CN110610602A - Wireless conference system capable of automatically starting and stopping conference microphone unit and control method thereof - Google Patents

Abstract

The invention relates to the technical field of voice conferences, and discloses a wireless conference system for automatically starting and stopping a conference microphone unit and a control method thereof, wherein the wireless conference system comprises: wireless host computer and wireless microphone unit, wireless host computer includes: the first voltage-reducing chip, the second voltage-reducing chip, the host microcontroller, the radio frequency transceiver and the power switch S1 are connected with corresponding circuits, and the host microcontroller transmits a 'start-up' instruction to the host radio frequency transceiver every hundreds of milliseconds or stops sending the 'start-up' instruction; the wireless microphone unit includes: the booster chip, the clock IC, the microphone microcontroller and the microphone radio frequency transceiver are connected through corresponding circuits, the clock IC supplies power to the booster chip every tens of seconds, the microphone microcontroller supplies power to the booster chip for a long time after being electrified, communicates with the wireless host and stops supplying power to the booster chip. The invention can automatically start and stop the conference microphone unit without the need of manually closing the microphone unit by one manager, and has simple, quick and convenient operation.

Description

Wireless conference system capable of automatically starting and stopping conference microphone unit and control method thereof

Technical Field

The invention relates to a voice conference system, in particular to a wireless conference system capable of automatically turning on or off a conference microphone unit and a control method thereof.

Background

In modern conference rooms, conference audio (video) systems have become conventional devices, and in the prior art, conference audio systems generally comprise: the device comprises a chairman microphone, a delegate mat microphone, a conference central control host, a power amplifier, a sound box and the like. Conference audio (video) system generally divide into wired system and wireless system, and wherein, wireless meeting microphone unit convenient to use can change the locating position in a flexible way according to the needs of meeting, but, the microphone of wireless meeting system is opened and close and needs the manual work to go to open or close the microphone unit one by one to increase staff's work load, reduce the work preparation efficiency of meeting.

In addition, the above wireless functions are generally implemented by wireless transmission and reception using the protocol of LoRa, which is a low power consumption local area network wireless standard created by SEMTECH corporation, and there are problems that: the LoRa chip works unidirectionally, and cannot receive signals simultaneously during transmitting, that is, cannot transmit or receive signals simultaneously, and when a plurality of microphone units transmit signals simultaneously, a host computer may delay receiving signals of a certain microphone unit. Moreover, the wireless conference microphone unit needs to be placed in a range where the system signal can be received, and if the wireless conference microphone unit exceeds the range, the wireless conference microphone unit is not controlled and crashes and the like.

Disclosure of Invention

The invention aims to overcome the defect that microphone units of the conventional wireless conference system need to be opened or closed one by one manually, and provides a wireless conference system for automatically opening and closing a conference microphone unit and a method for controlling the microphone unit to automatically open and close, which are simple, quick and convenient to operate.

In order to achieve the above object, the present invention comprises: wireless host computer and wireless microphone unit, wireless host computer includes: the wireless microphone comprises a first voltage reduction chip, a second voltage reduction chip, a host microcontroller and a host radio frequency transceiver, wherein the input ends of the first voltage reduction chip and the second voltage reduction chip are connected to a host power supply at the same time, the first voltage reduction chip is connected to the host microcontroller and the host radio frequency transceiver respectively and supplies power for the output voltage of the host microcontroller, a power switch S1 is arranged in a circuit of the second voltage reduction chip and the host power supply, meanwhile, the second voltage reduction chip is connected to a power switch pin of the host microcontroller through a power switch S1, the host microcontroller transmits a 'starting' command to the host radio frequency transceiver every hundreds of milliseconds, and stops sending the 'starting' command after receiving the 'starting' command of a wireless microphone unit fed back by the host radio frequency transceiver;

the wireless microphone unit includes: the microphone unit comprises a boost chip, a clock IC, a microphone microcontroller and a microphone radio frequency transceiver, wherein the boost chip is used for supplying power to the microphone microcontroller and output voltages of other functional circuits of the microphone unit after receiving power; the clock IC is still supplied with power by the power input end in the shutdown state, and outputs a high level and a low level every tens of seconds to control the conduction state of each circuit element to supply power to the boost chip; the microphone microcontroller outputs a high level for a long time after being electrified to conduct all circuit elements to supply power to the boost chip, receives a 'start-up' instruction of the wireless host through the microphone radio-frequency transceiver, replies the 'started-up' state to the wireless host through the microphone radio-frequency transceiver, or outputs a low level to control all circuit elements to be in a stop state when the 'start-up' instruction sent by the wireless host is not received, stops supplying power to the boost chip, and sends a working instruction for entering a new round of timing to the clock IC.

