Electronic digital logic circuitry – Signal sensitivity or transmission integrity – Signal level or switching threshold stabilization
Patent
1994-08-24
1995-08-08
Hudspeth, David R.
Electronic digital logic circuitry
Signal sensitivity or transmission integrity
Signal level or switching threshold stabilization
326 34, 326 98, H03K 19003
Patent
active
054402433
ABSTRACT:
A statically operated dynamic CMOS logic gate that includes an FET logic network for performing a predefined logic function with respect to its logic inputs, an output node, a precharge transistor, and in some embodiments an evaluate transistor. During operation, the precharge transistor is first turned on by a clock signal during a precharge phase to precharge an output node of the dynamic logic gate to a first voltage state. During the precharge phase, the evaluate transistor is turned off by the clock signal. An evaluate phase typically follows the precharge phase, and during the evaluation phase, the evaluate transistor is turned on by the control signal to allow the logic network to perform the predefined logic function with respect to its inputs, and the logic network selectively charges or discharges the output node to a second voltage state via the evaluate transistor in accordance with the predefined logic function given to the logic inputs to the logic gate. A driver circuit is provided for applying a bias voltage to the gate of the precharge transistor when the precharge transistor is not precharging the output node (e.g. the evaluate phase). The bias voltage has a voltage level that differs from the first voltage state by less than the magnitude of the threshold voltage of the precharge transistor in order for the precharge transistor to operate in a subthreshold conduction region so as to ensure the logic gate's output node to be at the first voltage state when the logic network does not discharge the output node to the second voltage state through the evaluate transistor as a result of the predetermined logic function. In this way, the dynamic logic gate circuit can operate statically with substantially minimized power consumption.
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Apple Computer Inc.
Hudspeth David R.
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