Analog Signals, Network and Measurement Laboratory

Analog Signals, Network and Measurement Laboratory

Medium Resistance Measurement by Ammeter Voltmeter Metheod
To determine Medium Resistance
Measurement of Capacitance by Wien Series Bridge
To determine the capacitance of an unknown capacitor
Measurement of Relative permittivity by Schering Bridge
To determine the relative permittivity of an dielectric materials
Mutual Inductance measurement by Campbell's Bridge
To determine mutual inductance of an unknown coil
Verification of Substitution Theorem
To verify Substitution Theorem of a linear electrical circuit.
Mutual Inductance measurement by Heaviside Bridge
To determine Mutual Inductance of a Bridge Circuit
Self-Inductance and Capacitance measurement by Resonance Bridge
To determine of Self-Inductance and Capacitance of an Unknown Coil.
Low Capacitance measurement by High Voltage Schering Bridge
To determine the Low Capacitance and Dissipation Factor.
Self Inductance measurement of an unknown coil by Heaviside Campbell Equal Ratio Bridge
To determine Self Inductance by using Mutual Inductance
Verification of Compensation Theorem
To verify the compensation theorem for linear circuit.
Verification of Superposition Theorem
To verify Superposition Theorem of a linear electrical circuit.
Verification of Thevenin Theorem
To verify Thevenin Theorem of a linear electrical circuit.
Verification of Reciprocity Theorem
To verify Reciprocity Theorem of a linear electrical circuit.
Verification of Norton Theorem
To verify Norton Theorem of a linear electrical circuit.
Verification of Tellegen's Theorem
To verify the Tellegen's Theorem for Linear Circuit.
Measurement of Capacitance by Schering Bridge
To determine the capacitance of an unknown capacitor.
Mesurement of Self Inductance by Owen Bridge
To determine Inductance of an unknown coil
Measurement of Self Inductance by Maxwell's Bridge
To determine the Inductance of an unknown coil
Measurement of Capacitance by Carey Foster Bridge
To determine capacitance of an unknown capacitor
Verification of Millman’s Theorem.
To verify Millman's Theorem of a linear electrical circuit.
Tests on Single Phase Transformer
To determine the Parameters of a Single Phase Transformer by conducting a) Open Circuit Test, and b) Short Circuit Test and finding the Efficiency and Regulation for a given load.
Verification of Maximum Power Transfer Theorem.
To verify Maximum Power Theorem.
Determination of different parameters of Two-port network and verification of their interrelations.
To determine Z, Y, h and ABCD parameters of single and cascade Two Port Network experimentally and verify their interrelationships.
Measurement of Self-Inductance by Maxwell Bridge
To determine the Self Inductance of an unknown coil.
Measurement of Capacitance by De Sauty's (Modified) bridge
To determine the Capacitance of a Capacitor.
To study the Wien Robinson's Frequency Bridge.
To determine the oscillator frequency of a bridge circuit.
To study the Kelvin Double Bridge for Low resistance measurement .
To determine low resistance.
To determine Mutual Inductance measurement by Campbell's Modification of Heaviside Bridge
To determine mutual Inductance of a Bridge Circuit
To determine the High Resistance by Megohm Bridge method
To determine the high resistance.
Q meter Experiment
To determine accurate Quality factor of an unknown coil .
Precision Resistance Measurement by Carey Foster Slide-Wire Bridge.
To determine Resistance precisely.
R-L-C Circuit Analysis
To analysis of R-L-C circuit for single phase power supply.
Measurement of Self Inductance of High Quality Factor Coil by Hay's Bridge
To determine the self inductance of a high quality factor unknown coil
Mutual Inductance measurement by Heydweiller Bridge
Mutual Inductance measurement in terms of standard capacitance
Measurement of Self Inductance accurately by Anderson's Bridge
Accurate self inductance measurement of an unknown coil by Anderson's Bridge
Three Phase Power Measurement
To measure power in a three phase circuit under i) Balanced resistive load condition. ii) Unbalanced resistive load condition.
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