GTO THYRISTOR PDF

A distributed buffer gate turn-off thyristor DB-GTO is a thyristor with additional PN layers in the drift region to reshape the field profile and increase the voltage blocked in the off state. Reverse bias[ edit ] GTO thyristors are available with or without reverse blocking capability. Reverse blocking capability adds to the forward voltage drop because of the need to have a long, low doped P1 region. Usually, the reverse blocking voltage rating and forward blocking voltage rating are the same.

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Rather than the gate being used to turn the thyristor on, within a gate turn-off thyristor, GTO, the gate pulse turns the device off. The additional capabilities of the gate-turn-gg thyristor enable it to be used in applications where a standard thyristor would not be suitable.

Although its use is more limited, it can be used in a number of specialist applications. These gate turn-off thyristors are useful in a number of areas, particularly within variable speed motor drives, high power, inverters and similar areas. Although they are not nearly as well known as the more standard forms of thyristor, the gate turn off thyristor, is now widely used as it is able to overcome many of the disadvantages of the traditional thyristor. As a result the gate turn-off thyristor is used in virtually all DC to AC and DC to DC high voltage conversion units Gate turn-off thyristor The capability for the gate turn off thyristor to be turned-on by a gate signal, and also turned-off by a gate signal of negative polarity give it a unique capability within the thyristor family of devices.

The device turn on is accomplished by a "positive current" pulse between the gate and cathode terminals. As the gate-cathode behaves like PN junction, there is a relatively small voltage between the terminals.

The turn on phenomenon in GTO is however, not as reliable as that of a standard thyristor and small positive gate current must be maintained even after turn on to improve reliability. Gate turn-off thyristor structure Like the standard thyristor, the gate turn-off thyristor is a four layer device having three junctions.

Again the layers are P N P N with the outside p layer providing the anode connection, and the outside n layer providing he cathode connection. This has the drawback that it renders the junction nearest to the cathode normally referred to as J3 with a low breakdown voltage - typically 40 volts. The doping level of the p region for the gate is graded. This is to provide good emitter efficiency for which the doping level should be low, while providing a good turn off characteristic for which a high doping level is needed.

High current devices, i. Another key parameter for a gate turn-off thyristor is the maximum forward blocking voltage. This is determined by the doping level and thickness of the n type base region. As many devices may need to block voltages of several kilovolts, the doping level of this region needs to be kept relatively low. Gate turn-off thyristor structure Gate turn off thyristor operation Many aspects of the Gate turnoff thyristor, GTO are very similar to that of the ordinary thyristor.

It can be thought of as being one PNP and one NPN transistor being connected in a regenerative configuration whereby once turned on the system maintains itself in this state. Equivalent circuit of a thyristor including a gate turn off thyristor When a potential is applied across the gate turn-off thyristor between the anode and cathode, no current will flow because neither device is turned on.

Current would only flow if the voltage exceeded the breakdown voltage and current would flow as a result of avalanche action, but this mode would not be wanted for normal operation. In this non-conducting state the gate turn-off thyristor is said to be in its forward blocking mode.

To turn the device on it is necessary to inject current into gate circuit of the device. When this is done, it turns on TR2 in the diagram. This pulls the collector of this transistor down towards the emitter voltage and in turn this turns on the other transistor - TR1.

The fact that TR1 is now switched on ensures current flows into the base of TR2, and thus this feedback process ensures that once the gate turn-off thyristor like any other thyristor is turned on it remains on. The key capability of the gate turn-off thyristor is its ability to be turned off by the use of the gate electrode on the device.

The device turn off is achieved by applying a negative bias to the gate with respect to the cathode. This extracts current from the base region of TR2. The resulting voltage drop in the base starts to reverse bias the junction and thereby stopping the current flow in this transistor - TR2.

This then stops the injection into the base region of TR1 and this prevents current flow in this transistor. In terms of the physics of the turn off phase, it is found that during the turn off phase of the GTO, current is crowded into higher and higher density current filaments in areas that are most remote from the gate region. These high current density areas become hot, and can cause device failure if the current is not extinguished quickly.

When the current filaments are extinguished, the overall current flow stops and the depletion layers around the junctions grow - the gate turn-off thyristor enters its forward blocking state again. Although the gate turn off thyristor has any similarities to the standard thyristor , its chief difference is that it has the capability of being able to be turned off by voltages on the gate.

This provides more capability for the device and enables the gate turn off thyristor to be used in areas where the standard thyristor cannot be used. Accordingly the gate turn off thyristor is a useful tool for many applications.

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