System design consideration OC (Tamilselvan).pptx
•Download as PPTX, PDF•
0 likes•6 views
This document discusses key components and design considerations for optical communication systems. It covers the types of optical fibers and light sources used, as well as photodetectors, connectors, and signal modulation techniques. The document also addresses dispersion management, network architectures including WDM and topology, and the importance of network monitoring.
Report
Share
Report
Share
Recommended
System design consideration OC (Tamilselvan).pptx
This document discusses key components and design considerations for optical communication systems, including:
- Single-mode optical fibers are preferred for long distances due to lower dispersion and attenuation.
- Laser diodes are commonly used as light sources due to their ability to provide high data rates over long distances.
- Modulation formats like QAM are widely used to encode information at high capacities.
- Dispersion compensation and specialized fibers are needed to manage chromatic and polarization mode dispersion effects.
- WDM and mesh network topologies increase capacity and resilience relative to point-to-point and ring architectures.
System design consideration OC.pptx
This document discusses key components and design considerations for optical communication systems, including:
- Single-mode optical fibers are preferred for long distances due to lower dispersion and attenuation.
- Laser diodes and photodetectors are used to transmit and receive optical signals, and proper selection is important for performance.
- Modulation formats like QAM are used to encode information, and higher modulation speeds allow for greater data rates.
- Chromatic and polarization mode dispersion can degrade signals, and various techniques are used to manage dispersion.
- WDM increases network capacity by transmitting multiple wavelengths over a single fiber.
foc Unit 5 point -to- point link system conc.pptx
Point to point link in optical communication. this ppt gives a general introduction to various design consideration during design of optical communication systems.
OPTICAL_FIBRE_COMMUNICATION.pptx
This document provides an overview of optical fiber communication topics including:
1. Fundamentals such as the basic components of an optical communication system and advantages of optical fiber over copper wire.
2. Types of optical fibers including single mode, multi-mode, step index, and graded index fibers. It describes the principles of total internal reflection and modal dispersion.
3. Additional optical fiber topics like construction and common components, parameters to evaluate fiber performance such as attenuation and dispersion, and basic test instruments.
Dense wavelength division multiplexing....
The document discusses performance analysis of dense wavelength division multiplexing (DWDM) optical transmission systems. It begins with an introduction to DWDM, which allows transmission of up to 132 wavelengths over a single fiber. Section 2 provides an overview of optical fiber transmission and prior multiplexing techniques such as time division, frequency division, subcarrier, and coarse and dense wavelength division multiplexing. Section 3 indicates that the performance of DWDM will be analyzed using its application in NEMO, ANTARES, and KM3NeT underwater neutrino telescope experiments.
VOCATIONAL TRAINING-1
This document discusses PowerGrid's diversification into the telecom business under the brand PowerTel. It provides an overview of PowerGrid as the central transmission utility of India, carrying over 51% of the country's power. In 2001, PowerGrid diversified into telecom to utilize spare optic fiber capacity from its transmission infrastructure, providing telecom services across India. The document describes PowerTel's network and various telecom equipment used, and also discusses digital transmission systems like SDH and DWDM, fiber management, and troubleshooting techniques.
Sonet Sdh Dwdm
SONET/SDH are digital fiber optic transmission standards developed independently in the US and Europe to transmit data at high speeds over fiber optic cables. SONET defines a hierarchy of electrical signaling levels called STS and uses synchronous TDM multiplexing. It can transmit data from 155 Mbps to 2.5 Gbps and supports ring topologies. SONET defines layers for signal transmission including path, line, section and physical layers. SDH is the international version of SONET and uses similar framing and network elements like multiplexers, regenerators and cross-connects to transmit digital signals over fiber optic networks. DWDM further increases fiber capacity by transmitting multiple wavelengths/channels over the same fiber using wavelength division
Seminar report OCDMA SYSTEM
This project progress report summarizes work on optimizing optical CDMA technology for fiber optic communication. The report discusses principles of OCDMA coding, major challenges like bit error rate and multi-access interference, and methods to overcome challenges such as using spectral amplitude coding and spectral phase coding. It also summarizes simulations conducted to measure bit error rate at different distances using an OCDMA system based on fiber Bragg grating encoders and decoders. Finally, the report outlines applications of OCDMA including use in passive optical networks and providing virtual private networks over metro optical networks.
Recommended
System design consideration OC (Tamilselvan).pptx
This document discusses key components and design considerations for optical communication systems, including:
- Single-mode optical fibers are preferred for long distances due to lower dispersion and attenuation.
- Laser diodes are commonly used as light sources due to their ability to provide high data rates over long distances.
- Modulation formats like QAM are widely used to encode information at high capacities.
