KR101104622B1 - wireless microphone system capable of automatically channel granting - Google Patents

Abstract

According to the present invention, when the wireless microphone is replaced with a new one due to a failure of the wireless microphone or a battery discharge in the singing cycle using the wireless microphone, the initializing process is individually performed to reset the channel between the wireless microphone and the singing cycle. It is a wireless microphone system that automatically assigns channels so that channels can be automatically matched without any harm.
In accordance with another aspect of the present invention, there is provided a method for automatically assigning a wireless microphone, comprising: counter management means for assigning a channel of a carrier frequency band capable of transmitting and receiving to a half cycle of a song; A song half cycle including a channel control unit for setting a channel of a carrier frequency band received from the counter management means and an information transmitter for transmitting channel information of the set carrier frequency band to a wireless microphone; And a channel controller configured to set an information input unit to receive channel information of a carrier frequency band from the information transmitter and a channel control unit of the received carrier frequency band. It comprises a wireless microphone system for automatically granting a channel, characterized in that comprises a.

Description

Wireless microphone system capable of automatically channel granting

The present invention relates to a wireless microphone system that automatically assigns a channel, and more particularly, to a channel designated as a frequency band managed by a counter manager when a wireless microphone is replaced, a wireless device in which a song half-cycle and a wireless microphone can automatically set a channel. It relates to a microphone system.

      The microphone device converts a voice signal into an electrical signal through a microphone, amplifies it, and then outputs it to a speaker so that many people in a wide place can hear it by amplifying and outputting a small voice signal. . Therefore, since it can prevent the group of vocal cords from instructors aiming to listen to many people by nurturing the contents of education by educating them, it has been usefully used in various institutions such as schools and academies. It is widely used in various places such as stages and concert halls.

     Microphone devices are wired and wireless. In the wired method, the microphone and the amplifying device are connected by a connecting line, and the voice signal output from the microphone is input to the amplifying device through the connecting line. And the wireless method is to connect the microphone and the transmitter to convert the input signal of the microphone into a high frequency signal and transmit it, and the high frequency signal transmitted by the transmitter is received by the receiving device to convert the original voice signal and then amplified and output to the speaker . In the wireless method, the user only needs to carry the microphone and the transmitter without the connection line. Since the user's movement is not restricted, the wireless microphone is widely used in stage acting and lecture, which is rarely used in recent years and requires free movement. It is used.

The wireless microphone divides the legally allowed frequency band into channels at appropriate intervals so that the transmitter and receiver exchange signals through one channel in a one-to-one correspondence. In order to match the channel of the initial transmitter and receiver, the transmitter and receiver transmit their own numbers through mutual reset function, and on the contrary, they first recognize the received unique numbers and store the mutual unique numbers before allocating an empty channel. The operation of the one-to-one type of wireless microphone and the receiver is performed, which causes the hassle of having to perform the initialization process individually to reset the channel of the transmission / reception period when a situation in which the wireless microphone needs to be replaced occurs. In case of using a wireless microphone system with a small channel, the frequency of the transmitter and receiver is fixed. When a person moves around a place, something happens to move the transmitter and receiver at the same time.

In businesses such as karaoke, wireless microphones are thought to be widely used, and things like battery discharge or failure are likely to occur once and for all. However, because there are complicated ways to replace wireless microphones and set up every room, it can be difficult for business owners who are new to the machine and waste a lot of time and labor. In addition, in a wireless microphone in a system that does not have a large number of channels, crosstalk will frequently occur, and where the rooms are close together such as a karaoke room, there is a concern due to the crosstalk. However, the currently implemented multi-channel systems, which have secured multiple channels to reduce crosstalk, are composed of broadcasting systems. Such equipment has the disadvantage of being economically expensive to introduce in a business that is too expensive and most do not necessarily need so many channels.

An object of the present invention is to individually initialize the initialization process in order to reset the channel between the wireless microphone and the singing cycle when replacing the wireless microphone with a new one due to a failure of the wireless microphone or battery discharge in the singing cycle using the wireless microphone. The present invention relates to a wireless microphone system that automatically assigns a channel so that the channel can be automatically matched without any hassle.

An object of the present invention described above comprises: counter management means for assigning a channel of a carrier frequency band that can be transmitted and received to a half-song period; A song half cycle including a channel control unit for setting a channel of a carrier frequency band received from the counter management means and an information transmitter for transmitting channel information of the set carrier frequency band to a wireless microphone; And a channel controller configured to set an information input unit to receive channel information of a carrier frequency band from the information transmitter and a channel control unit of the received carrier frequency band. It is achieved by providing a wireless microphone system for automatically granting a channel, characterized in that comprises a.

