JPH0465567B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a microphone output circuit that amplifies and extracts an output signal from an electret condenser microphone.

Conventionally, in the output circuit of a microphone using an electret condenser microphone as a signal source, a preamplifier connected directly to the microphone and a limiter amplifier or limiter circuit placed in the subsequent stage are each configured independently, and these circuits The loop is independent of the negative feedback circuit (NFB) system formed between them. Therefore, the circuit configuration becomes complicated and expensive, and harmonic distortion (THD) worsens. especially,
This has the disadvantage that necessary frequency components in the signal components are blocked in the limiter circuit, resulting in unnatural sound.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a microphone output circuit in which a microphone and an amplification system are integrated, and the circuit structure is simplified and harmonic distortion is reduced.

That is, the output circuit of the microphone of this invention is
A first transistor 16 which is an output circuit for amplifying and extracting the output signal of the electret condenser microphone 2, and which receives the output signal of the electret condenser microphone at its base.
and a second transistor 24 forming an emitter follower circuit for amplifying the collector output of the first transistor. A series circuit of a capacitor 36, a first resistor 32, and a second resistor 15 is connected to the first resistor, and a first diode 40 whose cathode is the emitter side of the second transistor, and the output side of the amplifier. A limiter circuit 38 consisting of a second diode 42 with an anode of By connecting the electret condenser microphone to the base input side of the first transistor between the pressure point and the base of the first transistor via a second capacitor (coupling capacitor 4), the second A feedback circuit 8 is configured to feed back the output of the amplifier taken out from the emitter side of the transistor to the base input side of the first transistor via the electret condenser microphone, and A third resistor 12 is connected between the connection point with the second capacitor and the power supply.

Hereinafter, the present invention will be described in detail with reference to embodiments shown in the drawings.

The figure shows an embodiment of the microphone output circuit of the present invention. In the figure, an electret condenser microphone (hereinafter simply referred to as microphone) 2 as a signal source is connected to one output terminal of an amplifier 6 that receives its output signal via a coupling capacitor 4 as a second capacitor. At the same time, a feedback circuit 8 is formed between the output section of the amplifier 6 and the output section of the amplifier 6. That is, microphone 2
Drive voltage from one output terminal and power supply terminal 10
It is connected to the power supply line to which Vcc is applied via a third resistor 12, and the other output terminal is connected to the reference potential line with a reference potential terminal 14 formed therein via the resistor 15 of the feedback circuit 8. connected.

At the input of the amplifier 6 is installed a first transistor 16 whose base receives the output of the microphone 2 via the coupling capacitor 4. Resistors 18 and 20 are connected between the base of this transistor 16 and a power supply line or a reference potential line, respectively, and the collector of this transistor 16 is connected to the power supply line via a resistor 22, and a second transistor The emitter of transistor 16 and the collector of transistor 24 are both connected to a reference potential line. Further, a resistor 26 is connected between the emitter of the transistor 24 and the power supply line. The transistor 24 constitutes an emitter follower circuit, and its output is taken out from the emitter. That is, an output terminal 30 is formed at the emitter of the transistor 24 via a capacitor 28, so that an amplified output is taken out.

A first resistor 32 and a first capacitor 36 of the feedback circuit 8 are connected between the emitter of the transistor 24 and the reference potential terminal 14 of the microphone 2, and a limiter circuit 38 is connected to the feedback circuit 8. It is formed. That is, first and second diodes 40 and 42 are connected in parallel between both terminals of the resistor 32 with their cathodes and anodes in common. That is, the feedback circuit 8 includes a resistor 3.
2 and a resistor 15 as a second resistor are installed, and diodes 40 and 42 with opposite polarities are connected in parallel between the terminals of the resistor 32. Pressure point and amplifier 6
A microphone 2 is connected between the input section and the input section.