- Dispersion compensation and specialized fibers are needed to manage chromatic and polarization mode dispersion effects.
- WDM and mesh network topologies increase capacity and resilience relative to point-to-point and ring architectures.
System design consideration OC.pptx
This document discusses key components and design considerations for optical communication systems, including:
- Single-mode optical fibers are preferred for long distances due to lower dispersion and attenuation.
- Laser diodes and photodetectors are used to transmit and receive optical signals, and proper selection is important for performance.
- Modulation formats like QAM are used to encode information, and higher modulation speeds allow for greater data rates.
- Chromatic and polarization mode dispersion can degrade signals, and various techniques are used to manage dispersion.
- WDM increases network capacity by transmitting multiple wavelengths over a single fiber.
foc Unit 5 point -to- point link system conc.pptx
Point to point link in optical communication. this ppt gives a general introduction to various design consideration during design of optical communication systems.
OPTICAL_FIBRE_COMMUNICATION.pptx
This document provides an overview of optical fiber communication topics including:
1. Fundamentals such as the basic components of an optical communication system and advantages of optical fiber over copper wire.
2. Types of optical fibers including single mode, multi-mode, step index, and graded index fibers. It describes the principles of total internal reflection and modal dispersion.
3. Additional optical fiber topics like construction and common components, parameters to evaluate fiber performance such as attenuation and dispersion, and basic test instruments.
Dense wavelength division multiplexing....
The document discusses performance analysis of dense wavelength division multiplexing (DWDM) optical transmission systems. It begins with an introduction to DWDM, which allows transmission of up to 132 wavelengths over a single fiber. Section 2 provides an overview of optical fiber transmission and prior multiplexing techniques such as time division, frequency division, subcarrier, and coarse and dense wavelength division multiplexing. Section 3 indicates that the performance of DWDM will be analyzed using its application in NEMO, ANTARES, and KM3NeT underwater neutrino telescope experiments.
VOCATIONAL TRAINING-1
This document discusses PowerGrid's diversification into the telecom business under the brand PowerTel. It provides an overview of PowerGrid as the central transmission utility of India, carrying over 51% of the country's power. In 2001, PowerGrid diversified into telecom to utilize spare optic fiber capacity from its transmission infrastructure, providing telecom services across India. The document describes PowerTel's network and various telecom equipment used, and also discusses digital transmission systems like SDH and DWDM, fiber management, and troubleshooting techniques.
Sonet Sdh Dwdm
SONET/SDH are digital fiber optic transmission standards developed independently in the US and Europe to transmit data at high speeds over fiber optic cables. SONET defines a hierarchy of electrical signaling levels called STS and uses synchronous TDM multiplexing. It can transmit data from 155 Mbps to 2.5 Gbps and supports ring topologies. SONET defines layers for signal transmission including path, line, section and physical layers. SDH is the international version of SONET and uses similar framing and network elements like multiplexers, regenerators and cross-connects to transmit digital signals over fiber optic networks. DWDM further increases fiber capacity by transmitting multiple wavelengths/channels over the same fiber using wavelength division
Seminar report OCDMA SYSTEM
This project progress report summarizes work on optimizing optical CDMA technology for fiber optic communication. The report discusses principles of OCDMA coding, major challenges like bit error rate and multi-access interference, and methods to overcome challenges such as using spectral amplitude coding and spectral phase coding. It also summarizes simulations conducted to measure bit error rate at different distances using an OCDMA system based on fiber Bragg grating encoders and decoders. Finally, the report outlines applications of OCDMA including use in passive optical networks and providing virtual private networks over metro optical networks.
lec-02.pdf
Fiber-optic communication transmits information using pulses of light through transparent fibers made of glass or plastic. It has high bandwidth, can transmit over long distances with immunity to electromagnetic interference, and is used widely in telecommunications, networking, and data transmission. Key developments include the introduction of single-mode fibers with increasing bit rates and repeater spacing over successive generations. The basic components of a fiber-optic system include a transmitter, fiber channel, and receiver.
Communication systems v7
Optical fibers transmit light through their cores using total internal reflection. There are three main types of optical fibers: single-mode fibers which only allow one propagation path; and two types of multimode fibers which allow multiple paths using either step-index or graded-index profiles. Optical fibers are used for various applications depending on bandwidth needs and transmission distances.
Fiber type and corresponding optical transceivers
Fiber optic patch cable as the basic element of a network, transmits signals through strands of glass or plastic fiber. Fiber optic cables are available in multimode and single-mode fibers terminated with LC, SC, ST, LC, FC, MTRJ, E2000 connectors in simplex and duplex. The typical multimode fiber used in telecom or datacom applications has a core size of 50 or 62.5 microns. Single-mode fiber shrinks the core size down to 9 microns so that the light can only travel in one ray.