Furthermore, the host microcontroller also counts the number of the started microphone units and displays the number of the started microphone units through the OLED screen.

The control method of the wireless conference system for automatically starting and stopping the conference microphone unit.

The first step is as follows: the wireless host is started, the power supply of the wireless host is switched on, the power switch S1 is switched off, the first voltage reduction chip supplies power to the host microcontroller and the host radio-frequency transceiver and enables the host microcontroller and the host radio-frequency transceiver to be in a standby state, when the power switch S1 is switched on, the second voltage reduction chip supplies power to other functional circuits of the wireless host after power is obtained, meanwhile, the host microcontroller detects the level change of a power switch pin, if the level change is converted into a low level, the host microcontroller is in a working mode, at the moment, the host microcontroller transmits a 'startup' command to the host radio-frequency transceiver every 500-600 milliseconds and lasts for 70-75 seconds, during the period, if the host radio-frequency transceiver receives the 'startup' command fed back by the wireless microphone unit, the command is transmitted to the host microcontroller, otherwise, after the duration time is over, the host microcontroller stops transmitting the startup command;

the second step is that: the wireless microphone unit is automatically started and stopped, when the microphone unit is in a shutdown state, a microphone power supply continuously supplies power to the clock IC, the clock IC outputs a high level to conduct a boosting chip every 58-60 seconds after receiving power, the boosting chip supplies power to other functional circuits of the wireless microphone unit after receiving power, the microphone microcontroller is reset to be in a waiting mode after being powered on, and simultaneously outputs the high level to enable the microphone power supply to continuously supply power to the boosting chip, then the microphone microcontroller transmits a receiving mode instruction to the microphone radio frequency transceiver and judges whether a 'start' instruction sent by the microphone radio frequency transceiver is received or not within a preset time, if the start instruction is received, the microphone microcontroller outputs the high level for a long time to keep supplying power to the boosting chip, the boosting chip outputs voltage to other functional circuits after receiving the long time of power and starts the wireless microphone unit to be in a working state, and simultaneously the microphone microcontroller sends an instruction to answer that the wireless host 'started' through; if the 'starting up' instruction is not received, the microphone microcontroller outputs low level to control each circuit element to be in a cut-off state, the boosting chip, the microphone microcontroller and the microphone radio frequency transceiver lose power, the microphone microcontroller transmits an instruction to the clock IC to start a new round of timing work while the power is off, and the microphone unit is continuously in a shutdown state.

Compared with the prior art, the invention can greatly facilitate the conference manager to manage the conference, the conference manager can actively control the wireless microphone unit to be started in a working state only by turning on the power supply of the wireless host, and does not need to start the microphone units one by the manager, thereby saving complicated operation and time.

Drawings

FIG. 1 is a circuit diagram of a wireless host according to the present invention.

Fig. 2 is a circuit diagram of the wireless microphone of the present invention.

Detailed Description

The present invention is mainly used by the cooperation of a wireless host and a wireless microphone unit, and the following detailed description of the preferred embodiments thereof is made in conjunction with the accompanying drawings to better understand the specific construction and operation principle of the present invention.

