draw the characteristics of the curve of a Zener diode and to determine its reverse breakdown voltage?
Answers
Explanation:
AIM
To draw the voltage-current (V-I) characteristic curves of a Zener diode and to determine its knee voltage, forward resistance and reverse breakdown voltage.
APPARATUS REQUIRED
Zener diode IZ5.6V, variable dc power supply (0 – 15V), milli ammeter, volt meter, 470 Ω resistance, and connecting wires.
FORMULA
where,
RF → Forward resistance of the diode (Ω)
∆VF → The change in forward voltage (volt)
∆IF → The change in forward current (mA)
CIRCUIT DIAGRAM
Figure (a) Zener diode and its symbol (The black colour ring denotes the negative terminal of the Zener diode)
Figure (b) Zener diode in forward bias
Figure (c) Zener diode in reverse bias
Precaution
Care should be taken to connect the terminals of ammeter, voltmeter, dc power supply and the Zener diode with right polarity.
PROCEDURE
i) Forward bias characteristics
· In the forward bias, the P- region of the diode is connected to the positive terminal and N-re-gion to the negative terminal of the DC power supply.
· The connections are given as per the circuit diagram.
· The voltage across the diode can be varied with the help of the variable DC power supply.
· The forward voltage (VF) across the diode is increased from 0.1V in steps of 0.1V up to 0.8V and the forward current (IF) through the diode is noted from the milli-ammeter. The read-ings are tabulated.
· The forward voltage and the forward current are taken as positive.
· A graph is drawn taking the forward voltage along the x-axis and the forward current along the y-axis.
· The voltage corresponding to the dotted line in the forward characteristics gives the knee voltage or threshold voltage or turn-on voltage of the diode.
· The slope in the linear portion of the forward characteristics is calculated. The reciprocal of the slope gives the forward resistance of the diode.
ii) Reverse bias characteristics
· In the reverse bias, the polarity of the DC power supply is reversed so that the P- region of the diode is connected to the negative terminal and N-region to the positive terminal of the DC power supply
· The connections are made as given in the circuit diagram.
· The voltage across the diode can be varied with the help of the variable DC power supply.
· The reverse voltage (VR) across the diode is increased from 0.5V in steps of 0.5V up to 6V and the reverse current (IR) through the diode is noted from the milli-ammeter. The readings are tabulated.
· Initially, the voltage is increased in steps of 0.5V. When the breakdown region is approxi-mately reached, then the input voltage may be raised in steps of, say 0.1V to find the break-down voltage.
· The reverse voltage and reverse current are taken as negative.
· A graph is drawn taking the reverse bias voltage along negative x-axis and the reverse bias current along negative y-axis.
· In the reverse bias, Zener breakdown occurs at a particular voltage called Zener voltage VZ (~5.6 to 5.8V) and a large amount of current flows through the diode which is the character-istics of a Zener diode.
· The breakdown voltage of the Zener diode is determined from the graph as shown.
Zener diode is a semiconductor diode that allows the flow of current in both forward and reverse directions.
Explanation:
- Zener diode is a semiconductor diode that allows the flow of current in both forward and reverse directions.
- In this diode, p-type and n-type sections are heavily dopped.
- These p-type and n-type junctions are dipped with impure atoms.
- This heavy dopping causes a low reverse breakdown voltage.
- This value of low breakdown voltage is controlled during the manufacturing of Zener diode.