Electronic digital logic circuitry – Function of and – or – nand – nor – or not – Decoding
Reexamination Certificate
1999-03-25
2001-03-13
Tokar, Michael (Department: 2819)
Electronic digital logic circuitry
Function of and, or, nand, nor, or not
Decoding
C326S087000
Reexamination Certificate
active
06201416
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a logic circuit, and more specifically to a field effect transistor (FET) logic circuit.
2. Description of Related Art
In the prior art, a fundamental circuit called a direct coupled FET logic (abbreviated to “DCFL”) is widely known as a low power consumption logic circuit. This circuit is explained in many publications including FIG. 7.16 on Page 251 in “Ultra High Speed Compound Semiconductor Device”, supervised by S. Sugano, published by Baitukan K. K., Nov. 30, 1986.
Referring to
FIG. 1
, there is shown a circuit diagram of one example of a DCFL circuit in the prior art. As shown in
FIG. 1
, the shown DCFL circuit is an inverter which includes a depletion compound semiconductor MES (metal-semiconductor) FET
1
having a drain connected to a first power supply terminal
31
(V
DD
) and a gate and a source connected in common at a node
41
to a drain of an enhancement compound semiconductor MES FET
2
. A gate of this enhancement FET
2
is connected to a second power supply terminal
32
(namely, a ground voltage V
SS
). The node
41
is connected to an output terminal
22
. In this DCFL circuit, the enhancement FET
2
operates as a switching device, and the depletion FET
1
operates as a load.
With this arrangement, if a low level is applied to the input terminal
21
, the enhancement FET
2
is turned off, so that the potential of the output terminal
22
elevates to the power supply voltage V
DD
. On the other hand, if a high level is applied to the input terminal
21
, the enhancement FET
2
is turned on, so that the potential of the output terminal
22
drops. At this time, the output potential of the output terminal
22
is determined by a current capability of the depletion FET
1
and a current capability of the enhancement FET
2
. In any case, the output potential of the output terminal
22
never drops to the potential V
SS
given by the second power supply terminal
32
.
Incidentally, Japanese Patent Application Pre-examination Publication Nos. JP-A-01-222484 and JP-A-09-261038 (an English abstract of these Japanese patent publications are available and the content of those English abstracts are incorporated by reference in its entirety into this application) disclose different DCFL circuits. As described in these Japanese patent publications and the above referred literature, it is known that the power consumption of the logic circuit can be reduced by using the DCFL circuit.
In the above mentioned prior art circuit, the high level output potential reaches the power supply voltage V
DD
. Therefore, considering that the output terminal
22
is connected to a gate of an input enhancement MES FET (not shown) of a next stage logic circuit (not shown), the high level output potential exceeds a potential which turns on a gate-source of the input enhancements MES FET of the next stage logic circuit, with the result that a current flows from the output terminal through the gate of the input enhancement MES FET of the next stage logic circuit to the source of the input enhancement MES FET of the next stage logic circuit. This gate potential for turning on the gate-source of the MES FET will be called a gate turn-on voltage in this specification, and is higher than a gate potential of the MES FET for turning on the MES FET, namely for turning a drain-source channel of the MES FET. Because of this, in the prior art circuit, when the power supply voltage is greater than the gate turn-on voltage of the MES FET, the power consumption becomes large in the high level outputting condition.
In addition, in the above mentioned prior art circuit, the low level of the output voltage never drops to the potential of the second power supply voltage (ground), but becomes on the order of plus several 100 mV. At this time, since the threshold of an enhancement FET is at a similar level, the input enhancement FET of the next stage logic circuit cannot be put in a complete OFF condition. Namely, in the next stage logic circuit, a current flows through a drain-source channel of the input enhancement FET, with the result that the consumed current resultantly increases. In other words, in this prior art circuit, when the low level is outputted, the next stage input enhancement FET is not put in the complete OFF condition, so that the power consumption becomes increased.
The above mentioned problems cannot be overcome even by technologies disclosed in the above referred Japanese patent publications
SUMMARY OF THE INVENTION
Accordingly, it is an object of the present invention to provide a field effect transistor logic circuit which has overcome the above mentioned problems of the prior art.
Another object of the present invention is to provide a field effect transistor logic circuit having a reduced power consumption.
The above and other objects of the present invention are achieved in accordance with the present invention by a field effect transistor logic circuit having an output terminal to be connected to a gate of an input field effect transistor in a next stage field effect transistor logic circuit, the field effect transistor logic circuit including a depletion transistor having a drain connected to a first power supply voltage, an enhancement transistor having a drain connected at a node to a source of the depletion transistor, a gate of the enhancement transistor being connected to an input terminal, a source of the enhancement transistor being connected to a second power supply voltage which is lower than the first power supply voltage, and a high level potential limiting circuit connected between the node and the output terminal, for lowering a potential of the output terminal to a level which turns on a drain-source channel of the input field effect transistor of the next stage field effect transistor logic circuit but which never turns on a gate-source of the input field effect transistor of the next stage field effect transistor logic circuit, when the potential on the node is at a high level.
Further, according to the present invention, a lower level lowering circuit connected to the output terminal for pulling down the potential of the output terminal to the potential of the second power supply voltage when the potential on the node is at a low level, is provided in place of the high level potential limiting circuit or in addition to the high level potential limiting circuit.
With the above arrangement, by action of the high level potential limiting circuit, the high level potential on the output terminal is elevated only to the potential which never turns on the gate-source of the input FET of the next stage field effect transistor logic circuit. Therefore, no current flows into the next stage field effect transistor logic circuit, so that a current non-contributable to the operation is minimized, and therefore, the power consumption is minimized. On the other hand, when the low level is outputted, the high level potential limiting circuit is put in an OFF condition, namely, in an inoperable condition, and the lower level lowering circuit is put in an ON condition, namely, in an operating condition, so that the low level potential on the output terminal is pulled down to the second power supply voltage, with the result that the input transistor of the next stage field effect transistor logic circuit is put in a complete OFF condition. Accordingly, the current flowing through the input transistor of the next stage field effect transistor logic circuit in the OFF condition can be prevented, so that the power consumption can be minimized.
The above and other objects, features and advantages of the present invention will be apparent from the following description of preferred embodiments of the invention with reference to the accompanying drawings.
REFERENCES:
patent: 4450369 (1984-05-01), Schuermeyer
patent: 4707622 (1987-11-01), Takao et al.
patent: 4743782 (1988-05-01), Nelson et al.
patent: 4810969 (1989-03-01), Fulkerson
patent: 4937474 (1990-06-01), Sitch
patent: 5204553 (1993-04-
Cho James H.
NEC Corporation
Ostrolenk Faber Gerb & Soffen, LLP
Tokar Michael
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