Zener Diodes | Analog and Digital Electronics - Electrical Engineering (EE) PDF Download

ZENER DIODES
 

The Zener diode is like a general-purpose signal diode consisting of a silicon PN junction. When biased in the forward direction, it behaves just like a normal signal diode passing the rated current, but as soon as a reverse voltage applied across the zener diode exceeds the rated voltage of the device, the diode's breakdown voltage VB is reached (the point at which Avalanche Breakdown occurs)  in the semiconductor depletion layer and a current starts to flow through the diode to limit this increase in voltage.

The current now flowing through the zener diode increases drastically to the maximum circuit value (which is usually limited by a series resistor) and once achieved this reverse saturation current remains fairly constant over a wide range of applied voltage. This breakdown voltage point, VB is called the "zener voltage" for zener diodes and ranges from less than one volt to hundreds of volts.

The point at which the zener voltage triggers the current to flow through the diode can be very accurately controlled (to less than 1% tolerance) in the doping stage of the semiconductor diode construction giving the diode a specific zener breakdown voltage, (Vz) for example, 4.3V or 7.5V. This zener breakdown voltage on the I-V curve is almost a vertical straight line.

Zener Diode I-V Characteristics
 

Zener Diodes | Analog and Digital Electronics - Electrical Engineering (EE)
 

The Zener Diode is used in its "reverse bias" or reverse breakdown mode, i.e. the anode  of the diode connects to the negative supply. From the I-V characteristics curve above, we can see that the zener diode has a region of almost constant negative voltage in its reverse bias characteristics regardless of the value of the current flowing through the diode and remains nearly constant even with large changes in current as long as the zener diodes current remains between the breakdown current IZ(min) and the maximum current rating IZ(max).

This ability can be used to regulate or stabilise a voltage source against supply or load variations. The fact that the voltage across the diode in the breakdown region is almost constant turns out to be an important application of the zener diode as a voltage regulator. The function of a regulator is to provide a constant output voltage to a load connected in parallel with it in spite of the ripples in the supply voltage or the variation in the load current and the zener diode will continue to regulate the voltage until the diode's current fall below the minimum IZ(min) value in the reverse breakdown region.

The document Zener Diodes | Analog and Digital Electronics - Electrical Engineering (EE) is a part of the Electrical Engineering (EE) Course Analog and Digital Electronics.
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FAQs on Zener Diodes - Analog and Digital Electronics - Electrical Engineering (EE)

1. What is a Zener diode?
A Zener diode is a type of diode that operates in the reverse breakdown region, allowing current to flow in the opposite direction. It is specifically designed to have a precise breakdown voltage, known as the Zener voltage, at which it starts conducting. This makes Zener diodes useful in voltage regulation applications.
2. How does a Zener diode work?
A Zener diode works by exploiting the avalanche breakdown or Zener effect. When the reverse voltage applied across the diode exceeds the Zener voltage, a high electric field is created across the junction. This causes a controlled avalanche of charge carriers, allowing a current to flow in the reverse direction. The Zener voltage remains constant, providing a stable voltage reference or voltage clamping functionality.
3. What are the applications of Zener diodes?
Zener diodes find applications in various electronic circuits. Some common uses include voltage regulation, voltage reference, surge protection, waveform shaping, and overvoltage protection. They are widely used in power supplies, voltage stabilizers, voltage clamps, and in precision measurement circuits where a stable voltage is required.
4. How do you select a Zener diode for a specific application?
When selecting a Zener diode, key parameters to consider include the desired Zener voltage, maximum power dissipation, breakdown current, and temperature coefficient. The Zener voltage should be higher than the desired regulated voltage but not too high to avoid excessive power dissipation. The maximum power dissipation determines the diode's ability to handle current without overheating. The breakdown current should be higher than the expected current in the circuit, and a low temperature coefficient ensures stable operation over a wide temperature range.
5. What is the difference between a regular diode and a Zener diode?
The main difference between a regular diode and a Zener diode lies in their behavior when operated in the reverse bias region. Regular diodes have a high breakdown voltage, and if the reverse voltage exceeds this value, the diode can get damaged. On the other hand, Zener diodes are designed to have a precisely defined breakdown voltage, allowing them to operate in the reverse breakdown region without being damaged. This property of Zener diodes makes them suitable for voltage regulation and other specialized applications.
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