JP2004320098A - Damping control circuit for earphone - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a damping control circuit for an earphone that provides clear sound quality to a reproduced sound when a user listens to music by using the earphone without causing the user to feel tired even for music-listening for a long time. <P>SOLUTION: The damping control circuit 1 for an earphone is connected in series between the earphone and an amplifier, and is provided with first and second resistors 11, 12 connected in series and a capacitor 13 connected in parallel with the second resistor. The resistance of the first resistor 11 is selected to be nearly 1/4 of the resistance of the second resistor 12. Since the impedance of the damping control circuit is properly changed for each sound region of the reproduced sound corresponding to the acoustic characteristic of the external auditory meatus, the harmful vibration of a diaphragm of the earphone caused by the resonance of the external auditory meatus is effectively damped to make the frequency characteristic of an output or the sound pressure of the reproduced sound almost uniform from a low register to a high register. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an earphone device used for audio equipment and a damping control circuit used for an earphone amplifier.
[0002]
[Prior art]
2. Description of the Related Art Earphones provide sound pressure corresponding to the waveform of an input electric signal to the eardrum of a user's ear, and have conventionally been connected to audio equipment or the like and used for listening to music. FIG. 7 is a schematic diagram showing a situation in which the earphone (5) is applied to a human ear (8). The earphone (5) includes a diaphragm (51) that generates a sound pressure related to a reproduced sound, a converter (52) that vibrates the diaphragm (51) based on an input electric signal, and a bottomed part in which these are housed. And a cylindrical cover (53). An earpiece (54) is attached to the opening side of the cover (53), and the earpiece (54) comes into contact with the ear (8), so that the gap between the earphone (5) and the eardrum (81) is formed. The external ear canal (82), which is a space, is sealed. The sound pressure generated by vibrating the transducer (52) causes the eardrum to vibrate through the ear canal (82).
[0003]
The earphone (5) is connected to an amplifier (91) provided in the audio device (9), and the electric signal is amplified by the amplifier (91) and supplied to the earphone (5). When listening to music using the earphones (5) in this manner, the sound quality of the reproduced sound is clear in the low range, the middle range, and the high range, and even when listening to music for a long time. It is desirable not to give fatigue to the person.
[0004]
[Problems to be solved by the invention]
Conventionally, in an audio device (9), a damping resistor (93) is connected to an output terminal (92) of the audio device (9) and an amplifying device (91) so as to have an output impedance of several tens to several hundreds Ω. It is provided in series with the amplifier (94). This is because the amplifier (94) is not dedicated to the earphone, so it is necessary to once reduce the electric signal amplified by the amplifier (94) and supply it to the earphone (5). However, in this case, a decrease in the output of the reproduced sound in the high frequency range causes a problem that the sound quality of the reproduced sound is deteriorated in the high frequency range, and it is difficult to improve the sound quality even if the high frequency compensation is performed. On the other hand, when the output impedance of the amplifying device (91) is extremely low without inserting the damping resistor (93), the sound quality of the reproduced sound in the high frequency range is improved. However, in this case, there is an inconvenience that when the user listens to music for a long time, the user is considerably tired.
[0005]
SUMMARY OF THE INVENTION The present invention solves the above-described problem, and in the case of using an earphone connected to an amplifier, the earphone that reduces the deterioration of the sound quality of a reproduced sound, particularly in a high frequency range, and reduces the feeling of fatigue of the user. And a damping control circuit for the same.
[0006]
[Means for Solving the Problems]
An earphone damping control circuit according to the present invention is an earphone damping control circuit connected in series between an earphone and an amplifier that amplifies an electric signal supplied to the earphone, wherein the damping control circuit is connected in series. A first resistor, a second resistor, and a capacitor connected in parallel with the second resistor, wherein the resistance of the first resistor is approximately four times the resistance of the second resistor. It is 1.
[0007]
The earphone amplifying device of the present invention includes an amplifier that amplifies an electric signal supplied to the earphone, and an output terminal to which the earphone device including the earphone is connected, and the above-described earphone damping control circuit includes: , Provided between the amplifier and the output terminal. In the earphone device of the present invention, the above-described earphone damping control circuit is provided between the earphone and the input plug.
