JP4859928B2 - Broadcast equipment - Google Patents

Description

  The present invention relates to a signal processing device suitable for a part of a broadcasting device such as a building or a school, and a broadcasting device using the signal processing device.

  2. Description of the Related Art Conventionally, in a PA (Public Address) system, for example, a broadcasting apparatus used for announcements such as company internal broadcasting or school school broadcasting, the audio signal from a microphone or the like is transmitted at its signal level for each frequency band by, for example, an equalizer. Is output to the high-impedance transmission line via an amplifier with a built-in high-impedance transmission transformer (step-up transformer), and output as a loud sound from multiple speakers connected to the high-impedance transmission line via a matching transformer It is configured to be.

  Patent Document 1 discloses a signal processing device that is used in a car audio device or the like and has an equalizer provided with a compress function.

JP-A-9-33223

  Broadcasting devices used as PA systems and the like often include a high impedance transmission line. A broadcasting apparatus including such a high impedance transmission line generally has a narrow dynamic range. In addition, although broadcasting is often performed in public spaces where background noise is high, components that are buried in background noise cannot be clearly heard. On the other hand, there is often an upper limit for the volume that is allowed to be generated in a public space, and the upper limit of the volume may be determined by the performance of the broadcasting device itself. In any case, the sound produced by the broadcasting device has a narrow dynamic range.

  In order to clearly hear the signal processed by the equalizer, a wide dynamic range is required. In other words, when broadcasting is performed with a broadcasting device including a high impedance transmission line, or when broadcasting is performed in a space where background noise is large, the clarity of the sound is impaired and it is difficult to hear.

  In addition, the signal processing device described in Patent Document 1 has a configuration that enables various signal reproduction by giving different compression characteristics to each frequency band while utilizing the function as an equalizer, and is used for personal entertainment. It is considered suitable for a signal processing apparatus such as an audio apparatus. However, this signal processing device is not suitable for a high impedance transmission path PA system (broadcasting device) or the like. That is, it is not suitable for a broadcasting apparatus having a narrow dynamic range including a high impedance transmission line.

  The reason is as follows. In other words, in this signal processing apparatus, an audio signal from a microphone or the like is divided into each frequency band, and for example, a compression process is performed on the signal in each frequency band, and then the signal level is changed by a variable gain amplifier. Yes. For this reason, sufficient compression processing is not performed for small-level signals. Then, if the broadcasting device (broadcasting device composed of an amplifier and a speaker) connected to the subsequent stage (of the signal processing device) does not have a sufficiently wide dynamic range, the voice cannot be heard clearly. . Further, depending on the setting value of the gain of the variable gain amplifier, the signal is distorted or damaged in the amplifier connected in the subsequent stage. That is, in a system in which the level of an input source is not uniform or cannot be predicted, such as an input from a microphone or the like, the technique described in Patent Document 1 cannot exhibit a sufficient effect, and the opposite effect It may become.

  As described above, the signal processing device described in Patent Document 1 is not suitable for a broadcasting device having a narrow dynamic range including a high impedance transmission line.

The present invention has been made to solve the above problems, and is suitable for a broadcasting apparatus having a narrow dynamic range including a high-impedance transmission line, and is easy to hear from a speaker even if background noise is large. and its object is to provide a to that broadcasting system makes it possible to output.

In order to achieve the above object, a broadcasting device of the present invention inputs a band dividing circuit that divides an audio signal into a plurality of frequency band signals, and a signal in each frequency band divided by the band dividing circuit, Amplification processing that automatically adjusts and amplifies the gain according to the level of the input signal so that the level of the output signal of each frequency band becomes a predetermined level corresponding to each frequency band A plurality of automatic gain control amplifying circuits, a plurality of compressing circuits that input signals amplified by the respective automatic gain control amplifying circuits, compress the inputted signals, and output the signals; a band combining circuit the output signal of the compress circuit is synthesized and output, amplifies the output signal of the band synthesizing circuit, an amplifying device that outputs to a high impedance transmission line, the coordinated The impedance the transmission line and a speaker connected via a transformer.

  According to this configuration, the signal of each frequency band is subjected to amplification processing by automatic gain control of the automatic gain control amplification circuit, and then the signal is input to the compression circuit.

  Therefore, the level of the signal input to the compression circuit is likely to exceed the threshold level of the compression circuit, and it can be sufficiently expected that the compression process is performed. The waveform of the signal input to the compression circuit includes a lot of peak components (peak waveforms), but such peak components often exceed the threshold level and are easily subjected to compression processing.

  Thus, even if the signal component level in a certain frequency band is small, the signal component in that frequency band is amplified to a predetermined level by automatic gain control. In addition, the fact that the compression processing is applied to the peak component included in the signal means that the dynamic range is narrowed, but even if the compression processing is applied to the peak component, humans will not hear it. It is hard to feel as distortion. Therefore, the audio signal that has been subjected to the compression process after the level is amplified by the automatic gain control can be clearly perceived in spite of its narrow dynamic range. Then, the signals in the respective frequency bands thus compressed are synthesized by the band synthesizing circuit.

