Course Notes Electronic Circuits
� Get some practical knowledge about the design and analysis of basic analog
circuits.
� Learn about operational amplifiers and circuits that use them.
� Find out how bipolar transistors really work in circuits.
� Learn how to design, analyze, and test basic amplifiers.
� Learn about differential pairs, current sources and multi-stage amplifier design.
� Learn how to design, analyze and test multi-stage amplifiers.
� Learn about feedback as it applies to amplifiers.
Microelectronics circuits
Some important notes for Microelectronics circuits.
Introduction to Microelectronic Circuits
Basic quantities
Charge
Current
Voltage
Power
Basic elements
Resistor
Voltage Source
Current Source
Capacitor
Inductor
Kirchoff�s Current Law
MICROELECTRONICS (PDF 56p)
The earliest electronic circuits were fairly simple. They were composed of a few tubes, transformers,
resistors, capacitors, and wiring. As more was learned by designers, they began to increase both the size
and complexity of circuits. Component limitations were soon identified as this technology developed.
Microelectronics an integrated approach
Introduction. The Digital Inverter. Microelectronic Sensing Systems. Memories.
Pure Semiconductors. Generation, Recombination, and Thermal Equilibrium. Doping. Carrier Transport. Silicon Integrated Circuit Technology. C Resistors.
Introduction to Microelectronic Circuits (PDF slides)
Course content:
� Fundamental circuit concepts and analysis techniques
� First and second order circuits, impulse and frequency response
� Op Amps
� Diode and FET: Device and Circuits
� Amplification, Logic, Filter.
Microelectronic Devices and Circuits
The header course for the department's "Devices, Circuits and Systems" concentration. The topics covered include: modeling of microelectronic devices, basic microelectronic circuit analysis and design, physical electronics of semiconductor junction and metal-on-silicon (MOS) devices, relation of electrical behavior to internal physical processes, development of circuit models, and understanding the uses and limitations of various models. The course uses incremental and large-signal techniques to analyze and design bipolar and field effect transistor circuits, with examples chosen from digital circuits, single-ended and differential linear amplifiers, and other integrated circuits.
Discrete Filter Notes (PDF 36p)
The objective of this section will be to show how to use the first- and second-order filters to achieve higher order filters. We shall also introduce a general, second-order stage called the biquad.
Discrete Filter Notes (PDF 30p)
The other approach uses a ladder configuration and is presented in this section. Both approaches are used to design successful higher-order active filters. The cascade approach is easier to design and tune but does not have the insensitivity to component variation found in the ladder approach.
Fundamental IC Noise paper (PDF)
Most people find the subject of noise mysterious, and there is, under- standably, much confusion about it. Although the fundamental physical concepts behind noise are simple. much of this simplicity is often obscured by the mathematics invoked to compute expressions for the noise.
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