Światłowody plastikowe i ich zastosowania

This project tells about G class audio amplifier with double symmetrical power supply rails including with analysis of its parameters.
In this thesis I will show theoretical description where I will describe semiconductors which are included in my G class audio amplifier. I will show their basic models with principle of operations. In theoretical part I will also show arrangements of low frequency audio amplifiers in order to proper understand differences in performance of different types of audio amplifiers.
In next part I will show some simulations where in the beginning I will calculate voltages and currents necessary to proper biasing output stage in G class audio amplifier. After this I will describe all electrical components which I will use in amplifier. In the next step I will show results of my simulations. They will contain bandwidth, power losses, efficiency, output slew rate for a rectangular input signal, power loss dependence on the power dissipated in the load and Total Harmonic Distortion. In this next part I will also introduce feeder and heatsink with calculations. In the last part I will show PCB project

This project tells about G class audio amplifier with double symmetrical power supply rails including with analysis of its parameters.
In this thesis I will show theoretical description where I will describe semiconductors which are included in my G class audio amplifier. I will show their basic models with principle of operations. In theoretical part I will also show arrangements of low frequency audio amplifiers in order to proper understand differences in performance of different types of audio amplifiers.
In next part I will show some simulations where in the beginning I will calculate voltages and currents necessary to proper biasing output stage in G class audio amplifier. After this I will describe all electrical components which I will use in amplifier. In the next step I will show results of my simulations. They will contain bandwidth, power losses, efficiency, output slew rate for a rectangular input signal, power loss dependence on the power dissipated in the load and Total Harmonic Distortion. In this next part I will also introduce feeder and heatsink with calculations. In the last part I will show PCB project.