The series-capacitor boost converter (SCBC) requires a duty cycle (D) >= 0.5 control, otherwise has issues of power switch overstress and inductor currents imbalance. Then, we cannot use the SCBC in wide conversion ratio (CR) applications that require CR < 4. Meanwhile, the D >= 0.5 control does not allow D to increase smoothly from 0 during startup, causing severe inrush inductor currents. As a solution, we propose two control schemes on the capacitor-cross-connected (CCC) boost converter, which is the symmetric version of the SCBC. With the proposed hard-charging control, the CCC converter allows D < 0.5 without overstress or imbalance issues, thus extending the CR range and facilitating a soft start-up. In addition, we propose a soft-charging control that enhances the efficiency for 3 < CR < 4. We study the output impedance and CR expressions under these two types of controls. Finally, we propose a compact centrosymmetric floorplan that reduces the switching nodes' ringing, verifying the proposed schemes with a 2.8-to-8.4-V input / 24-V output prototype converter. It exhibits a soft start-up with the proposed control. Under an 8-V input voltage and 1.5-A output current, the peak efficiency of the proposed hard-charging and soft-charging control is 94.7% and 96.3%, respectively.