Dwdm
you can be friend with me on orkut
"mangalforyou@gmail.com" : i belive in sharing the knowledge so please send project reports ,seminar and ppt. to me .
Bg25346351
This document summarizes the performance measurements taken on a 40-channel 10G DWDM system operated by Bharath Sanchar Nigam Limited in India. The key findings were:
1. Optical power levels were measured for each channel at different points in the system. Some channels showed power levels indicating a fault in the respective fiber cable.
2. Parameters like noise figure, gain, polarization mode dispersion and dispersion were analyzed to identify limitations and suggest improvements to optimize the system.
3. Nonlinear impairments like four-wave mixing, self-phase modulation and stimulated Raman/Brillouin scattering were also evaluated to determine their impact based on number of channels, channel power, and fiber properties
Dispersion Compensation Techniques for Optical Fiber Communication
This document discusses dispersion in optical fiber communication systems and various techniques to compensate for it, including dispersion compensating fibers, fiber Bragg gratings, electronic dispersion compensation, digital filters, and optical phase conjugation. Dispersion increases pulse spreading and affects signal quality. These techniques help reduce dispersion to improve transmission over long distances. The document compares the advantages and disadvantages of each technique.
Optical circuit PPTby Sayantani
This document discusses optical networks. It begins by defining optical networking as using light signals to transmit information across nodes of a telecommunications network. It then covers the history and generations of optical networks, moving from point-to-point links using electronic switches to newer all-optical networks. The benefits of optical networks are also summarized, including higher bandwidth capacity, lower bit error rates, and reduced costs. Key components of optical networks like optical amplifiers, lasers, fibers, and wavelength division multiplexers are also explained. The document concludes by discussing end-to-end wavelength services and how optical networks increase network capacity and feasibility for long-distance networks.
Dmrc Fiber Optics Transmission System
The document discusses fiber optic transmission systems (FOTS). It describes how FOTS uses optical fibers to transmit information over long distances using light signals. It discusses the key components of a FOTS including transmitters, optical fibers, optical receivers, and how total internal reflection allows fibers to transmit signals. The document also covers fiber types, advantages of FOTS over copper wire, components in DMRC's network, and technologies like SDH used for optical communication.
Transmission media and communication protocols
The document discusses various types of transmission media used in computer networks. It describes guided media such as twisted pair cable, coaxial cable, and optical fiber. Twisted pair cable comes in categories based on bandwidth and can be unshielded or shielded. Coaxial cable uses a central conductor surrounded by insulation and shielding. Optical fiber transmits signals in the form of light pulses through glass or plastic strands. Unguided media like radio waves, microwaves, and infrared waves transmit electromagnetic signals through the air without physical conductors. Each type of transmission media has characteristics like bandwidth, noise immunity, and cost that make some more suitable than others for different network applications.
Comparison of PMD Compensation in WDM Systems
Abstract: The need for larger capacities in long haul optical digital transmission lead to greater channel density which can be achieved by wavelength division multiplexing and increasing the bit rate of each channel. As data rates increases, certain phenomena such as dispersion began to show up as obstacles. At higher bit rates beyond 2.5Gbps polarization mode dispersion (PMD) becomes a main factor in the degradation of the transmission characteristics. PMD occurs when slightly different planes of light inside a fiber travel at slightly different speeds and make it impossible to transmit data reliably at high speed in single mode fibers. PMD is caused due to optical birefringence in the fiber due to which the two modes within a single mode fiber travel with different group velocities and the random change of this birefringence along the fiber length results in random coupling between the modes. This effect of PMD results in broadening of transmitted pulses that limit the transmission capacity of the fiber. In high-speed optical communication systems working at data rates of 10Gbps and beyond, signal distortion caused by PMD is also a major limitation of the transmission distance. This paper intends to analyze the performance of PMD compensation by optical compensation technique and using DCF in a two channel WDM system. The analysis is done through eye diagrams from which the Q value and bit error rate can be determined by simulating with OptSim5.3, which includes the latest simulation algorithms to guarantee the highest possible accuracy and real world results. Keywords– Birefringence, Data rate, Deterministic Differential Group Delay (DDGD), Dispersion compensating fibers (DCFs) Polarization Mode Dispersion (PMD Principal State of Polarization (PSP), Q value.
Comparison of PMD Compensation in WDM Systems
The need for larger capacities in long haul optical digital transmission lead to greater channel
density which can be achieved by wavelength division multiplexing and increasing the bit rate of each channel.
