Buck power stage with multiple MOSFET types

What is claimed is: 1. A switching converter, comprising: a controller configured to generate one or more control signals; and a plurality of serially connected switches configured to receive the one or more control signals and to generate an output voltage signal at an output terminal based on the received one or more control signals, wherein the output voltage signal is controlled based on the control signals to be stibstantially equal to a first voltage or to be substantially equal to a second voltage, wherein a first switch of the plurality of serially connected switches is a first type of switch, wherein a second switch of the plurality of serially connected switches is a second type of switch, wherein the first type of switch is characterized as having a first breakdown voltage, wherein the second type of switch is characterized as having a second breakdown voltage, and wherein the first breakdown voltage is less than the second breakdown voltage. 2. The switching converter of claim 1 , wherein the first switch is configured to receive a first of the one or more control signals and to selectively conduct current according to the first control signal. 3. The switching converter of claim 2 , wherein the first switch is configured to receive an input voltage from an input voltage terminal and to provide current from the input voltage terminal to the output terminal through the second switch. 4. The switching converter of claim 3 , wherein a third switch of the plurality of serially connected switches is connected between the first and second switches, wherein the third switch is a third type of switch having a third breakdown voltage, wherein the third breakdown voltage is substantially equal to the first breakdown voltage, and wherein the first switch is further configured to provide current from the input voltage terminal to the output terminal through the third switch. 5. The switching converter of claim 4 , wherein a fourth switch of the plurality of serially connected switches is a fourth type of switches having a fourth breakdown voltage and a fifth switch of the plurality of serially connected switches is a fifth type of switch having a fifth breakdown voltage, wherein the fourth switch is configured to receive a second of the one or more control signals, wherein the fourth breakdown voltage is less than the fifth breakdown voltage, wherein a sixth switch of the plurality of serially connected switches is connected between the fourth and fifth switches, wherein the sixth switch is a sixth type of switch having a sixth breakdown voltage, wherein the sixth breakdown voltage is substantially equal to the fourth breakdown voltage, and wherein the fourth switch is configured to source current to the output terminal through the fifth and sixth switches. 6. The switching converter of claim 5 , further comprising a semiconductor substrate, wherein the controller and the switches are integrated on the semiconductor substrate. 7. The switching converter of claim 6 , further comprising a filter configured to receive the output voltage signal from the switches and to generate an output voltage, wherein the output voltage is substantially DC and has a value substantially equal to the average voltage of the output voltage signal, and wherein the filter is integrated on the semiconductor substrate with the controller and the switches. 8. switching, converter of claim 5 , wherein the second switch is configured to receive a first bias voltage, the third switch is configured to receive a second bias voltage, the fifth switch is configured to receive a third bias voltage, and the sixth switch is configured to receive a fourth bias voltage, and wherein the first and third bias voltages are substantially equal. 9. The switching converter of claim 8 , wherein the first control signal is configured to switch between the voltage of the input voltage and the voltage of the second bias voltage, and wherein the second control signal is configured to switch between the voltage of the fourth bias voltage and a ground voltage. 10. The switching converter of claim 5 , wherein the second switch is configured to receive a first bias voltage, the third switch is configured to receive a second bias voltage, the fifth switch is configured to receive a third bias voltage, and the sixth switch is configured to receive a fourth bias voltage, and wherein the first and fourth bias voltages are substantially equal and the second and third bias voltages are substantially equal. 11. The switching converter of claim 5 , further comprising first and second inverters configured to respectively generate the first and second control signals, wherein the second switch is configured to receive a first bias voltage, the third switch is configured to receive a second bias voltage, the fifth switch is configured to receive a third bias voltage, and the sixth switch is configured to receive a fourth bias voltage, and wherein the first inverter has a ground connection connected to the second bias voltage and the second inverter has a power connection connected to the fourth bias voltage. 12. The switchitig converter of claim 11 , further comprising a bias voltage generator configured to generate the third bias voltage, wherein the bias voltage generator comprises a current path between the ground connection of the first inverter and the power connection of the second inverter. 13. The switching converter of claim 11 , further comprising a bias voltage generator configured to generate the third bias voltage, wherein third bias voltage is substantially equal to the input voltage minus the fourth bias voltage. 14. A switching converter, comprising: a plurality of serially connected switches configured to generate an output voltage signal at an output terminal, wherein the output voltage signal has an average voltage corresponding with a duty cycle of one or more control signals, wherein a first switch of the plurality of serially connected switches is a first type of switch, wherein a second switch of the plurality of serially connected switches is a second type of switch, wherein the first type of switch is characterized as having a first breakdown voltage, wherein the second type of switch is characterized as having a second breakdown voltage, and wherein the first breakdown voltage is less than the second breakdown voltage. 15. The switching converter of claim 14 , wherein the first switch is configured to receive a first of the one or more control signals and to selectively conduct current according to the first control signal, wherein the first switch is configured to receive an input voltage from an input voltage terminal and to provide current from the input voltage terminal to the output terminal through the second switch, wherein a third switch of the plurality of serially connected switches is connected between the first and second switches, wherein the third switch is a third type of switch having a third breakdown voltage, wherein the third breakdown voltage is substantially equal to the second breakdown voltage, wherein the first switch is further configured to provide current from the input voltage terminal to the output terminal through the third switch, wherein a fourth switch of the plurality of serially connected switches is a fourth type of switch having a fourth breakdown voltage and a fifth switch of the plurality of serially connected switches is a fifth type of switch having a fifth breakdown voltage, wherein the fourth switch is configured to receive a second of the one or more control signals, wherein the fourth breakdown voltage is less than