KR200443177Y1 - Anti-noise usb sound board - Google Patents

Abstract

The present invention relates to an anti-noise USB sound board for noise reduction, and is connected via a cable to a main board having an amplifying unit for amplifying output of sound, and a microphone for inputting a sound signal and a speaker for outputting a sound signal. In the USB soundboard provided with a connection and a USB port; Analog and digital grounds in the USB sound board are configured to be separated, and a resistor is connected to both ground lines, and the input terminal to which the microphone is connected is matched with an inductor and a capacitor to match the input terminal with a resistor connected to the ground line. The RLC filter unit may be configured, and an RLC filter unit may be configured to match the output terminal together with a resistor connected to the ground line by matching an inductor and a capacitor to the output terminal to which the speaker is connected.

According to the present invention, the potential difference due to the ground plane can be stably improved, and the noise generated during the amplification output and the signal transmission through the cable can be improved very effectively by the configuration of the intermediate matching stage. It enables waveform output and improves sound quality of final output.

Description

Anti-noise USB sound board {ANTI-NOISE USB SOUND BOARD}

1 is a circuit diagram showing a wiring circuit including a conventional USB sound board.

Figure 2 is a circuit diagram showing a wiring circuit including an anti-noise USB sound board according to the present invention.

Figure 3 is a comparison of the actual product showing a USB soundboard and a conventional USB soundboard according to the present invention.

Figure 4 is a view showing the output waveform of the USB sound board according to the present invention.

5 is a comparative view before and after improvement showing a state of improvement by the USB soundboard of the present invention.

Explanation of symbols on the main parts of the drawings

100: USB soundboard 112: microphone

114: speaker 116: cable

L1 to L4: Inductor C1 to C4: Capacitor

R1 ~ R4: resistance

The present invention relates to a USB (Universal Serial Bus; hereinafter referred to as "USB") soundboard, and more specifically, to improve the sound quality of the output sound by removing the noise factor generated during the input and output of the signal Noise relates to a USB soundboard.

In general, a USB soundboard is a hardware device that is connected to a computer's mainboard via a cable and outputs sound from a microphone through a speaker.

1 and 2, the conventional USB sound board 10 has a cable 13 connected to a main board 1 having an amplifier 1a for amplifying output of sound. Is connected via a microphone 11 for inputting a sound signal and a speaker 12 for outputting a sound signal, and a USB port (not shown) is provided.

At this time, the amplifier 1a in the main board 1 is composed of two amplifiers for the left and right output of the sound, the speaker 12 of the sound board 10 to the output control signal of the main board (1) By receiving the left and right sound signals are output.

In addition, the motherboard 1 is provided with two input terminals Port1 L (port1 R) and an output terminal Port2 L (Port2 R), respectively, for input and output of signals left and right, and the microphone 11 is inserted and connected. The first sensing stage (Sense1) for detecting the second and the second sensing terminal (Sense2) for detecting the insertion of the jack of the USB port 14 side is provided, and the microphone 11 or the speaker 12 to distinguish A third sensing stage Sense for detecting an optional insertion state is provided and connected to the USB sound board 10 side.

In addition, the conventional USB sound board 10 has a structure in which the analog ground and the digital ground are grounded without being separated.

However, according to the conventional USB sound board as described above, the output terminal has a structure connected directly to the input terminal without an intermediate matching stage, and the analog ground and the digital ground in the sound board in a structure that is grounded without being separated inside of the USB sound board Potential difference occurs in the ground plane, causing primary noise, and this potential difference is caused by the secondary noise through the cable 13 connected to the main board 1 and another USB board. There was a problem that caused it to occur.

That is, in the related art, a sound signal input through the microphone 11 is input to the main board 1, amplified and output through the amplifier 1a, and is transmitted back to the sound board 10 through the cable 13 and then to a speaker. A simple configuration that outputs sound through 12, due to the conventional structural shortcomings caused a lot of noise in the sound output signal, there was a problem that the sound quality of the final sound signal output through the speaker 12 is not clean.

The present invention was created in view of the above problems, and its purpose is to stabilize the potential difference caused by the ground plane in the soundboard, and to remove the noise by filtering the noise generated by the cable connection and the output stage frequency amplification. It provides an anti-noise USB soundboard that can improve the output of normal waveforms and improve the sound quality of the final sound output through the speaker.

The present invention for achieving the above object is connected via a cable to the motherboard having an amplifier for amplifying output of the sound, a microphone for input of the sound signal and a speaker for output of the sound signal is provided and a USB port In the USB soundboard is provided; Analog and digital grounds in the USB sound board are configured to be separated, and a resistor is connected to both ground lines, and the input terminal to which the microphone is connected is matched with an inductor and a capacitor to match the input terminal with a resistor connected to the ground line. The RLC filter unit may be configured, and an RLC filter unit may be configured to match the output terminal together with a resistor connected to the ground line by matching an inductor and a capacitor to the output terminal to which the speaker is connected.