As data rates increases, certain phenomena such as dispersion began to show up as obstacles. At higher bit
rates beyond 2.5Gbps polarization mode dispersion (PMD) becomes a main factor in the degradation of the
transmission characteristics. PMD occurs when slightly different planes of light inside a fiber travel at slightly
different speeds and make it impossible to transmit data reliably at high speed in single mode fibers. PMD is
caused due to optical birefringence in the fiber due to which the two modes within a single mode fiber travel
with different group velocities and the random change of this birefringence along the fiber length results in
random coupling between the modes. This effect of PMD results in broadening of transmitted pulses that limit
the transmission capacity of the fiber. In high-speed optical communication systems working at data rates of
10Gbps and beyond, signal distortion caused by PMD is also a major limitation of the transmission distance.
This paper intends to analyze the performance of PMD compensation by optical compensation technique and
using DCF in a two channel WDM system. The analysis is done through eye diagrams from which the Q value
and bit error rate can be determined by simulating with OptSim5.3, which includes the latest simulation
algorithms to guarantee the highest possible accuracy and real world results
Communication systems v6 a fter midz
This document provides information about optical fibers, including their core components, types, transmission characteristics, and applications. It discusses the basic structure of an optical fiber, which consists of a glass core surrounded by a cladding layer and protective coating. The document outlines the three main types of optical fibers - step-index multimode, graded-index multimode, and single mode - and their uses in different communication systems. It also covers optical fiber transmission windows, loss calculations, and system components.
WDM & Optical Amplifiers
This document provides an overview of wavelength division multiplexing (WDM) technology. It begins with introducing optical fibers and their components. It then discusses multiplexing techniques like time-division multiplexing (TDM) and frequency-division multiplexing (FDM). The document focuses on WDM, defining it as a technology that multiplexes multiple optical signals on a single fiber using different laser light wavelengths. It describes dense WDM (DWDM) and coarse WDM (CWDM), and compares their wavelength spacing and applications. The document also outlines optical amplifiers like erbium-doped fiber amplifiers and their uses. In conclusion, it states that WDM enables high-speed, high-capacity data transmission and
Optical multiplexers
Optical multiplexers allow multiple signals to be transmitted simultaneously over a single optical fiber link. There are different optical multiplexing techniques, including wavelength division multiplexing (WDM) and optical time division multiplexing (OTDM). WDM assigns each signal a unique wavelength, while OTDM separates signals in the time domain. Optical multiplexers and demultiplexers use passive optical filters to combine and separate the wavelength signals. This increases bandwidth utilization and reduces transmission costs.
Optical fiber communication || History and working principle || Yaman Shrestha
Presentation Slide of my College a coursework ||Basic Information about the history of Optical Fiber Communication and its working principle.
Fiber Optic Communication System
Fiber optic communication uses lightwave technology to transmit data over long distances and local networks. It has three main elements: a compact light source like an LED or laser, low loss optical fiber made of glass or plastic, and a photo detector to convert light signals back to electrical signals. Fiber optic communication works by converting electrical signals to light signals using a light source in the transmitter, carrying the light beam through the fiber optic cable, and converting it back to an electrical signal using a receiver circuit with a photo detector. This allows for gigabit transmission of data, voice, video, and telemetry over longer distances than traditional copper wire networks.
Advance optical modulation formats
The document discusses advance optical modulation formats for high speed optical networks. It explains that using proper modulation formats can help achieve high speed networks by reducing linear and nonlinear impairments. It compares various intensity and phase modulation formats and their effectiveness in mitigating distortions at 10Gbps, 40Gbps and 100Gbps network speeds. The document proposes further research on modulation formats that can combat fiber nonlinear impairments like correlatve coding and partial response formats to design high capacity optically routed networks.
The Effect of PMD (Polarization Mode Dispersion) the Fibers of New and Old In...
This is a study conducted in a laboratory at the university as a simulation to see the effect of new fiber PMD for different distances. This is done to compare the performance of the digital system with optical fiber WDM. In this simulation are not included remission, chromatic dispersion and nonlinear effects. In this way all of the signal distortions caused only by different combinations of PDM. Polarization effects are very important in communications systems with optical fiber. Optical fiber that is used mainly during the simulation is a standard single mode fiber (SSMF).
Fibre Optics Seminar Ise09
Fibre optics is an important technology for audio visual and IT convergence. It allows transmission of large amounts of data, video and audio over long distances using thin strands of glass or plastic. Fibre uses total internal reflection to transmit light signals encoding digital data through the core. As bandwidth needs increase with high definition formats and IP, fibre optic infrastructure is expanding with developments in multiplexing and higher speed networks.
