Claims
- 1. A logic circuit comprising:
- first and second power source terminals having an absolute value of potential difference;
- an output terminal;
- a first bipolar transistor having a collector of a first conductivity type coupled to said first power source terminal, an emitter of the first conductivity type coupled to said output terminal, and a base of a second conductivity type;
- a second bipolar transistor having a collector of the second conductivity type coupled to said second power source terminal, an emitter of the second conductivity type coupled to said output terminal, and a base of the first conductivity type;
- a first CMOS circuit having a first threshold voltage closer to the first power source voltage applied to said first power source terminal than the second power source voltage applied to said second power source terminal, including:
- at least one first field effect transistor of the second conductivity type having its gate responsive to an input signal applied to said input terminal and its source-drain current path coupled between said first power source terminal and the base of said first bipolar transistor;
- at least one second field effect transistor of the first conductivity type having its gate responsive to the input signal and its source-drain current path coupled between said second power source terminal and the base of said first bipolar transistor; and
- a second CMOS circuit having a second threshold voltage closer to the second power source voltage than the first power source voltage, including:
- at least one third field effect transistor of the second conductivity type having its gate responsive to the input signal and its source-drain current path coupled between said first power source terminal and the base of said second bipolar transistor; and
- at least one fourth field effect transistor of the first conductivity type having its gate responsive to the input signal and its source-drain current path coupled between said second power source terminal and the base of said second bipolar transistor.
- 2. A logic circuit according to claim 1, further including:
- a first resistor coupled between the base of said first bipolar transistor and said output terminal; and
- a second resistor coupled between the base of said second bipolar transistor and said output terminal.
- 3. A logic circuit according to claim 1, wherein
- a plurality of said first field effect transistors is in parallel with one another;
- a plurality of said second field effect transistors is in series with one another;
- a plurality of said third field effect transistors is in parallel with one another; and
- a plurality of said fourth field effect transistors is in series with one another.
- 4. A logic circuit according to claim 1, wherein
- a plurality of said first field effect transistors is in series with one another;
- a plurality of said second field effect transistors is in parallel with one another;
- a plurality of said third field effect transistors is in series with one another; and
- a plurality of said fourth field effect transistors is in parallel with one another.
- 5. A logic circuit according to claim 1, further including:
- an enable terminal;
- at least one fifth field effect transistor of the second conductivity type having its gate responsive to an enable signal applied to said enable terminal and its source-drain current path coupled in series with the source-drain current path of said at least one first field effect transistor between said first power source terminal and the base of said first bipolar transistor;
- at least one sixth field effect transistor of the first conductivity type having its gate responsive to the enable signal and its source-drain current path coupled in series with the source-drain current path of said at least one second field effect transistor between said second power source terminal and the base of said second bipolar transistor;
- at least one seventh field effect transistor of the second conductivity type having its gate responsive to the enable signal and its source-drain current path coupled in series with the source-drain current path of said at least one third field effect transistor between said first power source terminal and the base of said second bipolar transistor; and
- at least one eighth field effect transistor of the first conductivity type having its gate responsive to the enable signal and its source-drain current path coupled in series with the source-drain current path of said at least one fourth field effect transistor between said second power source terminal and the base of said second bipolar transistor.
Priority Claims (1)
Number |
Date |
Country |
Kind |
63-63338 |
Mar 1988 |
JPX |
|
Parent Case Info
This is a division of application Ser. No. 325,911, filed Mar. 20, 1989, now U.S. Pat. No. 5,001,365.
US Referenced Citations (5)