Electronic Devices - 1diode Char
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Diode Characteristics
BS P-III
Institute of Phsics
Voltage Current Characteristics of diode Objects of the experiment To understand the Voltage-Current characteristics of a janction diode.
Introduction The purpose of this experiment is for you to become familiar with the operating characteristics of the diode. The diode is the physical realization of the PN junction. Depending on which way the diode is biased, current either flows readily or is unable to flow. The circuit symbol for a diode and a diagram showing at which end the band appears on a real diode as well as the equivalent circuits for when the diode is forward- and reverse-biased are given below. Forward and reverse bias are defined by whether VA - VB = V A B is equal to (forward) or less than (reverse) the diode “turn-on” voltage V d . End A is known as the anode and end B as the cathode. So another definition of forward-biased is when the anode is Vd Volts higher in potential than the cathode.
A
Forward biased (VAB> V d)
B
A
B
A
B
r
Vd
Reverse biased (VAB< V d) A B R Figure l-1 The forward-bias resistance r is very small. An “ideal” diode has no forward resistance (i.e., is a short-circuit current path). The reversed-biased diode resistance is very large (many M W ) with the reverse-biased ideal diode operating as an open circuit (i.e., no current flow allowed at all). When the diode is reverse biased, the small current due to minority carriers remain relatively constant, that is independent of the bias voltage up to certain voltage. Beyond this safe level of reverse bias, a phenomenon called "Avalanche Breakdown" takes place when heavy surge of current occurs which may also destroy the diode. The diode must be operated within the safe limit. The Volt-- ampere (V-I)) characteristics of a diode show how currentt (/) in that diode varies with the voltage applies across it experimentally. This . can determined by measuring the current in the diode for successive number of higher applied voltage and plotting a graph of current versus voltage, you will note that very little current follows in the diode for low level of the applied voltage. Thus below ( 0.7 ) forward bias, a silicon diode draws little current. For forward bias voltages equal to or higher than 0.7V , the diode is turn on and permits to currentt to flow. Beyond 0.7V very slight increases in forward biasing voltages result in the increase of current in the diode dramatically. The primary function of the diode is the rectification (process of converting a.c into d.c).
K A
Figure l-2(a) Forward Bias
+
_ V
1
Diode Characteristics
BS P-III
V
K
+ +
A
_ V
Figure l-2(b) Reverse Bias
Figure 1-3.Characteristicc curve of a diode
EQUIPMENT & COMPONENTS EQUIPMENT:
A mili-ameter (range 20mA)
• Power supply
A bread board
COMPONENTS: A voltmeter (range 30 v)
A diode (IN4004) 10K
resistor
A few connecting hard wires PROCEDURE: 1. Make the circuit as shown in figure 1-2 2. Set the meter indicated by "A" to '20 mA' range. Set the meter 'V to read up 4v. Set on the DC supply rotary voltage control fully anticlockwise (0V) . 3. Now switch on the power supply and carefully turn the voltage control clock wise whilst watching the ammeter. 4. Set the values of the voltage and observe the values of current. Plot these values on the graph paper. The resulting graph shows that little current passes until the voltage has risen to 0.6V (for silicon), but the current rises rapidly with further increases in voltage. 5. Repeat all pervious steps and fill the observation table. 6. Finally plot the V-l characteristics of diode on graph paper.
OBSERVATION TABLE: S.No.
Voltage (VD )
Forword current mA
Voltage (VD )
1
0.2
0.2
2
0.4
0.4
3
0.6
0.6
4
0.5
0.5
5
0.7
0.7
2
Reverse current mA
BS P-III
Institute of Phsics
Voltage Current Characteristics of diode Objects of the experiment To understand the Voltage-Current characteristics of a janction diode.
Introduction The purpose of this experiment is for you to become familiar with the operating characteristics of the diode. The diode is the physical realization of the PN junction. Depending on which way the diode is biased, current either flows readily or is unable to flow. The circuit symbol for a diode and a diagram showing at which end the band appears on a real diode as well as the equivalent circuits for when the diode is forward- and reverse-biased are given below. Forward and reverse bias are defined by whether VA - VB = V A B is equal to (forward) or less than (reverse) the diode “turn-on” voltage V d . End A is known as the anode and end B as the cathode. So another definition of forward-biased is when the anode is Vd Volts higher in potential than the cathode.
A
Forward biased (VAB> V d)
B
A
B
A
B
r
Vd
Reverse biased (VAB< V d) A B R Figure l-1 The forward-bias resistance r is very small. An “ideal” diode has no forward resistance (i.e., is a short-circuit current path). The reversed-biased diode resistance is very large (many M W ) with the reverse-biased ideal diode operating as an open circuit (i.e., no current flow allowed at all). When the diode is reverse biased, the small current due to minority carriers remain relatively constant, that is independent of the bias voltage up to certain voltage. Beyond this safe level of reverse bias, a phenomenon called "Avalanche Breakdown" takes place when heavy surge of current occurs which may also destroy the diode. The diode must be operated within the safe limit. The Volt-- ampere (V-I)) characteristics of a diode show how currentt (/) in that diode varies with the voltage applies across it experimentally. This . can determined by measuring the current in the diode for successive number of higher applied voltage and plotting a graph of current versus voltage, you will note that very little current follows in the diode for low level of the applied voltage. Thus below ( 0.7 ) forward bias, a silicon diode draws little current. For forward bias voltages equal to or higher than 0.7V , the diode is turn on and permits to currentt to flow. Beyond 0.7V very slight increases in forward biasing voltages result in the increase of current in the diode dramatically. The primary function of the diode is the rectification (process of converting a.c into d.c).
K A
Figure l-2(a) Forward Bias
+
_ V
1
Diode Characteristics
BS P-III
V
K
+ +
A
_ V
Figure l-2(b) Reverse Bias
Figure 1-3.Characteristicc curve of a diode
EQUIPMENT & COMPONENTS EQUIPMENT:
A mili-ameter (range 20mA)
• Power supply
A bread board
COMPONENTS: A voltmeter (range 30 v)
A diode (IN4004) 10K
resistor
A few connecting hard wires PROCEDURE: 1. Make the circuit as shown in figure 1-2 2. Set the meter indicated by "A" to '20 mA' range. Set the meter 'V to read up 4v. Set on the DC supply rotary voltage control fully anticlockwise (0V) . 3. Now switch on the power supply and carefully turn the voltage control clock wise whilst watching the ammeter. 4. Set the values of the voltage and observe the values of current. Plot these values on the graph paper. The resulting graph shows that little current passes until the voltage has risen to 0.6V (for silicon), but the current rises rapidly with further increases in voltage. 5. Repeat all pervious steps and fill the observation table. 6. Finally plot the V-l characteristics of diode on graph paper.
OBSERVATION TABLE: S.No.
Voltage (VD )
Forword current mA
Voltage (VD )
1
0.2
0.2
2
0.4
0.4
3
0.6
0.6
4
0.5
0.5
5
0.7
0.7
2
Reverse current mA
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