Claims
- 1. A method for generating an internal supply voltage to be used for an internal circuit in a semiconductor integrated circuit, comprising:lowering a system supply voltage, supplied from an external supply circuit, to generate an internal supply voltage for the internal circuit when the system supply voltage is higher than a breakdown voltage of the internal circuit; and supplying the system supply voltage directly to the internal circuit when the system supply voltage is not higher than the breakdown voltage of the internal circuit.
- 2. A method according to claim 1, further comprising:prohibiting said lowering a system supply voltage, when the system supply voltage is not higher than the breakdown voltage of the internal circuit.
- 3. A semiconductor integrated circuit, comprising:an internal circuit having a breakdown voltage; and a voltage lowering circuit which lowers a system supply voltage that is supplied from an external supply circuit, when the system supply voltage is higher than the breakdown voltage of the internal circuit, to generate an internal supply voltage for the internal circuit, wherein the system supply voltage is supplied directly to the internal circuit when the system supply voltage is not higher than the breakdown voltage of the internal circuit.
- 4. A semiconductor integrated circuit according to claim 3, further comprising:an output circuit which is connected to an external circuit, which operates at the system supply voltage, and is supplied with the system supply voltage regardless of the breakdown voltage of the internal circuit.
- 5. A semiconductor integrated circuit according to claim 3, further comprising:a first electrode at which the system supply voltage is applied and which is connected through the voltage lowering circuit to the internal circuit; and a second electrode at which the system supply voltage is applied and which is connected to the internal circuit.
- 6. A semiconductor integrated circuit according to claim 5, whereinthe first electrode is always connected to the external supply circuit, and the second electrode is connected to the external supply circuit only when the system supply voltage is not higher than the breakdown voltage of the internal circuit.
- 7. A semiconductor integrated circuit according to claim 3, wherein the voltage lowering circuit comprises:(1) a reference voltage generating circuit which generates a reference voltage, at which the internal circuit operates properly; (2) a comparator which compares the internal supply voltage to the reference voltage; and (3) a voltage control circuit which controls the internal supply voltage in response to an output signal of the comparator so that the internal supply voltage becomes equal to the reference voltage.
- 8. A semiconductor integrated circuit, comprising:a voltage lowering circuit which lowers a system supply voltage that is supplied from an external supply circuit, to provide an internal supply voltage; an internal circuit having a breakdown voltage; a first electrode at which the system supply voltage is applied and which is connected through the voltage lowering circuit to the internal circuit; a second electrode at which the system supply voltage is applied and which is connected to the internal circuit; and an output circuit which is connected to the first electrode and to an external circuit, and which operates at the system supply voltage, wherein the voltage lowering circuit comprises (1) a reference voltage generating circuit which generates a reference voltage, at which the internal circuit operates properly; (2) a comparator which compares the internal supply voltage to the reference voltage; and (3) a voltage control circuit which controls the internal supply voltage in response to an output signal of the comparator so that the internal supply voltage becomes equal to the reference voltage, the second electrode is connected to the external supply circuit when the system supply voltage is not higher than the breakdown voltage of the internal circuit so that the system supply voltage is directly supplied to the internal circuit.
- 9. A semiconductor integrated circuit according to claim 3, further comprising:an operation control circuit which prohibits operation of the voltage lowering circuit, when the system supply voltage is not higher than the breakdown voltage of the internal circuit.
- 10. A semiconductor integrated circuit according to claim 9, further comprising:an output circuit which is connected to an external circuit, which operates at the system supply voltage, and is supplied with the system supply voltage regardless of the breakdown voltage of the internal circuit.
- 11. A semiconductor integrated circuit according to claim 9, further comprising:a first electrode at which the system supply voltage is applied and which is connected through the voltage lowering circuit to the internal circuit; and a second electrode at which the system supply voltage is applied and which is connected to the internal circuit.
- 12. A semiconductor integrated circuit according to claim 11, whereinthe first electrode is always connected to the external supply circuit, and the second electrode is connected to the external supply circuit only when the system supply voltage is not higher than the breakdown voltage of the internal circuit.
- 13. A semiconductor integrated circuit according to claim 9, wherein the voltage lowering circuit comprises:(1) a reference voltage generating circuit which generates a reference voltage, at which the internal circuit operates properly; (2) a comparator which compares the internal supply voltage to the reference voltage; and (3) a voltage control circuit which controls the internal supply voltage in response to an output signal of the comparator so that the internal supply voltage becomes equal to the reference voltage.
- 14. A semiconductor integrated circuit according to claim 9, further comprising:a third electrode which is connected to the external supply circuit, when the system supply voltage is not higher than the breakdown voltage of the internal circuit, wherein the operation control circuit comprises a transfer gate and a transistor both of which operate in response to the system supply voltage.
- 15. A semiconductor integrated circuit, comprising:a voltage lowering circuit which lowers a system supply voltage that is supplied from an external supply circuit, to provide an internal supply voltage; an internal circuit having a breakdown voltage; a first electrode at which the system supply voltage is applied and which is connected through the voltage lowering circuit to the internal circuit; a second electrode at which the system supply voltage is applied and which is connected to the internal circuit; an output circuit which is connected to the first electrode and to an circuit, and which operates at the system supply voltage, a third electrode which is connected to the external supply circuit, when the system supply voltage is not higher than the breakdown voltage of the internal circuit; and an operation control circuit which prohibits operation of the voltage lowering circuit, when the system supply voltage is not higher than the breakdown voltage of the internal circuit, wherein the voltage lowering circuit comprises (1) a reference voltage generating circuit which generates a reference voltage, at which the internal circuit operates properly; (2) a comparator which compares the internal supply voltage to the reference voltage; and (3) a voltage control circuit which controls the internal supply voltage in response to an output signal of the comparator so that the internal supply voltage becomes equal to the reference voltage, the operation control circuit comprises a transfer gate and transistor both of which operate in response to the system supply voltage supplied via the third electrode, and the second electrode is connected to the external supply circuit when the system supply voltage is not higher than the breakdown voltage of the internal circuits so that the system supply voltage is directly supplied to the internal circuit.
Priority Claims (1)
Number |
Date |
Country |
Kind |
2000-220698 |
Jul 2000 |
JP |
|
CROSS REFERENCE TO RELATED APPLICATION
This application claims the priority of Application No. 2000-220698, filed Jul. 21, 2000 in Japan, the subject matter of which is incorporated herein by reference.
US Referenced Citations (8)