KR100782345B1 - Stereo headphone deleting tdd-noise and the method - Google Patents

Abstract

A stereo headphone deleting TDD(Time Division Duplex)-noise and a method thereof are provided to remove the TDD-noise included in an audio signal, by outputting the audio signal through a virtual ground single-ended method by on/off of a virtual ground port and outputting a voice call signal through BTL(Bridge Tied Load) method. A first speaker(120a) and a second speaker(120b) are connected serially. A control part(130) inputs a left signal and a right signal to an input port of the first and the second speaker respectively when an audio signal is applied, and inverts and inputs one of the left signal and the right signal to the input port of the first and the second speaker when a voice call signal is applied, and connects a common port of the first and the second speaker to a virtual ground port. An amplifier(140) is connected between the first and the second speaker and the control part. The control part turns on the virtual ground port when the audio signal is applied, and turns off the virtual ground port when the voice call signal is applied.

Description

Stereo headphones to eliminate TD noise and its driving method {STEREO HEADPHONE DELETING TDD-NOISE AND THE METHOD}

1 is a circuit diagram showing a headphone according to the prior art.

2 is a circuit diagram illustrating stereo headphones for removing TDD noise in accordance with the present invention.

3 is a circuit diagram showing a virtual ground circuit of the stereo headphones according to the present invention.

4 is a flowchart illustrating a method of driving stereo headphones for removing TDD noise according to the present invention.

The present invention relates to a stereo headphone for removing TDD noise and a driving method thereof. In particular, an audio signal is output in a virtual ground single-ended manner by an on / off of a virtual ground terminal, and a voice call signal is output in a BTI method. The present invention relates to a stereo headphone and a driving method thereof for removing TDD noise.

TDD (Time Division Duplex) is a method of bidirectional communication at one frequency by dividing the inside of one frame for transmission and reception. In general, different frequencies are used for transmission and reception in wireless communication, but TDD is used for time-division by dividing the same frequency for transmission and reception.

TDD is a method used in GSM (Global System for Mobile Telecommunication), and each frame is divided into about 4ms to communicate. It sends and receives signals alternately at high speeds that no one can feel, and it feels like two-way communication, but it actually performs reception or transmission only by looking at the frame.

In addition, in the process of transmitting and receiving alternately, the current consumption of the power stage is alternately generated accordingly, and the ripple occurs in the power stage due to the difference in current consumption. This is called TDD noise, and the level of the TDD noise is 217 Hz band suitable for human listening.

1 is a circuit diagram showing a headphone according to the prior art.

Referring to FIG. 1, a headphone according to the related art includes a first speaker 20a and a second speaker 20b connected in series.

The signal applied to the input terminals of the first speaker 20a and the second speaker 20b is output as an audible audio signal or a voice call signal.

When the audio signal is applied, it does not transmit / receive with TDD, so it is possible to output the stable audio signal without the noise by a power source without TDD noise. However, when the voice call signal is applied, the power noise generated along with the signal is transmitted and received by TDD. The noise induced by the transmission / reception frequency of the headphone cable is introduced into the headphone, and thus, a clean voice call signal cannot be output.

That is, when transmitting and receiving a voice call signal, it is necessary to send and receive wireless signals between the base station and the terminal, and during this time, more power is required than when transmitting and receiving audio signals. Similarly, in the case of TDD, wireless transmission and reception is performed only in a frame allocated to the TDD, thus consuming more power than usual at this time.

In the process of outputting a voice call signal, power consumption for wireless transmission and reception causes noise induced by power supply noise and headphone cable. The noise causes interference in the voice call signal, so that the user cannot receive a clean voice call signal.

The present invention is to solve this problem, the audio signal is output by the virtual ground single-ended by the on / off of the virtual ground terminal, and the voice call signal is output in the bitieel method TDD noise included in the audio signal The object of the present invention is to provide a stereo headphone and a driving method thereof.