[0008]
[Action and effect]
In the above damping control circuit, the series circuit of the first resistor and the second resistor mainly contributes to the impedance in the low frequency region, and the first resistor mainly contributes to the impedance in the high frequency region. In the middle frequency region, the first resistor, the second resistor, and the capacitor contribute to the impedance. Since the resistance value of the first resistor is approximately one-fourth of the resistance value of the second resistor, each range of the reproduced sound is adjusted so that the impedance of the damping control circuit corresponds to the acoustic characteristics of the ear canal. Change appropriately. As a result, harmful vibration of the diaphragm of the earphone due to resonance of the ear canal is effectively damped, and the output of reproduced sound or the frequency characteristic of sound pressure becomes substantially uniform from the low-range to the high-range. Therefore, according to the present invention, the sound quality of the reproduced sound of the earphone is improved, and the user does not feel tired even when listening to music for a long time using the earphone.
[0009]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a circuit configuration of a damping control circuit (1) of the present invention. The damping control circuit (1) is connected in series between an amplifier for amplifying an electric signal supplied to the earphone and the earphone. The electric signal amplified by the amplifier is processed by the damping control circuit (1) and then output to the earphone.
[0010]
The damping control circuit (1) includes a first resistor (11) and a second resistor (12) connected in series. The resistance of the first resistor (11) is smaller than the resistance of the second resistor (12). Further, the damping control circuit (1) comprises a capacitor (13) connected in parallel with the second resistor (12). In this embodiment, the time constant, which is the product of the resistance value of the first resistor (11) and the capacitance of the capacitor (13), is 29.1 μs, and the resistance value of the second resistor (12) and the capacitor ( The time constant which is the product of the capacitances of 13) is 111.6 μs. In this embodiment, the resistance of the first resistor (11) is set to 0.47Ω, the resistance of the second resistor (12) is set to 1.8Ω, and the capacitance of the capacitor (13) is set to 62 μF. I have. The resistance value of the first resistor (11) is approximately one fourth of the resistance value of the second resistor (12). In addition, when the resistance values of the first resistor (11) and the second resistor (12) and the capacitance of the capacitor (13) are within the range of ± 10% of the above numerical value, the present invention The effect was confirmed.
[0011]
In the damping control circuit (1) of the present embodiment, at a frequency lower than 1 kHz, the series circuit of the first resistor (11) and the second resistor (12) mainly contributes to the impedance of the damping control circuit (1). I do. At frequencies above 4 kHz, the first resistor (11) contributes mainly to the impedance, since most of the current passes through the capacitor (13). At a frequency of 1 to 4 kHz, the first resistor (11), the second resistor (12) and the capacitor (13) all contribute almost equally to the impedance.
[0012]
FIG. 2 shows general acoustic characteristics of the ear canal. The horizontal axis is the frequency of the sound wave (Hz), and the vertical axis is the sound gain (sound pressure on the eardrum / acoustic pressure at the ear canal) (dB). The acoustic gain of the ear canal is almost constant below 1 kHz, but has a resonance characteristic of about 10 dB at around 3 to 4 kHz. FIG. 3 shows the frequency characteristics of the impedance of the damping control circuit (1) of the present invention. The impedance of the damping control circuit (1) monotonously decreases as the frequency increases. In a frequency range corresponding to a low-frequency range lower than 1 kHz, the frequency range is approximately 1.9 to 2.3Ω, which is almost constant. In the frequency range corresponding to the middle range around 2 kHz, the value is approximately half of the frequency range corresponding to the low range. The impedance of the damping control circuit (1) further decreases in a frequency range of 3 to 4 kHz, and becomes substantially constant at about 0.5Ω when the frequency exceeds 10 kHz.
[0013]
The impedance of the earphone is generally almost constant regardless of the frequency. Therefore, when the damping control circuit (1) of the present embodiment having the frequency characteristic of the impedance shown in FIG. 3 is inserted in series between the amplifier and the earphone, in the frequency range of 3 to 4 kHz where the acoustic gain of the ear canal becomes maximum. The damping factor (the value obtained by dividing the impedance of the earphone device by the output impedance when the amplifier is viewed from the earphone) increases, and harmful vibration of the diaphragm of the earphone due to the resonance characteristics of the ear canal is effectively damped. Further, the frequency characteristics of the output or sound pressure of the reproduced sound are uniform from the low range to the high range of 3 to 4 kHz. Thus, by using the damping control circuit (1) of the present embodiment, the deterioration of the sound quality of the reproduced sound, particularly in the high-frequency range, is reduced, and the user's feeling of fatigue is also reduced.
