Claims
- 1. A semiconductor logical operation circuit comprising:
a logical operation part to output a result of a predetermined logical operation with respect to a plurality of input signals to an output node; a precharger to precharge said output node at a constant-potential before an operation of said logical operation part; and a setting part to forcibly set said output node at a reference potential when said logical operation part is in a non-operation state.
- 2. The semiconductor logical operation circuit according to claim 1, further comprising an output part to output a result of the logical operation in said output node of said logical operation part after the precharging operation.
- 3. The semiconductor logical operation circuit according to claim 2, where in said output part includes and inverter and an output stabilizing transistor controlled by an inverter and an output of said inverter and pulling up an electric potential on an input side of said inverter up to an electric potential of a power supply in accordance with an electric potential of said output node.
- 4. The semiconductor logical operation circuit according to claim 1, wherein said precharger receives a first control signal and is operable only when the first control signal indicates a selection, and
said setting part is operated when the first control signal indicates a non-selection.
- 5. The semiconductor logical operation circuit according to claim 4, wherein said precharger includes:
a gate section inputting the first control signal and a second control signal indicating an operation of outputting the result of the logical operation and outputting a precharge operation indicating signal when the first control signal indicates the selection and when the second control signal indicates the non-operation; and a switch connecting said output node to a constant-potential power supply in accordance with the precharge operation indicating signal.
- 6. The semiconductor logical operation circuit according to claim 1, wherein said logical operation part is a NAND circuit.
- 7. The semiconductor logical operation circuit according to claim 1, wherein said logical operation part is a NOR circuit.
- 8. The semiconductor logical operation circuit according to claim 1, wherein said logical operation part is constructed of an NMOS transistor, the constant-potential is an electric potential of the power supply, and the reference potential is a ground potential.
- 9. The semiconductor logical operation circuit according to claim 1, wherein said logical operation part is constructed of the NMOS transistor, said precharger is constructed of a PMOS transistor, and a threshold value of the PMOS transistor is set higher than in a case where said setting par t does not exist.
- 10. The semiconductor logical operation circuit according to claim 3, wherein said logical operation part is constructed of the NMOS transistor, said precharger and the output stabilizing transistor are respectively constructed of PMOS transistors, and the threshold value of the PMOS transistor is set higher than in the case where said setting part does not exist.
- 11. A semiconductor logical operation circuit comprising:
a first logical operation unit including a first logical operation part to output a result of a first logical operation to a first output node with respect to a plurality of input signals, a first precharger to precharge said first output node at a high electric potential before an operation of said first logical operation part, and a first setting part forcibly pulling said first output node down to a ground potential when said first logical operation part is in a non-operation state; and a second logical operation unit including a second logical operation part to output a result of a second logical operation to a second output node with respect to the plurality of input signals, a second precharger to precharge said second output node at a high electric potential before an operation of said second logical operation part, and a second setting part forcibly pulling said second output node down to the ground potential when said second logical operation part is in the non-operation state.
- 12. The semiconductor logical operation circuit according to claim 11, wherein said first and second logical operation parts are respectively constructed of NMOS transistors, said first and second prechargers are respectively constructed of PMOS transistors, and a threshold value of each of the PMOS transistors is set higher than in a case where said first and second setting parts do not exist.
- 13. The semiconductor logical operation circuit according to claim 11, further comprising first and second chargers to charge respectively output nodes on the other sides in accordance with an output of said first logical operation part and an output of said second logical operation part.
- 14. The semiconductor logical operation circuit according to claim 13, wherein said first and second logical operation parts are respectively constructed of NMOS transistors, said first and second prechargers and said first and second chargers are respectively constructed of PMOS transistors, and a threshold value of each of the PMOS transistors is set higher than in a case where said first and second setting parts do not exist.
Priority Claims (1)
Number |
Date |
Country |
Kind |
2002-116664 |
Apr 2002 |
JP |
|
CROSS REFERENCE TO RELATED APPLICATION
[0001] This application is based upon and claims the benefit of priority from the prior Japanese Patent Application No. 2002-116664, filed on Apr. 18, 2002; the entire contents of which are incorporated herein by reference.