DE202019107272U1 - Wireless audio transmission system for delivering real-time audio recording - Google Patents

Abstract

A wireless audio transmission system for providing a real time audio recording, characterized in that it comprises a transmitter for installing a microphone and a receiver;
wherein the transmitter is provided with a microphone interface, an audio recording circuit and a memory module, which are electrically connected one after the other, and wherein the microphone interface is used for receiving a recorded audio of the microphone, and wherein the audio recording circuit is used for processing a recorded audio received by the microphone interface , and wherein the memory module is used to store recorded audio processed by the audio recording circuit;
and wherein the receiver is provided with an audio output interface used for outputting audio;
and the transmitter and the receiver are connected to one another in a wirelessly communicating manner, and the transmitter can store the audio information in real time on the one hand through the memory module and on the other hand can output the audio information in real time through the receiver.

Description

TECHNICAL AREA

The present utility model relates to the technical field of wireless audio transmission, in particular a wireless audio transmission system for delivering a real-time audio recording.

STATE OF THE ART

When the camera is used to record video, the recorded video is normally intended to be synchronized in real time. In order to ensure the sound quality effect when synchronizing in real time, the text should be spoken when recording the video at a microphone position facing the video recording device in order to prevent the synchronization of video from becoming unclear or interrupted. However, since the sound quality effect of synchronizing in real time cannot be ensured if you are relatively far from the microphone, people's current demands for a good video recording experience are difficult to meet.

In other situations where audio is to be transmitted in real time, a wired transmission method obviously cannot meet the user's requirements if the speaker is to be constantly moving.

CONTENT OF THE PRESENT INVENTION

The present utility model mainly aims to provide a wireless audio transmission system for providing a real time audio recording.

A wireless audio transmission system for providing real time audio recording comprising a transmitter for installing a microphone and a receiver, the transmitter being provided with a microphone, an audio recording circuit and a memory module which are electrically connected in series, and wherein the microphone interface for receiving a recorded audio of the Microphone is used, and wherein the audio recording circuit is used for processing a recorded audio received by the microphone interface, and wherein the memory module is used for storing a recorded audio processed by the audio recording circuit, and wherein the receiver is provided with an audio output interface which is for outputting one Audios is used; and wherein the transmitter and the receiver are connected to one another in a wirelessly communicating manner, and wherein the transmitter can store the audio information in real time on the one hand by the memory module and on the other hand can transmit the audio information in real time by the receiver.

The memory module is preferably a memory card and a USB module; the transmitter being provided with a memory card slot and a USB interface which are electrically connected to the audio recording circuit.

The transmitter preferably further comprises a first MCU, a first LCD screen and a radio frequency modulation circuit, the first MCU being electrically connected to the audio recording circuit, the first LCD screen and the radio frequency modulation circuit; and wherein the audio recording circuit sends processed recorded audio to the first MCU, and wherein the first MCU sends received received audio after modulation processing by the radio frequency modulation circuit via an antenna.

The receiver preferably further comprises a second MCU, a second LCD screen, a radio frequency demodulation circuit and a switching chip, the second MCU being electrically connected to the switching chip and the second LCD screen; and wherein an input end of the switch chip is electrically connected to the radio frequency demodulation circuit and an output end of the switch chip is electrically connected to the audio output interface; and wherein the radio frequency demodulation circuit performs demodulation processing on a received audio signal to form demodulated audio after the antenna of the receiver receives a wireless audio signal transmitted by the antenna of the transmitter, and wherein the demodulated audio is transmitted to the switching chip and finally transmitted through the audio output interface becomes.

The transmitter and the receiver preferably implement a wireless channel adaptation through the infrared pairing.

The transmitter is preferably further provided with an auxiliary audio input interface which is used for receiving an output audio of a portable electronic product.

The receiver is preferably also provided with a headphone interface.

• in dem drahtlosen Audioübertragungssystem zum Liefern einer Echtzeitaudioaufnahme sind der Sender und der Empfänger drahtlos kommunizierend miteinander verbunden, wobei der Sender einerseits durch das Speichermodul die Audioinformationen in Echtzeit speichern und andererseits durch den Empfänger die Audioinformationen in Echtzeit senden kann, mit der drahtlosen Kommunikationsverbindung können der Sender und der Empfänger eine Audioübertragung zu jeder Zeit in großer Entfernung durchführen;
• darüber hinaus kann der Sender ein aufgenommenes Audio synchron speichern und drahtlos senden, wodurch das aufgenommene Audio gesichert werden kann; selbst wenn während der drahtlosen Übertragung ein Audioverlust auftritt, kann das Video später durch das gesicherte aufgenommene Audio gerettet werden.

