When an LLC converter operates at its resonant frequency, the impedance of the resonant tank is equal to zero. The input voltage and output voltage are virtually connected together. Given this property, we can easily determine the transformer turns-ratio needed. Using the example shown in Figure 5-1, the primary side uses a half bridge. Therefore, the transformer primary side only sees half of the input voltage. The secondary side uses a voltage doubler (Here, the resonant capacitor is the sum of two capacitors ). Therefore, the transformer secondary side only sees half of the output voltage. In this case, considering the converter operates close to the resonant frequency, the voltage gain is equal to 1. We can get Equation 5.

Considering the voltage drop on the diodes, the transformer and the primary-side switches, we can set the transformer turns-ratio n using Equation 12. The extra 1 V can be adjusted as needed to account for the actual voltage drop or extra voltage needed for the post regulator.