[0014]
FIG. 4 is a circuit configuration diagram of an earphone amplifier (3) in which the damping control circuit of FIG. 1 is incorporated. The earphone amplifying device (3) of the present embodiment is inserted between an audio device and an earphone, amplifies an electric signal from the audio device, and supplies the amplified electric signal to the earphone. The input terminal (31) is connected to an audio output terminal (not shown) of the audio device. The electric signal input to the input terminal (31) is amplified by the amplifier (32) and reaches the output terminal (33). An output terminal (33) is connected to an input terminal of an earphone device having an earphone. The above-described damping control circuit (1) is connected in series between the amplifier (32) and the output terminal (33).
[0015]
A low-pass filter (34) is provided between the input terminal (31) and the amplifier (32). The low-pass filter (34) includes a resistor (34a) connected in series between the input terminal (31) and the amplifier (32), and a resistor (34b) connected in parallel with the resistor (34a). And a series circuit including a capacitor (34c). The low-pass filter (34) is not necessarily provided, but when the signal of the low frequency range is more attenuated than the high frequency range by the operation of the damping control circuit (1), the sound quality of the reproduced sound of the earphone is reduced. It is effective to improve.
[0016]
Normally, two electrical signals including a left audio signal L and a right audio signal R are output from an audio device. Therefore, an earphone amplifier for the left audio signal L and an earphone for the right audio signal R are output. The amplification device is unitized to form one earphone amplification device.
[0017]
FIG. 5 is a circuit diagram of a second embodiment of the earphone amplifier according to the present invention. This earphone amplifier (3) uses a diamond circuit (35) to amplify a signal, and a resistor (12a) is connected in series between the diamond circuit (35) and an output terminal (33). ) And a capacitor (13a). The output stage of the diamond circuit (35) connects the emitters of the NPN transistor (36a) and the PNP transistor (36b) to each other via two protective resistors (37a) (37b) in series. It is configured. The parallel circuit is connected between the resistors (37a) and (37b). In the earphone amplifying device (3) of this embodiment, these resistors (37a) and (37b) are used for damping control in combination with the resistor (12a) and the capacitor (13a) in addition to the purpose of circuit protection. Make up the circuit. In this embodiment, the resistance values of the resistors 37a and 37b are both 0.47Ω, and the resistance value of the resistor 12a is 1.8Ω. Further, the capacitance of the capacitor (13a) is set to 62 μF.
[0018]
The base of the NPN transistor (36a) in the output stage is connected to the emitter of the PNP transistor (36c) in the drive stage. The base of the PNP transistor (36b) in the output stage is connected to the emitter of the NPN transistor (36d) in the drive stage. A drive voltage is applied to the collectors of the two NPN transistors (36a) (36d) by the positive electrode battery (38a). A drive voltage is applied to the two PNP transistors (36b) (36c) by the negative electrode battery (38b). A bypass capacitor (39a) for preventing oscillation is connected in parallel with the battery for positive electrode (38a), and a bypass capacitor (39b) is connected in parallel with the battery for negative electrode (38b).
[0019]
The collector of the NPN transistor (36a) in the output stage and the emitter of the PNP transistor (36c) in the drive stage are connected via a driving resistor (37c). The collector of the PNP transistor (36b) at the output stage and the emitter of the NPN transistor (376) at the drive stage are connected via a driving resistor (37d).
[0020]
The resistor (34a) and a series circuit including the resistor (34b) and the capacitor (34c) connected in parallel with the resistor (34a) constitute a low-pass filter (34) for correcting a bass range. I have. Further, a resistor (41) for adjusting a signal level is connected in parallel with the resistor (34a), and a capacitor (42) for high-frequency measures is also connected.