The present utility model has the following advantages:

• In the wireless audio transmission system for delivering a real-time audio recording, the transmitter and the receiver are connected to one another in a wirelessly communicating manner, the transmitter being able to store the audio information in real time on the one hand by the storage module and on the other hand by the receiver being able to transmit the audio information in real time; the transmitter can use the wireless communication connection and the receiver performs audio transmission at a great distance at any time;
• in addition, the transmitter can synchronously store and transmit a recorded audio wirelessly, whereby the recorded audio can be secured; even if there is an audio loss during wireless transmission, the video can later be saved with the saved recorded audio.

Figure list

• 1 zeigt eine schematische Strukturansicht eines Senders in einem drahtlosen Audioübertragungssystem zum Liefern einer Echtzeitaudioaufnahme in einer Ausführungsform des vorliegenden Gebrauchsmusters.
• 2 zeigt eine schematische Strukturansicht des Senders gemäß 1 von dem anderen Winkel.
• 3 zeigt eine schematische Strukturansicht eines Empfängers in einem drahtlosen Audioübertragungssystem zum Liefern einer Echtzeitaudioaufnahme in einer Ausführungsform des vorliegenden Gebrauchsmusters.
• 4 zeigt eine schematische Darstellung einer Schaltungsstruktur des Senders gemäß 1.
• 5 zeigt eine schematische Darstellung einer Schaltungsstruktur des Empfängers gemäß 3.

In order to explain the technical solution in the detailed embodiments of the present utility model more clearly, the figures to be used are briefly presented in the explanation of the detailed embodiments below. The figures shown below obviously show only some embodiments of the present utility model. The average person skilled in the art can obtain other figures based on the figures without having creative work.

• 1 Fig. 12 shows a schematic structural view of a transmitter in a wireless audio transmission system for providing a real time audio recording in an embodiment of the present invention.
• 2nd shows a schematic structural view of the transmitter according to 1 from the other angle.
• 3rd FIG. 12 shows a schematic structural view of a receiver in a wireless audio transmission system for providing a real-time audio recording in an embodiment of the present invention.
• 4th shows a schematic representation of a circuit structure of the transmitter according to 1 .
• 5 shows a schematic representation of a circuit structure of the receiver according to 3rd .

DETAILED DESCRIPTION

The technical solutions in the embodiments of the present utility model are clearly and completely explained below. Obviously, the illustrated embodiments do not represent all the embodiments, but only a part of the embodiments of the present utility model. All other embodiments obtained by those of ordinary skill in the art based on the embodiments in the present utility model without creative work are to be considered as being within the scope of the present utility model.

As in 1 to 5 shown a wireless audio transmission system for providing a real time audio recording comprising a transmitter 10th to install the microphone and a receiver 20 . The transmitter 10th and the recipient 20 are wirelessly connected to each other. It is understood that the wireless communication link between the transmitter 10th and the recipient 20 Includes, but is not limited to, radio frequency, WIFI, ZigBee, Bluetooth, and other wireless communication methods.

In particular, the transmitter includes 10th a microphone interface 11 , an audio recording circuit 12th , a memory module 13 , a first MCU 14 , a first LCD screen 15 , a radio frequency modulation circuit 16 , an auxiliary audio input interface 17th and an infrared receiving circuit 18th .

In the present embodiment, the microphone interface 11 used to receive a recorded audio of the microphone, the audio recording circuit 12th to process one through the microphone interface 11 received recorded audio is used, and wherein the memory module 13 for storing one through the audio recording circuit 12th processed recorded audio is used. This is the memory module 13 a memory card and a USB module; being the transmitter 10th with a memory card slot 101 and a USB interface 102 is provided with the audio recording circuit 12th are electrically connected.

