Empfohlen
Weitere ähnliche Inhalte
Was ist angesagt?
Was ist angesagt? (20)
Ähnlich wie Pn junction diode by sarmad baloch
Ähnlich wie Pn junction diode by sarmad baloch (20)
Mehr von Sarmad Baloch
Mehr von Sarmad Baloch (20)
Kürzlich hochgeladen
Kürzlich hochgeladen (20)
Pn junction diode by sarmad baloch
- 1. Basic Electronics Lecture#6 PN Junction, Diode/ Diode Application. By: sarmad baloch Class of BS.IT, ISP
- 3. P-N Junction
- 4. Contents 1. PN Junction Formation 2. Space Charge Distribution 3. Barrier Potential 4. Forward Biased and Reverse Biased Diode 5. Diode Equation 6. Diode Models 7. Schottky Diode
- 8. PN Junction Formation P-Type semiconductor having excessive holes N-Type semiconductor having excessive free electrons Junction Acceptor atoms Donor atoms
- 9. Charge Distribution P N + + + - - - Positive and negative ions are created when holes and free electrons cross the junction and move to the other side this charge is called “space charge” Diffusion current flows whenever P and N materials are joined together
- 10. The P-N Junction •When initially joined electrons from the n-type migrate into the p- type – less electron density there •When an electron fills a hole – both the electron and hole disappear as the gap in the bond is filled •This leaves a region with no free charge carriers – the depletion layer – this layer acts as an insulator Slide 10
- 11. Barrier Potential P N + + + - - - Charges of opposite polarities establish “Electric Field” also known as “Barrier Potential”. This field prevents any further diffusion current E Depletion Region Barrier potential is also known as “Junction Potential” or “Diffusion Potential”. It is denoted by Vo .
- 12. Barrier Potential • Silicon has potential barrier drop of 0.7V. • Germanium has potential barrier voltage drop of 0.3V.
- 13. DIODE (Formed Using P-N Junction)
- 14. DIODE • A PN Junction is also called DIODE. • Term diode from the Greek roots di , meaning 'two', and ode, meaning 'path'. • It is used in various electronics application. • We will use this diode to form transistor and FET. • Same diode are also used to form logic circuit
- 16. Forward Biased Junction + + + - - - E NP + - Opposing field due to battery Depletion region shrinks and drift current begins to flow
- 18. Reverse Biased Junction + + + - - - E NP +- Supporting field due to battery Depletion region expands and opposes flow of current
- 21. To Remember! •Diode cannot conduct in reverse bias condition. •Diode can conduct in forward bias condition. •Silicon diode has voltage drop of 0.7V •Germanium has voltage drop of 0.3V
- 22. DIODE APPLICATION RECTIFIER OR AC TO DC CONVERSION
- 23. AC Voltage and Current:
- 24. AC Voltage and Current:
- 25. DC Voltage and Current:
- 26. AC And DC Voltage and Current: A.C: Change over time. D.C: Doesn't change over time.
- 27. Half Wave Rectifier + - Re 0 T/2 T 3T/2 2T 5T/2 DC Value ?
- 28. Full Wave Rectifier + - 0 T 2T 3T 4T 5T DC Value ?
- 29. Using Capacitor + - Re C 0 T/2 T 3T/2 2T 5T/2 Positive cycle charges the capacitor and negative cycle discharges it Ripple Voltage
- 30. DC Output With Capacitor 0 T 2T 3T 4T 5T + - R C
- 31. Vac Load Full-wave rectifier circuit • Bridge circuit • Load – Circuit requiring DC
- 32. Ripple Voltage 0 T/2 T 3T/2 2T 5T/2 Ripple Voltage 0 T/2 T 3T/2 2T 5T/2 Ripple Voltage VDC VPP VPR