Optical tech
The document discusses recent advances in optical network technology, including components such as wavelength division multiplexing (WDM) systems, optical cross-connects, and optical switching technologies like MEMS. It outlines commercially available high-capacity optical systems providing terabits per second of capacity, as well as experimental WDM systems demonstrating multi-terabit capacities over long transmission distances. Emerging next generation optical networks are envisioned to be transparent, dynamic, and have switching at the wavelength level.
Basics of spatial filtering.pptx
Spatial filtering is a process that alters the properties of an optical image by selectively removing certain spatial frequencies. It is commonly used to remove aberrations from laser beams and clean up images from satellites and telescopes. A spatial filter consists of an input aperture, lens system, pinhole aperture, and output lens. The pinhole aperture limits the beam divergence and blocks larger angles to perform the spatial filtering.
EC-1.pdf
1. The document discusses biasing and stability analysis of a common emitter amplifier using hybrid-T and small signal models.
2. Key parameters discussed include input impedance, voltage gain, current gain, and output impedance. Expressions for these parameters are derived using the hybrid-T model.
3. Emitter degeneration and compensation techniques like emitter bypass capacitor are explained to improve stability against temperature variations.
More Related Content
Similar to System design consideration OC (Tamilselvan).pptx
lec-02.pdf
Fiber-optic communication transmits information using pulses of light through transparent fibers made of glass or plastic. It has high bandwidth, can transmit over long distances with immunity to electromagnetic interference, and is used widely in telecommunications, networking, and data transmission. Key developments include the introduction of single-mode fibers with increasing bit rates and repeater spacing over successive generations. The basic components of a fiber-optic system include a transmitter, fiber channel, and receiver.
Communication systems v7
Optical fibers transmit light through their cores using total internal reflection. There are three main types of optical fibers: single-mode fibers which only allow one propagation path; and two types of multimode fibers which allow multiple paths using either step-index or graded-index profiles. Optical fibers are used for various applications depending on bandwidth needs and transmission distances.
Fiber type and corresponding optical transceivers
Fiber optic patch cable as the basic element of a network, transmits signals through strands of glass or plastic fiber. Fiber optic cables are available in multimode and single-mode fibers terminated with LC, SC, ST, LC, FC, MTRJ, E2000 connectors in simplex and duplex. The typical multimode fiber used in telecom or datacom applications has a core size of 50 or 62.5 microns. Single-mode fiber shrinks the core size down to 9 microns so that the light can only travel in one ray.
Dwdm
you can be friend with me on orkut
"mangalforyou@gmail.com" : i belive in sharing the knowledge so please send project reports ,seminar and ppt. to me .
Bg25346351
This document summarizes the performance measurements taken on a 40-channel 10G DWDM system operated by Bharath Sanchar Nigam Limited in India. The key findings were:
1. Optical power levels were measured for each channel at different points in the system. Some channels showed power levels indicating a fault in the respective fiber cable.
2. Parameters like noise figure, gain, polarization mode dispersion and dispersion were analyzed to identify limitations and suggest improvements to optimize the system.
3. Nonlinear impairments like four-wave mixing, self-phase modulation and stimulated Raman/Brillouin scattering were also evaluated to determine their impact based on number of channels, channel power, and fiber properties
Dispersion Compensation Techniques for Optical Fiber Communication
This document discusses dispersion in optical fiber communication systems and various techniques to compensate for it, including dispersion compensating fibers, fiber Bragg gratings, electronic dispersion compensation, digital filters, and optical phase conjugation. Dispersion increases pulse spreading and affects signal quality. These techniques help reduce dispersion to improve transmission over long distances. The document compares the advantages and disadvantages of each technique.
Optical circuit PPTby Sayantani
This document discusses optical networks. It begins by defining optical networking as using light signals to transmit information across nodes of a telecommunications network. It then covers the history and generations of optical networks, moving from point-to-point links using electronic switches to newer all-optical networks. The benefits of optical networks are also summarized, including higher bandwidth capacity, lower bit error rates, and reduced costs. Key components of optical networks like optical amplifiers, lasers, fibers, and wavelength division multiplexers are also explained. The document concludes by discussing end-to-end wavelength services and how optical networks increase network capacity and feasibility for long-distance networks.
Dmrc Fiber Optics Transmission System
The document discusses fiber optic transmission systems (FOTS). It describes how FOTS uses optical fibers to transmit information over long distances using light signals. It discusses the key components of a FOTS including transmitters, optical fibers, optical receivers, and how total internal reflection allows fibers to transmit signals. The document also covers fiber types, advantages of FOTS over copper wire, components in DMRC's network, and technologies like SDH used for optical communication.