The first MCU 14 is with the audio recording circuit 12th , the first LCD screen 15 and the radio frequency modulation circuit 16 electrically connected. The audio recording circuit 12th sends processed processed audio to the first MCU 14 , the received audio received after modulation processing by the radio frequency modulation circuit 16 sends over the antenna.

The auxiliary audio input interface 17th is with the first MCU 14 connected and used to receive output audio of a portable electronic product, the output audio being used as an auxiliary audio. The first MCU 14 performs mixing processing for the auxiliary audio and the recorded audio and finally sends them through the antenna after modulation processing by the radio frequency modulation circuit 16 . In the present embodiment, the auxiliary audio input interface is 17th connected to a cell phone or MP3, etc. to receive output audio output from a portable electronic product. Optionally, the auxiliary audio can be background music and other suitable auxiliary audio.

The first LCD screen receives 15 a display instruction from the first MCU 14 to check the operating status of the transmitter 10th display such as a recording state and an audio transmission state, etc.

In particular, the recipient includes 20 an audio output interface 21 , a headphone interface 22 , a second MCU 23 , a second LCD screen 24th , a radio frequency demodulation circuit 25th , a switching chip 26 and an infrared transmitter circuit 27 .

In the present embodiment, the second MCU 23 each with the switching chip 26 and the second LCD screen 24th electrically connected. An input end of the switching chip 26 is with the radio frequency demodulation circuit 25th electrically connected while an output end of the switching chip 26 each with the audio output interface 21 and the headphone interface 22 is electrically connected.

After the antenna of the receiver 20 one by the transmitter 10th received wireless audio signal, performs the radio frequency demodulation circuit 25th demodulation processing for the received wireless audio signal to form demodulated audio which is connected to the switching chip 26 sent and finally through the audio output interface 21 and the headphone interface 22 is transmitted in each case.

The second LCD screen receives 24th a display instruction from the second MCU 23 to check the operating status of the receiver 20 display such as a reception state and an audio transmission state, etc.

In the present embodiment, the receiver is provided with two receiving antennas, whereby the audio signals can be received from two radio channels at the same time. The recipient is accordingly 20 with two radio frequency demodulation circuits 25th Mistake. Without being limited to the present embodiment, the receiver can 20 be provided with one or more receiving antennas, the receiver can accordingly 20 with one or more radio frequency demodulation circuits 25th provided to receive the audio information transmitted through one or more radio frequency channels, but the present utility model is not restricted to this.

The switching chip 26 is used to switch between stereo sound and monophony, and the switching chip 26 is an integrated chip with the model number HEF4053.

In addition, the transmitter realize 10th and the recipient 20 a wireless channel adaptation through the infrared pairing. In particular, the infrared transmitter circuit transmits 27 Recipient 20 a radio frequency channel signal from the transmitter 10th to the infrared receiving circuit 18th Recipient 20 , and the infrared receiving circuit 18th forwards the received radio frequency channel signal to the first MCU 14 , causing the first MCU 14 the radio frequency modulation circuit 16 of the transmitter 10th controls so that it modulates the radio frequency signal so that it reaches the receiver 20 adapts, thereby realizing a radio frequency communication connection.

• der Sender 10 und der Empfänger 20 realisieren durch die Infrarotpaarung eine drahtlose Kanalanpassung, so dass die beiden eine drahtlose Audioübertragung durch einen Radiofrequenzkanal durchführen können;
• nachdem das Mikrofon des Senders 10 ein aufgenommenes Audio empfing, kann der Sender einerseits durch das Speichermodul 13 die Audioinformationen in Echtzeit speichern und andererseits durch den Empfänger 20 die Audioinformationen in Echtzeit senden,
• wenn Hintergrundmusik in dem aufgenommenen Audio hinzugefügt werden soll, wird das Hilfsaudio von der Hintergrundmusik über die Hilfsaudioeingangsschnittstelle 17 eingegeben, und die erste MCU 14 führt eine Mischverarbeitung für das Hilfsaudio und das aufgenommene Audio durch, schließlich wird das aufgenommene Audio nach dem Mischverarbeitung durch die Radiofrequenzmodulationsschaltung 16 moduliert und dann über eine Antenne gesendet;
• nachdem die Antenne des Empfängers 20 ein drahtloses Audiosignal empfing, führt die Radiofrequenzdemodulationsschaltung 25 eine Demodulationsverarbeitung für das empfangene drahtlose Audiosignal, um ein demoduliertes Audio zu bilden, welches an den Schaltchip 26 gesendet und schließlich durch die Audioausgangsschnittstelle 21 und die Kopfhörerschnittstelle 22 jeweils übertragen wird.