The operation will be explained based on the above configuration. An audio signal input from microphone 2 is applied to the base of transistor 16 via coupling capacitor 4. The operating current of the transistor 16 is excited by the audio current, and an output corresponding to the amplification factor is taken out from the collector.This output is further amplified by the transistor 24, and taken out from the output terminal 30 via the capacitor 28. , is fed back to the microphone 2 from the emitter of the transistor 24 via the feedback circuit 8, and at that time, the amplitude is limited by the limiter circuit 38. That is, the amplified output generated at the emitter of the transistor 24 is transmitted to the resistor 3.
A feedback amount is given by the divided voltages of 2 and 15, and this feedback amount becomes the amplification factor of the amplifier 6. That is, if the amplification factor of the amplifier 6 is A _V , the resistance value of the resistor 32 is R _NF1 , and the resistance value of the resistor 15 is R _NF2 , then the amplification factor of the entire system is
A _V0 is A _V0 = A _V (R _NF1 + R _NF2 )/R _NF2 . However, A _V ≫ _{A V0} .

In this case, the AC amplitude is held at a constant value by the limiter circuit 38 and can be taken out from a stable output terminal free of harmonic distortion.

By integrating the amplifier 6, the feedback circuit 8, and the limiter circuit 38, which are the amplification system for amplifying the output of the microphone 2, and using a semiconductor integrated circuit, it is possible to obtain an extremely simple amplifier circuit. As well as harmonic distortion (THD)
can be reduced.

Further, by setting the resistor 15 as a variable resistor and adjusting its resistance value, the sensitivity of the electret condenser microphone 2 can be finely adjusted.

Furthermore, in such an amplifier circuit, an amplifier 6 and a limiter circuit 3 are included in the package of the microphone 2.
8 can be implemented, and a microphone with high gain and low harmonic distortion can be constructed.

Although this embodiment has been described using an electret condenser microphone as an example of a signal source, the present invention can also be applied to other microphones.

As explained above, according to the present invention, an amplifier is installed which includes a first transistor that receives an output signal of an electret condenser microphone at its base, and a second transistor forming an emitter follower circuit on its output side, By forming a feedback circuit between the input and output sections of this amplifier via the electret condenser microphone, the electret condenser microphone and amplifier are integrated, so when the electret condenser microphone and amplifier are configured separately, The circuit configuration can be simplified compared to that of the electret condenser microphone, and the level of the output signal of the electret condenser microphone can be adjusted by automatic gain control performed by the feedback circuit.
The first capacitor, the second capacitor, the first resistor, the second resistor, and the first and second diodes installed in the feedback circuit do not cause distortion for low inputs, and also prevent lightning. The amplitude of high inputs such as sound can be compressed, and high and low inputs can be amplified and extracted without distortion. Moreover, the bias circuit of the amplifier and the electret condenser microphone can be shared, and the DC potential of both can be compressed. By making it common, it is possible to achieve direct current stability, prevent alternating current oscillation in the low frequency range, stabilize operation, and reduce harmonic distortion.In addition, the simplified circuit configuration makes it easier to manufacture. It is also possible to reduce costs.

[Brief explanation of the drawing]

The figure is a circuit diagram showing an embodiment of the microphone output circuit of the present invention. 2...Electret condenser microphone, 4...Coupling capacitor (second capacitor),
6... Amplifier, 8... Feedback circuit, 12... Third resistor, 15... Second resistor, 16... First transistor, 24... Second transistor, 32...
...first resistor, 36...first capacitor, 38
... limiter circuit, 40 ... first diode,
42...Second diode.

Claims (1)

[Scope of Claims] 1. An output circuit for amplifying and extracting an output signal of an electret condenser microphone, comprising: a first transistor whose base receives the output signal of the electret condenser microphone; a second transistor constituting an emitter follower circuit for amplifying the collector output; a first capacitor, a first resistor and a second transistor are installed between the emitter of the second transistor and a reference potential point; A limiter circuit is provided in which a series circuit of resistors is connected, and a first diode is connected to the first resistor, the emitter side of the second transistor being the cathode, and a second diode having the output side of the amplifier being the anode. A voltage divider circuit connected in parallel to divide the output of the amplifier is installed, and the voltage divider circuit is connected between the voltage dividing point of the first and second resistors of the voltage divider circuit and the base of the first transistor. By connecting the electric condenser microphone to the base input side of the first transistor through a second capacitor, the output of the amplifier taken out from the emitter side of the second transistor is connected through the electric condenser microphone. A feedback circuit is configured to feed back to the base input side of the first transistor, and a third resistor is connected between a connection point between the electret condenser microphone and the second capacitor and a power source. A microphone output circuit characterized by: