{"id":1149,"date":"2022-01-28T19:35:07","date_gmt":"2022-01-28T19:35:07","guid":{"rendered":"https:\/\/itgeeks.in\/home\/?p=1149"},"modified":"2022-01-28T19:57:21","modified_gmt":"2022-01-28T19:57:21","slug":"2k6ec-505-linear-integrated-circuits%ef%bf%bc","status":"publish","type":"post","link":"https:\/\/itgeeks.in\/home\/?p=1149","title":{"rendered":"2K6EC\/AEI 505 : LINEAR INTEGRATED CIRCUITS"},"content":{"rendered":"\n

Module I (13 hours)<\/strong>
BJT differential amplifier analysis – concept of CMRR – methods to improve CMRR – constant current source – active load – current mirror – Darlington pair – differential input impedance – various stages of an operational amplifier – simplified schematic circuit of op-amp 741 – need for compensation – lead, lag and lead lag compensation schemes – typicalop-amp parameters – slew rate – power supply rejection ratio – open loop gain – unity gain bandwidth – offset current & offset voltage
Module II (12 hours)<\/strong>
MOS differential amplifier – source coupled pair – source cross coupled pair – current source load and cascode loads – wide swing current differential amplifier – wide swing constant transconductance differential amplifier – CMOSopamp with and without compensation – cascode input opamp – typical CMOS opamp parameters
Module III (11 hours)<\/strong>
Linear opamp circuits – inverting and noninverting configurations – analysis for closed loop gain – input and output impedances – virtual short concept – current to voltage and voltage to current converters – instrumentation amplifier – nonlinear opamp circuits – log and antilog amplifiers – 4 quadrant multipliers and dividers – phase shift and wein bridgeoscillators – comparators – astable and monostable circuits – linear sweep circuits
Module IV (16 hours)<\/strong>
Butterworth, Chebychev and Bessel approximations to ideal low pass filter characteristics – frequency transformations to obtain HPF, BPF and BEF from normalized prototype LPF – active biquad filters – LPF & HPF using Sallen-Key configuration – BPF realization using the delyannis configuration – BEF using twin T configuration – all pass filter (first & second orders) realizations – inductance simulation using Antoniou\u2019s gyrator.<\/p>\n\n\n\n

Text books<\/strong>
1. Jacob Baker R., Harry W Li & David E Boyce, \u2018CMOS- Circuit Design, Layout & Simulation\u2019, PHI<\/a>
2. Sergio Franco, \u2018Design with Operational Amplifiers and Analog Integrated Circuits\u2019, McGraw Hill Book Company<\/a>
3. James M Fiore, \u2018Operational Amplifiers and Linear Integrated Circuits\u2019, Jaico Publishing House<\/a>
4. Gaykward, Operational Amplifiers, Pearson Education<\/a>
Reference books<\/strong>
1. Gobind Daryanani, \u2018Principles of Active Network Synthesis & Design\u2019, John Wiley
2. Sedra A.S. & Smith K.C., \u201cMicroelectronic Circuits\u2019, Oxford University Press<\/a>
3. Robert F Coughlin & Frederick F Driscoll, \u2018Operational Amplifiers and Linear Integrated Circuits\u2019, Fourth Edition, Pearson Education<\/a>
4. Mark N Horenstein, \u2018Microelectronic Circuits & Devices\u2019, PHI<\/p>\n\n\n\n

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S5 Question Papers<\/a><\/div>\n\n\n\n
Notes<\/a><\/div>\n<\/div>\n","protected":false},"excerpt":{"rendered":"

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