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When a high reverse voltage is applied to a PN junctions:
- a)Zener break down occurs
- b)Avalanche break down occurs
- c)It becomes a transistor
- d)None of the above
Correct answer is option 'B'. Can you explain this answer?
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When a high reverse voltage is applied to a PN junctions:a)Zener break...
- Avalanche breakdown occurs when we apply a high reverse voltage across the PN junction
- When we increase the applied reverse voltage across the PN junction, the electric field across the junction will keep increasing
- This electric field exerts a force on the electrons at the junction and it frees them from covalent bonds
Most Upvoted Answer
When a high reverse voltage is applied to a PN junctions:a)Zener break...
Avalanche Breakdown in PN Junctions
A PN junction is formed by the contact of p-type and n-type semiconductor materials. It is a basic building block of many electronic devices, such as diodes, transistors, and solar cells. When a high reverse voltage is applied across a PN junction, it can cause a breakdown phenomenon known as avalanche breakdown.
Explanation:
- Reverse Bias: In a PN junction, when a voltage is applied across it in the reverse direction (i.e., the p-side is connected to the negative terminal and the n-side is connected to the positive terminal of the voltage source), it is said to be in reverse bias.
- Electric Field: The applied reverse voltage creates an electric field in the depletion region of the junction. The depletion region is a thin layer near the junction where no free charge carriers (electrons or holes) exist due to the diffusion of these carriers from one side to the other.
- Electron-hole Pair Generation: The electric field accelerates the few free charge carriers present in the depletion region, and they gain enough energy to collide with the atoms of the lattice structure. These collisions can ionize the atoms, creating electron-hole pairs.
- Avalanche Effect: The newly generated electron-hole pairs can themselves become accelerated by the electric field and collide with other atoms, creating more electron-hole pairs. This chain reaction can lead to an exponential increase in the number of carriers, resulting in a current surge through the junction. This phenomenon is called the avalanche effect.
- Breakdown: If the current surge is not limited, it can damage the junction or the device connected to it. Therefore, the avalanche breakdown is a controlled breakdown mechanism that occurs at a specific voltage (called the breakdown voltage) and current level. The breakdown voltage depends on the doping concentration, thickness, and temperature of the junction.
Conclusion:
In summary, when a high reverse voltage is applied to a PN junction, it can cause an avalanche breakdown due to the creation of electron-hole pairs and their acceleration by the electric field. This breakdown mechanism is useful in some applications, such as voltage regulators and surge protectors, but can be detrimental in others, such as power supplies and amplifiers.
A PN junction is formed by the contact of p-type and n-type semiconductor materials. It is a basic building block of many electronic devices, such as diodes, transistors, and solar cells. When a high reverse voltage is applied across a PN junction, it can cause a breakdown phenomenon known as avalanche breakdown.
Explanation:
- Reverse Bias: In a PN junction, when a voltage is applied across it in the reverse direction (i.e., the p-side is connected to the negative terminal and the n-side is connected to the positive terminal of the voltage source), it is said to be in reverse bias.
- Electric Field: The applied reverse voltage creates an electric field in the depletion region of the junction. The depletion region is a thin layer near the junction where no free charge carriers (electrons or holes) exist due to the diffusion of these carriers from one side to the other.
- Electron-hole Pair Generation: The electric field accelerates the few free charge carriers present in the depletion region, and they gain enough energy to collide with the atoms of the lattice structure. These collisions can ionize the atoms, creating electron-hole pairs.
- Avalanche Effect: The newly generated electron-hole pairs can themselves become accelerated by the electric field and collide with other atoms, creating more electron-hole pairs. This chain reaction can lead to an exponential increase in the number of carriers, resulting in a current surge through the junction. This phenomenon is called the avalanche effect.
- Breakdown: If the current surge is not limited, it can damage the junction or the device connected to it. Therefore, the avalanche breakdown is a controlled breakdown mechanism that occurs at a specific voltage (called the breakdown voltage) and current level. The breakdown voltage depends on the doping concentration, thickness, and temperature of the junction.
Conclusion:
In summary, when a high reverse voltage is applied to a PN junction, it can cause an avalanche breakdown due to the creation of electron-hole pairs and their acceleration by the electric field. This breakdown mechanism is useful in some applications, such as voltage regulators and surge protectors, but can be detrimental in others, such as power supplies and amplifiers.
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When a high reverse voltage is applied to a PN junctions:a)Zener break down occursb)Avalanche break down occursc)It becomes a transistord)None of the aboveCorrect answer is option 'B'. Can you explain this answer?
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