Question
Download Solution PDFThe flow of small current during the reverse biased condition in a diode is known as:
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SSC JE EE Previous Paper 10 (Held on: 10 Dec 2020)
Answer (Detailed Solution Below)
Option 4 : leakage current
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RRB JE CBT I Full Test - 23
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Download Solution PDF- When a diode is reversed bias, the width of the depletion region increases. This restricts the current carrier accumulation near the junction.
- Majority current carriers are primarily negated in the depletion region and hence the depletion region acts as an insulator. Normally, current carriers do not pass through an insulator.
- It is seen that in a reverse-biased diode, some current flows through the depletion region. This current is called leakage current.
- Leakage current is dependent on minority current carriers. the minority carriers are electrons in the P type material and holes in the N type material.
- The following figure shows how current carriers react when a diode is reverse biased.
- Minority carriers of each material are pushed through the depletion zone to the junction. This action causes a very small leakage current to occur. Generally, leakage current is so small that it can be considered as negligible.
- Here, in case of leakage current, temperature plays an important role. The minority current carriers are mostly temperature dependent.
- At room temperatures of 25°C or 78°F, there is negligible amount of minority carriers present in a reverse bias diode.
- When the surrounding temperature rises, it causes significant increase in minority carrier creation and as a result it causes a corresponding increase in leakage current.
- In all reverse-biased diodes, occurrence of leakage current is normal to some extent.
- In Germanium and Silicon diodes, leakage current is only of few micro-amperes and nano-amperes, respectively.
- Germanium is much more susceptible to temperature than silicon. For this reason, mostly Silicon is used in modern semiconductor devices.
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