Claims
- 1. A full-swing high voltage data latch for operation at relatively high power supply voltages comprising, in combination:
- a high voltage rail for supplying an upper voltage level;
- a low voltage rail for supplying a lower voltage level;
- a latch circuit coupled to said high voltage rail and to said low voltage rail for generating an output signal wherein said output signal switches with respect to an input signal when said high voltage rail and said low voltage rail operate in a low voltage mode and said output signal is latched in a state that said output signal is currently at when said high voltage rail and said low voltage rail changes state from said low voltage mode to a high voltage mode;
- an input circuit coupled to said latch circuit for sending said input signal and a complementary input signal to said latch circuit; and
- an output driver circuit coupled to said latch circuit for receiving said output signal from said latch circuit and for providing a full-swing output data latch signal wherein said full-swing output data latch signal ranges from said upper voltage level of said high voltage rail to ground.
- 2. A full-swing high voltage data latch in accordance with claim 1 wherein said input circuit comprises:
- an input terminal coupled to said latch circuit for receiving said input signal and for sending said input signal to said latch circuit; and
- an inverter having an input coupled to said input terminal and an output coupled to said latch circuit for generating said complementary input signal and for sending said complementary input signal to said latch circuit.
- 3. A full-swing high voltage data latch in accordance with claim 2 wherein said latch circuit comprises:
- a first transistor having a gate, drain and source terminals wherein said gate terminal of said first transistor is coupled to said input terminal and said source terminal of said first transistor is coupled to said low voltage rail;
- a second transistor having a gate, drain and source terminals wherein said gate terminal of said second transistor is coupled to said output of said inverter, said source terminal of said second transistor is coupled to said low voltage rail, and said drain terminal of said second transistor is coupled to said output driver circuit;
- a third transistor having a gate, drain, source and bulk terminals wherein said gate terminal of said third transistor is coupled to said drain terminal of said second transistor, said source and bulk terminals of said third transistor are coupled to said high voltage rail, and said drain terminal of said third transistor is coupled to said drain terminal of said first transistor; and
- a fourth transistor having a gate, drain, source and bulk terminals wherein said gate terminal of said fourth transistor is coupled to said drain terminal of said first transistor, said source and bulk terminals of said fourth transistor are coupled to said high voltage rail, and said drain terminal of said fourth transistor is coupled to said drain terminal of said second transistor and to said output driver circuit.
- 4. A full-swing high voltage data latch in accordance with claim 3 wherein said first transistor and said second transistors are both n-channel transistors.
- 5. A full-swing high voltage data latch in accordance with claim 3 wherein said third transistor and said fourth transistors are both p-channel transistors.
- 6. A full-swing high voltage data latch in accordance with claim 3 wherein said latch circuit further comprises a holding circuit coupled to said low voltage rail and to said output driver circuit for holding said output signal of said latch circuit in a present state.
- 7. A full-swing high voltage data latch in accordance with claim 6 wherein said holding circuit comprises:
- a fifth transistor having a gate, drain and source terminals wherein said gate terminal of said fifth transistor is coupled to said gate terminal of said third transistor, said drain terminal of said fifth transistor is coupled to said gate terminal of said fourth transistor and to said drain terminal of said third transistor, and said source terminal of said fifth transistor is coupled to said low voltage rail; and
- a sixth transistor having a gate, drain and source terminals wherein said gate terminal of said sixth transistor is coupled to said gate terminal of said fourth transistor, said drain terminal of said sixth transistor is coupled to said gate terminal of said third transistor and to said output driver circuit, and said source terminal of said sixth transistor is coupled to said low voltage rail.
- 8. A full-swing high voltage data latch in accordance with claim 7 wherein said fifth transistor and said sixth transistor are both n-channel transistors.
- 9. A full-swing high voltage data latch in accordance with claim 7 wherein said latch circuit further comprises a switching circuit coupled to said input circuit for allowing said output signal to switch faster with respect to said input signal and said complementary input signal when said high voltage rail and said low voltage rail operate in said low voltage mode.
