A buck DC-DC switching regulator with high efficiency is implemented by automatically altering the modulation mode according to load current,and it can operate with an input range of 4.5 to 30 V.At light load current,...A buck DC-DC switching regulator with high efficiency is implemented by automatically altering the modulation mode according to load current,and it can operate with an input range of 4.5 to 30 V.At light load current,the converter operates in skip mode.The converter enters PWM mode operation with increasing load current.It reduces the switching loss at light load and standby state,which results in prolonging battery lifetime and stand-by time.Meanwhile, externally adjustable soft-start minimizes the inrush supply current and avoids the overshoot of output voltage at initial startup.The regulator is fabricated by a 0.6μm CDMOS process.The test results show that,under the condition of 3.3 V output,the efficiency is up to 64%at 5 mA and the maximum efficiency is 95.5%.展开更多
基金Project supported by the National Natural Science Foundation of China(No.60876023)
文摘A buck DC-DC switching regulator with high efficiency is implemented by automatically altering the modulation mode according to load current,and it can operate with an input range of 4.5 to 30 V.At light load current,the converter operates in skip mode.The converter enters PWM mode operation with increasing load current.It reduces the switching loss at light load and standby state,which results in prolonging battery lifetime and stand-by time.Meanwhile, externally adjustable soft-start minimizes the inrush supply current and avoids the overshoot of output voltage at initial startup.The regulator is fabricated by a 0.6μm CDMOS process.The test results show that,under the condition of 3.3 V output,the efficiency is up to 64%at 5 mA and the maximum efficiency is 95.5%.
