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A CAPACITOR-LESS LOW DROP-OUT VOLTAGE REGULATOR

low drop-out (ldo) voltage regulator with both capacitor-less and high power supply rejection (psr) bandwidth attributes is highly admired for an integrated power management system of mobile electronics.

A CAPACITOR-LESS WIDE-BAND POWER SUPPLY REJECTION

a capacitance multiplier (cm) of high multiplication factor (≈ 100) is designed to externally compensate the ldo without an external off-chip capacitor.

Ultra Low Power Capless Low-Dropout Voltage Regulator

large-signal analysis was used to model mosfet non-linearities and predict the performance of ldos, switches and the overall system.

A Capacitor-Less Wide-Band Power Supply Rejection Low Drop-Out

according to the general theory of scaldo, a single supercapacitor configuration can achieve nearly twice the linear regulator efficiency.

Capless Ldo Thesis Paper

moreover, compared to traditional capacitor-less ldos with psr bandwidth around 10khz and above 0db psr beyond 10mhz, the psr bandwidth of the proposed ldo structure is greatly extended with significant psr over 10mhz.

Ultra Low Power LDO

this also proves the feasibility of applying external compensation strategy to a capacitor-less ldo and its great beneficial effect on the psr of the ldo.

Supercapacitor-based linear converter for voltage regulator modules

thesis presents a ldo design with both capacitor-less and high psr bandwidth attributes.

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the proposed ldo structure incorporates external compensation which is gifted for extended psr bandwidth.

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capacitor-less wide-band power supply rejection low drop-out voltage regulator with capacitance multiplier.

in thisdesign, the feasibility of using zero-vt nmos as a ldo pass transistor is proved.

discrete mosfet-based high-current ldos were developed and combined with a common feedback control circuit.

Capacitor less ldo thesis

items in research commons are provided for private study and research purposes and are protected by copyright with all rights reserved unless otherwise indicated.

in order to block this path, an application specific ldo that operates in the third quadrant of a mosfet current-vs-voltage transfer function was investigated.

the capacitor-less feature is demanded for realizing more compact device.


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