Stereo headphones according to the present invention includes a first speaker and a second speaker connected in series; And a left signal and a right signal are input to input terminals of the first and second speakers, respectively, when an audio signal is applied, and the left and right signals are respectively input to the input terminals of the first and second speakers when a voice call signal is applied. A controller for inverting and inputting only one of the signals, and connecting the common terminals of the first and second speakers to a virtual ground terminal; And an amplifier connected between the first and second speakers and the controller, wherein the controller turns on the virtual ground terminal when the audio signal is applied and turns off the virtual ground terminal when a voice call signal is applied. It is characterized by.

The audio signal may be provided in a virtual ground single-ended manner, and the voice call signal may be provided in a Beatiel manner.

When the virtual ground terminal is turned off, it is preferable to remove the noise included in the voice call signal by using a VTEL structure.

In the driving method of the stereo headphone according to the present invention, when an audio signal is applied to input terminals of the first and second speakers connected in series, a virtual ground terminal connected to the common terminal is turned on, and the inputs of the first and second speakers connected in series are applied. And when the voice call signal is applied to the terminal, the virtual ground terminal connected to the common terminal to be turned off, wherein the voice call signal is inverted and input to any one of input terminals of the first and second speakers.

The audio signal may be applied in a virtual ground single-ended manner, and the voice call signal may be applied in a Beatiel manner.

When the virtual ground terminal is turned off, the noise included in the voice call signal is preferably removed by the VTEL structure.

Hereinafter, with reference to the accompanying drawings a preferred embodiment according to the present invention will be described in detail.

2 is a circuit diagram illustrating a stereo headphone for removing TDD noise according to the present invention, and FIG. 3 is a circuit diagram illustrating a virtual ground circuit of the stereo headphone according to the present invention.

Referring to FIG. 2, a stereo headphone for removing TDD noise according to the present invention includes a first speaker 120a, a second speaker 120b, and a controller 130 connected in series. In addition, the amplifier 140 may further include.

The first speaker 120a and the second speaker 120b output a signal applied to the input terminals of the first speaker 120a and the second speaker 120b as an audible audio signal or a voice call signal.

The controller 130 adjusts the audio signal when a normal audio signal, for example, a stereo signal generated during sound source reproduction is applied, and generates a control signal for turning on / off the virtual ground terminal 110c. The adjusted signal is applied to the amplifier 140, and the applied signal is amplified and input to the first and second speakers 120a and 120b as left and right signals, respectively.

The virtual ground terminal 110c is an output terminal of the virtual ground circuit, an example of which is illustrated in FIG. 3.

Referring to FIG. 3, the virtual ground circuit includes a bias circuit 110a and a voltage follower circuit 110b.

The bias circuit 110a maintains a constant DC voltage Vref and applies it to the non-inverting input terminal of the operational amplifier.

The voltage follower circuit 110b feeds back the voltage applied to the non-inverting input terminal to the inverting input terminal of the operational amplifier, and outputs a voltage substantially equal to the voltage applied to the non-inverting input terminal.

For example, if the reference voltage Vref of the bias circuit 110a is 1/2 of the power supply voltage, the reference voltage is applied to the non-inverting input terminal of the voltage follower circuit 110b, and the applied reference voltage is The voltage is fed back to the inverting input terminal to output a voltage substantially equal to the applied reference voltage.

Therefore, the common terminal of the first speaker 120a and the second speaker 120b to which the virtual ground terminal 110c is connected maintains a constant DC voltage by the bias circuit 110a, so that the general ground (GND) single-ended There is no need for a capacitor to maintain the constant DC voltage required by the scheme.

In addition, since the voltage follower circuit 110b outputs a voltage substantially equal to the applied voltage, the voltage follower circuit 110b applies the same voltage as that of each of the output terminals of the first speaker 120a and the second speaker 120b.

That is, the audio signal is output in the same phase as the input signal by applying a virtual ground single-ended method.

When the voice call signal is applied, the controller 130 adjusts the voice call signal and generates a control signal for turning on / off the virtual ground terminal 110c.

The adjusted signal is applied to the amplifier 140, and inverts any one of the left signal and the right signal to the input terminals of the first speaker 120a and the second speaker 120b, respectively.

For example, when the left signal is applied to the input terminal of the first speaker 120a, a signal obtained by inverting the right signal is applied to the input terminal of the second speaker 120b, and the input of the first speaker 120a is applied. When the right signal is applied to the terminal, the signal obtained by inverting the left signal is applied to the input terminal of the second speaker 120b.

