JPS6040730B2 - emitter follower circuit - Google Patents

Description

Detailed Description of the Invention The present invention relates to an emitter follower circuit that can be used in an IC circuit, in which a constant current transistor connected to an emitter circuit of a transistor constituting the emitter follower circuit maintains a constant current regardless of the presence or absence of an input signal. The purpose is to operate as a current circuit.

The one shown in Figure 1 is a conventional emitter follower circuit,
A DC power supply terminal 2 is connected to the collector of the first transistor 1, and an output terminal 3 and the collector of the second transistor 4 are connected to the emitter.

The emitter of this transistor 4 is grounded via a resistor 5. The base of the transistor 4 is grounded through a series circuit of a diode 6 and a resistor 7, and is connected to a resistor 8.
A bias voltage is applied to the base of the transistor 4. An input terminal 9 is connected to the base of the transistor 1, and is also grounded via a resistor 10. In this circuit, transistor 4
In order for transistor 4 to operate as a constant current source circuit,
It is necessary that the collector potential of the transistor 4 is higher than the emitter potential of the transistor 4.

However, when the potential of the signal entering the input terminal 9 becomes low, the potential of the base of the transistor 1, that is, the emitter of the transistor 1 (collector of the transistor 4) becomes low.
Transistor 4 no longer operates as a constant current source circuit,
A correct output signal cannot be obtained from terminal 3. The present invention aims to prevent such a situation from occurring, and one embodiment of the present invention will be described below with reference to the drawings. FIG. 2 shows one embodiment of the present invention, and the same parts as those in FIG. 1 are given the same numbers and their explanation will be omitted.

The feature of FIG. 2 is that a series circuit of resistors 11 and 12 is connected between the base of the transistor 4 and the DC power supply terminal 2, and a third resistor is connected to the interconnection point of the resistors 11 and 12.
Connect the bases of transistors 1 and 1.
The collector of 3 is connected to the DC power supply terminal 2, and the emitter is connected to the base of the transistor via the diode 14. Now, set the values of resistors 12, 1, 1, and 7 to appropriate values, and set the base potential of transistor 4 to 0.7 volts and the base potential of transistor 3 to 2.8 volts.

Assuming that the voltage drop between the base and emitter of the diode 14 and the transistor 13 is 0.7 volts, the potential of the input terminal 9, that is, the base potential of the transistor 1, is 1.7 volts.
When the voltage drops below 4 volts, diode 14 and transistor 1
3 conducts and the base potential of the transistor is fixed at 1.4 volts. If the voltage drop between the base and emitter of transistor 1 is 0.7 volts, the emitter potential of transistor 1, that is, the collector potential of transistor 4 is 0.7 volts.
It does not drop below 7 volts, and transistor 4 can continue to operate as a constant current circuit. The input signal is, for example, a video signal with preshoot and overshoot as shown in Fig. 3, and preshoot A and overshoot B of 1.4 volts or less are removed, but in practice this part is removed. There is no problem. In the embodiment, a switching circuit consisting of a diode 14 and a transistor 13 is used, but other switching circuits may also be used. When the signal dropped below a certain potential, this switching circuit is made conductive, and the base potential of transistor 1 is set to a potential equal to or less than the sum of the base potential of transistor 4 and the base-emitter voltage of transistor 1. do it.

As described above, according to the present invention, even if the potential of an input signal drops below a certain value, a constant current transistor can always operate as a constant current circuit.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram of a conventional emitter follower circuit, FIG. 2 is a circuit diagram of an emitter follower circuit according to an embodiment of the present invention, and FIG. 3 is a waveform diagram of an input signal for explaining the circuit. 1...First transistor, 4...Second transistor, 5...Resistor, 2...DC power supply terminal,
3... Output terminal, 11, 12, 7... Bias resistor, 9... Input terminal, 13, 14... Transistor and diode for switching circuit. Figure 1 Figure 2 Figure 3

Claims (1)

[Claims] 1 Connect the collector of the first transistor to a DC power supply, connect the emitter of this transistor to the collector of the second transistor, ground the emitter of this second transistor through a resistor, and connect the emitter of this transistor to the collector of the second transistor. A fixed bias is applied to the base, an input terminal is connected to the base of the first transistor, an output terminal is connected to the emitter terminal of the first transistor, and the base of the first transistor is connected to a certain potential point. When the signal applied to the input terminal falls below a certain potential, it becomes conductive and raises the base potential of the first transistor to a potential equal to or higher than the sum of the fixed bias and the base-emitter potential of the first transistor. An emitter follower circuit characterized in that a switching circuit is connected to fix the emitter.