KR20030096847A - Circuit of pocket type hearing aid - Google Patents

Abstract

The present invention amplifies the audio signal selectively input from the microphone (M1), the Tel-coil (T1) and the audio jack (J1) by the switch (SW1) to an amplifier circuit and outputs to the receiver 12, the output signal Hearing aid that adjusts the magnitude and output sound pressure by the volume controller 14 and the output sound pressure control circuit 16, the amplification circuit uses a BJT feedback amplification circuit for sampling the voltage to input the current and the feedback resistor (Rf) ) And the base resistor Rb connected in parallel to the collector resistor Rc and the collector resistor Rc such that the output voltage Vo is equal to the DC voltage between the base and the emitter, but the amplification circuit is connected in series. A volume controller 14 is connected between the first amplifier circuit 22 and the second amplifier circuit 24 by using a four-stage amplifier circuit, and between the second amplifier circuit 24 and the third amplifier circuit 26. The low frequency tone control circuit 32 is connected to the third amplifier circuit 26 and the fourth circuit. A pocket-type hearing aid circuit is provided between the amplifying circuits 28 and a high-frequency band tone control circuit 34, so that a stable output signal can be obtained over the entire band.

Description

Circuit of pocket type hearing aid

The present invention relates to a pocket-type hearing aid circuit, and more particularly, a signal inputted through various input means is output to a receiver through a tone control circuit and an amplifier circuit of high frequency and low frequency band, each amplifying circuit samples a voltage and a current. The feedback amplification circuit is used to bias the feedback resistor to affect only the AC signal without affecting the DC signal, increasing or decreasing the listening rate in the low frequency and high frequency range, and generating the theory between the theory and the actual in the DC bias circuit. The present invention relates to a pocket hearing aid circuit that allows the output to be stabilized by making it possible to easily adjust the difference by using a feedback resistor without moving the bias point.

Hearing Aids are electrical amplification for hard-to-hear sounds for people with hearing disabilities so that they can be heard with loud and clear sound. The structure of a typical hearing aid is largely a microphone, amplification circuit, and a volume controller for adjusting the output signal level. It is composed of a receiver (speaker), and the sound is converted into an electrical signal by the microphone, and the converted electrical signal is amplified at the amplification rate adjusted by the volume controller while passing through the amplification circuit, so that the signal input from the microphone is The hearing aid is amplified to the size desired by the user, and the receiver converts the amplified electrical signal back into a sound signal.

However, the conventional hearing aids as described above are amplified based on the inaudible bass, so that even noise or loud surrounding sounds are amplified uniformly and loudly. Most of them are bad and have a problem of lowering their cognitive ability.

An object of the present invention for solving the above problems is to amplify the signal input through the various input means and then to amplify again with the gain adjusted by the volume controller, and the signal passed through the tone control circuit of the high frequency and low frequency band Amplify the circuit and output it to the receiver. Each amplifier circuit uses a feedback amplifier circuit that inputs current by sampling voltage.The feedback resistor does not affect the DC signal but affects only the AC signal. By biasing, the pocket-type hearing aid increases and decreases the listening rate in the low frequency and high frequency ranges, and makes it possible to easily adjust the difference generated between the theory and the actual in the DC bias circuit by using a feedback resistor without moving the bias point. To provide a circuit.

1 is a block diagram illustrating a pocket hearing aid circuit in accordance with the present invention.

FIG. 2 is a circuit diagram illustrating an amplifier circuit of FIG. 1.

3 is a circuit diagram illustrating a pocket hearing aid circuit according to the present invention.

An embodiment of the present invention for achieving the object as described above looks at with reference to the accompanying drawings.

1 is a block diagram illustrating a pocket hearing aid circuit according to the present invention, FIG. 2 is a circuit diagram illustrating the amplification circuit of FIG. 1, and FIG. 3 is a circuit diagram illustrating a pocket hearing aid circuit according to the present invention.

In the pocket type hearing aid circuit according to the present invention, as shown in Figs. 1 to 2, the amplification circuit selectively converts a voice signal input from the microphone M1, the tel-coil T1 and the audio jack J1 by the switch SW1. In the hearing aid which amplifies the output signal to the receiver 12 and adjusts the output signal size and the output sound pressure by the volume controller 14 and the output sound pressure control circuit 16, the amplification circuit samples a voltage to obtain a current. A BJT feedback amplifying circuit is used to input a base resistor (Rb) connected to the front end of the feedback resistor (Rf) on one side and the rear end of the collector resistor (Rc) on the other side of the output voltage (Vo) between the base and the emitter. By biasing the collector resistor Rc to be equal to the voltage Vb, no current flows through the feedback resistor Rf, so that the output voltage Vo becomes 0.6V regardless of Vcc to have a stable operating point. And thus avoid Since the feedback resistance Rf does not affect DC but affects AC, the value of the feedback resistor Rf can be arbitrarily used. Since the feedback resistor Rf is a determinant of the voltage amplification, the voltage amplification is adjusted. You have flexibility.

