KR950001478Y1 - Pop noise cancelling circuit - Google Patents

Abstract

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Description

Pop Noise Reduction Circuit

1 is a conventional power supply switching circuit diagram.

2 is a block diagram of a power switch circuit to which a pop noise removing circuit according to the present invention is applied.

3 is a circuit diagram of FIG.

* Explanation of symbols for main parts of the drawings

1: micom 2: standby unit

3: sound amplifier section 4: switching section

5: first control unit 6: sound control unit

7: surround control unit 8: second control unit

The present invention relates to an audio signal processing circuit according to power switching, and more particularly to a pop noise canceling circuit that can be applied when the power cord is unplugged.

In general, in home appliances, the operation of all circuits is controlled by the microcomputer, and in particular, the microcomputer is controlled even when the power supply is turned on or off. However, when the power cord is unplugged, various effects occur on the circuit because the operation of the entire circuit is not controlled by the microcomputer. One of them was pop noise, which caused discomfort to the user due to the "tense" binge generated by delaying muting the audio signal when unplugging the power cord.

FIG. 1 is a conventional power supply switching circuit diagram, in which the base of the first transistor TR1 is connected to the power supply terminal P of the microcomputer 1, and the second transistor TR2 is connected to one side of the collector through the resistor R1. The base of is connected. The standby transistor 2 of 12V is connected to the other side of the collector TR1.

The standby section 2 is also connected to the collector of the second transistor TR2 via a resistor R2 and at the same time grounded through the capacitor C1. The emitters of the first transistor TR1 and the second transistor TR2 are respectively grounded. The mute terminal M of the sound amplifier unit 3 is connected to the second transistor TR2 through the ground capacitor C2, the resistor R3, and the reverse diode D1 to the other side of the collector. The power supply terminal B + of the sound amplifier unit 3 is configured such that 24V of a switching mode power supply (SMPS) is applied through the ground capacitor C3.

In the conventional power supply switching circuit configured as described above, the output of the power supply terminal P of the microcomputer 1 falls to low according to the user's operation. Then, the first transistor TR1 is turned off and the second transistor TR2 is turned on so that a low signal is applied to the mute terminal M of the sound amplifier unit 3 to enable muting.

However, when the AC power cord is unplugged, since the power source falling from the microcomputer 1 is relatively slow compared to the SMPS 24V power applied to the power supply terminal B ^{+ of} the sound amplifier unit 3, the sound amplifier unit 3 The control of the mute terminal (M) is delayed, causing a popping loud noise.

Therefore, an object of the present invention is to pop a time when the voltage level of the control signal applied to the mute terminal of the sound amplifier falls faster than the time when the driving voltage of the sound amplifier drops when the power cord is unplugged so that the above-mentioned problem can be solved. The present invention provides a pop noise canceling circuit capable of removing noise.

A feature of the present invention for achieving the above object is that in an audio signal processing circuit including a sound amplifier unit, a sound control unit, and a surround control unit for controlling an audio signal using a microcomputer, the mute power terminal and the sound amplifier unit are muted. It is connected between the terminals, the switching unit for controlling the potential applied to the mute terminal of the sound amplifier unit in accordance with the power on / off, connected in parallel with the switching unit, the potential applied to the mute terminal of the sound amplifier unit when the power cord is unplugged Is connected between the first control unit and the micom and the sound control unit and between the micom and the surround control unit to control the sound amplifier to be lower than the driving potential of the sound amplifier unit, and the respective volume of the sound control unit and the surround control unit without the power cord being disconnected. Potential applied to the terminal is the sound control unit and the surround control Pop noise in the control circuit consisting of a second controller for controlling the first to fall more negative driving potential.

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

2 is a block diagram showing a power switch path to which the pop noise canceling circuit according to the present invention is applied. As shown, the power switch circuit of the present invention is connected to the power supply terminal P of the microcomputer 1 to switch the 12V application signal of the standby unit 2 by the microcomputer 1 to switch the sound amplifier unit 3 of the sound amplifier unit 3. The switching unit 4 for controlling the mute terminal M is provided. A first control unit 4 is connected between the switching unit 4 and the sound amplifier unit 3 to control the mute terminal M of the sound amplifier unit 3 by a power source that is preferentially dropped when the power cord is unplugged. . Between the microcomputer 1 and the sound control unit 6 and between the microcomputer 1 and the surround control unit 7, the sound volume terminal (SOV) and the surround control unit 7 of the sound control unit 6 when the power cord is unplugged. The second control unit 8 for controlling the surround volume terminal (SUR) of the () is connected. The first control unit 5 and the second control unit 8 are configured to receive a power source that is preferentially dropped when the power cord is unplugged.

The operation of the power switch circuit to which the pop noise canceling circuit according to the present invention configured as described above is applied will be described in more detail with reference to FIG.

