The present invention relates to a sound collection equipment and a method for detecting an operation status of a sound collection equipment, in particular to a sound collection equipment having both a speaker and a microphone and the method for detecting an operation status of a sound collection equipment.
Typically, when a user uses a sound collection equipment such as a hearing aid, the speaker generates annoying high frequency sounds when the microphone is too close to the speaker. This phenomenon, referred to as audio feedback, generally occurs unintentionally when the microphone and the speaker are in close proximity to each other during operation, and the high frequency sound can startle users and generate unpleasant user experiences.
Therefore, it is desirable to provide a method to reduce or eliminate the audio feedback phenomenon in order to resolve the above mentioned issue.
The objective of the present invention is to provide a sound collection equipment and a method to detect the operating state of the sound collection equipment.
In order to achieve the above objective, the sound collection equipment of the present invention comprises a speaker, a microphone and a processor unit. The speaker is used for generating a test sound. The microphone is used for receiving the test sound. The processor unit is electrically connected to the speaker and the microphone. The processor unit is used for determining if the energy of the test sound received by the microphone exceeds a predetermined energy value and judging that the sound collection equipment is in use if the energy does not exceed the predetermined energy value.
The method for detecting the operating state of a sound collection equipment according to the present invention comprises a speaker and a microphone. The method for detecting the operating state of a sound collection equipment according to the present invention includes the following steps: generating a test sound via the speaker, receiving the test sound via the microphone, and determining if the energy of the test sound received by the microphone exceeds a predetermined energy value; if the energy of the test sound does not exceed a predetermined energy value, judging that the sound collection equipment is in a usage state; and if the energy of the test sound exceeds a predetermined energy value, judging that the sound collection equipment is not in the usage state.
These and other objects and advantages of the present invention will become apparent from the following description of the accompanying drawings, which disclose several embodiments of the present invention. It is to be understood that the drawings are to be used for purposes of illustration only, and not as a definition of the invention.
In the drawings, wherein similar reference numerals denote similar elements throughout the several views:
The following embodiments are provided in order to further explain the implementations of the present invention. It should be noted that the objects used in the diagrams of the embodiments are provided with proportions, dimensions, deformations, displacements and details as examples and that the present invention is not limited thereto; identical components in the embodiments are the given same component numbers.
As shown in
In an embodiment of the present invention, the speaker 10 is used for generating a high frequency test sound S, wherein the frequency of the test sound S preferably ranges between 8,000˜40,000 Hz and the loudness does not exceed 20 dB, but the scope of the present invention is not limited thereto.
In an embodiment of the present invention, the microphone 20 is used for receiving external sounds, including a test sound S generated by the speaker 10. After the test sound is transmitted to the microphone 20, the microphone 20 can generate an input sound signal, and the input sound signal is transmitted to the processor unit 30 for processing.
In an embodiment of the present invention, the processor unit 30 is electrically connected to the speaker 10 and the microphone 20. The processor unit 30 comprises a digital signal processor 31 and a micro controller 32.
The digital signal processor 31 is used for processing the input sound signal transmitted from the microphone 20 to generate a corresponding output sound signal. The output sound signal is transmitted to the sound amplifier 40.
The micro controller 32 is used for determining whether the energy of the test sound S received by the microphone 20 exceeds a predetermined energy value and judging that the sound collection equipment 1 is in a usage state after determining that the energy of the test sound S does not exceed the predetermined energy value. Oppositely, the micro controller 32 judges that the sound collection equipment 1 is not in the usage state when the micro controller 32 determines that the energy of the test sound S exceeds the predetermined energy value. When the micro controller 32 judges the sound collection equipment 1 is not in the usage state, the micro controller 32 further controls the sound amplifier 40 to stop amplifying sounds received by the microphone 20 or to reduce an amplified level of the sounds received by the microphone 20. The operating state of the sound collection equipment 1 is explained in detail in the following paragraphs and thus is not provided here.
The sound amplifier 40 is electrically connected to the processor unit 30. The sound amplifier 40 is used for amplifying the output sound signal generated by the digital signal processor 31 of the processor unit 30 and transferring the amplified output sound signal to the speaker 10 so that the speaker 10 plays sounds according to the amplified output sound signal.
Next, refer to
First, executing step S1: generating a test sound via the speaker.
The method for detecting an operating state of a sound collection equipment of the present invention is applicable to a sound collection equipment 1 and is used for detecting if the sound collection equipment 1 is in use. In the first step of the method, the micro controller 32 of the processor unit 30 controls the speaker 10 to generate a test sound S.
Executing step S2: receiving the test sound via the microphone.
When step S1 is completed, the microphone 20 of the sound collection equipment 1 receives the test sound S generated by the speaker 10.
Executing step S3: determining if the energy of the test sound received by the microphone exceeds a predetermined energy value.
After the microphone 20 receives the test sound S, the micro controller 32 of the processor unit 30 determines if the energy of the test sound received by the microphone 20 exceeds a predetermined energy value (for example: 10 dB).
As shown in
As shown in
Execute step S6: controlling the sound amplifier to stop amplifying the sound received by the microphone or to reduce an amplification level of the sound received by the microphone.
Once it is determined that the sound collection equipment 1 is not in the usage state, the micro controller 32 of the processor unit 30 controls the sound amplifier 40 to stop amplifying the sound received by the microphone 20 or to reduce an amplification level of the sound received by the microphone 20 in order to prevent the audio feedback resulting from the speaker 10 and the microphone 20 being placed too close to each other.
According to the above description, the method for detecting an operating state of a sound collection equipment of the present invention is to judge if the sound collection equipment 1 is in the usage state by determining the energy level of the test sound S and to stop amplifying the sound received by the microphone or to reduce an amplification level of the sound received by the microphone so as to prevent the audio feedback from occurring when the sound collection equipment 1 is not in the usage state.
While the present invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes and modifications can be made to the described embodiments. It is intended to include all such variations, modifications and equivalents which fall within the scope of the invention, as defined in the accompanying claims. It is to be understood that many other possible modifications and variations can be made without departing from the spirit and scope of the invention as hereinafter claimed.
Number | Date | Country | Kind |
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105113889 | May 2016 | TW | national |