Zared Kamal scite author profile

<span>A full on chip low Dropout Voltage Regulator (LDO) with fast transient response and small capacitor compensation circuit is proposed. The novel technique is implemented to detect the variation voltage at the output of LDO and enable the proposed fast detector amplifier (FDA) to improve load transient response of 50mA load step. The large external capacitor used in Conventional LDO Regulators is removed allowing for greater power system integration for system-on-chip (SoC) applications. The 1.6-V Full On-Chip LDO voltage regulator with a power supply of 1.8 V was designed and simulated in the 0.18µm CMOS technology, consuming only 14 µA of ground current with a fast settling-time LNR(Line Regulation) and LOR(Load regulation) of 928ns and 883ns respectively while the rise and fall times in LNR and LOR is 500ns.</span>

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A 916 nW Power LDO Regulator Circuit in 90-nm CMOS Technology for RF SoC Applications

Akhamal

Chakir

Ameziane

et al. 2021

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This paper presents a nano-power Low Drop-Out (LDO) voltage regulator circuit for RadioFrequency System-on-Chip (RF SoC) applications, this LDO is designed for a smaller dimension due to CMOS technology and in the weak inversion region, can thus be used to minimize power loss of LDO regulator without transient-response degradation. The proposed structure its low power dissipation make it ideal for RF system-on-chip applications that require low power dissipation under different loading conditions. In order to optimize performance for LDO, the proposed amplifier helps to minimize power of LDO regulators without using any on-chip and off-chip compensation capacitors. The power is 916 nW. The output spot noise at 100Hz and 1 kHz are 200nV/sqrt (Hz) and 6nV/sqrt (Hz), respectively. The active area of the circuit is 850 μm2. The regulator operates with supply voltages from 1.2V to 2V

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Slew-Rate Enhancement of a Full-On Chip CMOS LDO Based on a Capacitorless Push–Pull Current Booster Circuit

Kamal¹,

Ameziane²,

Hassani³

et al. 2023

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Zared Kamal

An enhancement transient response of capless LDO with improved dynamic biasing control for SoC applications

Full on chip capacitance pmos low dropout voltage regulator

Full On-chip low dropout voltage regulator with an enhanced transient response for low power systems

A 916 nW Power LDO Regulator Circuit in 90-nm CMOS Technology for RF SoC Applications

Slew-Rate Enhancement of a Full-On Chip CMOS LDO Based on a Capacitorless Push–Pull Current Booster Circuit

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