JPH0230902Y2 - - Google Patents

Description

[Detailed description of the invention] This invention opens and closes with low voltage (2V or less).
The present invention also relates to a differential amplifier equipped with a controlled function suitable for an analog switch circuit or the like that transmits an input signal voltage of 2V or less. The differential amplifier of the present invention is controlled based on a control signal for transmitting and blocking signals, and outputs a signal voltage of 2V or less that is input to the differential amplifier according to the control signal.

One embodiment of FIG. 1 is a voltage follower circuit which is an application example of a differential amplifier, and a low voltage (2V or less) is supplied to its input terminal, and the voltage follower circuit When it operates, it outputs a voltage equal to the input voltage from its output terminal.

In such a circuit, a switch circuit is connected to the current source circuit of the differential amplifier, transistors are connected in cascade in multiple stages, and the differential amplifier is composed of a differential pair of NPN transistors. , transistor base-emitter voltage (approximately 0.7V)
The threshold level of the input terminal tends to increase depending on the voltage and collector-emitter saturation voltage (approximately 0.2V). In such a differential amplifier, if a low voltage of 2V or less is input to the base of the NPN transistor forming the differential pair,
There may be cases where it does not work.

The differential amplifier with controlled functions of the present invention has been developed in view of the above, and provides a circuit that operates according to a control signal even at low input voltages.

Hereinafter, a differential amplifier with a controlled function according to the present invention will be explained.

In Figure 1, 1 is an input terminal, 2 is a power supply terminal,
3 is an output terminal, 4 is a control terminal, and 5 is an injector. A is a differential amplifier, which is composed of a transistor differential pair consisting of NPN type transistors 12 and 13, an active load circuit 6 consisting of transistors 14 and 15, and a current source circuit C consisting of a transistor 10 and a resistor 23. ing. B is a level shift circuit added to the input stage of the differential amplifier A, and transistors 7 and 8 form a current mirror circuit 6. D is an integrated injection logic (hereinafter abbreviated as IL) consisting of transistors 19 and 20, and is a switch circuit. Further, the differential amplifier A forms a voltage follower circuit using the transistor 16. Current source transistors 9, 10, 11 are DC voltage source 21
22, 23, and 24 are emitter resistors.

The operation of differential amplifier A will be explained. A current source circuit C of the differential amplifier A is connected to the collector of a transistor 20 forming a switch circuit, and depending on the operation of the switch circuit D, the differential amplifier A becomes active or cut off. When the current flowing from the injector 5 flows into the transistor 20 due to the signal applied to the control terminal 4, the transistor 20
is turned on, and differential amplifier A becomes active.
Conversely, if the current from the injector 5 flows into the control terminal 4 side, the transistor 20 is turned off,
Differential amplifier A is cut off, and switch circuit D
Differential amplifier A is controlled via. However, even if transistor 10 is turned off, transistors 9 and 11 are kept on.

Current source transistors 9, 10, 11 are biased by an equal DC voltage 21 and resistor 2
Since transistors 2, 23, and 24 have equal resistance values, equal currents flow as collector currents I ₁ , I ₂ , and I ₃ of current source transistors 9 , 10 , and 11 . Since the collector current I ₁ is supplied through the current mirror circuit 6 made up of transistors 7 and 8, a mirror current I ₄ equal to the collector current I ₁ flows as the collector current of the transistor 7. Therefore, the mirror current I ₄ and the collector current I ₃ are equal currents.

Differential amplifier A forms a voltage follower circuit, the input signal of which is fed to the base of input transistor 18 and draws current from current mirror circuit 6 . A mirror current equal to the current value flowing through the diode-connected transistor 8 flows through the collector current of the transistor 7, and a base current corresponding to the signal component is supplied to the base of the transistor 12 to drive the differential amplifier A. Since the differential amplifier A forms a voltage follower circuit, the potentials of the base electrodes of the transistors 12 and 13 become equal.
Furthermore, a transistor 17 is added corresponding to the transistor 18 in order to balance the input voltage and output voltage.

The voltage follower circuit with a controlled function according to the present invention is a circuit that is driven by the voltage follower circuit based on a signal input to the control terminal 4.
An output voltage having the same potential as the input voltage supplied to the input terminal 1 is output from the output terminal 3.

The differential amplifier of the present invention has the following features: I ² L controls the current source of differential amplifier A, level shift circuit B is added to the input stage of differential amplifier A, and The circuit forms a voltage follower circuit, the diode-connected transistor 17 is connected to the output stage of the voltage follower circuit, and the respective currents of the level shift circuit, differential amplifier, and output stage. The source transistors are biased with the same voltage source, and even if the differential amplifier's current source circuit is turned on and off by the switch circuit, the level shift circuit and output stage current source transistor are maintained. The points are distinctive.

Furthermore, although the switch circuit D is formed of I ² L elements, it is clear that even a switch circuit consisting only of transistors, for example, has the same effect on the transmission of low input voltages of 2V or less. It is.

The circuit of the present invention is suitable for a differential amplifier in which a switch circuit such as the current source I ² L element of the differential amplifier is added and a large number of transistors are connected in cascade, as in the embodiment shown in FIG. This circuit is suitable for a differential amplifier with a high threshold level. Even with such a differential amplifier, a level shift circuit consisting of a current mirror circuit and a PNP transistor is installed in the input stage of the differential amplifier, and a collector current of equal current value is applied to the input and output stages of the differential amplifier. It is possible to provide an excellent differential amplifier that can transmit input voltages of 2V or less by flowing the current.

Of course, only the differential amplifier is turned on and off by a switch circuit while the input stage level shift circuit and output stage of the differential amplifier maintain their operating state, so the input stage and output stage The direct current level does not fluctuate rapidly, making it possible to prevent pop noises and the like from occurring.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram of a differential amplifier with controlled functions according to the present invention. A... Differential amplifier, B... Level shift circuit,
C...Current source circuit, D...Switch circuit.

Claims (1)

[Scope of utility model registration request] A transistor differential pair consisting of a first and second NPN transistor, a first current source transistor connected to their commonly connected emitters, and a switch circuit cascade-connected to the first current source transistor. a differential amplifier consisting of a differential amplifier, the emitter of the first PNP transistor and the output stage of a current mirror circuit are connected to the base of the first NPN transistor of the transistor differential pair, and the bias stage of the current mirror circuit is connected to the base of the first NPN transistor of the transistor differential pair; A level shift circuit connected to the current source transistor, a transistor connected to the second NPN transistor of the transistor differential pair to form a voltage follower circuit, and a second transistor connected to the base of the second NPN transistor.
an output stage of the differential amplifier, in which the emitter of a PNP transistor is connected to the output stage of the differential amplifier, and a third current source transistor is connected to the base and collector of the second PNP transistor; What is claimed is: 1. A differential amplifier with a controlled function, comprising a voltage source connected to the base of a source transistor.