The principle of operation of the wireless audio transmission system to provide a real-time audio recording is as follows:

• the transmitter 10th and the recipient 20 realize a wireless channel adaptation by means of the infrared pairing, so that the two can carry out a wireless audio transmission through a radio frequency channel;
• after the transmitter's microphone 10th The transmitter can receive recorded audio on the one hand through the memory module 13 store the audio information in real time and on the other hand by the receiver 20 send the audio information in real time,
• if background music is to be added to the recorded audio, the auxiliary audio will be from the background music via the auxiliary audio input interface 17th entered, and the first MCU 14 performs mixing processing for the auxiliary audio and the recorded audio, finally, after the mixing processing, the recorded audio is processed by the radio frequency modulation circuit 16 modulated and then sent over an antenna;
• after the antenna of the receiver 20 received a wireless audio signal, performs the radio frequency demodulation circuit 25th demodulation processing for the received wireless audio signal to form demodulated audio which is connected to the switching chip 26 sent and finally through the audio output interface 21 and the headphone interface 22 is transmitted in each case.

The above content is merely an explanation of the present utility model in connection with embodiments. However, the patent scope of the utility model is not limited to this. All equivalent structural or process transformations carried out with the help of the description of the present utility model or direct or indirect uses in other related technical fields are to be considered as being covered by the scope of protection of the present utility model.

Claims (7)

A wireless audio transmission system for providing a real time audio recording, characterized in that it comprises a transmitter for installing a microphone and a receiver; wherein the transmitter is provided with a microphone interface, an audio recording circuit and a memory module, which are electrically connected one after the other, and wherein the microphone interface is used for receiving a recorded audio of the microphone, and wherein the audio recording circuit is used for processing a recorded audio received by the microphone interface , and wherein the memory module is used to store recorded audio processed by the audio recording circuit; and wherein the receiver is provided with an audio output interface used for outputting audio; and the transmitter and the receiver are connected to one another in a wirelessly communicating manner, and the transmitter can store the audio information in real time on the one hand through the memory module and on the other hand can output the audio information in real time through the receiver. Wireless audio transmission system for delivering a real-time audio recording after Claim 1 , characterized in that the memory module is a memory card and a USB module. the transmitter being provided with a memory card slot and a USB interface which are electrically connected to the audio recording circuit. Wireless audio transmission system for delivering a real-time audio recording after Claim 1 , characterized in that the transmitter further comprises a first MCU, a first LCD screen and a radio frequency modulation circuit, the first MCU being electrically connected to the audio recording circuit, the first LCD screen and the radio frequency modulation circuit, respectively; and wherein the audio recording circuit sends processed recorded audio to the first MCU, and wherein the first MCU sends received received audio after modulation processing by the radio frequency modulation circuit via an antenna. Wireless audio transmission system for delivering a real-time audio recording after Claim 1 , characterized in that the receiver further comprises a second MCU, a second LCD screen, a radio frequency demodulation circuit and a switching chip, the second MCU being electrically connected to the switching chip and the second LCD screen, respectively, and wherein an input end of the Switching chips are electrically connected to the radio frequency demodulation circuit and an output end of the switching chip is connected to the audio output interface; and wherein the radio frequency demodulation circuit performs demodulation processing on a received audio signal to form demodulated audio after the antenna of the receiver receives a wireless audio signal transmitted by the antenna of the transmitter, and wherein the demodulated audio is transmitted to the switching chip and finally output through the audio output interface becomes. Wireless audio transmission system for delivering a real-time audio recording after Claim 1 , characterized in that the transmitter and the receiver realize a wireless channel adaptation through the infrared pairing. Wireless audio transmission system for delivering a real-time audio recording after Claim 1 , characterized in that the transmitter is further provided with an auxiliary audio input interface electrically connected to the first MCU which is used to receive an output audio of a portable electronic product. Wireless audio transmission system for delivering a real-time audio recording after Claim 1 , characterized in that the receiver is further provided with a headphone interface.

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