Referring to fig. 1, in a preferred embodiment, a wireless host includes: the main machine power supply DC, the first voltage reduction chip DC-DC, the second voltage reduction chip DC-DC, the main machine microcontroller MCU, the main machine radio frequency transceiver LoRa and its antenna circuit LoRa, other circuit elements and software programs, wherein, the other circuit elements mainly include a power switch S1, resistors R1 and R2, triodes Q1 and Q3, and a MOS tube Q2. The host power supply DC provides a power supply for the whole wireless host, 12V voltage output is adopted, one path of the anode of the host power supply is connected with a first voltage reduction chip, the output end of the first voltage reduction chip is respectively connected with a host microcontroller MCU and a host radio frequency transceiver LoRa to provide 3V3 voltage output for the host power supply, one interface of the host microcontroller MCU is connected with the host radio frequency transceiver LoRa, and the host radio frequency transceiver receives and transmits signals through an antenna circuit of the host radio frequency transceiver to realize the wireless communication function of the host; the other path of the positive pole of the host POWER supply is respectively connected to one end of a POWER switch S1 and the source of Q2, the other end of the POWER switch S1 is connected to the connection point between R1 and R2, the drain of Q2 is connected to the input end of a second buck chip, the second buck chip provides voltage output of +1.2V, +3.3V, +5V, +8V and the like, and can supply POWER to other functional circuits of the wireless host, the grid of Q2 is connected to the collector of Q1, the emitter of Q1 is grounded, the base of Q1 is connected to the base of Q3 through resistors R2 and R1, the emitter of Q3 is grounded, and the collector of Q3 is connected to a POWER switch pin POWER SW of the host microcontroller; the negative pole of the host power supply circuit is grounded.

Referring to fig. 2, in a preferred embodiment, the wireless microphone unit includes: microphone power, clock IC, microphone microcontroller MCU, microphone radio frequency transceiver LoRa and antenna circuit, other circuit element and software program thereof, wherein, other circuit element mainly include: the boost circuit comprises a boost chip, triodes Q1 and Q2, a MOS transistor Q3 and a diode D1. The microphone power supply supplies power to the whole wireless microphone unit, a battery module is used as the power supply, the output voltage of the battery module is 2 multiplied by 1.5V, the cathode of the microphone power supply is grounded, the anode of the microphone power supply is respectively connected to the source electrodes of a clock IC and a Q3, and the clock IC is also connected to an interface of a microphone microcontroller MCU; the drain of Q3 is connected to the input end of the boost chip, the boost chip is connected to the microphone microcontroller, and the output voltage +3.3V, +5V, +12V supplies power to other various functional circuits of the wireless microphone unit, the grid of Q3 is connected to the collector of Q2, the emitter of Q2 is grounded, the base of Q2 is connected to the emitter of Q1 and the cathode of D1 respectively, the base of Q1 is connected to the clock IC, the connection point of Q1 connected to the positive pole of the power supply circuit and the source of Q3; the anode of D1 is connected to an interface of the microphone microcontroller. The microphone radio frequency transceiver is connected to an interface of the microphone microcontroller and transmits and receives signals through its antenna.

The invention adopts circuit control and software program to manage and control, which comprises: the wireless host computer starts control and the automatic start-stop control of the wireless microphone unit, and the working control principle of the wireless host computer and the wireless microphone unit is as follows.

The first step, the wireless host computer is controlled to open, and the working principle is as follows: when a wireless host of the conference system is connected with a host power supply DC, the first voltage reduction chip outputs a 3.3V power supply to supply power to the host microcontroller MCU and the host radio frequency transceiver LoRa, and the host microcontroller is in a standby state. When a power switch S1 of the wireless host is closed, the triode Q1 is powered on and conducted, the field effect transistor (namely the MOS transistor) Q2 is controlled to be conducted, the host power supply DC supplies power to the second voltage reduction chip DC-DC through the Q2, and the second voltage reduction chip outputs voltages of +1.2V, +3.3V, +5V and +8V to supply power to other functional circuits of the wireless host. Meanwhile, the triode Q3 is powered on, the POWER switch pin POWER SW of the host microcontroller is switched from high level to low level, and the host microcontroller is switched to normal operating mode. The other units of the wireless host start to work normally after being electrified, the host microcontroller transmits a starting command to the host radio frequency transceiver LoRa through the SIP bus every hundreds of milliseconds, the interval of the milliseconds can be set to be 500-600 ms, the time is set to 500ms, when the host RF transceiver receives the power-on command, the power-on command is transmitted to the antenna LoRa to be transmitted, the duration of the transmission command can be several tens of seconds, the duration of the second can be set to be 70-75 seconds, the setting time is preferably 75 seconds, the host radio frequency transceiver also receives the 'started' command fed back by the wireless microphone unit and transmits the 'started' command to the host microcontroller in the period of time, the host microcontroller stops sending the 'started' command after transmitting the 'started' command for 75 seconds, and counting the number of the started microphone units, and then displaying the number through an OLED display screen.

