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Voltage commutation: This is possible in ac circuits...The thyristor gets turned off by reverse bias (negative half cycle) voltage applied across it. This is also called line commutation. Current Commutation: This is possible in dc circuits ...This type of commutation makes use of auxiliary circuit which contains inductor,capacitor,diode and even a thyristor(auxiliary). This is called Forced commutation.
Commutation in a rectifier: Refers to the process of transfer of current from one device (diode or thyristor) to the other in a rectifier. The device from which the current is transferred is called the "out going device" and the device to which the current is transferred is called the "incoming device". The incoming device turns on at the beginning of commutation while the out going device turns off at the end of commutation.Commutation failure: Refers to the situation where the out going device fails to turn off at the end of commutation and continues to conduct current.
For the same reason that its used in transistors and resistors...Its a semiconductor.
A transistor can electronically switch the output by controlling the flow of current between its two terminals, called the collector and emitter. It has a third terminal, called the base, which acts as a control input. When a small current is applied to the base terminal, it influences the flow of current between the collector and emitter terminals, effectively turning the transistor "on" or "off" and allowing it to change the output state.
It's alternating current
i think i know this answer...line commutation is the commutation in single phase inverters/converters when there is current flow back to the source.. It can also refer to a method of turning of a semiconductor device known as a Thyristor or SCR, sometimes called natural commutation. In this method the current between the anode and cathode is interrupted or dropped to a point where the Thyristor can no longer maintain its latch or keep conducting, shutting the device off.
Function of a thyristorA thyristor - also known as an SCR (silicon controlled rectifier) - is like a very fast static switch and is good for controlling large amounts of power (called power regulation) and for controlling the speed of dc motors. Another typical application is to make dimmers for lighting circuits.How it worksA thyristor is semiconductor device having 3 electrodes:an anodea cathodea gateNo current can travel from the anode to the cathode until a pulse which has the right amount of voltage (called the "trigger voltage") has been applied to the gate for the right minimum amount of time (called the "trigger duration") which causes the thyristor to switch on to allow current to flow through it from the source to the load.After being triggered, current continues to flow through the thyristor from the source to the load until either:the load gets disconnected from the thyristor by some other means orthe supply of current from the source to the thyristor gets turned off by some other means.
thyristor can be turned off only by reducing the anode current belaw a certain value called holding current by abdullahi yusuf gedi
Voltage commutation: This is possible in ac circuits...The thyristor gets turned off by reverse bias (negative half cycle) voltage applied across it. This is also called line commutation. Current Commutation: This is possible in dc circuits ...This type of commutation makes use of auxiliary circuit which contains inductor,capacitor,diode and even a thyristor(auxiliary). This is called Forced commutation.
the vertex, or very bottom point.I can also be called the maximum or minimum.
There is no difference. The terms "firing" and "triggering" both mean exactly the same.As long as the voltages applied to both the anode and the gate have the correct values and polarities for a particular design of thyristor, "firing" or "triggering" will cause current to switch on between the thyristor's anode and cathode. The current will then continue to flow for as long as the correct source voltage polarity is maintained onto the anode.Another opinionIf the input signal is given to a thyristor, it is said to be gated. Because of gating pulse the thyristor gets triggered ( cause & effect relationship). Once the thyristor is triggered the charged particles starts moving inside the different layers. A noise is created called "SHOT NOISE", due to the movement of charged particles. Heat energy is dissipated due to this movement of charged particles. Once the thyristor reaches this stage it is said to be fired. Hence, there is a minute difference between these three terms. But all these terms are being used interchangeably.
The thyristor is basically used a switch in an AC circuit to control the amount of power fed to the load. To turn on this switch an "electric" pulse should be applied to the Gate terminal of the Thyristor. A circuit which supplies the "electric" pulse is called the firing circuit.
its output voltage can be conrolled by changing gate signal akash pilani
Commutation in a rectifier: Refers to the process of transfer of current from one device (diode or thyristor) to the other in a rectifier. The device from which the current is transferred is called the "out going device" and the device to which the current is transferred is called the "incoming device". The incoming device turns on at the beginning of commutation while the out going device turns off at the end of commutation.Commutation failure: Refers to the situation where the out going device fails to turn off at the end of commutation and continues to conduct current.
The 3 wires on a Thyristor are colour coded in order not to connect the wrong wire to the incorrect part of the circuit. The three wires are called: anode (OV), cathode (output) and gate (input signal). Sorry I don't know the colours but I hope this helps.
It is a variable resistor. Basically, the same as when you turn up or down the heat on an electrical oven or radio.
turning the tassel or turning of the tassel.