Analysis of a low-dropout voltage regulator designed using omega-gate nanowire transistors experimental data
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In this work, the low-dropout voltage regulator (LDO) was designed using omega-gate nanowire transistors. These transistors were modeled using the Verilog-A description based on the experimental data. After the model validation LDO's were developed using gm/ID strategy considering transconductance over drain current ratio (gm/ID) of 7V-1 and 8V-1 with load capacitances of 10pf and 100pf. The LDO was designed to provide a voltage of 1.5V and 100μA at the output. The LDO biased transistors with gm/ID equal to 8V-1 presented very good results where the Loop Voltage Gain was 52.2dB, the gain bandwidth product (GBW) was 5.9MHz for load of 10pf, the load regulation was 27V/A and power supply rejection (PSR) was 41dB showing that Omega-gate nanowire transistors can be a good option for LDOs circuits.
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LDO, LDO Omega-gate nanowire, Low-Dropout Voltage Regulator, Nanowire device, Omega-gate nanowire
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SBMicro 2024 - 38th Symposium on Microelectronics Technology and Devices, Proceedings.
