Daniel Gitzel scite author profile

With the expansion of battery powered mobile devices, power management has an ever increasing presence in the electronics industry. These devices require power management circuitry not only to extend the useful life of the battery but also to supply low noise voltage analog circuitry. The low-dropout voltage regulator (LDO) offers improved efficiency over other regulator topologies; however the architecture suffers from stability issues, which usually necessitates a large offchip capacitor to ensure the regulator's performance. This work presents an alternative topology, removing the bulky external capacitor, thus allowing for greater power system integration. The proposed Current Amplifier Hybrid Compensation (CAHC) scheme implements an active feedback-feedforward compensation system and maintains both a fast transient response and full range alternating current (AC) stability from 0 to 50mA load currents even with a 100pF loading capacitance. The 1.2V External Capacitor-less LDO voltage regulator was designed and simulated in a commercial 0.35µm CMOS technology, and consumed only 61µA of quiescent current with a dropout voltage of less than 200mV. Simulated results demonstrate that the proposed External Capacitor-less LDO architecture overcomes the typical load transient and AC stability issues encountered in previous architectures. The combined size and component reduction of this architecture presents a more integrable and economic power management system.

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Hybrid Feedback Compensation of an External Capacitor-less Low Dropout Voltage Regulator

Gitzel

Silva-Martínez

Rivera

2014

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Hybrid Feedback Compensation of an External Capacitor-less Low Dropout Voltage Regulator

Gitzel¹,

Silva-Martínez²,

Rivera³

2014

CURJ

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Power management has an ever increasing presence in the electronics industry due to the growth of battery powered mobile devices. The low-dropout voltage regulator (LDO) offers improved efficiency over other regulator topologies. However, the architecture suffers from stability issues, which usually necessitates a large off-chip capacitor to ensure the regulator’s performance. This paper presents an alternative topology by removing the bulky external capacitor, thus allowing for greater power system integration. The proposed Current Amplifier Hybrid Compensation (CAHC) scheme implements an active feedback-feedforward compensation system and maintains both a fast transient response and full range alternating current (AC) stability from 0 to 50mA load currents even with a 100pF loading capacitance. The 1.2V External Capacitor-less LDO voltage regulator was designed and simulated in a commercial 0.35um CMOS technology, consuming only 61uA of quiescent current with a dropout voltage of less than 200mV. Simulated results demonstrate that the proposed External Capacitor-less LDO architecture overcomes the typical load transient and AC stability issues encountered in previous architectures. The combined size and component reduction of this architecture presents a more integrable and economic power management system.

show abstract

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Daniel Gitzel

An external capacitor-less low drop-out regulator with superior PSR and fast transient response

Robust compensation scheme for low power capacitor-less low dropout voltage regulator

Hybrid Feedback Compensation of an External Capacitor-less Low Dropout Voltage Regulator

Hybrid Feedback Compensation of an External Capacitor-less Low Dropout Voltage Regulator

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