (ESD) spike is applied to the first voltage potential; andthe discharge transistor is turned off when the system operates in a power up mode. 15. An Electrostatic Discharge (ESD) clamp comprising: a resistor-capacitor (RC) trigger circuit coupled between a first voltage potential and a second voltage potential comprising:a capacitor formed by a plurality of metal oxide semiconductor (MOS) capacitors, wherein the capacitor has a first terminal coupled to the second voltage potential; anda resistance element comprising a plurality of MOS transistors and a plurality of native transistors, wherein the plurality of native transistors are connected in parallel with the plurality of MOS transistors, and wherein the resistance element has a terminal directly connected to the first voltage potential and the first voltage potential is higher than the second voltage potential, and wherein gates of the plurality of native transistors are directly connected to a second terminal of the capacitor, wherein the resistance element has at least two resistance values, and wherein a first resistance value of the plurality of MOS transistors is greater than a resistance value of the plurality of native transistors, and a second resistance value of the MOS transistors is less than the resistance value of the plurality of native transistors, and wherein parameter values of the plurality of native transistors are selected such that the plurality of native transistors function as a pull-up resistor;a driver circuit receiving an ESD protection signal from the RC trigger circuit; anda discharge transistor having a gate coupled to an output of the driver circuit. 16. The ESD clamp of claim 15, wherein the discharge transistor, the RC trigger circuit and the driver circuit are coupled between the first voltage potential and the second voltage potential. 17. The ESD clamp of claim 16, wherein the trigger circuit, the driver circuit and the discharge transistor are configured such that: a current flows through the discharge transistor from the first voltage potential to the second voltage potential when an ESD spike is applied to the first voltage potential; andthe discharge transistor is turned off when the ESD clamp is under a power up operation. 18. The ESD clamp of claim 15, wherein the driver circuit comprises an odd number of inverters when the discharge transistor comprises a plurality of n-type metal oxide semiconductor (NMOS) transistors connected in parallel; andthe driver circuit comprises an even number of inverters when the discharge transistor comprises a plurality of p-type metal oxide semiconductor (PMOS) transistors connected in parallel. 19. The ESD clamp of claim 15, wherein the discharge transistor is turned off when the ESD clamp operates in a power up mode; andthe discharge transistor is turned on when an ESD spike is applied to the ESD clamp. 20. The ESD clamp of claim 15, further comprising a resistor coupled between the plurality of MOS transistors and ground.
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이 특허에 인용된 특허 (8)
Hulfachor,Ronald B.; Chapin,Jay R., Active power/ground ESD trigger.
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