KR20150054463A - Method and apparatus for controlling output of digital signal processor embedded type audio amplifier - Google Patents

Abstract

The present invention relates to a method and apparatus for controlling output of digital signal processor (DSP) embedded type audio amplifier, which are provided to block the output of general broadcasting audio, to permit a constant output of emergency broadcasting audio having a frequency of a specific band such as a fire siren, to prevent stress and damage of power amplifier, and to use an audio amplifier in a stable way, by, when a power amplifier is overheated due to an overcurrent inside an audio amplifier, controlling the output level of a power amplifier through DSP.

Description

TECHNICAL FIELD [0001] The present invention relates to an apparatus and a method for controlling output of an audio amplifier having a built-in DSP,

The present invention relates to an apparatus and method for controlling an output of a built-in DSP type audio amplifier, and more particularly, to a method and apparatus for controlling an output level of a power amplifier through a DSP And an output control device and method for controlling the output of an audio amplifier with a built-in DSP capable of preventing stress and damage of the power amplifier by allowing output of emergency broadcast audio such as a fire siren.

Generally, an audio amplifier amplifies an audio signal generated from an audio signal generating means such as a microphone or an audio reproducing means to a human audible frequency band, and outputs the amplified audio signal to a speaker. Class-A, B, and AB Class type, and Class-D type.

Among them, the Class-D class audio amplifier is a digital amplifier configured to convert an input signal into a PWM signal, and is advantageous in that signal amplification is easier and more efficient than other types of amplifiers. .

That is, as shown in FIG. 1, a conventional Class-D class digital audio amplifier converts an analog signal into a PWM signal having pulse widths corresponding thereto, and amplifies the analog signal to a predetermined value through a switching driver The switching FET is switched at intervals corresponding to the pulse width in accordance with the PWM signal, and the amplified PWM waveform is passed through a low-pass filter (LPF) to convert it into an analog output waveform. Consists of.

However, in the conventional general digital audio amplifier as described above, a lot of heat is generated due to a short circuit with the ground in the speaker line as an output terminal, a short between the positive and negative ends of the speaker, or an overcurrent due to leakage current input of the AC component, There is a problem that the power amplifier in the power amplifier is damaged.

To solve such a problem, a configuration of an audio amplifier of another example according to the related art is known from Korean Patent Registration No. 10-0661401 (refer to reference).

2, a protection circuit 50 is connected between the output terminal of the amplifier 20 and the input terminal of the speaker 30, and the music or voice signal is supplied to the amplifier 20 Amplified by the amplifier 20 and then transmitted to the speaker 30 through the protection circuit 50 so that the amplified signal is amplified into the indoor and the outdoor areas. (For example, 24 V, operation voltage) or less and supplies the comparison signal to the comparison and operation point setting unit 56 and the output control unit 58. The comparison and operation point setting unit 56 and the output control unit 58 generate a current The detection unit 54 detects and amplifies the current input from the output terminal of the amplifier 20, generates a voltage obtained by smoothing and full-wave rectifying the amplified current (hereinafter referred to as detection voltage) Supplies the detection voltage, and the comparing and operating point setting unit 5 6 adjusts the detection voltage input from the current detection unit 54 to a predetermined voltage value, generates a predetermined reference voltage based on the operation voltage input from the voltage detection unit 52, And the output control unit 58 controls the output of the speaker 30 (or the speaker) by comparing the current with the current detection unit 54 and the signal input from the operating point setting unit 56, And protect the amplifier 20 and the speaker 30 at the same time.

The signal control unit 40 is connected between the signal input terminal of the amplifier 20 and the signal output terminal of the preamplifier 10 except for the output control unit 58 in the protection circuit 50 The signal control unit 40 connects the comparison and operation point setting unit 56 and the voltage detection unit 52 and the signal control unit 40 compares the voltage detection unit 52 with the operation point setting unit 56, The amplifier 20 and the speaker 30 are protected by adjusting the input signal inputted to the amplifier 20 according to a signal input from the amplifier 20 and the speaker 30, respectively.

That is, in the audio amplifier according to the related art disclosed in the above-mentioned reference, since the impedance of the line is lowered due to a short or insufficient line in the broadcasting system, In order to protect the amplifier and speaker from overload such as breakage, it is configured to cut off the signal supplied to the speaker line and amplifier when the output of the amplifier becomes over the set value.