Transmission media and communication protocols
The document discusses various types of transmission media used in computer networks. It describes guided media such as twisted pair cable, coaxial cable, and optical fiber. Twisted pair cable comes in categories based on bandwidth and can be unshielded or shielded. Coaxial cable uses a central conductor surrounded by insulation and shielding. Optical fiber transmits signals in the form of light pulses through glass or plastic strands. Unguided media like radio waves, microwaves, and infrared waves transmit electromagnetic signals through the air without physical conductors. Each type of transmission media has characteristics like bandwidth, noise immunity, and cost that make some more suitable than others for different network applications.
Comparison of PMD Compensation in WDM Systems
Abstract: The need for larger capacities in long haul optical digital transmission lead to greater channel density which can be achieved by wavelength division multiplexing and increasing the bit rate of each channel. As data rates increases, certain phenomena such as dispersion began to show up as obstacles. At higher bit rates beyond 2.5Gbps polarization mode dispersion (PMD) becomes a main factor in the degradation of the transmission characteristics. PMD occurs when slightly different planes of light inside a fiber travel at slightly different speeds and make it impossible to transmit data reliably at high speed in single mode fibers. PMD is caused due to optical birefringence in the fiber due to which the two modes within a single mode fiber travel with different group velocities and the random change of this birefringence along the fiber length results in random coupling between the modes. This effect of PMD results in broadening of transmitted pulses that limit the transmission capacity of the fiber. In high-speed optical communication systems working at data rates of 10Gbps and beyond, signal distortion caused by PMD is also a major limitation of the transmission distance. This paper intends to analyze the performance of PMD compensation by optical compensation technique and using DCF in a two channel WDM system. The analysis is done through eye diagrams from which the Q value and bit error rate can be determined by simulating with OptSim5.3, which includes the latest simulation algorithms to guarantee the highest possible accuracy and real world results. Keywords– Birefringence, Data rate, Deterministic Differential Group Delay (DDGD), Dispersion compensating fibers (DCFs) Polarization Mode Dispersion (PMD Principal State of Polarization (PSP), Q value.
Comparison of PMD Compensation in WDM Systems
The need for larger capacities in long haul optical digital transmission lead to greater channel
density which can be achieved by wavelength division multiplexing and increasing the bit rate of each channel.
As data rates increases, certain phenomena such as dispersion began to show up as obstacles. At higher bit
rates beyond 2.5Gbps polarization mode dispersion (PMD) becomes a main factor in the degradation of the
transmission characteristics. PMD occurs when slightly different planes of light inside a fiber travel at slightly
different speeds and make it impossible to transmit data reliably at high speed in single mode fibers. PMD is
caused due to optical birefringence in the fiber due to which the two modes within a single mode fiber travel
with different group velocities and the random change of this birefringence along the fiber length results in
random coupling between the modes. This effect of PMD results in broadening of transmitted pulses that limit
the transmission capacity of the fiber. In high-speed optical communication systems working at data rates of
10Gbps and beyond, signal distortion caused by PMD is also a major limitation of the transmission distance.
This paper intends to analyze the performance of PMD compensation by optical compensation technique and
using DCF in a two channel WDM system. The analysis is done through eye diagrams from which the Q value
and bit error rate can be determined by simulating with OptSim5.3, which includes the latest simulation
algorithms to guarantee the highest possible accuracy and real world results
Communication systems v6 a fter midz
This document provides information about optical fibers, including their core components, types, transmission characteristics, and applications. It discusses the basic structure of an optical fiber, which consists of a glass core surrounded by a cladding layer and protective coating. The document outlines the three main types of optical fibers - step-index multimode, graded-index multimode, and single mode - and their uses in different communication systems. It also covers optical fiber transmission windows, loss calculations, and system components.
WDM & Optical Amplifiers
This document provides an overview of wavelength division multiplexing (WDM) technology. It begins with introducing optical fibers and their components. It then discusses multiplexing techniques like time-division multiplexing (TDM) and frequency-division multiplexing (FDM). The document focuses on WDM, defining it as a technology that multiplexes multiple optical signals on a single fiber using different laser light wavelengths. It describes dense WDM (DWDM) and coarse WDM (CWDM), and compares their wavelength spacing and applications. The document also outlines optical amplifiers like erbium-doped fiber amplifiers and their uses. In conclusion, it states that WDM enables high-speed, high-capacity data transmission and
Optical multiplexers
Optical multiplexers allow multiple signals to be transmitted simultaneously over a single optical fiber link. There are different optical multiplexing techniques, including wavelength division multiplexing (WDM) and optical time division multiplexing (OTDM). WDM assigns each signal a unique wavelength, while OTDM separates signals in the time domain. Optical multiplexers and demultiplexers use passive optical filters to combine and separate the wavelength signals. This increases bandwidth utilization and reduces transmission costs.