At this time, the virtual ground terminal 110c is turned off or converted into high-impedance and connected to the common terminal, and the output terminals of the first speaker 120a and the second speaker 120b are connected to the virtual ground terminal VGND. Since it is not connected, it forms a Bridge Tied Load structure.

The node connected between the first speaker 120a and the second speaker 120b operates as one node by the VTEL structure, and the voice call signal is output as a differential signal by applying the VTEL method.

The amplifier 140 amplifies the output signal of the controller 130 and inputs it to the first speaker 120a and the second speaker 120b.

4 is a flowchart illustrating a method of driving stereo headphones to remove TDD noise according to the present invention.

Referring to FIG. 4, an audio signal or a voice call signal is applied to input terminals of a first speaker and a second speaker connected in series (S100).

When the audio signal is applied, the signal adjusted by the controller is amplified by the amplifier.

At this time, the virtual ground terminal is turned on (S110), the left signal and the right signal applied to the input terminals of the first speaker and the second speaker amplify and output the signal in a virtual ground single-ended (S130).

When the voice call signal is applied, the signal adjusted by the controller is amplified by the amplifier.

At this time, the virtual ground terminal is turned off (S120), and a signal obtained by inverting any one of the left signal and the right signal is applied to the input terminals of the first speaker and the second speaker.

For example, when the left signal is applied to an input terminal of a first speaker, a signal obtained by inverting the right signal is applied to an input terminal of a second speaker, and when the right signal is applied to an input terminal of a first speaker, 2 Apply the left signal obtained by inverting the left signal to the input terminal of the speaker.

When the virtual ground terminal is turned off, the first speaker and the second speaker are not connected to the virtual ground terminal VGND, thereby forming a VTEL structure and forming a closed circuit.

In the Beatiel structure, the in-phase signals generated at the output terminal cancel each other and are not output. Therefore, noise flowing into the cable and noise generated in the power supply cancel each other out.

The voice call signal is output by amplifying the differential signal in a bit-iel method (S130).

The stereo headphone and its driving method for removing TDD noise according to the present invention have the advantage of not using a capacitor at the output terminal by using a virtual ground terminal. In addition, when the virtual ground terminal is turned on, the audio signal is output in the virtual ground single-ended manner, and when it is turned off, the voice call signal is output by the first and second speakers having the VTEL structure in the VT type, thereby reducing the TDD noise. It has the advantage of removing it.

Claims (10)

A first speaker and a second speaker connected in series; And When an audio signal is applied, a left signal and a right signal are input to input terminals of the first and second speakers, respectively. When a voice call signal is applied, the left and right signals are input to the input terminals of the first and second speakers. A control unit for inverting any one of the inputs and connecting the common terminals of the first and second speakers to a virtual ground terminal; And An amplifier connected between the first and second speakers and the controller Including but not limited to: And the control unit turns on the virtual ground terminal when the audio signal is applied, and turns off the virtual ground terminal when a voice call signal is applied. The method of claim 1, Stereo headphones further comprising a virtual ground circuit for providing the virtual ground terminal. The method of claim 2, The virtual ground circuit A bias circuit for outputting a constant DC voltage; And And a voltage follower circuit for outputting a voltage equal to the DC voltage. delete The method of claim 1, And the audio signal is provided in a virtual ground single-ended manner, and the voice call signal is provided in a Beatiel manner. The method of claim 1, Stereo headphone, characterized in that to remove the noise contained in the voice call signal using a bit-iel structure when the virtual ground terminal is off. When the audio signal is applied to the input terminals of the first and second speakers connected in series, the virtual ground terminal connected to the common terminal is turned on, and the common terminal when the voice call signal is applied to the input terminals of the first and second speakers connected in series. And turning off the virtual ground terminal connected to the audio call signal, wherein the voice call signal is inverted and input to any one of input terminals of the first and second speakers. delete The method of claim 7, wherein And the audio signal is applied in a virtual ground single-ended manner, and the voice call signal is applied in a Beatiel method. The method of claim 7, wherein And when the virtual ground terminal is turned off, noise included in the voice call signal is removed by a bitel structure.

Images