Analog and Digital Circuits detailed syllabus scheme for B.Tech Biomedical Engineering (BM), 2018-19 onwards has been taken from the DBATU official website and presented for the Bachelor of Technology students. For Subject Code, Course Title, Lecutres, Tutorials, Practice, Credits, and other information, do visit full semester subjects post given below.
For all other DBATU Syllabus for Biomedical Engineering 3rd Sem 2018-19, do visit BM 3rd Sem 2018-19 Onwards Scheme. The detailed syllabus scheme for analog and digital circuits is as follows.
Analog and Digital Circuits Syllabus for Biomedical Engineering (BM) 2nd Year 3rd Sem 2018-19 DBATU
Course Objectives:
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Course Outcomes:
- To understand the basic analog and digital logic circuits.
- To familiarize the concepts of counters and flip-flops
- To gain knowledge about the memory organization and memory devices
- To understand the concepts of different digital logic families for various applications
- To study the applications of digital systems in the medical field
Unit I
Physical structure and equivalent circuit models (large and small signal) of diode. Zener, photodiode, Vari-cap, Schoktty diode, tunnel diode, power diode. Solar cell, direct band gap materials. Load line, graphical and iterative methods to obtain the current in a circuit that has a linear element like resistor and a non-linear device like diode. Rectifier circuits, Peak detector, voltage doubler, Shunt regulator using zener diodes. Physical structure and large and small signal models of BJT. Hybrid p model with Early effect, Logic Inverter, transistor as a switch, CE amplifier, biasing network, basic current mirror, current steering circuits, improved current mirrors such as Wilson current mirror, Widlar current source, etc.
Unit II
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Unit III
Frequency response of BJT and MOSFET based CE amplifiers and differential amplifiers, High frequency models and equivalent circuits. Op-amp fundamentals, basic circuits like integrator, practical integrator, buffer, inverting, non-inverting, differential and instrumentation amplifiers, negative impedance converter, generalized impedance converter.
Unit IV
Static opamp limitations and compensating methods including on-chip, external and auto-zero schemes, chopper stabilized amplifiers. Switched-capacitor circuits, filters, precision rectifier circuits, current sources for floating and grounded loads, current amplifier, controlled positive feedback to increase input impedance, active compensation for input capacitance. Dynamic opamp limitations, slew rate, Full power band width, Noise, frequency response of opamps, Feedback stability issues and frequency compensation methods, log/antilog amplifiers, analog multipliers, Transconductance and transimpedance amplifiers.
Unit V
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Unit VI
Latches, racing, master salve flip-flops, characteristic equations, sequential circuits. Synchronous state machine analysis, Moore and Mealy machines, state table, state diagram, design of synchronous state machines, ASM chart, design using programmable devices like PAL, PLA, FPGA etc.
Reference Books:
- Sedra and Smith, Microelectronic circuits.
- Donald A Neamen, Electronic circuit analysis and design.
- Ananth Agarwal, Foundations of analog and digital electronics.
- Jerald G Graeme, Operational amplifiers -Design and applications.
- Raon Pallas Arney, Analog signal processing.
- Sergio Franco, Design with operational amplifiers and analog integrated circuits
For detail syllabus of all other subjects of Biomedical Engineering (BM) 3rd Sem 2018-19 regulation, visit BM 3rd Sem Subjects syllabus for 2018-19 regulation.