Optical fiber communication || History and working principle || Yaman Shrestha
Presentation Slide of my College a coursework ||Basic Information about the history of Optical Fiber Communication and its working principle.
Fiber Optic Communication System
Fiber optic communication uses lightwave technology to transmit data over long distances and local networks. It has three main elements: a compact light source like an LED or laser, low loss optical fiber made of glass or plastic, and a photo detector to convert light signals back to electrical signals. Fiber optic communication works by converting electrical signals to light signals using a light source in the transmitter, carrying the light beam through the fiber optic cable, and converting it back to an electrical signal using a receiver circuit with a photo detector. This allows for gigabit transmission of data, voice, video, and telemetry over longer distances than traditional copper wire networks.
Advance optical modulation formats
The document discusses advance optical modulation formats for high speed optical networks. It explains that using proper modulation formats can help achieve high speed networks by reducing linear and nonlinear impairments. It compares various intensity and phase modulation formats and their effectiveness in mitigating distortions at 10Gbps, 40Gbps and 100Gbps network speeds. The document proposes further research on modulation formats that can combat fiber nonlinear impairments like correlatve coding and partial response formats to design high capacity optically routed networks.
The Effect of PMD (Polarization Mode Dispersion) the Fibers of New and Old In...
This is a study conducted in a laboratory at the university as a simulation to see the effect of new fiber PMD for different distances. This is done to compare the performance of the digital system with optical fiber WDM. In this simulation are not included remission, chromatic dispersion and nonlinear effects. In this way all of the signal distortions caused only by different combinations of PDM. Polarization effects are very important in communications systems with optical fiber. Optical fiber that is used mainly during the simulation is a standard single mode fiber (SSMF).
Fibre Optics Seminar Ise09
Fibre optics is an important technology for audio visual and IT convergence. It allows transmission of large amounts of data, video and audio over long distances using thin strands of glass or plastic. Fibre uses total internal reflection to transmit light signals encoding digital data through the core. As bandwidth needs increase with high definition formats and IP, fibre optic infrastructure is expanding with developments in multiplexing and higher speed networks.
Optical tech
The document discusses recent advances in optical network technology, including components such as wavelength division multiplexing (WDM) systems, optical cross-connects, and optical switching technologies like MEMS. It outlines commercially available high-capacity optical systems providing terabits per second of capacity, as well as experimental WDM systems demonstrating multi-terabit capacities over long transmission distances. Emerging next generation optical networks are envisioned to be transparent, dynamic, and have switching at the wavelength level.
Similar to System design consideration OC (Tamilselvan).pptx (20)
Dispersion Compensation Techniques for Optical Fiber Communication
Dispersion Compensation Techniques for Optical Fiber Communication
Optical fiber communication || History and working principle || Yaman Shrestha
Optical fiber communication || History and working principle || Yaman Shrestha
The Effect of PMD (Polarization Mode Dispersion) the Fibers of New and Old In...
The Effect of PMD (Polarization Mode Dispersion) the Fibers of New and Old In...
More from tamilselvan sivasamy
Basics of spatial filtering.pptx
Spatial filtering is a process that alters the properties of an optical image by selectively removing certain spatial frequencies. It is commonly used to remove aberrations from laser beams and clean up images from satellites and telescopes. A spatial filter consists of an input aperture, lens system, pinhole aperture, and output lens. The pinhole aperture limits the beam divergence and blocks larger angles to perform the spatial filtering.
EC-1.pdf
1. The document discusses biasing and stability analysis of a common emitter amplifier using hybrid-T and small signal models.
2. Key parameters discussed include input impedance, voltage gain, current gain, and output impedance. Expressions for these parameters are derived using the hybrid-T model.
3. Emitter degeneration and compensation techniques like emitter bypass capacitor are explained to improve stability against temperature variations.
Rajya sabha.pptx
The document summarizes the key roles and powers of the Rajya Sabha, the upper house of India's parliament. It discusses how the Rajya Sabha can suggest amendments to money bills but defers to the Lok Sabha on financial matters. It also has the power to approve states of emergency and remove the Vice President. The Rajya Sabha represents India's diversity through its members and provides oversight of the government through its committees. As the "House of Elders," it takes a deliberative approach to legislation and policy.