  Therefore, even if the level of the audio signal input to the signal processing device varies for each frequency band, the signal component of each frequency band is amplified to a predetermined level by automatic gain control, and then the compression processing and band A synthesis process is performed, and finally, an audio signal that can be heard clearly even though the dynamic range is narrow is generated.

  As described above, this signal processing device can change the signal into a signal having a clear and narrow dynamic range even if the signal level varies for each frequency band.

  Therefore, even when applied to a broadcasting apparatus with a narrow dynamic range including a high impedance transmission line, clear sound can be generated from the speaker. Moreover, even if the background noise is large, it is possible to output a sound that is easy to hear from a speaker with good clarity.

In other words, it is difficult to widen the dynamic range of a broadcasting device including a high-impedance transmission line, but with this signal processing device, an input audio signal can be heard clearly even though the dynamic range is narrow. It becomes an audio signal. Therefore, clear sound is generated from the speaker. In addition, clear sound can be output from the speaker even when background noise is high.

  The present invention has the above-described configuration, and can output a clear and easy-to-understand sound from a speaker even when the broadcasting device has a narrow dynamic range and the background noise is large. .

  The above object, other objects, features, and advantages of the present invention will become apparent from the following detailed description of the preferred embodiments with reference to the accompanying drawings.

FIG. 1 is a block diagram showing an example of a broadcasting apparatus using the signal processing apparatus according to the embodiment of the present invention .

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

  FIG. 1 is a block diagram showing an example of a broadcasting apparatus using the signal processing apparatus according to the embodiment of the present invention.

  This broadcasting device includes a signal processing device 1, a D / A (digital / analog) converter 2 connected to an output terminal OUT thereof, and an amplifying device 3 of high impedance output connected to the D / A converter 2. And a high impedance transmission line 4 connected to the amplifying device 3 and a plurality of speaker devices 5 connected in parallel to the high impedance transmission line 4. The amplification device 3 includes a power amplifier 3a and a high-impedance transmission (step-up) transformer 3b, and the speaker device 5 includes a speaker 5a and a matching transformer 5b.

  In the signal processing device 1, digital signal processing is performed. For example, a digital audio signal obtained by A / D conversion of an analog audio signal output from a microphone or a recording medium reproducing device such as a CD player is input to an input terminal IN. An output digital audio signal is input. The signal processing device 1 includes a band dividing circuit Fd for dividing a digital audio signal input from an input terminal IN into signals of a plurality of frequency bands, and levels of the respective signals input from the band dividing circuit Fd. A plurality of AGC (automatic gain control) amplifier circuits G1 to Gn that are output in a constant manner, and a plurality of compress circuits that compress and output signals input from the respective AGC amplifier circuits G1 to Gn. C1 to Cn and a band synthesis circuit Fc for synthesizing and outputting the output signals of all the compression circuits C1 to Cn are provided. The signal processing device 1 is configured by, for example, a DSP (digital signal processor), and the band dividing circuit Fd, the AGC amplifier circuits G1 to Gn, the compressing circuits C1 to Cn, and the band synthesizing circuit Fc are realized by DSP processing. A functional block is shown.

  The band dividing circuit Fd may be configured by, for example, a band dividing filter bank using discrete wavelet transform. The band synthesis circuit Fc may be configured as a band synthesis filter bank using discrete wavelet inverse transformation, for example. Such filter banks using discrete wavelet transform and inverse transform are well known, for example, used in subband coding of image signals.

  Each of the compression circuits C1 to Cn is a circuit that performs processing (compression processing) for attenuating the output signal level from the input signal level when the input signal level exceeds a threshold value. A configuration using two compressors, a configuration in which a plurality of compressors having different characteristics are connected in series, or a configuration in which a compressor and a limiter are connected in series may be used. Here, a compression circuit having a low compression ratio indicating the magnitude of the change in the output signal level relative to the magnitude of the change in the input signal level (compression ratio is 2: 1 to 4: 1, for example) is called a compressor, and the compression ratio is A high compression circuit (compression ratio is 8: 1 to 10: 1, for example) is called a limiter.

  The operation of the broadcasting apparatus configured as described above will be described below.

  A digital audio signal is input to the input terminal IN of the signal processing device. The band dividing circuit Fd divides a predetermined frequency range including an audible frequency range (20 Hz to 20 kHz) into a plurality of frequency bands, and signals (subband signals) S1 to S1 in a plurality of frequency bands. Sn is generated. Here, the subband signal S1 is a subband signal in the lowest frequency band, and is a subband signal in the higher frequency band in the order of S1, S2,..., Sn. For example, when the predetermined frequency range to be divided into a plurality of frequency bands is 0 to 25.6 kHz and is divided into 8 frequency bands (when n = 8), for example, the frequency band in which the subband signal S1 is 0 to 200 Hz Signal, subband signal S2 in the frequency band of 200 to 400 Hz, subband signal S3 in the frequency band of 400 to 800 Hz, subband signal S4 in the frequency band of 800 Hz to 1.6 kHz, subband signal S5 is a signal in the frequency band of 1.6 to 3.2 kHz, subband signal S6 is a signal in the frequency band of 3.2 to 6.4 kHz, and subband signal S7 is a signal in the frequency band of 6.4 to 12.8 kHz. The band dividing circuit Fd includes a plurality of filters (for example, the subband signal S8 is a signal having a frequency band of 12.8 to 25.6 kHz). To function as a command-pass filter).

