Course Objectives The course is aimed to the study and comprehension of some analog electronic blocks. It is the second course on the same argument (first part, course name: Elettronica I). Students should learn basic analog blocks as operational amplifiers and current-conveyors, positive and negative feedback, square wave generators, etc. Course Contents and learning outcomes (Dublin Descriptors) Topics of the course include: • Analog and digital electronics. Voltage and current AC and DC low and high signals. Amplification and impedances. Positive and negative feedback • Electronic components: diodes, transistors, amplifiers (equivalent models, biasing) • Photodiodes and applications, biasing circuits • Voltage generators (power supplies, stabilizers), current mirrors • Amplifier circuits: Amplifiers 1 input-1 output. Differential amplifiers: basic scheme, active load. Transconductance amplifiers (OTAs ). Output stages and classes of amplifiers • The voltage approach. Operational amplifier. Free PDF printer you can use to create PDF from any printable document. Business today 8th edition mcgraw hill - Circuiti per la microelettronica pdf - Revue. Basic concepts. Internal schemes of the MC 1435 and LF411 UA741. Inverting configuration (I), the non-inverting (NI), integrator and differentiator I and NI, differential, instrumentation, adder, IV and VI converter with floating load and mass selective amplifier, bootstrap, logarithmic and exponential amplifier, phase shifters, clipper, clamper, rectifiers, absolute value meter, peak detector, sampling and holding circuit, active filters, RT converters for sensing applications, impedance simulators, analog comparator with and without hysteresis, astable, Wien bridge and phase-shifted oscillators, high- frequency oscillators. The current approach. First and second generation current- conveyors: Functionality. Example of internal scheme. Parasitic components. Parallelism with the MOSFET. Comparison with the operational amplifier. Applications: amplifier, integrator, differentiator, adder. The AD844 component. Laboratory circuits: 1)Common emitter; 2) BJT differential amplifier; 3) differential, instrumentation amplifiers; 4), phase shifters and filters; 5) Wien bridge and phase-shifted oscillators; 6) sensor interface; 7) AD844 based CCII. Orcad-Spice simulator. On successful completion of this course, the student should. Avg free 2014 update manager general error. • On successful completion of this module, the student should acquire profound knowledge of analog electronic circuits. Course Prerequisites The student must know the basic elements of electronic devices (diodes, transistors) 4. Teaching methods and language Lectures, team work (in Labs) with final report, exercises, home work (final report) Language:Italian Reference textbooks • Sedra Smith, Circuiti per la microelettronica. Assessment Methods Written and oral exam, short report on lab work.
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