- 10. A full-swing high voltage data latch in accordance with claim 9 wherein said switching circuit comprises:
- a seventh transistor having a gate, drain and source terminals wherein said gate terminal of said seventh transistor is coupled to said input terminal, said drain terminal of said seventh transistor is coupled to said high voltage rail, and said source terminal of said seventh transistor is coupled to said gate terminal of said fifth transistor; and
- an eighth transistor having a gate, drain and source terminals wherein said gate terminal of said eighth transistor is coupled to said output of said inverter, said drain terminal of said eighth transistor is coupled to said high voltage rail, and said source terminal of said eighth transistor is coupled to said gate terminal of said sixth transistor.
- 11. A full-swing high voltage data latch in accordance with claim 10 wherein said seventh transistor and said eighth transistor are both n-channel transistors.
- 12. A full-swing high voltage data latch in accordance with claim 11 wherein said output driver circuit comprises:
- an output terminal;
- a ninth transistor having a gate, drain, source and bulk terminals wherein said gate terminal of said ninth transistor is coupled to said low voltage rail, said drain terminal of said ninth transistor is coupled to said output terminal, and said source and bulk terminals of said ninth transistor is coupled to said drain terminal of said fourth transistor; and
- a tenth transistor having a gate, drain and source terminals wherein said gate terminal of said tenth transistor is coupled to said output of said inverter, said drain terminal of said tenth transistor is coupled to said output terminal, and said source terminal of said tenth transistor is coupled to ground potential.
- 13. A full-swing high voltage data latch in accordance with claim 12 wherein said ninth transistor is a p-channel transistors.
- 14. A full-swing high voltage data latch in accordance with claim 12 wherein said tenth transistor is an n-channel transistors.
- 15. A full-swing high voltage data latch in accordance with claim 1 wherein said low voltage rail is at ground potential when said latch is operating under said low voltage mode.
- 16. A full-swing high voltage data latch in accordance with claim 1 wherein said low voltage rail is at a voltage greater than ground potential and less than a voltage of said high voltage rail when said latch is operating under said high voltage mode.
- 17. A full-swing high voltage data latch for operation at relatively high power supply voltages comprising, in combination:
- a high voltage rail for supplying an upper voltage level;
- a low voltage rail for supplying a lower voltage level;
- a latch circuit coupled to said high voltage rail and to said low voltage rail for generating an output signal wherein said output signal switches with respect to an input signal when said high voltage rail and said low voltage rail operate in a low voltage mode and said output signal is latched in a state that said output signal is currently at when said high voltage rail and said low voltage rail changes state from said low voltage mode to a high voltage mode, said latch circuit comprising:
- a first transistor having a gate, drain and source terminals wherein said gate terminal of said first transistor is coupled to said input terminal and said source terminal of said first transistor is coupled to said low voltage rail;
- a second transistor having a gate, drain and source terminals wherein said gate terminal of said second transistor is coupled to said output of said inverter, said source terminal of said second transistor is coupled to said low voltage rail, and said drain terminal of said second transistor is coupled to said output driver circuit;
- a third transistor having a gate, drain, source and bulk terminals wherein said gate terminal of said third transistor is coupled to said drain terminal of said second transistor, said source and bulk terminals of said third transistor are coupled to said high voltage rail, and said drain terminal of said third transistor is coupled to said drain terminal of said first transistor; and
- a fourth transistor having a gate, drain, source and bulk terminals wherein said gate terminal of said fourth transistor is coupled to said drain terminal of said first transistor, said source and bulk terminals of said fourth transistor are coupled to said high voltage rail, and said drain terminal of said fourth transistor is coupled to said drain terminal of said second transistor and to said output driver circuit;
- an input circuit coupled to said latch circuit for sending said input signal and a complementary input signal to said latch circuit, said input circuit comprising:
- an input terminal coupled to said latch circuit for receiving said input signal and for sending said input signal to said latch circuit; and
- an inverter having an input coupled to said input terminal and an output coupled to said latch circuit for generating said complementary input signal and for sending said complementary input signal to said latch circuit; and
- an output driver circuit coupled to said latch circuit for receiving said output signal from said latch circuit and for providing a full-swing output data latch signal wherein said full-swing output data latch signal ranges from said upper voltage level of said high voltage rail to ground.
- 18. A full-swing high voltage data latch in accordance with claim 17 wherein said first transistor and said second transistors are both n-channel transistors.