According to a preferred feature of the invention, the counter management means provides for reducing interference by dividing the channels of available frequency bands according to the number of rooms and assigning the channels of frequency bands at multiple intervals to the half-cycle of each room. Is achieved.

According to a preferred feature of the present invention, the channel control section of the song half period is achieved by providing a change in frequency by changing a phase by controlling a voltage to set a channel in a carrier frequency band received from the counter management means.

According to a preferred feature of the present invention, the channel control unit of the wireless microphone is achieved by providing a change in frequency by changing a phase by controlling a voltage to set a channel of a carrier frequency band received at the information input unit.

According to a preferred feature of the present invention, the transmission and reception of information between the carrier microphone and the carrier frequency channel of the half-cycle of a song is achieved by using an infrared communication method used in various home appliances.

In the present invention, if the carrier frequency channel is set by the counter management means and transmitted in the half cycle of the song, the carrier frequency channel is set to match with the signal exchange unit of the half-cycle information transmitter and the information input unit of the wireless microphone. There is an effect that eliminates the hassle of having to set up each of the wireless microphone and karaoke cycle. In addition, since the counter management means is set to reasonably prevent the channel of the half-song period of each room, there is an effect that can eliminate the inconvenience in use caused by crosstalk.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a whole music cycle using a wireless microphone connected to a counter management PC installed in each room according to the present invention.
Figure 2 (a) is a block diagram schematically showing a wireless microphone system according to the present invention.
Figure 2 (b) is a block diagram schematically showing a karaoke cycle system according to the present invention.
3 is a flowchart illustrating channel assignment of each room according to an exemplary embodiment of the present invention.
4 shows each room.
5 is a flow chart illustrating assigning an automatic channel in accordance with the present invention.

The embodiments of the present invention described below are intended to be described in detail so that those skilled in the art can easily practice the invention, which means that the scope of protection of the present invention is limited. I do not.

Fig. 1 shows the overall apparatus using a wireless microphone connected to a counter management PC installed in each room.

As shown in Fig. 1, a general counter management PC is connected to a karaoke cycle in every room and is networked and has a singing half cycle 111 and 112 with a wireless receiver, and a wireless microphone 101 and 102 with a wireless transmitter. Consists of Here, the device using the wireless microphone may be various devices associated with the wireless microphone in addition to the singing cycle period.

2 shows a block diagram of a general wireless microphone 200 and a song half cycle 210.

As shown in FIG. 2 (a), the wireless microphone includes an input unit 201 that receives voice input, an amplifier 202 that amplifies the signal, and an information input unit 207 that receives information from a half-period information transmitter 217. A channel controller 206 for setting a carrier frequency according to the received information, a mixing processor 203 for mixing the set carrier frequency and an audio signal and outputting a frequency accordingly, and receiving the signal output from the mixing processor in a song half-cycle It consists of a transmitter 204 and an antenna 205 for amplification and filtering for transmission to the receiver.

In order to set the channel of the carrier frequency band received from the information transmitter of the song half cycle, the channel control unit 206 of the wireless microphone uses a circuit or element that can change the output frequency by controlling the voltage or controlling the current. Can be set to the channel of the carrier frequency band. When the carrier frequency channel is set in this way, the mixing processing unit 203 of the microphone performs a level change of the signal and outputs the carrier frequency, and after mixing the voice signal and the carrier frequency and sends it to the transmitter 204 through the antenna 205 The song will be sent in half cycles.

As shown in FIG. 2 (b), the half-song period receives the carrier frequency information input from the antenna 211, the receiving unit 212, and the counter management PC 120, which receives a signal from the wireless microphone, and transmits this information to the information transmitting unit 217. Channel control unit 216 for controlling to transmit information informing the carrier frequency, the mixing processing unit 213 for processing the signal input from the receiving unit, the amplifier 214 for amplifying the signal and the output unit 210 in the half-cycle period It consists of).

The channel control unit 216 of the half-song period receives the channel information of the carrier frequency band input from the counter management PC 120 and transmits the carrier frequency channel information to the wireless microphone through the information transmitter 217, and controls the voltage. Or a circuit of a carrier frequency band received from the counter management PC 120 using a circuit or an element capable of changing the output frequency by controlling the current, and mixing the signal received from the receiver 212 with the mixing processor 213. Selects only the voice band signal from the signal on the input carrier frequency and controls to filter it.

The information transmitter 217 and the information input unit 207 exchange carrier frequency channel information with each other. In order to enable this, it can be implemented using IR infrared communication and RF communication method, but it is preferable to use a relatively simple and inexpensive infrared communication in a business that uses a half cycle of songs.

Fig. 3 shows a flowchart in which the counter management PC assigns channels, and Fig. 4 shows the numbers of the rooms. In general, each room in the store is clustered in order, so there is a fear of confusion that gives channels to each room in order. Therefore, here, by dividing the entire frequency band by the number of rooms and assigning channels in odd and even numbers, the interval between the given channels is widened, thereby reducing the risk of crosstalk.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the present invention will be described in detail.

