KR20000000692U - Car Audio Pop Noise Canceling Circuit - Google Patents

Abstract

The present invention is generated when the voltage of the power supply to the car audio falls below the minimum voltage for the normal operation of the car audio pop noise of the car audio to remove the pop noise output through the speaker 21 of the car audio It relates to a removal circuit.

According to the present invention, when power is normally supplied to the car audio, the high power is supplied to the power supply line of the power amplifier 20 so that the audio signal of the sound generating element 10 such as FM / AM radio, tape deck, CD deck, etc. Is normally output through the power amplifier 20 and the speaker 21, and the voltage of the power supplied to the car audio drops sharply below the minimum power voltage for operating the car audio, and thus the base of the first transistor Q1. When the voltage is less than or equal to the zener voltage of the first zener diode ZD1 applied to the emitter, the first transistor Q1 and the second transistor Q2 are first immediately before the power supply to the sound generating element 10 is cut off. By turning on and blocking the power supplied to the power amplifier 20 through the power supply line of the power amplifier 20, the pop noise output through the speaker 21 is removed.

Description

Pop noise eliminating circuit of car audios

The present invention relates to the pop noise canceling circuit of the car audio, and more particularly, when the voltage of the power supply to the car audio falls below the minimum voltage for the normal operation of the car audio is output through the speaker of the car audio And a pop noise canceling circuit of a car audio adapted to cancel pop noise.

Car audio typically includes sound generators such as FM / AM radios, tape decks, and CD decks. In particular, if the driver starts the vehicle or operates other electrical equipment of the vehicle while the sound generating elements of the car audio are operating, the voltage of the power supplied from the battery of the car to the sound generating elements of the car audio is changed. Pop noise is generated in the audio.

Therefore, when pop noise occurs as the voltage of the power supplied to the sound generating element changes, the microcomputer with software for removing the pop noise outputs a mute signal to output the sound generating elements. It is designed to remove pop noise by cutting off the power supply.

However, as described above, even if the pop-up noise is removed by cutting off the power supplied to the sound generating elements by the mute signal output from the microcomputer's microcomputer, as the driver starts or operates other electronic parts of the vehicle, the car audio When the voltage of the power supply to the device falls below the minimum power supply voltage (designated by 10.8V according to international standards) that can operate the car audio due to irregular and sudden change, There is a problem in that pop noise is output through a power amplifier and a speaker which are final output terminals of audio.

That is, when the power supplied to the car audio suddenly drops below the minimum power voltage, the power of the sound generating element, the power amplifier and the speaker is cut off at the same time by the microcomputer, and pop noise is instantaneously output through the speaker. There is a problem.

Accordingly, the present invention is to overcome the above-mentioned conventional problems, an object of the present invention is to provide the sound generation device of the car audio when the voltage of the power supply to the car audio falls below the minimum power supply voltage that can operate the car audio By removing the power of the car audio power amplifier and speaker immediately before the power is cut off, it occurs when the voltage of the power supply to the car audio falls below the minimum power voltage to remove pop noise output through the car audio speaker. It is to provide a pop noise canceling circuit of a car audio.

Car audio pop noise canceling circuit for achieving the object of the present invention is to amplify the audio signal output from the sound generating element by a power amplifier and to output through a speaker, the standby of the power amplifier A first Zener diode for a constant voltage connected in parallel between a power supply line and a ground terminal connected to a port and supplying power to the power amplifier, and an anode connected to a ground terminal, and an emitter of the first Zener diode A first transistor connected to the cathode and connected to the anode of the voltage dropping second zener diode in which the base is connected to the positive power supply side of the battery in a reverse direction, and turned on when the base voltage is lower than the zener voltage of the first zener diode; and The collector is connected to the power supply line of the power amplifier and the The second transistor is connected to the collector of the first transistor and is turned on when the first transistor is turned on. The second transistor is configured to ground and cut off the power applied to the standby port of the power amplifier.

The pop audio noise canceling circuit of the present invention according to the above configuration supplies high power to the power supply line of the power amplifier when power is normally supplied to the car audio so that the audio signal of the sound generating element is powered. The first Zener outputs normally through the amplifier and the speaker, and the voltage of the power supplied to the car audio drops rapidly below the minimum power supply voltage for operating the car audio, and the base voltage of the first transistor is applied to the collector. When the diode falls below the zener voltage of the diode, the first transistor and the second transistor are turned on immediately before the power supplied to the sound generating device is cut off, thereby grounding the power supplied to the power amplifier through the power supply line of the power amplifier. By blocking, the pop noise output through the speaker is eliminated.

1 is a block diagram illustrating a pop noise removing circuit of a car audio according to the present invention.

<Explanation of symbols for main parts of drawing>

10: sound generating element 20: power amplifier

21: Speaker Q1: First Transistor

Q2: 2nd transistor ZD1: 1st Zener diode

ZD2: Second Zener Diode

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

1 is a block diagram illustrating a pop noise removing circuit of a car audio according to the present invention.

The sound generating element 10 of the car audio includes an FM / AM radio, a tape deck, a CD deck, and the like. The sound generating element 10 outputs an audio signal.

The power amplifier 20 finally amplifies the audio signal output from the sound generating element 10 and outputs it through the speaker 21.

The power amplifier 20 is configured to amplify the audio signal of the sound generating device 10 only when a high power is applied to a standby port through a car audio power supply line.

At this time, the high state power supplied to the standby port of the power amplifier 20 is the same value as the battery rated power of the vehicle and is about 14V.

The first zener diode ZD1 is connected in parallel between a power supply line for supplying power to the power amplifier 20 and connected to a standby port of the power amplifier 20 and a ground terminal.

