![]() The frequency can be adjusted by turning variable capacitor C5. The frequency that is transmitted is controlled by the resonance of the tuned circuit formed between L1 and C5. You could also use a dipole antenna, or two wires stretched out in opposite directions, each side being λ/4. To find the length of a quarter wavelength: So for a 100MHz output frequency, the wavelength is: How long is a quarter of a wavelength (λ)? But to be academically perfect, this would entail a sheet of conducting material at least a quarter of a wavelength in radius about the vertical. How to Build the AntennaĪ simple vertical antenna working against a ground plane will suffice. Transistor Q2 also acts as a power amplifier and feeds the frequency modulated audio signal to the antenna through capacitor C7. The LC circuit created by L1 and C5 determines the frequency of oscillation on the collector of Q2, which can be tuned to a frequency in the FM broadcast band by adjusting variable capacitor C5. Since there is no phase shift between the emitter and collector in a common base circuit, C6 provides feedback and causes the circuit to oscillate. For example Q1 could be a BC239C bipolar NPN transistor, and Q2 could be a 2N5179 VHF transistor.Ġ.01uF capacitor C4 grounds the base of transistor Q2, making this a common base circuit. Use transistors with an fT of at least 200MHz. This is a very high frequency (VHF) circuit, so you will want to use transistors with a high maximum operating frequency (fT). The output of Q1 is fed into the frequency modulating circuit created by transistor Q2, inductor L1, and variable capacitor C5. Transistor Q1 is a high gain audio amplifier that amplifies the sound detected by the electret microphone. The circuit is powered by a 9V power supply. ![]() Here is the schematic for the FM transmitter we are going to build: However, the range is highly dependent on the efficiency of the antenna. In my testing, it has a range of about 50 meters. The FM transmitter we are going to build works quite well. Take a look at our article on How to Build an AM Radio Transmitter if you’re interested in building an AM transmitter. AM radio signals are broadcast between a range of about 550kHz to 1720kHz, while FM signals are broadcast at a range between about 88MHz to 108MHz. In an FM transmitter, the amplitude is constant, but the frequency is modulated (frequency modulation).Īnother difference between AM transmitters and FM transmitters is the frequency at which they broadcast radio signals. In an AM transmitter, the radio signal is modulated up and down in amplitude while the frequency remains constant (amplitude modulation). One difference between AM and FM transmitters is how modulation is superimposed on the radio signal.
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