FM wireless microphone production

The practicality of electronic technology is extremely strong. It is a good way to quickly get started by assembling and debugging the production kit. The electronic production laboratory website is ready to use the website as a multimedia platform to display the entire process of making the kit in text, pictures, etc. Improve the success rate of production, and intersperse some basic component knowledge in the production process to help beginners complete the production. Here we have carefully selected several varieties that have been promoted and used in many schools. Students reflect that these small productions are interesting, they can learn knowledge, and they can bring students extra energy to the right track. Maybe they can still make a living in the future. Craftsmanship.

Making a FM wireless microphone by yourself is not only easy but also very interesting. I believe that many electronics enthusiasts have done it by themselves, and the webmaster is no exception. I made it 6 years ago and used it to joke with friends ~ ~~

Here we provide a set of more typical FM microphone production kits, which includes all the components used to make FM microphones. As a beginner or a newcomer, you can learn some related knowledge by making kits, especially for students. The theoretical knowledge already has a little, but it is another matter to start with it ~~

Principle analysis of wireless microphone:

The following is the circuit diagram of the FM wireless microphone. The circuit is very simple and there are no extra components. The high-frequency transistor V1 and the capacitors C3, C5, and C6 form a capacitive three-point oscillator. For beginners, we don't want to think about the specific working principle of the capacitor three-point type for now. We only need to know that this circuit structure is a high-frequency oscillator. The load C4 and L of the triode collector constitute a resonator. The resonance frequency is the transmission frequency of the FM microphone. According to the parameters of the components in the figure, the transmission frequency can be between 88 and 108MHZ, which just covers the receiving frequency of the FM radio. By adjusting the L The value (stretching or compressing coil L) can easily change the transmission frequency, avoiding FM radio. The transmitted signal is coupled to the antenna through C4 and then transmitted.

R4 is the base bias resistor of V1, which provides a certain base current to the transistor, so that V1 works in the amplification region, and R5 is a DC feedback resistor, which plays a role in stabilizing the working point of the transistor.

The frequency modulation principle of this FM microphone is to achieve frequency modulation by changing the capacitance between the base and the emitter of the triode. When the sound voltage signal is applied to the base of the triode, the capacitance between the base and the emitter of the triode The size of the sound voltage signal changes synchronously, and at the same time the transmission frequency of the transistor changes, so as to realize frequency modulation.

The microphone MIC can collect external sound signals. Here we use a small electret microphone, which has a very high sensitivity and can collect weak sounds. At the same time, this microphone must have a DC bias to work, and resistor R3 can provide a certain DC bias voltage, the greater the resistance of R3, the weaker the sensitivity of the microphone to collect sound. The smaller the resistance, the higher the sensitivity of the microphone. The AC sound signal collected by the microphone is matched with C2 and matched with R2 and then sent to the base of the transistor. The conduction voltage of the diode is only 0.7V. If the signal voltage exceeds 0.7V, it will be shunted by the diode. This can ensure that the amplitude of the sound signal can be limited to plus or minus 0.7V. Excessive sound signal will cause the transistor to pass Modulation, producing sound distortion or even not working properly.

CK is an external signal output socket. You can introduce an external sound signal source such as a TV headphone jack or a Walkman headphone jack into a FM transmitter through a dedicated connection line. The external sound signal is attenuated by R1 and limited by D1 and D2 and sent to the triode base. Frequency modulation. So this kit can not only be used as a wireless microphone, but also as a TV wireless headset.

The light-emitting diode D3 in the circuit is used to indicate the working state. It will light up when the FM microphone is powered on, and R6 is the current-limiting resistance of the light-emitting diode. C8 and C9 are power supply filter capacitors. Because large capacitors are generally made by winding process, the equivalent inductance is relatively large. Paralleling a small capacitor C8 can reduce the high-frequency internal resistance of the power supply. This circuit is very common.

In the circuit, K1 and K2 are actually a switch. It has three different positions. When it is dialed to the far left, the power is turned off. On the far right, K1 and K2 are connected to be used as FM microphones. The middle position is K1 on and K2 off. Used as a wireless transponder, because the microphone does not work as a wireless transponder, but the microphone consumes a certain static current, so disconnecting K2 can reduce power consumption and extend the life of the battery.

Hands-on hands-on wireless microphone:

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FM wireless microphone

Published on 2006-04-16 19:22 • 2823 times read

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