4. (a) A transmission line with a characteristic impedance of 100 has a load of 1 k2 resistance in parallel with a 0.005 µF capacitor connected across the far end. A surge voltage of magnitude 10 kV...


4. (a) A transmission line with a characteristic impedance of 100<br>has a load of 1 k2 resistance in parallel with a 0.005 µF<br>capacitor connected across the far end. A surge voltage of<br>magnitude 10 kV and unit function form (i.e. step function)<br>travels along the line. Derive an expression for the time<br>variation of the voltage across the load, and calculate the<br>value of this voltage 10us after the arrival of the wave front<br>of the surge<br>

Extracted text: 4. (a) A transmission line with a characteristic impedance of 100 has a load of 1 k2 resistance in parallel with a 0.005 µF capacitor connected across the far end. A surge voltage of magnitude 10 kV and unit function form (i.e. step function) travels along the line. Derive an expression for the time variation of the voltage across the load, and calculate the value of this voltage 10us after the arrival of the wave front of the surge

Jun 11, 2022
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