Hello,
Im doing a resonant inductive coupling system as my project.
A transformer used to step down the wall outlet (230V/50Hz) to 24V @ 3A, to be used as the input to a rectification circuit consisting of bridge rectifier and a filter cap.
after that, there is a crystal oscillator circuit operation at 13.56 MHz followed by class B (N-P) mosfet power amplifier to amplify the oscillator output to the transmission coil.
oscillator circuit diagram can be shown at the following link:
**broken link removed**
*( The output of the oscillator is not directly connected to the transistor gates, an additional operational amplifier were used to reduce the crossover distortions. A negative feedback loop is connected the output of the transistors to the inverting terminal of the op-amp, the oscillator output connected the non-inverting terminal and the output of the op-amp is connecting the transistor gates).
this is simply, how my transmission circuit would look like.
my problem is, how to get the right value of the components that operates at the specified frequency and also taking into account the voltage & current feeding the circuit, such as P and N mosfet Transistors, op-amp, and the IC Hex-inverter which completes the oscillator circuit.
Your responds will be much appreciated..
Thank you..