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

Figure 2 is a circuit diagram showing a wiring circuit including an anti-noise USB sound board according to the present invention, Figure 3 is a comparison of the actual product showing a USB sound board and a conventional USB sound board according to the present invention, Figure 4 is the present invention Figure 5 is a view showing the output waveform of the USB sound board, Figure 5 is a comparison drawing before and after the improvement showing the improvement state by the USB sound board of the present invention.

As shown in FIG. 2, the anti-noise USB sound board 100 according to the present invention is connected to the main board 1 having an amplifying unit 1a for amplifying output of sound through a cable 116. The microphone 112 for the input of the speaker and the speaker 114 for the output of the sound signal is connected to the USB port (not shown) is provided with a configuration that is provided.

At this time, the analog ground (AGND) and the digital ground (DGND) in the USB sound board 100 is separated, but the USB sound board by reducing the current flow by connecting the resistance (R1 ~ R4) of 0.1Ω or less to both lines. It is configured to stabilize the potential difference caused by the ground plane in (100).

In addition, the inductor (L3) (L4) and the capacitor (C3) (C4) is connected to the input terminal connected to the microphone 112 is matched to the input terminal with the resistor (R3) (R4) connected to the ground line An RLC filter unit may be configured, and resistors R1 and R4 connected to the ground line by connecting and connecting the inductors L1 and L2 and the capacitors C1 and C2 to the output terminal to which the speaker 114 is connected. And an RLC filter unit matched to the output terminal.

The amplifier 1a in the main board 1 is configured to have two amplifiers for outputting left and right of sound, and the speaker 114 of the sound board 100 is an output control signal of the main board 1. By receiving the left and right sound signals are output.

The main board 1 is provided with two input terminals Port1 L (port1 R) and an output terminal Port2 L (Port2 R) for left and right input and output of signals, respectively, and detect an insertion connection state of the microphone 11. The first sensing terminal (Sense1) and the second sensing terminal (Sense2) for detecting the insertion of the jack of the USB port 118 side is provided, and the microphone 112 or the speaker 114 is divided into the selective insertion thereof A third sensing terminal (Sense) for detecting a state is provided and connected to the USB sound board 100 through a cable 116.

Anti-noise USB sound board 100 of this configuration is a signal is input to the input port (Port1 L) (Port1 R) of the motherboard 1 through the cable 116 connected when the sound signal is input through the microphone 112 In the main board 1, the input signal is amplified by the amplifying unit 1a and then output again to the sound board through the output terminal Port2 L (Port2 R). Will output the function.

In this case, unlike the conventional design, the inductors L1 to L4 and the capacitors C1 to C4 are connected to the input and output terminals of the resistors R1 to R4 and the sound board 100, respectively. By configuring the RLC filter unit as an intermediate matching stage, primary filtering is performed at the time of inputting the acoustic signal through the microphone 112, and again the secondary signal is filtered through the amplified output signal through the main board 1. Through the final sound output.

That is, only low frequency is passed and the high frequency is filtered by the action force of the inductors L1 to L4. The input signal is first filtered and the sound output signal is amplified through the main board 1 and outputs 2 By filtering the final output to be able to improve the sound quality output through the speaker 114.

In addition, by separating the analog ground (AGND) and the digital ground (DGND) in the sound board 100 and connecting the resistors (R1 ~ R4) at both ends of the separated ground line to stabilize the potential difference by the ground plane. It is possible to minimize and eliminate noise generated by the ground connection.

Therefore, the present invention can stably improve the potential difference caused by the ground plane by the ground separation as shown in the upper side of FIG. 5, and together with the amplification output in the motherboard and the noise generated during the signal transmission through the cable. Through the configuration of the intermediate matching stage can be improved very effectively as shown in the lower side in Figure 5, as shown in Figure 4 it is possible to induce the signal input through the microphone and the signal output through the speaker to the normal waveform output will be.

On the other hand, Figure 3 is a comparative drawing of the actual product shown to help understand the subject innovation (a) is a sound board of the subject innovation, (b) shows a conventional sound board.

As described above, according to the present invention, the potential difference caused by the conventional ground plane can be stably improved, and the noise generated when the signal is transmitted through the amplified output and the cable in the main board can be stabilized by the configuration of the intermediate matching stage. It can be improved very effectively to enable normal waveform output and to improve the sound quality of the final output sound.

Claims (1)

It is connected to the main board 1 having an amplifier 1a for amplifying output of sound through a cable 116, and a microphone 112 for inputting a sound signal and a speaker 114 for outputting a sound signal. In the USB soundboard 100 is provided and connected to the USB port; The analog ground (AGND) and the digital ground (DGND) in the USB sound board 100 is configured by separating, but connecting the resistors (R1 ~ R4) to both ground lines, An RLC filter matched to the input terminal together with resistors R3 and R4 connected to the ground line by matching inductors L3 and L4 and capacitors C3 and C4 connected to the input terminal to which the microphone 112 is connected. And the output terminal together with the resistors R1 and R2 connected to the ground line by matching and connecting the inductors L1 and L2 and the capacitors C1 and C2 to the output terminal to which the speaker 114 is connected. Anti-noise USB soundboard, characterized in that configured to match the RLC filter unit.

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