- 19. A full-swing high voltage data latch in accordance with claim 18 wherein said third transistor and said fourth transistors are both p-channel transistors.
- 20. A full-swing high voltage data latch in accordance with claim 17 wherein said latch circuit further comprises a holding circuit coupled to said low voltage rail and to said output driver circuit for holding said output signal of said latch circuit in a present state.
- 21. A full-swing high voltage data latch in accordance with claim 20 wherein said holding circuit comprises:
- a fifth transistor having a gate, drain and source terminals wherein said gate terminal of said fifth transistor is coupled to said gate terminal of said third transistor, said drain terminal of said fifth transistor is coupled to said gate terminal of said fourth transistor and to said drain terminal of said third transistor, and said source terminal of said fifth transistor is coupled to said low voltage rail; and
- a sixth transistor having a gate, drain and source terminals wherein said gate terminal of said sixth transistor is coupled to said gate terminal of said fourth transistor, said drain terminal of said sixth transistor is coupled to said gate terminal of said third transistor and to said output driver circuit, and said source terminal of said sixth transistor is coupled to said low voltage rail.
- 22. A full-swing high voltage data latch in accordance with claim 21 wherein said fifth transistor and said sixth transistor are both n-channel transistors.
- 23. A full-swing high voltage data latch in accordance with claim 22 wherein said latch circuit further comprises a switching circuit coupled to said input circuit for allowing said output signal to switch faster with respect to said input signal and said complementary input signal when said high voltage rail and said low voltage rail operate in said low voltage mode.
- 24. A full-swing high voltage data latch in accordance with claim 23 wherein said switching circuit comprises:
- a seventh transistor having a gate, drain and source terminals wherein said gate terminal of said seventh transistor is coupled to said input terminal, said drain terminal of said seventh transistor is coupled to said high voltage rail, and said source terminal of said seventh transistor is coupled to said gate terminal of said fifth transistor; and
- an eighth transistor having a gate, drain and source terminals wherein said gate terminal of said eighth transistor is coupled to said output of said inverter, said drain terminal of said eighth transistor is coupled to said high voltage rail, and said source terminal of said eighth transistor is coupled to said gate terminal of said sixth transistor.
- 25. A full-swing high voltage data latch in accordance with claim 24 wherein said seventh transistor and said eighth transistor are both n-channel transistors.
- 26. A full-swing high voltage data latch in accordance with claim 17 wherein said output driver circuit comprises:
- an output terminal;
- a ninth transistor having a gate, drain, source and bulk terminals wherein said gate terminal of said ninth transistor is coupled to said low voltage rail, said drain terminal of said ninth transistor is coupled to said output terminal, and said source and bulk terminals of said ninth transistor is coupled to said drain terminal of said fourth transistor; and
- a tenth transistor having a gate, drain and source terminals wherein said gate terminal of said tenth transistor is coupled to said output of said inverter, said drain terminal of said tenth transistor is coupled to said output terminal, and said source terminal of said tenth transistor is coupled to ground potential.
- 27. A full-swing high voltage data latch in accordance with claim 26 wherein said ninth transistor is a p-channel transistors.
- 28. A full-swing high voltage data latch in accordance with claim 26 wherein said tenth transistor is an n-channel transistors.
- 29. A full-swing high voltage data latch in accordance with claim 17 wherein said low voltage rail is at ground potential when said latch is operating under said low voltage mode.
- 30. A full-swing high voltage data latch in accordance with claim 17 wherein said low voltage rail is at a voltage greater than ground potential and less than a voltage of said high voltage rail when said latch is operating under said high voltage mode.
RELATED APPLICATION
This patent application is a Continuation-In-Part of patent application entitled "HIGH VOLTAGE LATCH USING CMOS TRANSISTORS AND METHOD THEREFOR," Ser. No. 08/778,157, now U.S. Pat. No. 5,844,441 filed Jan. 10, 1997, in the name of the same inventor, and assigned to the same assignee as the present patent application, and is incorporated herein by reference.
US Referenced Citations (1)
Number |
Name |
Date |
Kind |
4532436 |
Bismark |
Jul 1985 |
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Foreign Referenced Citations (2)
Number |
Date |
Country |
58-162130 |
Sep 1983 |
JPX |
2-37822 |
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JPX |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
778157 |
Jan 1997 |
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