As shown in FIG. 1, the amplification circuit uses a four stage amplification circuit connected in series. A volume controller 14 is connected between the first amplification circuit 22 and the second amplification circuit 24. Low frequency band tone control circuit 32 between amplifying circuit 24 and third amplifying circuit 26, and high frequency band tone control circuit 34 between third amplifying circuit 26 and fourth amplifying circuit 28. By connecting, we get a clear signal over the whole band.

A practical circuit design example of the present invention having such a configuration is shown in FIG. 3, in which Q1, Q2, Q3, and Q4 represent transistors constituting the amplifier circuit, and R3, R7, and R11 represent the base resistance Rb. , R5, R9 and R13 represent the collector resistance Rc.

The switch SW1 is adjusted to select among the voice signals of the microphone M1, the tel-coil T1, and the audio jack J1. The microphone M1 receives a general sound source signal and the tel-coil T1. ) Allows to hear the sound of the phone, the audio jack (J1) allows to receive a signal output from the audio.

As described above, the signal input by operating the switch SW1 is input to the first amplifier circuit 22. In this process, the DC voltage for driving the microphone M1 is connected to the front end of the first amplifier circuit 22. The signal is cut off by the capacitor C1 and only the signal is input to the first amplifier circuit 22.

In this way, the signal input to the first amplifier circuit 22 maintains the bias voltage of the base and the collector at the voltage between the transistor base and the emitter (approximately 0.6V) and the feedback resistor Rf is the first amplifier circuit 22. Amplified by a transistor Q1 biased by a base resistor Rb and a collector resistor Rc so as not to affect the bias voltage of the capacitor, and the output signal is a capacitor C4 that blocks the collector DC voltage. The level is converted by the fixed resistor R6 capable of adjusting the gain and the volume controller 14 (RV1) capable of varying the gain and amplified again by the second amplifying circuit 24. It is connected to the front end and amplified through the capacitor C5 and the second amplifier circuit 24 such that the voltage Vb between the base and emitter of the second amplifier circuit 24 does not become a reverse bias.

The signal amplified through the second amplification circuit 24 is varied from C7 to C6 + C7 by the capacitors C6 and C7 and the variable resistor RV2 constituting the low frequency band tone control circuit 32 and thus the low frequency region. Control the signal. The controlled signal is amplified while passing through the third amplification circuit 26 operated by the same biasing method, and the signal passing through the third amplification circuit 26 passes through the condenser C8 to the fourth. Input to the amplification circuit 28, the signal input to the fourth amplification circuit 28 passes through the capacitor (C9) and the variable resistor (RV3) constituting the high frequency band tone control circuit 34 to suppress the high frequency signal And amplified.

The finally amplified signal is limited to the amplitude of the signal by the variable resistor RV4 constituting the output sound pressure control circuit 16 and outputted to the receiver 12.

Meanwhile, in FIG. 3, the capacitor C1 is used to remove unexpected high frequency noise when the switch, the audio jack, and the battery are replaced.

Therefore, according to the present invention, the output signal is stable and good over the entire band.

According to the present invention configured as described above, since the high frequency band and the low frequency band are adjusted separately, the output signal is corrected to the hearing deterioration characteristics of the hearing aid users, so that the listening ratio is well improved over the entire band, and in the DC bias circuit The difference between theory and practice can be easily adjusted using a feedback resistor without moving the bias point, thereby achieving a stable output.

Claims (2)

The audio signal selectively input from the microphone M1, the Tel-coil T1 and the audio jack J1 by the switch SW1 is amplified by the amplifying circuit and output to the receiver 12, the output signal size and output In the hearing aid circuit for adjusting the sound pressure by the volume controller 14 and the output sound pressure control circuit 16, The amplifying circuit uses a BJT feedback amplifying circuit that inputs a current by sampling a voltage. The amplifying circuit outputs a base resistor Rb connected in parallel to a feedback resistor Rf and a collector resistor Rc. A pocket type hearing aid circuit characterized by biasing the collector resistor (Rc) so as to be equal to the DC voltage between the terminals. 2. The amplifier circuit of claim 1, wherein the amplifier circuit uses a four stage amplifier circuit connected in series, and connects the volume controller 14 between the first amplifier circuit 22 and the second amplifier circuit 24, and the second amplifier circuit. A low frequency band tone control circuit 32 is connected between the 24 and the third amplifier circuit 26, and a high frequency band tone control circuit 34 is connected between the third amplifier circuit 26 and the fourth amplifier circuit 28. Pocket hearing aid circuit, characterized in that.