Nokia 4A0-205 PDF Exam Questions:
How to Get Success in Nokia 4A0-205 Exam:
- Avoid deceptive 4A0-205 PDF Exam Questions.
- Focus on 4A0-205 Questions (PDF) based on the latest exam syllabus.
- Make notes of Nokia 4A0-205 PDF for better learning.
- Prepare from our latest Nokia 4A0-205 PDF file and get success in first attempt.
Prepare Nokia 4A0-205 Exam Within Short Time
Your knowledge and abilities are validated by passing the Nokia 4A0-205 exam. Our PDF questions and answers will help you prepare for the 4A0-205 exam in a short time because it includes questions similar to the real Nokia exam questions. After downloading the 4A0-205 Nokia PDF exam questions, relevant to the actual exam, you can take a print of all questions and prepare them anytime, anywhere.
Realistic Scenario Based Nokia 4A0-205 PDF Exam Questions:
Everyone wants to become certified Nokia Optical Network Professional and improve his/her resume. You should practice with real 4A0-205 questions. Students can benefit from the 4A0-205 exam questions which are available in PDF format. The 4A0-205 exam questions and answers are designed to match the criteria of the actual exam. If you use scenario-based Nokia 4A0-205 questions you will have an extra potential to clear the exam on the first attempt.
What is the definition of OSNR?
See the explanation below.
The OSNR is defined as the ratio between the average optical signal power and the average optical noise power over a specific spectral bandwidth. This is also known as the signal-to-noise ratio (SNR), and it is a measure of how much signal is present in the optical signal compared to the noise, usually expressed in decibels (dB).
Which of the following are the main reasons for fiber attenuation?
See the explanation below.
Scattering and absorption are the main reasons for fiber attenuation. Scattering occurs when light bounces off the sides of the fiber, while absorption happens when light is absorbed by the glass or other materials that make up the fiber. Chromatic dispersion (CD) and polarization mode dispersion (PMD) are also factors that can cause attenuation, but they are not the main causes. Small channel spacing can also cause attenuation, but it is a secondary factor and is only significant in certain cases.
What is the meaning of first, second, and third window in the optical fiber propagation context?
See the explanation below.
In optical fiber propagation context, the first, second, and third window refer to different wavelength intervals where the WDM (Wavelength Division Multiplexing) optical transmission occurs.
The first window is the lowest loss window and is typically in the range of 1300-1324nm. This is the most commonly used window for long-haul communications.
The second window is the 1550 nm window and is the most widely used window for long-haul and ultra-long-haul communications. This window has a lower attenuation than the first window, but it also has more dispersion, which can limit the maximum transmission distance.
The third window is the range of 1625-1675 nm, it is also called the L-band window. This window has lower attenuation than the first and second window but its usage is limited due to the high cost of equipment and lack of commercial devices.
These windows are used in WDM systems to increase the capacity of the fiber by transmitting multiple channels of data at different wavelengths on the same fiber.
A,C,D are not correct as they are not related to the meaning of first, second, and third window in the optical fiber propagation context.
Nokia Optical Networking Fundamentals, Nokia Press (ISBN:978-1-4822-8109-4)
https://www.nokia.com/networks/solutions/optical-networking/
https://en.wikipedia.org/wiki/Wavelength-division_multiplexing
In which window(s) does the attenuation reach its minimum peak?
See the explanation below.
The third window (1550 nm) is where the attenuation reaches its minimum peak. This is because the materials used in fiber optic cables have minimal absorption in this wavelength range. The first and second windows (850 nm and 1300 nm respectively) have higher attenuation due to the materials used in the fiber optic cables.
Which of the following statements is true about chromatic dispersion (CD)?
See the explanation below.
Different wavelengths propagate at different speeds within the same media and therefore different colors travel in the fiber with different speed. This phenomenon is known as chromatic dispersion and causes light to spread out as it travels through the fiber over distance, leading to signal attenuation and distortion. The fiber attenuation does not introduce inter-channel interference, but it can cause attenuation of the signal. Different channels have different bandwidths, but this does not affect CD performance.
Reliable Source Of Preparation For Nokia Optical Networking Fundamentals Exam.
We provide Nokia Optical Network Professional certification questions along with answers to assist students in passing the Nokia Exam. You can enhance your Nokia 4A0-205 preparation with the help of an online practice engine. Try out our Nokia 4A0-205 questions because 98% of Examskit users passed the final 4A0-205 exam in one go.