CT = 2.0 nF XT = 102.7 W It = 232.6 mA qt = -90° XC1 = 77 W VC1 = 17.9 V IC1 = 232.6 mA XC2 = 43 W VC2 = 5.9 V IC2 = 139.1 mA XC3 = 64 W VC3 = 5.9 V IC3 = 93.5 mA
1. Combine the capacitors to produce a single equivalent value. 2. Calculate the total reactance and total current. 3. Separate the equivalent capacitance into the individual parts, determining the branch currents, individual reactances and voltage drops.
Content by David L. Heiserman Published by SweetHaven Publishing Services