Delta and Wey 3-Phase Circuits
3-Phase circuits may vary from many different configurations, depending on whether the load is balanced or not the neutral conductor can be dismissed If an assemblyuses a Y the line currents in inductive loads are higher than the negative loads, so there is a special link between the line voltages and phase voltages where the line voltage is the root of threetimes larger than the magnitude of the phase voltages, some special cases load can be managed to equal consumption when varying from delta to wye configurations.
1. Resistive load is connected in Y,balanced, initially in the position of minimum power consumption, then is connected to the source forming a three-phase power three-wire circuit. 2. The load resistor is connected in Y, balanced,initially in the position of minimum power consumption, and then connected to the power forming a three-phase power four-wire circuit. 3. Resistive load is connected in delta, balanced, initially in theposition of minimum power consumption. When connecting the load there is an ammeter so that it can measure the phase currents. 4. Connecting the inductive load and resistive load and, balanced, theresistance initially in the position of minimum power consumption and inductive load in position 6. 5. Connecting the resistive loads and inductive loads in delta balanced resistive load initially turneddown power consumption and face inductive position 6, are connected loads to the power supply, forming a three-phase circuit. 6. Resistive load is connected in delta and the inductive load andbalanced resistive load initially turned down power consumption and the inductive load in position 6, are connected loads to the source forming a three-phase circuit.
III. DATA ANALYSIS
A breakthrough in technology was given by the Serbian inventor Nikola Tesla, hi discovered the rotary magnetic field, being the basis for polyphase systems of electricity generation and...
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