Question

The _________________ increases the system reliability in the event of an individual amplifier failure.

a.

Simplex configuration

b.

Duplex configuration

c.

Serial configuration

d.

Parallel multi-amplifier configuration

Posted under Optical Communication

Answer: (d).Parallel multi-amplifier configuration

Interact with the Community - Share Your Thoughts

Uncertain About the Answer? Seek Clarification Here.

Understand the Explanation? Include it Here.

Q. The _________________ increases the system reliability in the event of an individual amplifier failure.

Similar Questions

Explore Relevant Multiple Choice Questions (MCQs)

Q. Which of the following is not an application of optical amplifier?

Q. _________ reconstitutes a transmitted digital optical signal.

Q. _____________ are transparent to any type of signal modulation.

Q. _________________ imposes serious limitations on the system performance.

Q. __________ is the ratio of input signal to noise ratio to the output signal to noise ratio of the device.

Q. How many factors govern the noise figure of the device?

Q. What is the typical range of the noise figure?

Q. Calculate second order dispersion coefficient for path length L₂ 20 km and L₁ 160 km. Dispersion coefficient for L₂ is 17.

Q. Calculate the path length L₂ if L₁ is 160, dispersion coefficient of L₂ is 17, dispersion coefficient of L₁ is -2.25 ps/nmkm.

Q. Calculate path length L₁ if L₂ is 20, dispersion coefficient of L₂ is 17, dispersion coefficient of L₁ is -2.25 ps/nmkm.

Q. Calculate second order dispersion coefficient for path length L₁ 20 km and L₁ 160 km. Dispersion coefficient for L₁ is -2.125*10⁻¹² s/nmkm.

Q. Calculate dispersion slope for second path fiber if L₁ is 150, L₂ is 10 and s₁ is 0.075.

Q. Calculate dispersion slope for first path fiber if L₁ is 160, L₂ is 20 and s₂ is 0.6 ps/nm km.

Q. Calculate L₂ if dispersion slope for first path fiber is 0.075 and L₁ is 160 km and s₂ is -0.6 ps/nm km.

Q. Calculate L₁ if dispersion slope for first path fiber is 0.075 and L₂ is 20 km and s₂ is -0.6 ps/nm km.

Q. Calculate separation of soliton pulses over a bit period length if R₂ pulse width is 6 ps for bit period of 70 ps.

Q. Calculate RZ pulse width if bit period is 60 ps and separation of soliton pulses is 5.4.

Q. Calculate bit period if RZ pulse width is 50 ps and separation of soliton pulses is 5.6.

Q. Calculate value of dimensionless parameter if bit period is 45 ps and RZ pulse width is 4 ps.

Recommended Subjects

Are you eager to expand your knowledge beyond Optical Communication? We've handpicked a range of related categories that you might find intriguing.

Click on the categories below to discover a wealth of MCQs and enrich your understanding of various subjects. Happy exploring!