Registered Patent No. 10-0661401 (Name: Amplifier and Speaker Protection Circuit of Broadcasting System, Applicant: Donghwa Acoustics Industry Co., Ltd., Registered Date: December 19, 2006)

However, in the conventional audio amplifier as described above, since the output of the audio amplifier is completely cut off during the abnormal operation of the amplifier such as an excessive input gain, overload, overcurrent, and overheating, The emergency broadcast can not be output, which can cause a large-scale casualty damage.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide an audio amplifier in which, when a power amplifier is overheated due to an overcurrent in an audio amplifier, The present invention provides an output control apparatus and method of an audio amplifier with a built-in DSP capable of preventing stress and damage of a power amplifier while permitting output of an emergency broadcast audio having a specific frequency band such as a fire siren.

These and other objects of the present invention will be apparent to those skilled in the art without departing from the scope of the present invention by the appended claims.

In accordance with an aspect of the present invention, there is provided an apparatus and method for controlling an output of a DSP-embedded audio amplifier, including: converting an AC power supplied from an external source into a DC power required by an audio amplifier; A power supply 110 for supplying power to the power supply unit 110; A current detector 120 for detecting a current supplied to the power amplifier 170 in the audio amplifier 100 through the power supply unit 110; A temperature detector 130 mounted on the power amplifier 170 for measuring temperature; A microcomputer 140 for controlling an output level according to a value detected through the current detection unit 120 and the temperature detection unit 130 and outputting a status signal of the audio amplifier 100; An AD converter 143 for converting an analog signal input from an external analog signal input unit 103 into a digital signal; A network interface (145) for receiving a digital signal input from an external digital signal input unit (105); A digital signal processor 150 for adjusting and outputting a digital audio signal input through the AD converter 143 and the network interface 145 to a predetermined level according to a control signal output from the microcomputer 140; A digital-to-analog (D / A) converter 160 for converting the output digital audio signal into an analog audio signal through the digital signal processor 150; And a power amplifier 170 amplifying an analog audio signal output from the DA converter 160 and outputting the amplified analog audio signal through a speaker.

The display unit 141 may further include a display unit 141 for displaying a status signal of the audio amplifier 100 output from the microcomputer 140 in one of red, yellow, and green.

Further preferably, the digital signal processor 150 further includes a band-pass filter 155 for outputting only a frequency in a band of 100 to 800 Hz corresponding to an emergency alarm in an output signal of the digital signal processor 150.

In another aspect of the present invention, there is provided a method of controlling an output of a DSP-embedded audio amplifier according to another aspect of the present invention, including: (A) controlling a current flowing in a power amplifier through a current detector, (S205), measuring the temperature of the power amplifier 170 through the temperature detector 130 (S210), and determining whether the power amplifier 170 is overheated due to the overcurrent (S215 and S220); (B) In step (A), when the power amplifier 170 overheats due to an overcurrent, the microcomputer 140 accumulates temperature data generated from the power amplifier 170 through the temperature detector 130 (S230) (S240) whether the temperature of the power amplifier 170 is raised and continues for a predetermined time; (C) If it is determined in step (B) that the overheat state of the power amplifier 170 continues, the microcomputer 220 determines that an abnormal signal due to overheating is generated in the audio amplifier 100 through the display unit 141 Displaying (S250); (D) controlling the microcomputer 140 to control the digital signal processor 150 so that the output of the microcomputer 140 is reduced to a predetermined level (S260); (E) The microcomputer 140 continuously checks the overheating state of the power amplifier 170 through the temperature detecting unit 130 and determines whether or not the temperature of the power amplifier 270 is in a normal state after the step (D) Determining (S270); If the temperature of the power amplifier 170 is in a normal state, the microcomputer 140 is transmitted through the DA converter 160 through the external audio signal input units 103 and 105 Converting the digital audio signal into an analog audio signal (S280); And (G) amplifying the analog audio signal by the power amplifier 170 and outputting it to the speaker SPK (S290).

The microcomputer 220 may display a red LED when the power amplifier 170 maintains a high temperature state of 60 ° C or more for a predetermined time period through the display unit 141, The LED displays a yellow LED when the temperature state is maintained for a predetermined time and displays a green LED when the temperature state is 39 ° C or lower.

