Maximum Output Current = 300mA Output Voltage = 1.8 V Accuracy = ±2% Mounting Type = Surface Mount Package Type = TSOP5 Pin Count = 5 Output Type = Fixed
Maximum Output Current = 300mA Output Voltage = 3.3 V Line Regulation = 10 mV Load Regulation = 10 mV% Mounting Type = Surface Mount Quiescent Current = 8µA Pin Count = 6 Output Type = Fixed Dimens...
The ON Semiconductor NCV8164 is a 300 mA LDO, next generation of high PSRR, ultra−low noise and low dropout regulators with power good open collector output. It is designed to meet the requirements...
The ON Semiconductor NCP164 series is high PSRR, ultra−low noise LDO capable of supplying 300 mA output current. It is designed to meet the requirements of RF and sensitive analog circuits. It prov...
Ultra−Low Quiescent Current typ. 4 μA over Temperature Operating Input Voltage Range 2.5 V to 24 V Adjustable and Fixed Version Available High PSRR 60dB at 1kHz Noise typ. 36 μVRMS from 100 Hz to 1...
The ON Semiconductor NCV8164 is a 300 mA LDO, next generation of high PSRR, ultra−low noise and low dropout regulators with power good open collector output. It is designed to meet the requirements...
The ON Semiconductor 100mA CMOS LDO regulator has an quiescent current of only 1μA makes this device ideal solution for battery-powered, always-on systems. Several fixed output voltage versions are...
Maximum Output Current = 300mA Output Voltage = 3.3 V Line Regulation = 10 mV Accuracy = ±2% Mounting Type = Surface Mount Quiescent Current = 8µA Pin Count = 5 Output Type = Fixed Dimensions = 2.9...
The ON Semiconductor NCP716B series is 150 mA LDO linear voltage regulator. It is a very stable and accurate device with ultra−low ground current consumption and a wide input voltage range.Compatib...
Regulator Type = Low Dropout VoltagemA Output Voltage = 1.8 V Line Regulation = 0.02 %/V Accuracy = ±2% Mounting Type = Surface Mount Quiescent Current = 18µA Pin Count = 4 Output Type = Fixed Dime...
The ON Semiconductor NCP730 CMOS LDO regulator is based on unique combination of features such as very low quiescent current, fast transient response and high input and output voltage ranges. The d...