[0021]
FIG. 6 is a schematic diagram of an earphone device (6) including the damping control circuit (1) shown in FIG. The earphone device (6) includes a right audio signal earphone (6a) (hereinafter referred to as a right earphone) and a left audio signal earphone (6b) (hereinafter referred to as a left earphone). (61a) and (61b) are connected to the stereo input plug (62). The stereo input plug (62) of the earphone device (6) is inserted into an earphone connection terminal of the audio device. A damping control circuit (1a) for the right earphone is provided between the stereo input plug (62) and the right earphone (6a), and is provided between the stereo input plug (62) and the left earphone (6b). Is provided with a damping control circuit (1b) for the left audio signal earphone. Each of these damping control circuits (1a) and (1b) has the configuration shown in FIG.
[0022]
When listening to music using a conventional earphone device, an electric signal from an audio device is converted using an earphone amplifier (3) having a damping control circuit (1) as shown in FIG. 4 or FIG. By supplying the amplified sound to the earphones, clear sound quality can be obtained in the low sound range, the middle sound range, and the high sound range, and the fatigue of the user can be reduced even when listening to music for a long time. In addition, since the portable audio equipment incorporates an amplifying device in which the amplifier and the earphone connection terminal are directly connected, the earphone device including the damping control circuits (1a) and (1b) as shown in FIG. By connecting (6) to such an audio device and using it, the same advantages as described above can be obtained.
[0023]
The description of the above embodiments is intended to explain the present invention, and should not be construed as limiting the invention described in the claims or reducing the scope thereof. The configuration of each part of the present invention is not limited to the above-described embodiment, and it goes without saying that various modifications can be made within the technical scope described in the claims.
[Brief description of the drawings]
FIG. 1 is a circuit diagram of an earphone damping control circuit according to the present invention.
FIG. 2 is a graph showing acoustic characteristics of an ear canal.
FIG. 3 is a graph showing impedance frequency characteristics of the damping control circuit according to the present invention.
FIG. 4 is a circuit diagram of an earphone amplifier according to the present invention.
FIG. 5 is a circuit configuration diagram of a second embodiment of an earphone amplifying device according to the present invention.
FIG. 6 is a schematic diagram of an earphone device according to the present invention.
FIG. 7 is a schematic diagram showing a situation where the earphone device is placed on a human ear.
[Explanation of symbols]
(1) Earphone damping control circuit (11) First resistor (12) Second resistor (13) Capacitor (3) Earphone amplifier (32) Amplifier (33) Output terminal (5) Earphone device (6) Earphone device (6a) (6b) Earphone (62) Input plug (9) Amplifier

Claims (6)

An earphone damping control circuit (1) connected in series between an earphone and an amplifier that amplifies an electric signal supplied to the earphone,
A first resistor (11) and a second resistor (12) connected in series, and a capacitor (13) connected in parallel with the second resistor (12);
An earphone damping control circuit, wherein a resistance value of the first resistor (11) is approximately one-fourth of a resistance value of the second resistor (12). The product of the resistance of the first resistor (11) and the capacitance of the capacitor (13) is 29.1 μs ± 10%, and the resistance of the second resistor (12) and the capacitance of the capacitor (13). 2. The earphone damping control circuit according to claim 1, wherein the product of the capacitances is 111.6 μs ± 10%. The resistance of the first resistor (11) is 0.47Ω ± 10%, the resistance of the second resistor (12) is 1.8Ω ± 10%, and the resistance of the capacitor (13) is The damping control circuit for an earphone according to claim 2, wherein the capacitance is 62 μF ± 10%. 4. An earphone damping device according to claim 1, further comprising an amplifier for amplifying an electric signal supplied to the earphone, and an output terminal (33) to which an earphone device including the earphone is connected. An earphone amplifier, wherein a control circuit is provided between the amplifier (32) and the output terminal (33). An earphone device wherein the earphone damping control circuit (1a) (1b) according to any one of claims 1 to 3 is provided between the earphone (6a) (6b) and the input plug (62). A diamond circuit (35) for amplifying an electric signal to be supplied to the earphone, and an output terminal (33) to which an earphone device including the earphone is connected,
The output stage of the diamond circuit (35) connects the emitters of the NPN transistor (36a) and the PNP transistor (36b) to each other via two first resistors (37a) (37b) in series. Composed,
A second resistor (12a) and a capacitor (13a) are connected in series with each of the first resistors (37a) (37b) between the first resistors (37a) (37b) and the output terminal (33). ) Is connected to a parallel circuit consisting of:

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