When the switch S1 is turned off, the MCU and the LoRa can still work normally, the transistor Q3 is turned off, the POWER SW pin of the MCU changes from low level to high level, the MCU detects the level change of the POWER SW pin and transmits the POWER off command to the rf transceiver through the SPI, the rf transceiver transmits the POWER off command to the LoRa antenna, and the MCU and the rf transceiver are in sleep mode after receiving the POWER off command from the microphone unit, thereby achieving low POWER consumption.

And the second step is the opening and closing control of the wireless microphone unit, and how to work.

1. Automatically turning on the wireless microphone unit: under the condition that the microphone unit is shut down, a microphone power supply circuit of the microphone unit can still continuously supply power to a clock IC, a high level control triode Q1 is output by an internal clock chip every tens of seconds to conduct, the interval time can be set to be 58-60 seconds, 1 minute is set at the interval, the power supply supplies power to a triode Q2 through a triode Q1, a Q2 conducts and controls a field effect tube (namely an MOS tube) Q3 to conduct, the microphone power supply supplies power to a boost chip DC-DC through a Q3, the boost chip outputs voltages of +3.3V, +5V and +12V to supply power to other functional circuits of the wireless microphone unit, a microphone microcontroller MCU is reset to be in a waiting mode after being electrified and simultaneously outputs a high level control diode D1 to conduct and supply power to the triode Q2, so that the microphone power supply can continuously supply power to the boost chip DC-DC through the boost chip Q3, and then the microphone microcontroller transmits a receiving mode instruction to a microphone radio frequency transceiver LoRa through an SPI, the receiving time can be set to be 3-4 seconds, the set receiving time is 3 seconds, if a 'starting up' instruction sent by the wireless host is received in the 3 seconds, the microphone microcontroller outputs a high level to control the diode D1 to be conducted for a long time to supply power to the Q2, the boost chip receives power for a long time and outputs voltage to supply power to each functional module, the wireless microphone unit is started to be in a working state, and meanwhile, the instruction is transmitted to the microphone radio frequency transceiver to send a 'started up' reply through the antenna LoRa matching circuit. Otherwise, if a power-on command sent by the host is not received within 3 seconds of reception, the microphone microcontroller outputs a low-level control diode D1 to be in a cut-off state, the transistors Q1, Q2 and the field-effect tube Q3 are also in a cut-off state, the power supply cannot supply power to the boost chip through the field-effect tube Q3, the microphone radio-frequency transceiver circuit and the microphone microcontroller are in a power-off state, the microphone microcontroller transmits a command to the clock chip IC through the I C bus while the power is off, the clock chip IC starts a new round of timing operation, and the microphone unit continues to be in a power-off state.

2. Automatically turning off the wireless microphone unit: when the wireless host is disconnected with the POWER switch S1, the triode Q3 of the wireless host is changed into a cut-off state, the POWER SW pin of the MCU of the host is changed from low level to high level, the host microcontroller transmits a 'POWER-off' command to the host radio frequency transceiver LoRa through the SPI bus after detecting the level change of the Power SW pin, and the host radio frequency transceiver transmits the 'POWER-off' command to the LoRa antenna to be transmitted. When a microphone radio frequency transceiver LoRa of the microphone unit receives a 'shutdown' command through an antenna LoRa of the microphone unit, the command is transmitted to the microphone microcontroller through an SPI bus of the microphone unit, the microphone microcontroller outputs low level to control a diode D1 of the microphone unit to be in a cut-off state, triodes Q1 and Q2 of the microphone unit and a field-effect tube Q3 of the microphone unit are also in the cut-off state, a power supply cannot supply power to a boost chip DC-DC through the field-effect tube Q3, and the microphone unit is in the shutdown state.