The counter management PC determines the number of channels by dividing the available frequency band by the number of rooms in the business. a denotes the number of each room, n is a value designated for the operation for the arrangement of the channels, and y denotes the number of channels. Assume that the number of rooms is 8 and let each room be 1, 2, ... 8. The counter PC then has eight y's for each room, and assigns them 1, 2, ... 8 in channel order. That is, if the carrier frequency is available from 925MHz to 932MHz, the frequency is divided into 8 sections and values 1 are sequentially assigned to 925MHz, 2 is 926MHz, and 8 is 932MHz.

As shown in FIG. 3, the value of n is set to 1 to give a channel (S300). Since a first room is given, a = 1 (S301). The y value becomes 1 by the channel assignment operation y = 2n-1 (S302). Since the y value does not exceed 8 (S304), room 1 is set to 925MHz corresponding to the channel 1 of y value (S306). To set the channel of the next room, n = 2 by n = n + 1 (S308), and the value of a also increases by one, like a = a + 1 (S309). The room has a value of 3, 927 MHz. Similarly, rooms 3 and 4 are set to 929MHz and 931MHz with y values of 5 and 7.

If the y value exceeds 8, n = 1 is given again (S310), and y = 2 is obtained by y = 2n (S312), and since y value does not exceed 8 (S314), room 5 is y A value of 926MHz corresponding to channel 2 is set (S316). In order to set the channel of the next room, n = 2 by n = n + 1 (S318) and the value of a increases by one, like a = a + 1 (S320). 928Mhz, 930Mhz, and 932Mhz are set, respectively, and after that, the y value exceeds 8, and the channel setting work is completed. As such, all the channels are sequentially assigned to each room illustrated in FIG. 4. On the other hand, the equation for calculating the number of rooms a and the number of channels y by setting in the counter management PC based on the number of rooms and the allowable frequency band of each business is y = 3n, y = 4n, y = 3n + 1, y = 4n + 1 ... You can set as many different things as you like.

As shown in FIG. 5, it is assumed that after the channel is set as described above in the counter management PC, the song half cycle and the wireless microphone are normally operated in each room (S500). When the wireless microphone is replaced due to the wireless microphone failure (S502) (S504), the song half cycle receiving channel information through the counter management PC and the network is given the set channel information. When the channel information is transmitted by the channel controller through the information transmitter (S508), the information input unit of the wireless microphone receives the information and sends the information to the channel controller. The channel controller uses a circuit that can change the output frequency by controlling voltage or controlling current to set the channel of the carrier frequency band inputted from the information transmitting unit of the song half cycle, so that the channel half frequency of the carrier frequency band can be received. Set to channel (S510). Thus, the carrier frequency is matched, so that it is possible to normally use the half cycle of the song through the wireless microphone (S512).

101, 102: microphone 111, 112: singing
120: counter management PC 200: wireless microphone
201: wireless microphone input unit 202: wireless microphone amplifier
203: wireless microphone mixing processing unit 204: wireless microphone transmitting unit
205: wireless microphone antenna 206: channel control unit
207: information input unit 210: song group cycle
211: singular period antenna 212: singular period receiver
213: singing cycle mixing processor 214: singing cycle amplifier
215: song group cycle output unit 216: channel control unit
217: information transmitter

Claims (5)

Counter management means for assigning a channel of a carrier frequency band capable of transmitting and receiving to a song half cycle;
A song half cycle including a channel control unit for setting a channel of a carrier frequency band received from the counter management means and an information transmitter for transmitting channel information of the set carrier frequency band to a wireless microphone; And
A wireless microphone including an information input unit for receiving channel information of a carrier frequency band from the information transmitter and a channel controller for setting channel information of the received carrier frequency band; , ≪ / RTI >
The counter management means automatically divides a channel of available frequency bands according to the number of rooms, and assigns channels of frequency bands in multiple intervals to each half of a song in each room, thereby reducing interference. system.
delete The method of claim 1,
The channel control unit of the song half-period is a wireless microphone system for automatically assigning a channel, wherein the channel is changed by changing a phase by controlling a voltage or a current to set a channel of a carrier frequency band received from the counter management means. .
The method of claim 1,
The channel control unit of the wireless microphone is a wireless microphone system for automatically assigning a channel, characterized in that for changing the frequency by changing the phase by controlling the voltage or current to set the channel of the carrier frequency band received from the information input unit.
The method of claim 1,
The wireless microphone and the wireless microphone system for automatically assigning a channel, characterized in that the transmission and reception of the carrier frequency channel of the half-cycle of the song uses infrared communication.

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