Gyan Ganga Institute of Technology and Sciences Jabalpur Department of Electronics & Communication Engineering
D1 1N4007
Input Voltage 1
A+Ammeter
Fig: PN Junction Diode under Forward Bias
File: Standard Result Electronic Devices EC-304
Gyan Ganga Institute of Technology and Sciences Jabalpur Department of Electronics & Communication Engineering
Fig: V-I Characteristics of PN Junction Diode Forward Bias
D1 1N4007
Input Voltage 1
A+Ammeter
Fig: PN Junction Diode under Reverse Bias
File: Standard Result Electronic Devices EC-304
Gyan Ganga Institute of Technology and Sciences Jabalpur Department of Electronics & Communication Engineering
Fig: V-I Characteristics of PN Junction Diode Reverse Bias
Input Voltage 1
A+AmmeterZ1 1N823A
Fig: Zener Diode under Forward Bias
File: Standard Result Electronic Devices EC-304
Gyan Ganga Institute of Technology and Sciences Jabalpur Department of Electronics & Communication Engineering
Fig: V-I Characteristics of Zener Diode Forward Bias
Input Voltage 10
A+AmmeterZ1 1N823A
Fig: Zener Diode under Reverse Bias
File: Standard Result Electronic Devices EC-304
Gyan Ganga Institute of Technology and Sciences Jabalpur Department of Electronics & Communication Engineering
Fig: V-I Characteristics of Zener Diode Reverse Bias
D1
1N40
07V1 6.74
+
Input 10v
R2
2k
OutputR1 10
Fig: Negative Clipper for Object 1
File: Standard Result Electronic Devices EC-304
Gyan Ganga Institute of Technology and Sciences Jabalpur Department of Electronics & Communication Engineering
Fig: Negative Clipper Output Graph for Object 1
D1
1N40
07
V1 100m
+
Input 10v
R2
2k
OutputR1 10
Fig: Positive Clipper for Object 2
Fig: Positive Clipper Output Graph for Object 2
File: Standard Result Electronic Devices EC-304
Gyan Ganga Institute of Technology and Sciences Jabalpur Department of Electronics & Communication Engineering
D1
1N40
07
V1 100m
+
Input 10v
R2
2k
OutputR1 10
D2
1N40
07
V2 5.14
Fig: Combination Clipper for Object 3
Fig: Combination Clipper Output Graph for Object 3
File: Standard Result Electronic Devices EC-304
Gyan Ganga Institute of Technology and Sciences Jabalpur Department of Electronics & Communication Engineering
+
Input 10v
R2
10k
Output
D2
1N40
07
C1 100u
V1 700m
Fig: Positive Clamper Circuit for Object 4
T
Time (s)
0.00 25.00m 50.00m 75.00m 100.00m
Input 10v
-5.00
5.00
Output
-2.00
10.00
Fig: Positive Clamper Graph for Object 4
File: Standard Result Electronic Devices EC-304
Gyan Ganga Institute of Technology and Sciences Jabalpur Department of Electronics & Communication Engineering
+
Input 220v N1 N2
TR1 55m
D1 1N4007
R1
10k
Output
V+
Voltmeter
Fig: Half Wave Rectifier Circuit without Filter
Fig: Half Wave Rectifier Circuit Output without Filter
File: Standard Result Electronic Devices EC-304
Gyan Ganga Institute of Technology and Sciences Jabalpur Department of Electronics & Communication Engineering
+
Input 220v N1 N2
TR1 55m
D1 1N4007
R1
10k
Output
V+
Voltmeter
C1
470u
Fig: Half Wave Rectifier Circuit with Filter
T
Time (s)
0.00 25.00m 50.00m 75.00m 100.00m
Input 220v
-300.00
300.00
Output
0.00
20.00
Voltmeter
-20.00
20.00
Fig: Half Wave Rectifier Circuit Output with Filter
File: Standard Result Electronic Devices EC-304
Gyan Ganga Institute of Technology and Sciences Jabalpur Department of Electronics & Communication Engineering
+
Input 10v
R1 1
0k
Output
GR1 1N1183
Fig: Full Wave Bridge Rectifier Circuit without Filter
T
Time (s)
0.00 25.00m 50.00m 75.00m 100.00m
Input 10v
-10.00
10.00
Output
-2.00
10.00
Fig: Full Wave Bridge Rectifier Circuit output without Filter
File: Standard Result Electronic Devices EC-304
Gyan Ganga Institute of Technology and Sciences Jabalpur Department of Electronics & Communication Engineering
+
Input 10v
R1
10k
Output
GR1 1N1183
C1
470u
Fig: Full Wave Bridge Rectifier Circuit with Filter
T
Time (s)
0.00 25.00m 50.00m 75.00m 100.00m
Input 10v
-10.00
10.00
Output
0.00
9.00
Fig: Full Wave Bridge Rectifier Circuit output with Filter
File: Standard Result Electronic Devices EC-304