If the power amplifier 270 is not decreased to the normal temperature as a result of the determination in the step (E), the microcomputer 140 controls the audio input through the external audio signal input units 103 and 105, Checking whether there is a signal and analyzing the input frequency (S271); (I) the microcomputer 140 determines whether or not the input signal of step (H) corresponds to a predetermined emergency broadcasting frequency band (S273) and whether or not the input signal lasts for a predetermined time (S275) ; (J) If it is determined in the step (I) that the input signal is in the emergency broadcast frequency band and continues for a predetermined time, the microcomputer 140 recognizes the input signal as a fire emergency broadcast, And outputting only the frequency of the emergency broadcasting band (S277) by operating the band-pass filter (155); (K) The digital audio signal corresponding to the emergency broadcasting band is converted into an analog audio signal by re-executing the step (F), and the power amplifier 170 amplifies the analog audio signal and outputs it to the speaker SPK And outputting only the emergency broadcasting frequency band (S285).

According to the apparatus and method for controlling the output of the DSP-embedded audio amplifier according to the present invention, when the power amplifier is overheated due to the overcurrent in the audio amplifier, the output level of the power amplifier is controlled through the DSP, Emergency broadcast audio with a specific band of frequencies, such as syllables, allows stable output while allowing the audio amplifier to be used reliably, avoiding stress and damage to the power amplifier.

Additional features and advantages of the present invention will become more apparent from the following description.

1 shows an audio amplifier according to an example of the prior art;
2 shows an audio amplifier according to another example of the prior art;
3 is a block diagram showing a configuration of an output control apparatus of an audio amplifier according to an embodiment of the present invention;
4 is a flowchart showing an output control method of an audio amplifier with built-in DSP according to the present invention.
FIG. 5 is a diagram showing a subroutine at the time of outputting the emergency broadcast band frequency in FIG. 4; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus and method for controlling an output of a DSP-embedded audio amplifier according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In the present specification, the following embodiments and embodiments are to be considered as illustrative and not restrictive, and the invention is not to be limited to the details given herein but is to be accorded the scope of the appended claims and their equivalents, Can be changed to an example.

First, an output control apparatus of an audio amplifier with built-in DSP according to one aspect of the present invention will be described with reference to FIG.

3 is a block diagram showing a configuration of an output control apparatus of an audio amplifier with built-in DSP according to the present invention.

3, the output control apparatus of the audio amplifier 100 according to the present invention receives analog and digital audio signals from the outside, amplifies the received analog and digital audio signals to a predetermined level, and outputs the amplified signals to a speaker. A current detector 120, a temperature detector 130, a microcomputer 140, a display unit 141, an AD converter 143, a network interface 145, a digital signal processor 150, a bandpass filter 155, A DA converter 160, and a power amplifier 170.

Specifically, the power supply unit 110 includes an SMPS (Switching Mode Power Supply) that converts an AC power supplied from the outside to a DC power required by the audio amplifier 100 for audio output and control, to be.

The current detection unit 120 detects a current supplied to the power amplifier 170 in the audio amplifier 100 through the power supply unit 110.

The temperature detector 130 is a sensor mounted on the power amplifier 170 in the audio amplifier 100 to measure overheating.

The microcomputer 140 controls the output level of the digital signal processor 150 according to the value detected through the current detector 120 and the temperature detector 130 and outputs a signal indicating the state of the audio amplifier 100 do.

The display unit 141 is a three-color LED that displays an overheat state signal of the audio amplifier output from the microcomputer 140 in red, yellow, and green.

The AD converter 143 converts an analog signal input from an external analog signal input unit 103, such as an MP3 or a CD / DVD player, into a digital signal.

The network interface 145 receives a digital signal input from an external digital signal input unit 105 through an Ethernet communication network, such as a broadcasting system or a computer.

The digital signal processor 150 adjusts an output level of a digital audio signal input through the AD converter 143 and the network interface 145 according to a control signal output from the microcomputer 140, do.

The band pass filter 155 allows only a frequency of 100 to 800 Hz, which corresponds to an emergency alarm such as a fire siren, to be output from the output signal of the digital signal processor 150.

The DA converter 160 converts the digital audio signal having passed through the band-pass filter 155 to an analog audio signal through an output level controlled by the digital signal processor 150.

The power amplifier 170 amplifies the analog audio signal output from the DA converter 160 and outputs the amplified analog audio signal through a speaker.

Hereinafter, a method of controlling the output of the DSP-incorporated audio amplifier according to another aspect of the present invention will be described with reference to FIGS. 4 and 5. FIG.

FIG. 4 is a flowchart showing an output control method of an audio amplifier with built-in DSP according to the present invention, and FIG. 5 is a diagram showing a subroutine of a portion A in FIG.

First, when the power amplifier 170 is overheated due to a thermal effect of a current caused by an overcurrent flowing through the audio amplifier 100, the microcomputer 140 may damage the power amplifier 110 from the power supply unit 110 through the current detection unit 120 And the temperature of the power amplifier 170 is measured at a predetermined time interval of about 1 to 2 seconds through the temperature detector 130 at step S210 so that the current flowing through the power amplifier 170 are overheated (S215 and S220).

