Device Physics I

IIT Roorkee July 2018

8 Jan 201928:12

Summary

TLDRThis lecture delves into advanced power electronics, focusing on device physics, particularly power diodes and thyristors. It discusses the evolution and capabilities of power diodes, highlighting their higher voltage blocking and conduction losses compared to conventional diodes. The lecture also touches on semi-controlled devices like thyristors, which can be turned on but not off, and their significance in power electronics since their invention in 1956. The discussion sets the stage for upcoming classes on thyristors, GTOs, and other power electronics devices.

Takeaways

📚 The lecture series focuses on advanced power electronics control, with the third lecture dedicated to device physics, specifically discussing SCS and power diodes.
🔌 Power diodes are designed to handle significantly higher power levels compared to conventional diodes, with capabilities 1000 to 10^6 times higher.
🌐 The power diode's n-drift region is crucial for its high reverse blocking capability, which results in a higher forward voltage drop compared to standard diodes.
⚡ The diode's forward characteristics are similar to those of a standard diode, but the forward voltage is generally higher due to the increased blocking capability.
🔄 Diodes are uncontrolled devices with reverse blocking and forward conduction capabilities, making them suitable for applications like rectifiers.
📉 The dynamic characteristics of diodes, including turn-on loss and reverse recovery time (trr), are essential for understanding their performance in circuits.
💡 Schottky diodes offer extremely fast recovery times and low forward voltage drops, making them ideal for low output voltage circuits and high-frequency applications.
🌐 The script introduces various diode types, including fast recovery diodes, which are crucial for high-frequency applications due to their quick trr.
📈 The lecture also touches on the history and development of power electronics devices, emphasizing the significance of the thyristor's invention in 1956.
🔄 Thyristors are semi-controlled devices with the ability to control the turn-on but not the turn-off, leading to extensive research on commutation techniques.

Q & A

What is the main focus of the third lecture on advanced power electronics control?
-The main focus of the third lecture is on device physics, specifically discussing the characteristics and applications of power diodes and thyristors.
What is the difference between a conventional diode and a power diode?
-A power diode has a much higher power handling capability, at least 1000 times higher or even 10 to the power 6 times higher than a conventional diode. It also has a higher forward voltage drop due to its larger drift region, which provides a higher reverse blocking capability.
Why is the forward voltage drop of a power diode higher than that of a conventional diode?
-The forward voltage drop of a power diode is higher due to the presence of a drift region, which is designed to handle higher voltages and current loads, resulting in higher conduction losses.
What is a thyristor and how does it differ from a diode?
-A thyristor is a semi-controlled device that combines two PN junctions in series, unlike a diode which is a single PN junction. It can be turned on by a signal but cannot be turned off by a signal; it requires an external commutation process to turn it off.
What is the significance of the reverse recovery time (trr) in diodes?
-The reverse recovery time (trr) is a critical parameter that affects the diode's performance in switching applications. A shorter trr is necessary for high-frequency applications to minimize switching losses and electromagnetic interference (EMI).
Why are Schottky diodes preferred in low output voltage circuits?
-Schottky diodes are preferred in low output voltage circuits because they have a lower forward voltage drop, typically around 0.3 volts, which reduces power loss and increases efficiency.
What are the typical applications for ultrafast diodes with a reverse recovery time (trr) in the nanosecond range?
-Ultrafast diodes with a reverse recovery time (trr) in the nanosecond range are typically used in high-frequency applications such as switch-mode power supplies (SMPS) where fast switching is required.
How does the leakage current of a power diode compare to that of a low signal diode?
-The leakage current of a power diode is generally higher than that of a low signal diode due to the larger drift region and the higher doping levels required for blocking higher voltages.
What is the role of the n-drift region in a power diode?
-The n-drift region in a power diode is designed to absorb the depletion layers and provide a higher reverse blocking capability. It also contributes to the higher forward voltage drop when the diode is forward biased.
Why are thyristors considered semi-controlled devices in power electronics?
-Thyristors are considered semi-controlled devices because they allow control over the turn-on process but do not provide a means to control the turn-off process, which necessitates external commutation techniques.