An eight stage Cockraft-Walton circuit has all capacitors of 0,08uF. The Secondary voltage of the supply transformer is 33kV at a frequency if 100Hz.
If the load current is 1mA, determine:
a) The percentage Voltage regulation.
b) The percentage ripple.
c) The optimum number of stages for the maximum output voltage.
d) The maximum output voltage.
Note: I have seen some of the other examples calculated use the secondary voltage as the Vmax and they do not multiply with a square root 2 to move from Vrms to Vmax. If Vrms is given should it not be converted to Vmax ?
An eight stage Cockraft-Walton circuit has all capacitors of 0,08uF. The Secondary voltage of the supply...
21-A voltage multiplier has six stages with capacitances, all equal to transformer secondary voltage is 110 kV at a frequency of 100 Hz. Load curre (a) the percentage ripple, (b) the regulation (c) the optimum number of stages for minimum regulation or voltage 0.04 μF. The suppl drop.
21-A voltage multiplier has six stages with capacitances, all equal to transformer secondary voltage is 110 kV at a frequency of 100 Hz. Load curre (a) the percentage ripple, (b) the regulation...
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Q1(A) A ten-stage Cockcroft-Walton, driven by a 75 KHz Peak Voltage of 160 KV, with Capacitors of 330 pF, and a Load Current of 18 mA, compute for the following: A. Ripple Voltage B. No-Load Output Voltage C. Percentage Ripple Voltage Drop Percentage Voltage Regulation D