Electronic Engineering
Permanent URI for this collectionhttps://ir.uict.ac.ug/handle/123456789/19
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Browsing Electronic Engineering by Author "Gyurcsik, Ronald, Dr"
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Item Analog Electronics Lecture 22(North Carolina University, 1995) Gyurcsik, Ronald, DrThe presenters assignments, projects and take student questions on the following questions studied: Operational Amplifier, including - overview of the operational amplifier, BJT operational amplifier analysis and design, Frequency performance and compensation, settling time, slew rate, and input-referred offset, MOS operational amplifier analysis and design, settling time, slew rate, and input-referred offset, Noise, advanced bipolar operational amplifier topologies, advanced MOS operational amplifier topologies, and BiCMOS amplifier design.Item Analog Electronics : lecture number 20(North Carolina University, 1995) Gyurcsik, Ronald, DrThe video is looking at operational amplifiers - specifically settling time and slew rate. The presentation discusses topics such as slew rate, settling time, and provides example calculations and illustrations like the circuit configuration for determining slew rate.Item Analog electronics: lecture 10(North Carolina University, 1995) Gyurcsik, Ronald, DrThe presentation is looking at differential pair, specifically large-signal common mode behavior, small-signal differential behavior, and small-signal common mode behavior.Item Analog electronics: lecture 15(North Carolina University, 1996) Gyurcsik, Ronald, DrThe presentation discusses operational amplifier, specifically handles topics on operational amplifier basics, operational amplifier loop frequency characteristics, operational amplifier components, and operational amplifer architecture.Item Analog Electronics: number 2(North Carolina University, 1995) Gyurcsik, Ronald, DrThis video presents device and process basics - specifically topics on bipolar junction transister (BJT) characteristics and large signal model. The lecture looks at the BJT types, theory of operation, operating regions, and large signal modeling.