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Electrical Engineering
Electrical Engineering
Virtual High Voltage lab
Virtual High Voltage lab
Analog Signals, Network and Measurement Laboratory
Analog Signals, Network and Measurement Laboratory
Medium Resistance Measurement by Ammeter Voltmeter Metheod
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Measurement of Capacitance by Wien Series Bridge
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Measurement of Relative permittivity by Schering Bridge
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Mutual Inductance measurement by Campbell's Bridge
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Verification of Substitution Theorem
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Mutual Inductance measurement by Heaviside Bridge
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Self-Inductance and Capacitance measurement by Resonance Bridge
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Low Capacitance measurement by High Voltage Schering Bridge
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Self Inductance measurement of an unknown coil by Heaviside Campbell Equal Ratio Bridge
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Verification of Compensation Theorem
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Verification of Superposition Theorem
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Verification of Thevenin Theorem
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Verification of Reciprocity Theorem
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Verification of Norton Theorem
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Verification of Tellegen's Theorem
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Measurement of Capacitance by Schering Bridge
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Mesurement of Self Inductance by Owen Bridge
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Measurement of Self Inductance by Maxwell's Bridge
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Measurement of Capacitance by Carey Foster Bridge
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Verification of Millmanâ€™s Theorem.
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Tests on Single Phase Transformer
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Verification of Maximum Power Transfer Theorem.
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Determination of different parameters of Two-port network and verification of their interrelations.
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Measurement of Self-Inductance by Maxwell Bridge
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Measurement of Capacitance by De Sauty's (Modified) bridge
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To study the Wien Robinson's Frequency Bridge.
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To study the Kelvin Double Bridge for Low resistance measurement .
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To determine Mutual Inductance measurement by Campbell's Modification of Heaviside Bridge
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To determine the High Resistance by Megohm Bridge method
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Q meter Experiment
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Precision Resistance Measurement by Carey Foster Slide-Wire Bridge.
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R-L-C Circuit Analysis
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Measurement of Self Inductance of High Quality Factor Coil by Hay's Bridge
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Mutual Inductance measurement by Heydweiller Bridge
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Measurement of Self Inductance accurately by Anderson's Bridge
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Three Phase Power Measurement
Real Time Embedded Systems Laboratory
Real Time Embedded Systems Laboratory
Expt-1:DF-Part1: Digital FIR filter design and simulation
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Expt-2: DF-Part2: Fixed point Implementation of Digital FIR Filter
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Expt-3: DF-Part3: MCU-DAC interfacing and generation of ramp wave
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Expt-4:DF-Part4: Interfacing of ADC and data trasnfer by software polling, study of aliasing
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Expt-5:DF-Part5: ADC triggering through timer(On Chip Timer)
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Expt-6:DF-Part6: Interrupt driven data transfer from ADC
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Expt-7:DF-Part7 Implementation of Digital FIR Filter on 8051 Microcontroller
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Expt-8:SM-Part1: LCD - MCU interfacing and displaying a string
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Expt-9:SM-Part2 Keyboard-MCU interfacing take a input from keypad and display on LCD
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Expt-10:SM-Part3: Stepper Motor Control Using ATMEGA-16 Microcontroller
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Expt-11:HN-Part1: Interface a LED matrix and display a number on the matrix.
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Expt-12:HN-Part2: Interfacing 4x4 switch matrix with the microcontroller
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Expt-13:HN-Part3: Implementation of Hopfield network in C to recognize a simple ASCII character.
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Expt-14:HN-Part4: Implementation of Hopfield Network on ATMEGA-16 microcontroller
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Expt-15:SC: Serial Communication between micro controller and PC
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Expt-16:TC: Temperature control using ATmega16
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