The microcomputer 140 accumulates the temperature data generated from the power amplifier 170 through the temperature detector 130 in step S230 when the power amplifier 170 overheats due to the overcurrent in steps S215 and S220 The power amplifier 170 determines whether the temperature of the power amplifier 170 rises to about 40 ° C or more, for example, 10 seconds or more, which is a criterion for determining whether the power amplifier 170 is overheated or not (S240).

If the power amplifier 170 continues to be overheated for more than 10 seconds at a temperature of 40 ° C or more as a result of the determination in step S240, the microcomputer 220 controls the audio amplifier to output an abnormal signal (S250).

5, when the power amplifier 170 maintains a high temperature state of about 60 deg. C or more, which is a direct cause of damage, for a predetermined period of time through the display unit 141, the microcomputer 220 displays a red LED is displayed. If the temperature of 40 ℃ ~ 59 ℃ is maintained for a predetermined time, yellow LED indicating the warning is displayed. If the temperature is below 39 ℃, green LED is displayed.

Subsequently, at the same time as step S250, the microcomputer 140 controls the digital signal processor 150 to reduce the output level by approximately 6 dB and to output the output level (S260).

For example, in order to detect the sound pressure of the audio output from the audio amplifier, it is necessary to change the audio output by about 3 dB or more. In order to increase or decrease the output of the power amplifier by 3 dB, Therefore, if the above-mentioned 6 dB is reduced, the output of the power amplifier is reduced to 1/4 of the power amplifier output, thereby preventing overheating of the power amplifier.

That is, if the output level of the digital signal processor 150 is reduced by about 6 dB as in step S260, the amount of current flowing through the power amplifier 170 is reduced to about one-half, .

Subsequently, the microcomputer 140 continuously checks the overheating state of the power amplifier 170 through the temperature detecting unit 130, and after the step S260, the temperature of the power amplifier 270 reaches a normal state of, for example, (S270). ≪ / RTI >

If the temperature of the power amplifier 170 is in the normal state, the microcomputer 140 converts the digital audio signal, which is transmitted through the external audio signal input unit 103 or 105 through the DA converter 160, Into an audio signal (S280).

Next, the power amplifier 170 amplifies the analog audio signal transmitted through the step S280 and outputs the amplified analog audio signal to the speaker SPK (S290), thereby enabling both the one-way broadcast and the emergency broadcast such as the fire siren to be transmitted.

Even if the microcomputer 140 controls the output level of the digital signal processor 150 through the step S260, even if the power amplifier 270 is continuously overheated and the normal broadcasting can not be performed, the emergency broadcasting such as the emergency siren is output If the power amplifier 270 is not decreased to the normal temperature as a result of the determination in step S270, the microcomputer 140 controls the audio signal transmitted from the external audio signal input unit 103 or 105 through the external audio signal input unit 103 or 105 at intervals of approximately 100 ms to 200 ms. It is checked whether there is an input signal and the input frequency is analyzed (S271).

Next, the microcomputer 140 determines whether the input signal in step S271 corresponds to a preset emergency broadcast frequency band such as a fire siren (S273), whether the input signal continues for a predetermined time period of about 2 seconds or more (S275).

At this time, the emergency broadcasting frequencies such as syllable generated in the event of a fire or a disaster use bands of about 100 Hz, 220 Hz, 300 Hz, 400 Hz, 520 Hz, 630 Hz, 650 Hz and 800 Hz depending on equipment for fire broadcasting, Even if normal broadcasting is impossible due to the overheating of the preamplifier 170, the emergency broadcasting frequency should be allowed to be broadcast. Therefore, even in an emergency, the frequency of about 100 Hz to 800 Hz is preset to be output.

If it is determined in step S275 that the input signal corresponds to the emergency broadcast frequency band and continues for a predetermined time period of about 2 seconds or more, the microcomputer 140 recognizes the input signal as a fire emergency broadcast, The processor 150 and the band-pass filter 155 are operated to output only the frequency of the emergency broadcasting band (S277).

In step S280, the digital audio signal corresponding to the emergency broadcast band is converted into an analog audio signal. On the other hand, the power amplifier 170 amplifies the analog audio signal transmitted in step S280, An emergency broadcast such as a fire siren can be output even in an emergency (S285).

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Of course.

