Pn example sentences

"Pn" Example Sentences

1. The Penguin waddled through the snow.
2. The plan needs more preparation.
3. The pain numbed his senses.
4. The pan held the sizzling pancakes.
5. The pneumonia weakened his lungs.
6. The pension provided a stable income.
7. The pamphlet explained the procedure.
8. They spun the wheel to win the prize.
9. The pontoon boat floated on the pond.
10. The propeller spun the boat through the water.
11. The opponent posed little competition.
12. The punctuation confused the reader.
13. The pumpkin patch was full of gourds.
14. The puppies napped in their pen.
15. The pundit provided political commentary.
16. The puncture made a leak in the tire.
17. The pavilion sheltered people from the rain.
18. The pencil rolled under the desk.
19. The pregnant woman rubbed her belly.
20. The proponent fought for the proposal.
21. The apple had a puncture wound.
22. The pudding needed more cinnamon.
23. The painter prepared his canvas.
24. The pencil tin held colored pencils.
25. The panther stalked its prey.
26. The pin held the diaper together.
27. The paint was still wet.
28. The pond was still and calm.
29. The prison gates clanged shut.
30. The pan was filthy.
31. The parents tucked in their children.
32. The plan was already approved.
33. The policeman whistled to stop traffic.
34. The pattern repeated itself.
35. The predator chased its panting prey.
36. The pen broke and spilled ink.
37. The paddles dipped into the water.
38. The pawn moved forward on the board.
39. The pig rooted in the pen.
40. The pediatrician examined the patient.
41. The pavement gleamed after the rain.
42. The parrot repeated her name.
43. The pajamas were too big.
44. The pumpkin patch was crowded.
45. The propaganda spread lies.
46. The punchline made everyone laugh.
47. The princess lived in a palace.
48. The pinch hit came through for the team.
49. The poet penned beautiful verses.
50. The pumpkin was carved into a face.
51. The picnic was set in a park.
52. The peonies bloomed in the garden.
53. The piano keys needed polishing.
54. The party was in full swing.
55. The passenger boarded the plane.
56. The parachute floated to the ground.
57. The petunias adorned the flower bed.
58. The paper had already been printed.
59. The panda loved to eat bamboo.
60. The payment was overdue.

Common Phases

1. The pn junction of the diode allows current to flow in one direction only.
2. The pn diode starts conducting when the applied voltage crosses the forward voltage drop of 0.6 to 0.7 V.
3. The pn junction acts as a barrier that stops current flow in the reverse biased condition.
4. By connecting two pn diodes back-to-back, we can make a bidirectional diode, or rectifier.
5. The base of an NPN transistor consists of a thin pn junction.
6. Current flows from the emitter to collector when the pn junction is forward biased.
7. The pn junction of a solar cell absorbs photons and generates electricity.
8. The pn junction forms the heart of most electronic and optoelectronic devices.
9. Solar cells, light-emitting diodes and laser diodes all use pn junctions.
10. The pn junction technology revolutionized the electronics industry.
11. He studied the electrical characteristics of pn junctions during his Ph.D program.
12. The textbook provided a detailed analysis of pn junction capacitance.
13. The sample was doped to create a pn junction within the semiconductor wafer.
14. The current-voltage characteristics of the pn junction were measured and analyzed.
15. Researchers are working to improve the efficiency of pn junction photovoltaic cells.
16. The junction between the p-type and n-type regions is called the pn junction.
17. Electrons diffuse from the n-region into the p-region across the pn junction.
18. Holes diffuse in the opposite direction from the p-region to the n-region.
19. When a reverse bias is applied, the width of the pn junction depletion region increases.
20. Under forward bias, the depletion region width decreases, allowing more current flow.
21. The pn junction exhibits rectifying characteristics due to the diffusion potential.
22. The potential barrier of the pn junction can be lowered using an external voltage.
23. Light absorption in the pn junction generates electron-hole pairs.
24. Electron-hole recombination in the junction region affects the performance.
25. A pn junction forms the base-emitter junction of a bipolar transistor.
26. The current gain of the transistor depends on the pn junction properties.
27. The pn junction needs to be passivated to minimize surface recombination.
28. Different doping profiles can be used to engineer the pn junction characteristics.
29. Thermal generation of carriers also contributes to the pn junction current.
30. Tunneling of carriers occurs across very narrow pn junctions.
31. The abruptness of the pn junction affects the junction capacitance.
32. Electrons fill available energy states in the n-region of the pn junction.
33. Holes occupy states in the valence band of the p-region.
34. When a bias is applied, the bands bend within the pn junction.
35. Electrons are majority carriers in the n-region and holes in the p-region.
36. Mobile charges accumulate at the interfaces of the pn junction.
37. Minority carrier injection influences the pn junction I-V curve.
38. pn junction theory was developed based on diffusion and drift of charges.
39. The interface trap states at the pn junction impact the leakage current.
40. Ohmic contacts are required on both sides of the pn junction device.
41. Metallization is done to ensure good ohmic contacts to the pn junction.
42. Surface passivation reduces interface recombination at the pn junction.
43. The pn junction diode exhibits exponential I-V characteristics.
44. The turn-on voltage of the pn junction depends on its doping levels.
45. Pin diodes have an intrinsic region inserted into the pn junction.
46. Zener diodes use heavily doped pn junctions to achieve reverse breakdown.
47. Varactors use reverse biased pn junctions to behave like a variable capacitor.
48. Schottky diodes use a metal-semiconductor junction instead of pn junction.
49. Heterojunctions involve pn junctions between dissimilar semiconductor materials.
50. Photodiodes use the photovoltaic effect in a reverse biased pn junction.
51. The space charge region of the pn junction allows for high electrical field.
52. PN junctions form the building blocks of nearly all semiconductor devices.
53. A low leakage pn junction is essential for high-efficiency solar cells.
54. PN junction breakdown occurs due to impact ionization within the junction.
55. Carrier recombination mechanisms affect the lifetime of carriers across the pn junction.
56. Ohmic contacts should have low resistivity and form good pn junctions.
57. Surface recombination affects the performance of microelectronics pn junction devices.
58. Heterojunctions exhibit different characteristics compared to conventional pn junctions.
59. Avalanche photodiodes use high electric fields across pn junctions for signal gain.
60. The operation of pn junction devices depends on diffusion, drift and recombination processes.