Analysis of Operational-Amplifier Inverting and Non-inverting Amplifiers in Remote Lab
KC Narasimhamurthy, B Malaviya, KR Pranesh… - Cyber-physical Systems …, 2020 - Springer
KC Narasimhamurthy, B Malaviya, KR Pranesh, A Jayashree, H Kamatham
Cyber-physical Systems and Digital Twins: Proceedings of the 16th …, 2020•SpringerIn this paper, performance analysis of Opamp inverting and non-inverting amplifiers using
Remote Lab is presented. Remote lab system has the feature of conducting experiments on
Opamp Amplifiers with different voltage gain. Remote lab system is built using Arduino
ATMEGA-2560, National Instrument's (NI) Analog Discovery kit and other circuitry. User has
the freedom to apply input signal of desired amplitude and frequency. Opamp parameters
like slew rate and unity gain bandwidth, can be evaluated. Paper describes the process of …
Remote Lab is presented. Remote lab system has the feature of conducting experiments on
Opamp Amplifiers with different voltage gain. Remote lab system is built using Arduino
ATMEGA-2560, National Instrument's (NI) Analog Discovery kit and other circuitry. User has
the freedom to apply input signal of desired amplitude and frequency. Opamp parameters
like slew rate and unity gain bandwidth, can be evaluated. Paper describes the process of …
Abstract
In this paper, performance analysis of Opamp inverting and non-inverting amplifiers using Remote Lab is presented. Remote lab system has the feature of conducting experiments on Opamp Amplifiers with different voltage gain. Remote lab system is built using Arduino ATMEGA-2560, National Instrument’s (NI) Analog Discovery kit and other circuitry. User has the freedom to apply input signal of desired amplitude and frequency. Opamp parameters like slew rate and unity gain bandwidth, can be evaluated. Paper describes the process of determining Opamp amplifiers like closed loop gain, 3-dB bandwidth, and phase and gain margin. Paper also presents analysis report of Opamp amplifiers conducted remotely.
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