Claims
- 1. A high-speed dynamic complementary CMOS inverter for a dynamic logic circuit, said dynamic logic circuit evaluating during an evaluate phase of an arming signal and pre-charging during a pre-charge phase of said arming signal, comprising:
- a complementary CMOS inverter having an inverter trigger point tuned to a falling edge of an input signal received at an input node which produces an output signal at an output node, said output signal comprising an inverted version of said input signal and said CMOS inverter comprising:
- a PMOSFET having a source coupled to a power source, a gate coupled to the input node, and a drain coupled to the output node; and
- an NMOSFET having a source coupled to the output node, a gate coupled to the input node, and a drain coupled to a circuit ground;
- wherein the ratio of said PMOSFET to said NMOSFET is at least 12 to 1; and
- a pre-charge assist FET having a drain coupled to the output node and a gate coupled to an arming signal, said pre-charge assist FET operating to assist in pulling said output signal low when said input signal falls past said inverter trigger point and said arming signal enters said pre-charge phase.
- 2. The high-speed dynamic complementary CMOS inverter of claim 1 wherein the pre-charge assist FET comprises an NMOSFET having a source coupled to the circuit ground.
- 3. The high-speed dynamic complementary CMOS inverter of claim 1, further comprising a leakage current prevention circuit coupled between said input node and said output node.
- 4. The high-speed dynamic complementary CMOS inverter of claim 1 wherein:
- said complementary CMOS inverter evaluates during said evaluate phase and said precharge assist FET turns on during said pre-charge phase.
- 5. The high-speed dynamic complementary CMOS inverter of claim 3, wherein said leakage current prevention circuit comprises:
- a PMOSFET having a source coupled to the power source, a drain coupled to the input node, and a gate coupled to the output node.
- 6. A method for increasing the forward path switching speed of a high-speed dynamic complementary CMOS inverter coupled to receive the output of a dynamic logic circuit, said dynamic logic circuit evaluating during an evaluate phase of an arming signal and pre-charging during a pre-charge phase of said arming signal, said CMOS inverter having an inverter trigger point tuned to a falling edge of an input signal received at an input node which produces an output signal at an output node, said output signal comprising an inverted version of said input signal and said CMOS inverter comprising a PMOSFET and an NMOSFET coupled in drain-source relationship with one another, each comprising a drain coupled to said output node, wherein the ratio of said PMOSFET to said NMOSFET is at least 12 to 1, said method comprising:
- coupling a drain of a pre-charge assist FET to said inverter output and a gate of said pre-charged assist FET said arming signal, wherein said inverter evaluates during said evaluate phase and said pre-charge assist FET turns on during said pre-charge phase, said pre-charge assist FET operating to assist in pulling said output signal low when said input signal falls past said inverter trigger point and said arming signal enters said pre-charge phase.
RELATED APPLICATION
The present patent application is a divisional of U.S. application having Ser. No. 08/658,920 filed on May 31, 1996 entitled EVALUATION PHASE EXPANSION FOR DYNAMIC LOGIC CIRCUITS, which is incorporated herein by reference.
US Referenced Citations (5)
Foreign Referenced Citations (1)
Number |
Date |
Country |
2-277315 |
Nov 1990 |
JPX |
Divisions (1)
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Number |
Date |
Country |
Parent |
658920 |
May 1996 |
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