The first zener diode ZD1 has an anode connected to the ground terminal and operates as a device for constant voltage, and operates as a device for protecting the first transistor Q1 below from overvoltage.

That is, when a high voltage exceeding the zener voltage of the first zener diode ZD1 is applied to the cathode, the first transistor Q1 is protected by being electrically connected to ground. At this time, it is most preferable to set the zener voltage of the first zener diode ZD1 to "5.1V".

The first transistor Q1 has a voltage dropping second zener diode ZD2 having an emitter connected to the cathode of the first zener diode ZD1 and having a base connected in a reverse direction to the positive power supply side B + of the battery. It is connected to the anode of and is turned on when the base voltage becomes less than or equal to the zener voltage of the first zener diode ZD1.

Here, the power supplied from the positive power supply side B + of the battery, that is, the battery rated power "14V" is voltage-dropped by the zener voltage of the second zener diode ZD2 and applied to the base of the first transistor Q1. In this case, the zener voltage of the second zener diode ZD2 is preferably set equal to the zener voltage of the first zener diode ZD1 "5.1V".

The second transistor Q2 is turned on when the collector is connected to the power supply line of the power amplifier 20, the base is connected to the collector of the first transistor Q1, and the first transistor Q1 is turned on. By grounding the power applied to the standby port of the power amplifier 20, the power of the power amplifier 20 is first cut off immediately before the power of the sound generating element 10 is cut off by the conventional microcomputer. .

With the above configuration, the pop noise canceling circuit of the car audio according to the present invention operates as follows.

Here, the voltage of the power applied to the standby port of the power amplifier 20 is set to 14V, and the zener voltages of the first zener diode ZD1 and the second zener diode ZD2 are set to 5.1V, respectively. Assume that there is.

When the voltage of the power supplied to the car audio is normally applied to the standby port of the power amplifier 20 without change, the power amplifier 20 amplifies the audio signal output from the sound generating element 10 normally to the speaker 21 )

At this time, the voltage at the point A of FIG. 1 becomes high, and both the first transistor Q1 and the second transistor Q2 are turned off.

That is, the zener voltage (5.1V) of the first zener diode ZD1 to which the base voltage (14V-5.1V = 8.9V) of the first transistor Q1 is applied to the emitter of the first transistor Q1. Since the first transistor Q1 is turned off because of a larger value, a low signal is applied to the base of the second transistor Q2 as the first transistor Q1 is turned off, so that the second transistor Q2 is turned off. Will also be off.

On the other hand, as the driver starts the car while the sound generating element 10 of the car audio is operating or operates the other electrical equipment of the vehicle, the voltage of the 14V supplied from the battery to the car audio fluctuates so that the car audio normally operates. Even if it falls to 10.8 V, the minimum power supply voltage of the international standard for enabling operation, the base voltage (10.8 V-5.1 V = 5.7 V) of the first transistor Q1 is already equal to that of the first transistor Q1. The power amplifier 20 operates normally since it exhibits a value greater than the zener voltage (5.1 V) of the first zener diode ZD1.

However, if the voltage of 14V supplied from the battery to the car audio suddenly changes and falls below 10V, the base voltage of the first transistor Q1 (10V-5.1V = 4.9V) is already lower than that of the first transistor Q1. The first transistor Q1 is turned on, and the second transistor Q1 is turned on because the first zener diode ZD1 has a value smaller than the zener voltage (5.1 V). Since the high signal is applied to the base of the transistor Q2, the second transistor Q2 is also turned on.

Therefore, when the second transistor Q2 is turned on, the power applied to the standby port of the power amplifier 20 is grounded, and the voltage at the point A becomes low, so that the power amplifier 20 does not operate. Since the power of the power amplifier 20 is first cut off immediately before the power of the sound generating element 10 is cut off by the conventional microcomputer, the speaker 21 is turned off when the power of the sound generating element 10 is cut off. This completely eliminates pop noise that was output through the system.

As described above, the pop noise canceling circuit of the car audio according to the present invention is immediately before the power of the sound generating element of the car audio is cut off when the voltage of the power supplied to the car audio falls below the minimum power supply voltage for operating the car audio. Because the power amplifier and speaker of the car audio are cut off first, it is generated when the voltage of the power supply to the car audio falls below the minimum power supply voltage, so the pop noise output through the car audio speaker is removed. When the audio device, power amplifier, and speaker are cut off at the same time by the car audio micom, it has the effect of completely eliminating the pop noise that was instantaneously output through the speaker.

What has been described above is just one embodiment for implementing the pop noise canceling circuit of the car audio according to the present invention, the present invention is not limited to the above embodiment, but is claimed in the following utility model registration claims Without departing from the gist of the present invention, any person having ordinary knowledge in the field to which the present invention pertains may make various changes.

Claims (1)

In the audio that is finally amplified by the power amplifier 20, the audio signal output from the sound generating element 10 and output through the speaker 21, A constant voltage connected in parallel between a power supply line for supplying power to the power amplifier 20 and a ground terminal connected to a standby port of the power amplifier 20 and an anode connected to a ground terminal First zener diode (ZD1), The emitter is connected to the cathode of the first zener diode ZD1 and the base is connected to the anode of the voltage lowering second zener diode ZD2 connected in the reverse direction to the positive power supply side B + of the battery. A first transistor Q1 which is turned on when the zener voltage of the first zener diode ZD1 is equal to or lower than that of the first zener diode ZD1, When the collector is connected to the power supply line of the power amplifier 20 and the base is connected to the collector of the first transistor Q1 and the first transistor Q1 is turned on, the power amplifier 20 is turned on together. A second transistor (Q2) to ground and cut off the power applied to the standby port of the Car audio pop noise cancellation circuit, characterized in that configured.