TL;DRAbstract
The integration of DC-DC converter in standard CMOS process faces challenges from the low transistor breakdown voltages, poor quality factor and large size on-chip capacitors and inductors. The standard solution to deal with the problem of MOS transistor’s low breakdown voltage is using cascode configuration in the output stage. \nHigh-side PMOS and low-side NMOS power transistors in on-chip buck converter are switched ON and OFF with non-overlapping driving signals whose duty- cycle regulate the output voltage of converter. The non-overlapping driving signals are required to avoid short-circuit losses through power transistors. By using the cascode configuration, driving signals for high-side PMOS and low-side NMOS power switching transistors operate in different voltage domains. To overcome this problem, the voltage level shifters are needed to transfer driving signals between two voltage domains. However, associated power losses and additional timing delays in conventional leve
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The integration of DC-DC converter in standard CMOS process faces challenges from the low transistor breakdown voltages, poor quality factor and large size on-chip capacitors and inductors. The standard solution to deal with the problem of MOS transistor’s low breakdown voltage is using cascode configuration in the output stage. \nHigh-side PMOS and low-side NMOS power transistors in on-chip buck converter are switched ON and OFF with non-overlapping driving signals whose duty- cycle regulate the output voltage of converter. The non-overlapping driving signals are required to avoid short-circuit losses through power transistors. By using the cascode configuration, driving signals for high-side PMOS and low-side NMOS power switching transistors operate in different voltage domains. To overcome this problem, the voltage level shifters are needed to transfer driving signals between two voltage domains. However, associated power losses and additional timing delays in conventional leve
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