3 shows the implementation circuit diagram of FIG. As shown, the switching section 4 has the same configuration as that of FIG. 1 which is a conventional circuit. The first control unit 5 connected between the switching unit 4 and the surround amplifier unit 3 is a transistor that is turned on / off by a power source that is preferentially lowered than the operating power of the sound amplifier unit 3 when the power cord is unplugged. TR3). When the driving voltage of the sound amplifier unit 3 is SMPS 24V, the transistor TR3 has a base connected to the terminal of SMPS 12V, and an emitter connected to the mute terminal M of the sound amplifier unit 3. When the power supply cord is unplugged, the transistor TR3 is turned on faster than the time point at which the driving voltage of the sound amplifier 3 drops, thereby grounding the voltage level of the control signal applied to the mute terminal M. FIG.

The second control unit 8 is a SMPS 12V terminal which is an operating power of the sound control unit 6 and the surround control unit 7 to the above-described SMPS 12V terminal so that the aforementioned SMPS 12V power supply falls when the power cord is unplugged. The ground capacitor C5, which is set in capacity so as to be completely discharged before the ground capacitor C4 connected in parallel, is connected in parallel. Through the ground capacitor C5, reverse diodes D2 and D3 for applying a ground potential to the sound volume terminal SOV of the sound control unit 6 and the surround volume terminal SUV of the surround control unit 7 are respectively. It is configured to be connected.

Looking at the operation of the circuit according to the present invention configured as described above, first, when the microcomputer 1 is operated by the user's operation, that is, when the power off first control unit 5 and the second control unit 8 does not operate. . The microcomputer 1 controls the sound amplifier unit 3, the sound control unit 6, and the surround control unit 7 according to a control signal in response to a user's manipulation. At this time, since the SMPS 12V is applied to the base of the third transistor TR3, the first control unit 5 is turned off.

Therefore, the sound amplifier section 3 does not affect the mute terminal M potential. The reverse diodes D2 and D3 of the second control unit 8 are also turned off as SMPS 12V is supplied, so that the sound volume terminal SOV of the sound control unit 6 and the surround volume terminal of the surround control unit 7 ( SUV) does not affect the potential.

On the other hand, when the power cord is disconnected, the first and second control units 5 and 8 of the present invention operate. As the SMPS 12V drops to 0V when the power supply cord is unplugged, the first controller 5 applies a low level to the base of the transistor TR3 so that the transistor TR3 is turned on. Here, when the power cord is unplugged, the SMPS 24V supplied to the driving power source B ⁺ of the sound amplifier unit 3 also drops to 0V, which is later than the SMPS 12V which is the driving power source of the first control unit 5. Thus, even if the power cord is unplugged, the potential of the mute terminal M of the sound amplifier unit 3 is grounded by the first control unit 5. Accordingly, the mute terminal M of the sound amplifier unit 3 can be controlled faster than the SMPS 24V which is the driving power source of the sound amplifier unit 3.

The second control unit 8 also causes the SMPS 12V to drop to 0V when the power cord is unplugged, thereby discharging the ground capacitor C5 connected to the SMPS 12V. Of course, the ground capacitor C4 connected to the SMPS 12V, which is the driving power source of the sound control unit 6 and the surround control unit 7, also loses the SMPS 12V to 0V when the power cord is unplugged. However, in this case, since the capacitance of the ground capacitor C5 in the second control unit 8 is set to be completely discharged before the ground capacitor C4, the sound control unit 6 of the sound control unit 6 is removed by the second control unit 8 even if the power cord is unplugged. The potential applied to the sound volume terminal SOV and the surround volume terminal SUV of the surround control unit 7 is grounded through the reverse diodes D2 and D3. Accordingly, the sound volume terminal SOV and the surround volume terminal SUV may be controlled faster than the SMPS 12V which is the driving power of the sound control unit 6 and the surround control unit 7.

As described above, according to the present invention, when the power cord is unplugged, the voice signal processing circuit can be controlled faster than its driving power to remove the pop noise, thereby eliminating the adverse effect on the product. The effect can be obtained.

Claims (3)

In an audio signal processing circuit including a sound amplifier section, a sound control section, and a surround control section for controlling an audio signal using a microcomputer, it is connected between the power terminal of the microcomputer's power amplifier and the mute terminal of the sound amplifier section. A switching unit for controlling a potential applied to the mute terminal of the sound amplifier unit; A first control unit connected in parallel to the switching unit, and configured to control a potential of the sound amplifier unit to be muted when the power cord is unplugged before the driving potential of the sound amplifier unit; And between a micom and a sound control unit and between a micom and a surround control unit, and the potential applied to each volume terminal of the sound control unit and the surround control unit when the power cord is unplugged before the driving potential of the sound control unit and the surround control unit. Pop-noise cancellation circuit comprising a second control unit for controlling to fall. The method of claim 1, wherein the first control unit comprises a transistor which is turned on by a power supply falling before the driving potential of the sound amplifier unit to make the potential of the mute terminal of the sound amplifier unit the ground potential. Circuit. The power supply system of claim 1, wherein the second controller comprises: a ground capacitor connected in parallel to a driving power source, the ground capacitor having a capacitance set to be discharged before a ground capacitor connected in parallel to the driving power in parallel to the sound control unit and the surround control unit; And a sound volume terminal connected to a sound volume terminal of the sound control unit and a surround volume terminal of the surround control unit, respectively, being turned on by the ground capacitor discharged first to apply a potential applied to the sound volume terminal of the sound control unit and the surround volume terminal of the surround control unit. And a reverse diode for bringing it to ground potential.