  Each of the subband signals S1 to Sn output from the band dividing circuit Fd is subjected to amplification processing by automatic gain control so as to be a constant level signal by the AGC amplifier circuits G1 to Gn, respectively, and is output. Each AGC amplifier circuit G1 to Gn has a gain corresponding to the input signal level so that an output signal having a predetermined level is obtained for each frequency band (for each AGC amplifier circuit G1 to Gn). Adjust and amplify automatically.

  The signals output from the respective AGC amplification circuits G1 to Gn are subjected to predetermined compression processing by the compression circuits C1 to Cn, respectively, and are output.

  The signals output from the respective compression circuits C1 to Cn are combined into a signal in a predetermined frequency range (for example, 0 to 25.6 kHz described above) by the band combining circuit Fc and output from the output terminal OUT.

  An audio signal (digital signal) output from the output terminal OUT of the signal processing device 1 is converted into an analog audio signal by the D / A converter 2 and then amplified by the power amplifier 3a to be a transformer for high impedance transmission. It is output to the high impedance transmission line 4 via 3b. The analog audio signal output to the high impedance transmission line 4 is input to the speaker 5a via each matching transformer 5b and output as a loud sound from the plurality of speakers 5a.

  As described above, after the signals for the respective frequency bands are set to predetermined constant levels by the AGC amplifier circuits G1 to Gn, the signals are output from the band dividing circuit Fd by being input to the compress circuits C1 to Cn, respectively. Even when the sub-band signals S1 to Sn are low level signals, the maximum value of the signal level can be made larger than the threshold value of the compression circuits C1 to Cn by the AGC amplifier circuits G1 to Gn. Can be compressed.

  In the present embodiment, even if the input signal level of the signal processing apparatus 1 varies for each frequency band, the signal level in each frequency band can be amplified to the same extent. For example, when the levels of the respective subband signals S1 to Sn are small, the signals are amplified by the respective AGC amplifier circuits G1 to Gn so as to become a signal of a predetermined level predetermined for each frequency band. In addition, after AGC amplification of the signals of each frequency band by the AGC amplifier circuits G1 to Gn, the compression processing is performed by the compression circuits C1 to Cn, and further, the signals of each frequency band subjected to the compression processing are synthesized. The output signal of the signal processing device 1 is a sound signal that can be heard clearly even though the dynamic range is narrow. Therefore, the voice reproduced from the speaker 5a is a clear voice that is easy to hear even if the background noise is large. Further, since the signal processing apparatus 1 generates a sound signal that can be heard clearly even though the dynamic range is narrow, the signal processing apparatus 1 shown in the present embodiment has a narrow dynamic range including the high impedance transmission line 4. It is suitable for such a broadcasting apparatus.

  In the present embodiment, a plurality of speaker devices 5 are connected to the high impedance transmission line 4, but one speaker device 5 may be connected to the high impedance transmission line 4.

  In addition, when the signal processing device 1 is used for a broadcasting device in a hall for giving a lecture or the like, in FIG. 1, instead of the high impedance output amplifying device 3, the high impedance transmission line 4, and the speaker device 5, A power amplifier may be connected to the A converter 2 and a speaker may be connected to the power amplifier. In this case, howling can be suppressed by performing compression processing by the compression circuits C1 to Cn.

  From the foregoing description, many modifications and other embodiments of the present invention are obvious to one skilled in the art. Accordingly, the foregoing description should be construed as illustrative only and is provided for the purpose of teaching those skilled in the art the best mode of carrying out the invention. The details of the structure and / or function may be substantially changed without departing from the spirit of the invention.

  The signal processing apparatus according to the present invention and the broadcasting apparatus using the signal processing apparatus are useful as an apparatus used in a PA system or the like.

  1 Signal processing equipment
  2 D / A converter
  3 Amplification equipment
3a power amplifier
3b transformer
  4 High impedance transmission line
  5 Speaker device
5a Speaker
5b transformer
Fd Band division circuit
G1-Gn AGC (automatic gain control) amplifier circuit
C1-Cn compressed circuit
Fc band synthesis circuit

Claims (1)

A band dividing circuit for dividing an audio signal into signals of a plurality of frequency bands;
Each frequency band signal divided by the band dividing circuit is input and input so that the level of the output signal of each frequency band becomes a predetermined level corresponding to each frequency band . A plurality of automatic gain control amplifier circuits that perform amplification processing that automatically adjusts and amplifies the gain according to the level of the signal ;
A plurality of compression circuits that input signals amplified by each of the automatic gain control amplifier circuits, compress the input signals, and output the compressed signals ;
A band synthesis circuit that synthesizes and outputs the output signals of the plurality of compression circuits ;
An amplifier for amplifying the output signal of the band synthesis circuit and outputting the amplified signal to a high impedance transmission line;
A broadcasting apparatus comprising a speaker connected to the high impedance transmission line via a transformer.

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