Monday, June 8, 2020

4 transistor fm transmitter

R1,R2,R8 = 1K                       C1 = 1uF/63V, electrolytic  
      R3 = 100K                  C2,C3 = 10nF, ceramic
      R4 = 150K               C4,C5,C9 = 4.7uF/63V, electrolytic   
   R5,R7 = 10K          C6,C12,C13,C14 = 1nF, ceramic
      R6 = 220 ohm           C7,C8,C11 = 5pF, ceramic
      R9 = 10 ohm                  C10 = 220uF/63V, electrolytic
      P1 = 5K trimpot  

Q1,Q2 = 2N3904                     L1 = 3.9uH
Q3,Q4 = 7001, NTE123AP             L2 = 1uH
   D1 = 1N4002                     L3 = aircoil, 8.5 turns air space
                                        1/4 inch diameter



http://www.tonyvanroon.com/oldwebsite/circ/fmt5.html

This circuit provides an FM modulated signal with an output power of around 500mW.  The input microphone pre-amp is
built around a couple of 2N3904 transistors (Q1/Q2), and audio gain is limited by the 5k preset trim potentiometer.

The oscillator is a Colpitts stage, frequency of oscillation governed by the tank circuit made from two 5pF ceramic
capacitors and the L2 inductor.

+(Click here for Colpitts Oscillator Resonant Frequency Equation.)+

Frequency is around 100Mhz with values shown.

Audio modulation is fed into the tank circuit via the 5p capacitor, the 10k resistor and 1N4002 controlling the amount
of modulation.  The oscillator output is fed into the 3.9uH inductor (L1) which will have a high impedance at RF
frequencies.

The output stage operates as a 'Class D' amplifier, no direct bias is applied but the RF signal developed across the
3.9uH inductor is sufficient to drive this stage. The emitter resistor and 1k base resistor prevent instability and
thermal runaway in this stage.

Paul K. Sherby

http://www.geocities.com/Eureka/Park/5323


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