100: Audio amplifier 110: Power supply
120: current detection unit 130: temperature detection unit
140: Microcomputer 141: Display unit
143: AD converter 145: Network interface
150: digital signal processor 155: band pass filter
160: DA converter 170: Power amplifier 170:

Claims (6)

An apparatus for controlling an output level of an audio amplifier,
A power supply 110 for converting AC power supplied from the outside into a DC power required by the audio amplifier 100;
A current detector 120 for detecting a current supplied to the power amplifier 170 in the audio amplifier 100 through the power supply unit 110;
A temperature detector 130 mounted on the power amplifier 170 for measuring temperature;
A microcomputer 140 for controlling an output level according to a value detected through the current detection unit 120 and the temperature detection unit 130 and outputting a status signal of the audio amplifier 100;
An AD converter 143 for converting an analog signal input from an external analog signal input unit 103 into a digital signal;
A network interface (145) for receiving a digital signal input from an external digital signal input unit (105);
A digital signal processor 150 for reducing a digital audio signal input through the AD converter 143 and the network interface 145 to a predetermined level and outputting the digital audio signal according to a control signal output from the microcomputer 140;
A digital-to-analog (D / A) converter 160 for converting the output digital audio signal into an analog audio signal through the digital signal processor 150; And
And a power amplifier (170) amplifying an analog audio signal output from the DA converter (160) and outputting the amplified analog audio signal through a speaker. The method according to claim 1,
Further comprising a display unit (141) for displaying a status signal of the audio amplifier (100) output from the microcomputer (140) in one of red, yellow and green. 3. The method according to claim 1 or 2,
Further comprising a band-pass filter (155) for outputting only a frequency in a band of 100 to 800 Hz corresponding to an emergency alarm among output signals of the digital signal processor (150). A method of controlling an output level of an audio amplifier,
(A) The microcomputer 140 detects the current flowing in the power amplifier 170 through the current detecting unit 120 (S205) and measures the temperature of the power amplifier 170 through the temperature detecting unit 130 (S210) , Determining whether the power amplifier 170 is overheated due to an overcurrent (S215 and S220);
(B) In step (A), when the power amplifier 170 overheats due to an overcurrent, the microcomputer 140 accumulates temperature data generated from the power amplifier 170 through the temperature detector 130 (S230) (S240) whether the temperature of the power amplifier 170 is raised and continues for a predetermined time;
(C) If it is determined in step (B) that the overheat state of the power amplifier 170 continues, the microcomputer 220 determines that an abnormal signal due to overheating is generated in the audio amplifier 100 through the display unit 141 Displaying (S250);
(D) controlling the microcomputer 140 to control the digital signal processor 150 so that the output of the microcomputer 140 is reduced to a predetermined level (S260);
(E) The microcomputer 140 continuously checks the overheating state of the power amplifier 170 through the temperature detecting unit 130 and determines whether or not the temperature of the power amplifier 270 is in a normal state after the step (D) Determining (S270);
If the temperature of the power amplifier 170 is in a normal state, the microcomputer 140 is transmitted through the DA converter 160 through the external audio signal input units 103 and 105 Converting the digital audio signal into an analog audio signal (S280); And
(G) amplifying the analog audio signal by the power amplifier 170 and outputting the amplified analog audio signal to the speaker SPK (S290). 5. The method of claim 4,
In step (C), the microcomputer 220 displays a red LED when the power amplifier 170 maintains a high temperature state of 60 ° C or more for a predetermined time, and displays a temperature state of 40 ° C to 59 ° C Is displayed for a predetermined period of time, and a green LED is displayed in a steady state of 39 DEG C or less. The method according to claim 4 or 5,
(H) If it is determined in step (E) that the power amplifier 270 does not decrease to the normal temperature, the microcomputer 140 determines whether there is an audio input signal transmitted through the external audio signal input units 103 and 105 Checking and analyzing the input frequency (S271);
(I) the microcomputer 140 determines whether or not the input signal of step (H) corresponds to a predetermined emergency broadcasting frequency band (S273) and whether or not the input signal lasts for a predetermined time (S275) ;
(J) If it is determined in the step (I) that the input signal is in the emergency broadcast frequency band and continues for a predetermined time, the microcomputer 140 recognizes the input signal as a fire emergency broadcast, And outputting only the frequency of the emergency broadcasting band (S277) by operating the band-pass filter (155);
(K) The digital audio signal corresponding to the emergency broadcasting band is converted into an analog audio signal by re-executing the step (F), and the power amplifier 170 amplifies the analog audio signal and outputs it to the speaker SPK And outputting only the emergency broadcast frequency band (S285).

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