Syllabus
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Course Code: EP-904(A) Course Name: Advance Engineering Electronics-I |
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| MODULE NO / UNIT | COURSE SYLLABUS CONTENTS OF MODULE | NOTES |
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| 1 | OPERATIONAL AMPLIFIERS The basic Operational-Amplifier: Ideal Op-Amp, block diagram of Op. Amp, Practical Inverting & Noninverting Op-Amp; Differential amplifier: CMRR, circuit configuration, Emitter-coupled differential amplifier, Differential amplifier supplied with constant current, transfer characteristics of a differential amplifier; Off-set Error currents and voltages: Input bias current, Input offset current, input offset drift, input offset voltage, input offset voltage drift, output offset voltage, PSRR, Slew rate; Universal balancing techniques; Inverting and non-inverting Op-Amp’s basic applications: Sign changer or inverter, Scale changer, Phase changer, Adder or Summing operation, current to voltage & voltage to current signal conversion, differential dc amplifier, voltage follower, analog integrator & differentiator, Electronic analog computation, Logarithmic & antilogarithmic amplifier, Waveform generator-square wave generator (astable multivibrator), Pulse generator (monostable multivibrator) & Triangular wave generator. |
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| 2 | DIGITAL CIRCUITS Binary numbers, Octal numbers, Hexadecimal numbers, Inter-conversions of numbers. Binary addition, subtraction, multiplication, division, Hexadecimal addition, subtraction , Octal addition, subtraction signed numbers, 1’s complement arithmetic, 2’s complement arithmetic, Digital (Binary) operation of a system; Logic system: DC Positive and negative logic designations, Positive and negative pulse logic; The OR gate & The AND gate: Circuit in Diode logic (DL), Boolean expression, truth table, Boolean Identities; The NOT gate: Boolean expression, truth table, Boolean Identities, Transistor logic circuit; The NAND gate & The NOR gate: Diode Transistor logic circuit, Boolean expression, truth table, Boolean Identities; The Exclusive OR gate: Boolean notation, truth table and two logic block diagrams for XOR gate; DeMorgan’s Laws & Boolean algebra. |
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| 3 | COMBINATIONAL DIGITAL SYSTEMS Binary adders: Half adders, full adders, MSI adder, serial operation; Arithmetic functions; True/complement, Zero/one element, Binary subtraction, Digital comparator, parity checker/generator; Decoder: Binary-coded-decimal (BCD) system, BCD-to-decimal decoder, Demultiplexer: 4-to-16 line decoder, decoder/lamp driver, Multiplexer (Data selector): Applications- Parallel to serial conversion, sequential data selection; Encoders; Read Only Memory (ROM): Conversion of Binary to a Gray code & Gray to Binary conversion, ROM applications-Look-up table, sequence generator, seven segment visible display, combinational logic & character generator. |
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| 4 | SEQUENTIAL DIGITAL SYSTEMS A 1-BIT Memory: A sequential system, A 1-BIT storage cell, The clocked S-R Flip-Flop; Flip-Flops: The JK flip Flop- Logic symbol, truth table, preset and clear & race-around condition , Master slave JK flip-flop: T-type & D-type flip flops – Logic symbols and truth table; Shift-register and applications-serial to parallel converter, series in series out register, Parallel to serial converter, Parallel in Parallel out , Right shift, left shift register, digital delay line, sequence generators, shift-Register as ring counter, twisted-ring counter; Ripple (Asynchronous) counters: Ripple counter, Up-down counter, Divide by N counter; Synchronous counters: series carry, parallel carry, Applications of counters: Direct counting, Divide the frequency by N, measurement of frequency, time, distance & speed, wave form generator. D/A and A/D Systems Digital to analog converters: Weighted resistor type D/A converter, Ladder type D/A converter; Analog to Digital converter. |
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