Frequency Compensation Scheme for a Full GaN OpAmp driving 1-nF load
Salvatore Pennisi, Francesco Pulvirenti, Katia Samperi
Abstract
This paper presents a frequency compensation scheme of a full GaN operational amplifier for smart power applications. The amplifier is based on a previous topology originally developed for nMOS technology and here adapted for a modern GaN process. The solution is able to drive a capacitive load as high as 1 nF and a suitable design strategy has been developed. The operational amplifier exhibits a very high nominal DC gain of about 135 dB, a unity-gain bandwidth of about 560 kHz with 60° phase margin, a slew rate of about 0.83 V/$\mu$s and a nominal quiescent current consumption of 200 $\mu$A from a 6-V supply.
Topics & Concepts
Slew rateOperational amplifierGain–bandwidth productFrequency compensationPhase marginBandwidth (computing)NMOS logicAmplifierOperational transconductance amplifierCapacitive sensingCurrent-feedback operational amplifierElectrical engineeringCompensation (psychology)Electronic engineeringComputer scienceEngineeringCMOSVoltageTransistorTelecommunicationsPsychoanalysisPsychologyRadio Frequency Integrated Circuit DesignAnalog and Mixed-Signal Circuit DesignAdvancements in Semiconductor Devices and Circuit Design