Claims (3)

1. A wireless conferencing system that automatically turns on and off a conference microphone unit, comprising: a wireless host and a wireless microphone unit, which is characterized in that,

the wireless host includes: the wireless microphone comprises a first voltage reduction chip, a second voltage reduction chip, a host microcontroller and a host radio frequency transceiver, wherein the input ends of the first voltage reduction chip and the second voltage reduction chip are connected to a host power supply at the same time, the first voltage reduction chip is connected to the host microcontroller and the host radio frequency transceiver respectively and supplies power for the output voltage of the host microcontroller, a power switch S1 is arranged in a circuit of the second voltage reduction chip and the host power supply, meanwhile, the second voltage reduction chip is connected to a power switch pin of the host microcontroller through a power switch S1, the host microcontroller transmits a 'starting' command to the host radio frequency transceiver every hundreds of milliseconds, and stops sending the 'starting' command after receiving the 'starting' command of a wireless microphone unit fed back by the host radio frequency transceiver;

the wireless microphone unit includes: the microphone unit comprises a boost chip, a clock IC, a microphone unit microcontroller and a microphone unit radio frequency transceiver, wherein the boost chip is used for supplying power to the microphone unit microcontroller and other functional circuit output voltages of the microphone unit after receiving power; the clock IC is still supplied with power by the power input end in the shutdown state, and outputs a high level and a low level every tens of seconds to control the conduction state of each circuit element to supply power to the boost chip; the microphone unit microcontroller outputs a high level for switching on each circuit element to supply power to the boost chip after being electrified, receives a 'start-up' command of the wireless host through the microphone unit radio frequency transceiver, replies the 'start-up' state to the wireless host through the microphone unit radio frequency transceiver, or outputs a low level to control each circuit element to be in a stop state when the 'start-up' command sent by the wireless host is not received, stops supplying power to the boost chip, and sends a working command for entering a new round of timing to the clock IC.

2. The wireless conference system capable of automatically starting and stopping the conference microphone unit as claimed in claim 1, wherein the host microcontroller further counts the number of the started microphone units and displays the number of the started microphone units through an OLED screen.

3. A control method for use in claim 1, characterized by:

the first step is as follows: the wireless host is started, the power supply of the wireless host is switched on, the power switch S1 is switched off, the first voltage reduction chip supplies power to the host microcontroller and the host radio-frequency transceiver and enables the host microcontroller and the host radio-frequency transceiver to be in a standby state, when the power switch S1 is switched on, the second voltage reduction chip supplies power to other functional circuits of the wireless host after power is obtained, meanwhile, the host microcontroller detects the level change of a power switch pin, if the level change is converted into a low level, the host microcontroller is in a working mode, at the moment, the host microcontroller transmits a 'startup' command to the host radio-frequency transceiver every 500-600 milliseconds and lasts for 70-75 seconds, during the period, if the host radio-frequency transceiver receives the 'startup' command fed back by the wireless microphone unit, the command is transmitted to the host microcontroller, otherwise, after the duration time is over, the host microcontroller stops transmitting the startup command;

the second step is that: the wireless microphone unit is automatically started and stopped, when the microphone unit is in a shutdown state, a microphone power supply continuously supplies power to the clock IC, the clock IC outputs a high level to conduct a boosting chip every 58-60 seconds after receiving power, the boosting chip supplies power to other functional circuits of the wireless microphone unit after receiving power, the microphone microcontroller is reset to be in a waiting mode after being powered on, and simultaneously outputs the high level to enable the microphone power supply to continuously supply power to the boosting chip, then the microphone microcontroller transmits a receiving mode instruction to the microphone radio frequency transceiver and judges whether a 'start' instruction sent by the microphone radio frequency transceiver is received or not within a preset time, if the start instruction is received, the microphone microcontroller outputs the high level for a long time to keep supplying power to the boosting chip, the boosting chip outputs voltage to other functional circuits after receiving the long time of power and starts the wireless microphone unit to be in a working state, and simultaneously the microphone microcontroller sends an instruction to answer that the wireless host 'started' through; if the 'starting up' instruction is not received, the microphone microcontroller outputs low level to control each circuit element to be in a cut-off state, the boosting chip, the microphone microcontroller and the microphone radio frequency transceiver lose power, the microphone microcontroller transmits an instruction to the clock IC to start a new round of timing work while the power is off, and the microphone unit is continuously in a shutdown state.