Electrical Engineering

Virtual High Voltage Laboratory
Developed by: Dr. N K Kishore, Email: kishor@ee.iitkgp.ernet.in, Institute: Indian Institute of Technology, Kharagpur

New Link For Virtual High Voltage Laboratory
Analog Signals, Network and Measurement Laboratory
Developed by: Dr. Alok Kanti Deb, Email: alokkanti@ee.iitkgp.ernet.in, Institute: Indian Institute of Technology, Kharagpur

New Link For Analog Signals, Network and Measurement Laboratory || Medium Resistance Measurement by Ammeter Voltmeter Metheod || Measurement of Capacitance by Wien Series Bridge || Measurement of Relative permittivity by Schering Bridge || Mutual Inductance measurement by Campbell's Bridge || Verification of Substitution Theorem || Mutual Inductance measurement by Heaviside Bridge || Self-Inductance and Capacitance measurement by Resonance Bridge || Low Capacitance measurement by High Voltage Schering Bridge || Self Inductance measurement of an unknown coil by Heaviside Campbell Equal Ratio Bridge || Verification of Compensation Theorem || Verification of Superposition Theorem || Verification of Thevenin Theorem || Verification of Reciprocity Theorem || Verification of Norton Theorem || Verification of Tellegen's Theorem || Measurement of Capacitance by Schering Bridge || Mesurement of Self Inductance by Owen Bridge || Measurement of Self Inductance by Maxwell's Bridge || Measurement of Capacitance by Carey Foster Bridge || Verification of Millman’s Theorem. || Tests on Single Phase Transformer || Verification of Maximum Power Transfer Theorem. || Determination of different parameters of Two-port network and verification of their interrelations. || Measurement of Self-Inductance by Maxwell Bridge || Measurement of Capacitance by De Sauty's (Modified) bridge || To study the Wien Robinson's Frequency Bridge. || To study the Kelvin Double Bridge for Low resistance measurement . || To determine Mutual Inductance measurement by Campbell's Modification of Heaviside Bridge || To determine the High Resistance by Megohm Bridge method || Q meter Experiment || Precision Resistance Measurement by Carey Foster Slide-Wire Bridge. || R-L-C Circuit Analysis || Measurement of Self Inductance of High Quality Factor Coil by Hay's Bridge || Mutual Inductance measurement by Heydweiller Bridge || Measurement of Self Inductance accurately by Anderson's Bridge || Three Phase Power Measurement
Real Time Embedded Systems Laboratory
Developed by: Dr. Aurobinda Routray, Email: aroutray@ee.iitkgp.ernet.in, Institute: Indian Institute of Technology, Kharagpur

New Link For Real Time Embedded Systems Laboratory || Expt-1:DF-Part1: Digital FIR filter design and simulation || Expt-2: DF-Part2: Fixed point Implementation of Digital FIR Filter || Expt-3: DF-Part3: MCU-DAC interfacing and generation of ramp wave || Expt-4:DF-Part4: Interfacing of ADC and data trasnfer by software polling, study of aliasing || Expt-5:DF-Part5: ADC triggering through timer(On Chip Timer) || Expt-6:DF-Part6: Interrupt driven data transfer from ADC || Expt-7:DF-Part7 Implementation of Digital FIR Filter on 8051 Microcontroller || Expt-8:SM-Part1: LCD - MCU interfacing and displaying a string || Expt-9:SM-Part2 Keyboard-MCU interfacing take a input from keypad and display on LCD || Expt-10:SM-Part3: Stepper Motor Control Using ATMEGA-16 Microcontroller || Expt-11:HN-Part1: Interface a LED matrix and display a number on the matrix. || Expt-12:HN-Part2: Interfacing 4x4 switch matrix with the microcontroller || Expt-13:HN-Part3: Implementation of Hopfield network in C to recognize a simple ASCII character. || Expt-14:HN-Part4: Implementation of Hopfield Network on ATMEGA-16 microcontroller || Expt-15:SC: Serial Communication between micro controller and PC || Expt-16:TC: Temperature control using ATmega16
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