Digital logic devices with extremely skewed trip points and reset circuitry for rapidly propagating signal edges
First Claim
1. A skewed inverter falling logic device for rapidly propagating a falling edge of an output signal comprising:
- a fast inverter falling having a large n/p channel width ratio for receiving an input signal and rapidly propagating a falling edge onto said output signal in response to receiving a rising edge on said input signal;
a pull-up reset network connected in parallel to said fast inverter falling for resetting said output signal after said falling edge has been propagated onto said output signal; and
a feedback delay circuit connected in parallel with said pull-up reset network for delaying and returning said output signal to said pull-up reset network.
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Abstract
The invention includes digital logic devices with extremely skewed trip points and reset circuitry for rapidly propagating signal edges. Embodiments of skewed logic devices in accordance with the present invention include inverters, buffers, NOR gates and NAND gates for rapidly propagating a selected “fast” edge of an input signal. Additional embodiments include pulse stretchers, memory devices, substrates, computer systems and methods incorporating the skewed logic devices of the present invention. Each embodiment of a skewed logic device of the present invention is configured to propagate either a fast rising edge or fast falling edge of an output signal, i.e., the “fast” edge, at rates comparable to those of domino logic. An advantage of the skewed logic devices of the present invention over conventional CMOS logic devices is rapid edge propagation. Additionally, virtually all of the input gate loading is devoted to the fast edge being propagated. Additionally, the reset networks, as disclosed herein, are buffered by at least two gates, thus reducing loading seen by the input or the output of the skewed logic device.
46 Citations
10 Claims
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1. A skewed inverter falling logic device for rapidly propagating a falling edge of an output signal comprising:
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a fast inverter falling having a large n/p channel width ratio for receiving an input signal and rapidly propagating a falling edge onto said output signal in response to receiving a rising edge on said input signal;
a pull-up reset network connected in parallel to said fast inverter falling for resetting said output signal after said falling edge has been propagated onto said output signal; and
a feedback delay circuit connected in parallel with said pull-up reset network for delaying and returning said output signal to said pull-up reset network. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification