JPS6368000A - Stereophonic headphone driving device - Google Patents

Abstract

PURPOSE:To reduce the distortion of a signal by connecting the output of a third power amplifier to a common terminal through the respective speaker units of a stereophonic headphone and applying the input signal of the third power amplifier to the same phase component of L, R channels through a filter and phase adjusting circuit. CONSTITUTION:Attenuation type low pass filters 10-A, 10-C are constituted of a CR filter, are completely attenuated in a boost band (low frequency) during a period from a point (d) to (f) and from (g) to (e), so that the phase is substantially delayed by 90 deg. substantially. Since points (b), (b)' and (c) are opposite phases, the voltage of the sum of the absolute value of a voltage at (b), (b)' and the absolute value of a voltage at (c) is applied to the respective both ends of the respective speaker units of the stereophonic headphone 3, thereby a low frequency can be attained. Since the third power amplifier 9 operates in an opposite phase to first and second power amplifiers 7, 8, if the absolute value of the levels at the points (b), (b)' and (c) are equal, a saturation level is enlarged by two times considering both the ends of the speaker unit.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a stereo headphone drive device used in headphone stereos, tape recorders, and the like.

Conventional technology Page 2 In recent years, the growth of headphone stereo has been remarkable, and the opportunities to enjoy music with stereo headphones have increased. Processing has been applied to music, and the ways to enjoy music have become more diverse.

An example of a conventional stereo headphone drive circuit for boosting low frequencies will be described below with reference to the drawings.

FIG. 2 is a circuit block diagram showing an example of a conventional stereo headphone drive circuit, particularly one incorporating a low-frequency boost circuit. In Figure 2, 1.2 is a power amplifier, 3 is a pair of stereo headphones that are connected to and driven by the outputs of power amplifiers 1 and 2, and 4.5 is a pre-circuit for power amplifier 1.2 to boost the low range. It is a low-range boost amplifier that amplifies only the low range.
6 is the sound volume. With the above configuration, L.

The signals input from both R channels are amplified by the low frequency boost amplifiers 4 and 5, and after being adjusted to the desired volume with the volume volume 6, the entire frequency band is amplified by the power amplifiers 1 and 2. The voltage and power are amplified and applied to the stereo headphones 3, and the stereo headphones are driven. Therefore, the low range of the music source can be reproduced richly and enjoyed with stereo headphones.

Problems to be Solved by the Invention However, in the above configuration, the low frequency boost circuit 4,
5 amplified the low frequency signal, it was easy to reach the saturation level of power amplifiers 1 and 2, and the problem was that low frequency distortion was audible, especially when volume 6 was set high. .

In view of the above-mentioned problems, the present invention provides a stereo headphone drive device that is less susceptible to distortion even when low-frequency boost is performed using power amplifiers with the same saturation level.

Means for Solving the Problems In order to solve the above problems, the stereo headphone driving device of the present invention has three power amplifiers and a filter/phase adjustment circuit. The output of the second power amplifier is connected to the L channel terminal and the R channel terminal of the stereo headphones, respectively, and the third power amplifier is connected to the common terminal common to each speaker unit of the stereo headphones.
The output of the third power amplifier is connected to the input signal of the third power amplifier, and the in-phase component of the R channel is provided through a filter and phase adjustment circuit.

Effect: With the above-described configuration, the present invention uses the third power amplifier to boost the band according to the characteristics of the filter/phase adjustment circuit, so the voltage can be increased up to twice (6 dB) depending on the amount of boost. It is possible to expand the saturation level. Therefore, even if boosting is performed, distortion becomes less likely.

Embodiments Hereinafter, stereo headphone drive circuits according to embodiments of the present invention will be described with reference to the drawings.

FIG. 1(a) shows a circuit diagram 5-5 showing an embodiment of the present invention.
It is a 1-tsuk diagram. In FIG. 1 (2L), 7 and 8.9 are respectively numbered 1. Second. The third power amplifier, 10 is a filter and phase adjustment circuit provided as a pre-circuit for the third power amplifier, and 11, 12, and 13 are the L channels of the stereo headphones 3, respectively.

R channel, common terminal, 14 is the 1st. This is a mixing circuit for extracting the in-phase component of the output signal of the second power amplifier 7.8.

FIG. 1(b) is a circuit block diagram showing the filter/phase adjustment circuit 10 in more detail. Figure 1 ('b)
, 10-A and 10-C are attenuation type low-pass filters, and 10-B is a common-mode amplifier. Figure 1(a),
In (1)), each point on the circuit is a, a', b, b', c, d, e as shown in the figure.
, f, and g.

The operation will be explained below with reference to the drawings.

Points a, a' and b, b' and d are in phase. Important point) e and C are also in phase. The attenuation type low-pass filters 10-A and 10-C are composed of OR filters, and are sufficiently attenuated even in the boost band (low band) from point d to f and from point g to θ by 6 pesos. Therefore, the phase is delayed by approximately 90'.

Since there is a common-mode amplifier 10-B between 10-A and 10-1, the phase is approximately 1800 in the process from point d to e.
You'll be late. As a result, point b.

Since b' and C are in opposite phase, the boost band (low range)
In this case, the sum of the absolute values of the voltages at b and b' and the absolute value of the voltage at C is applied to both ends of each speaker unit of the stereo headphones 3, making it possible to boost the low range. be.

The saturation level of each power amplifier 7.8.9 is the same, but the third power amplifier 9 has the same saturation level as the first. Second power amplifier 7
．． Since it is operating in opposite phase to 8, temporarily point b, b'
If the absolute values of the levels of and C are the same, the saturation level will be doubled (6 dB
Atsupu).

As described above, according to this embodiment, there are three power amplifiers and a filter/phase adjustment circuit, and the output of the third power amplifier is connected to the co7 base terminal of the stereo headphones, and the pre-circuit is connected to the output of the third power amplifier. By configuring the input of a certain filter and phase adjustment circuit to be taken from the in-phase components of both the R and R channels, it is possible to obtain the effect that distortion is less likely to occur even when low-frequency boosting is performed.

Effects of the Invention As described above, the present invention has three power amplifiers and a filter/phase adjustment circuit. The output of the second power amplifier is connected to the L channel terminal and R channel terminal of the stereo headphones, and the output of the third power amplifier is connected to the common terminal shared through each speaker unit, and the input signal is By adopting a configuration in which the in-phase component of the R channel is provided through a filter and phase adjustment circuit, the power amplifier saturation level in the boost band can be expanded by up to 6 dB (voltage ratio) and distortion can be made less likely.

[Brief explanation of the drawing]

FIG. 1(a) is a circuit block diagram of an embodiment of the stereo headphone driving device of the present invention, and FIG. 1(b) is a circuit block diagram of an embodiment of the stereo headphone driving device of the present invention.
FIG. 2 is a circuit block diagram showing a conventional stereo headphone driving device. 7.8,9...1st. g2. Third power amplifier, 1o...Filter and phase adjustment circuit. Name of agent: Patent attorney Toshio Nakao and one other person 1.
2-m-Power Amplifier 6 - Volume Volume Figure 2

Claims (1)

[Claims] It has three power amplifiers and a filter/phase adjustment circuit, and the outputs of the first and second power amplifiers are connected to the L channel terminal and R channel terminal of the stereo headphones, respectively, and are connected to the respective speaker units of the stereo headphones. The output of the third power amplifier is connected to the common terminal made common to both, and the input signal of the third power amplifier is configured such that the in-phase components of the L and R channels are given through a filter and phase adjustment circuit. A stereo headphone drive device characterized by: