Fm-voice-transmitter
This is a sensitive, mini-powered FM transmitter that includes an RF oscillator section integrated with a high-sensitivity wide passband audio amplifier and a capacitance microphone featuring a built-in FET. The microphone modulates the base of the RF oscillator transistor. The value of capacitor C8 determines the desired operating frequency within the standard FM broadcast band, favoring the upper range up to 110 MHz. Capacitor C7 provides the necessary feedback voltage developed across resistor R11 in the emitter circuit of transistor Q2, maintaining an oscillating condition.
Resistors R9 and R10 supply the required bias for the base-emitter junction to ensure proper operation, while capacitor C10 bypasses any RF signals to ground that may feed into the base circuit. Capacitor C9 offers an RF return path for the tank circuit formed by inductor L1 and capacitor C8, simultaneously blocking the DC supply voltage applied to the collector of Q2. The speech voltage generated across resistor R1 by the microphone (M1) is capacitively coupled through capacitor C4 to the base of transistor Q1. The signal voltage developed across resistor R4 is capacitively coupled through capacitor C6 to the base of Q2 via resistor R8. Resistors R7 and R8, along with capacitors C1 and C2, serve to decouple the oscillator and audio circuits.
The FM transmitter circuit operates by modulating the RF signal produced by the oscillator with audio signals from the microphone. The RF oscillator generates a carrier wave, which is then modulated by the audio input to create an FM signal. The sensitivity of the circuit is enhanced by the high-sensitivity audio amplifier, which amplifies the audio signal before it modulates the RF signal. The design ensures that the transmitter can operate effectively within the FM band while maintaining a compact size.
The choice of components, such as the capacitance microphone and the built-in FET, allows for efficient modulation of the RF signal. The feedback mechanism provided by capacitor C7 ensures stability in the oscillation process, preventing drift in frequency. The use of capacitors for coupling and bypassing ensures that unwanted RF signals do not interfere with the audio signal, maintaining clarity and quality in the transmitted audio.
This circuit can be utilized in various applications, including educational projects, hobbyist radio broadcasting, and demonstrations of basic RF transmission principles. Proper tuning and component selection are essential to achieve optimal performance and compliance with regulatory standards for FM transmission.This is a sensitive, mini-powered FM transmitter consisting of an rf oscillator section interfaced with a high-sensitivity wide passband audio amplifier and capacitance microphone with built-in FET that modulates the base of the rf oscillator transistor. The setting of C8 determines the desired operating frequency- in the standard FM broadcast band, tuned to favor the high end up to 110 MHz.
Capacitor C7 supplies the necessary feedback voltage developed across Rll in the emitter circuit of Q2, sustaining an oscillating condition. Resistors R9 and RIO provide the necessary bias of the base-emitter junction for proper operation, and capacitorClO bypasses any rf to ground fed through to the base circuit. C9 provides an rf return path for the tank circuit of Ll and C8, while blocking the de supply voltage fed to the collector of Q2.
The speech voltage developed across Rl by Ml is capacitively coupled by C4 to the base of Ql. A signal voltage developed across R4 is capacity-coupled through C6 to the base of Q2 through R8. R7;md R8, along with Cl and C2, decouple the oscillator and audio circuits.
Resistors R9 and R10 supply the required bias for the base-emitter junction to ensure proper operation, while capacitor C10 bypasses any RF signals to ground that may feed into the base circuit. Capacitor C9 offers an RF return path for the tank circuit formed by inductor L1 and capacitor C8, simultaneously blocking the DC supply voltage applied to the collector of Q2. The speech voltage generated across resistor R1 by the microphone (M1) is capacitively coupled through capacitor C4 to the base of transistor Q1. The signal voltage developed across resistor R4 is capacitively coupled through capacitor C6 to the base of Q2 via resistor R8. Resistors R7 and R8, along with capacitors C1 and C2, serve to decouple the oscillator and audio circuits.
The FM transmitter circuit operates by modulating the RF signal produced by the oscillator with audio signals from the microphone. The RF oscillator generates a carrier wave, which is then modulated by the audio input to create an FM signal. The sensitivity of the circuit is enhanced by the high-sensitivity audio amplifier, which amplifies the audio signal before it modulates the RF signal. The design ensures that the transmitter can operate effectively within the FM band while maintaining a compact size.
The choice of components, such as the capacitance microphone and the built-in FET, allows for efficient modulation of the RF signal. The feedback mechanism provided by capacitor C7 ensures stability in the oscillation process, preventing drift in frequency. The use of capacitors for coupling and bypassing ensures that unwanted RF signals do not interfere with the audio signal, maintaining clarity and quality in the transmitted audio.
This circuit can be utilized in various applications, including educational projects, hobbyist radio broadcasting, and demonstrations of basic RF transmission principles. Proper tuning and component selection are essential to achieve optimal performance and compliance with regulatory standards for FM transmission.This is a sensitive, mini-powered FM transmitter consisting of an rf oscillator section interfaced with a high-sensitivity wide passband audio amplifier and capacitance microphone with built-in FET that modulates the base of the rf oscillator transistor. The setting of C8 determines the desired operating frequency- in the standard FM broadcast band, tuned to favor the high end up to 110 MHz.
Capacitor C7 supplies the necessary feedback voltage developed across Rll in the emitter circuit of Q2, sustaining an oscillating condition. Resistors R9 and RIO provide the necessary bias of the base-emitter junction for proper operation, and capacitorClO bypasses any rf to ground fed through to the base circuit. C9 provides an rf return path for the tank circuit of Ll and C8, while blocking the de supply voltage fed to the collector of Q2.
The speech voltage developed across Rl by Ml is capacitively coupled by C4 to the base of Ql. A signal voltage developed across R4 is capacity-coupled through C6 to the base of Q2 through R8. R7;md R8, along with Cl and C2, decouple the oscillator and audio circuits.