Experiment No.: 4(A) Experiment Name: Realization of Half Adder, Full Adder Objective: To implement the circuit and verify the circuit with truth table of Half adder Full adder Theory: Half adder: The simplest combinational circuit performs the arithmetic addition of two binary digit is called Half Adder. The half adder has 2 input and 2 […]
Experiment No.: 4 Experiment Name: Use of Voltmeter, Ammeter, Wattmeter to Determine Active, Reactive and Apparent PowerConsumed in Given R-L-C Series Circuit and Draw Phasor Diagram. Objective: To use voltmeter, ammeter, wattmeter to determine active, reactive and apparent powerconsumed in given R-L-C series circuit. To draw the phasor diagram of that circuit. Theory: Let V
Experiment No.: 3 Experiment Name: Verification of Kirchhoff’s Current Law and Kirchhoff’s Voltage Law. Objective: To verify Kirchhoff’s Current Law To verify Kirchhoff’s Voltage Law Theory: Kirchhoff’s Current Law : The algebraic sum of current at any junction of a system of conductors is zero, i.e. the sum of the currents flowing into a junction
Experiment No.: 5 Experiment Name: Determine the regulation & efficiency of single-phase transformer by direct loading method. Objective: To determine Regulation of single-phase transformer by direct loading method Efficiency of single-phase transformer by direct loading method Theory: Although two chief difficulties which do not warrant the testing of large transformer by direct load test are:
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Experiment No.: 3 Experiement Name: Construction of full-wave rectifier circuit & draw input, output waveforms – with filters andwithout filters. Objective: To construct full-wave rectifier circuit. To draw input, output waveforms – with filters and without filters. Theory: The conversion of AC into DC is called Rectification. Electronic devices can convert AC power into DC
Experiment No.: 3 Experiment Name: Use two watt-meters for measuring active power of three-phase balanced load. Objective: To use two watt-meters for measuring active power of three-phase balanced load. Theory: For Balance Load Condition: The above equation shows that the sum of the two wattmeter readings gives the total power consumed in the three-phase balanced
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Experiment No.: 4(B) Experiment Name: Determination of equivalent circuit parameters of single-phase transformer by performing Short Circuit test Objective: The objective of the experiment is to find out Copper loss at any load Different parameters of the transformer with respect to high voltage side & low voltage side (i.e. equivalent resistance, equivalent impedance etc.), with
Experiment No.: 1 Experiment Name: To study control components – Electromagnetic contactor, Thermal overload relay, Timer (Off delay, On delay), Push button Switches, Solenoid valve, MCB. Objective: To study, Electromagnetic Contactor Thermal Overload Relay Timer (Off Delay & On Delay) Push Button Switch Solenoid Valve MCB Therory: 1. Electromagnetic Contactor: A contactor can be best
Plate 1 (A) : LAYOUT PLAN SHOWING LOCATION OF MAIN CONTROL BOARD, MOTOR CONTROL BOARD, MOTOR ETC. Plate 1(B) : INSTALLATION PLAN SHOWING LOCATION OF MAIN CONTROL BOARD, MOTOR CONTROL BOARD, MOTOR ETC. Plate 2 : SINGLE LINE DIAGRAM AND LAYOUT PLAN OF 11KV INDOOR SUBSTATION Plate 3 : SECTIONAL DRAWING OF DIFFERENT TYPES OF
ELECTRICAL DESIGN, ESTIMATION & COSTING LAB (USING CAD) Read More »
Experiment No.: 4 Experiment Name: Identify the Routine Maintenance Parts of the Large Hydro Power Plant after Watching a Video Programme Objective: To identify different parts of large hydro power plant. Theory: The major components of a Hydroelectric Power Plant are:- Dam/Barrage- Head works i.e. power intake, head regulator and desilting chambers etc. Head race
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