DC converter.pptx
This presentation examines the efficiency and efficacy of DC converters in various applications. It begins by defining DC converters as electronic devices that convert AC to DC, and notes their versatile uses in power supplies, renewable energy, and electric vehicles. Key metrics for assessing DC converter performance are explained, including conversion efficiency and power loss. Several factors that impact efficiency, such as switching losses, conduction losses, thermal management, and component selection are discussed. The presentation outlines recent advancements in areas like PWM techniques, high-frequency operation, and smart control algorithms. It also covers diverse applications of DC converters in fields including telecommunications, industrial automation, and electric vehicles. Challenges faced and future directions for improving efficiency, size, and overall performance are summarized
Quantaization.pptx
This document appears to be a list of months with no other context provided. It is unclear what the purpose or meaning of this document is based on the limited information given.
EMF Divergence of vector fields (Tamilselvan).pptx
The document discusses the divergence of vector fields. It defines divergence as the infinitesimal relative change in volume when transporting a volume element along the flow of a vector field. It provides an abstract definition using Lie derivative and volume form. It then relates this to Maxwell's equations, stating that the divergence of the electric displacement field D equals the electric charge density, while the divergence of the magnetic flux density B is always zero since there are no magnetic monopoles.
Amplitude and frequency response (1).pptx
The document discusses amplitude frequency response (AFR), which measures the amplitude of a system's output at different frequencies. AFR provides insights into a system's behavior and characteristics by identifying resonant frequencies, damping effects, and frequency-dependent amplification or attenuation. It is measured using techniques like sine sweeps and frequency response analyzers and displayed in graphs of amplitude versus frequency. Understanding AFR is important for fields like acoustics, electronics, and engineering for analyzing and optimizing systems.
hamming codes and Cyclic codes (1).pptx
This document discusses Hamming Codes and Cyclic Codes, which are error detection and correction techniques used to improve data integrity during transmission. It explains that Hamming Codes can detect single-bit errors and correct them using parity bits, while Cyclic Codes can detect a wide range of error patterns including bursts. The document also outlines the advantages of these codes, such as reliability and low computational complexity, and their applications in areas like wireless communication and computer networks.
COMPARISION OF PHOTODETECTORS.pptx
The document provides information on different types of photodetectors. It begins by defining a photodetector as a device that converts light into an electrical signal through either voltage or current. Photodetectors are then classified as either semiconductor-based, including photovoltaic, photoconductive, p-n junction, and PIN diode detectors, or photoemissive, which operate via the photoelectric effect. The document goes on to provide more details on specific photodetector types like photodiodes, MSM photodetectors, and phototransistors. It discusses important properties of photodetectors like spectral response, responsivity, response time, and noise. Overall, the document provides a high
Yagi uda antenna
This document discusses the Yagi-Uda antenna, which was invented in 1926 by Shintaro Uda and Hidesugu Yagi. It explains that the Yagi-Uda antenna is a directional antenna system consisting of an array of coupled parallel dipoles. The document covers the principle, construction, working, advantages, disadvantages, and applications of the Yagi-Uda antenna. It is commonly used as a terrestrial TV antenna and is usually used at frequencies between 30MHz and 3GHz.
More from tamilselvan sivasamy (10)
EMF Divergence of vector fields (Tamilselvan).pptx
EMF Divergence of vector fields (Tamilselvan).pptx
Recently uploaded
A review on techniques and modelling methodologies used for checking electrom...
The proper function of the integrated circuit (IC) in an inhibiting electromagnetic environment has always been a serious concern throughout the decades of revolution in the world of electronics, from disjunct devices to today’s integrated circuit technology, where billions of transistors are combined on a single chip. The automotive industry and smart vehicles in particular, are confronting design issues such as being prone to electromagnetic interference (EMI). Electronic control devices calculate incorrect outputs because of EMI and sensors give misleading values which can prove fatal in case of automotives. In this paper, the authors have non exhaustively tried to review research work concerned with the investigation of EMI in ICs and prediction of this EMI using various modelling methodologies and measurement setups.
官方认证美国密歇根州立大学毕业证学位证书原版一模一样
原版一模一样【微信:741003700 】【美国密歇根州立大学毕业证学位证书】【微信:741003700 】学位证,留信认证(真实可查,永久存档)offer、雅思、外壳等材料/诚信可靠,可直接看成品样本,帮您解决无法毕业带来的各种难题!外壳,原版制作,诚信可靠,可直接看成品样本。行业标杆!精益求精,诚心合作,真诚制作!多年品质 ,按需精细制作,24小时接单,全套进口原装设备。十五年致力于帮助留学生解决难题,包您满意。
本公司拥有海外各大学样板无数,能完美还原海外各大学 Bachelor Diploma degree, Master Degree Diploma
1:1完美还原海外各大学毕业材料上的工艺:水印,阴影底纹,钢印LOGO烫金烫银,LOGO烫金烫银复合重叠。文字图案浮雕、激光镭射、紫外荧光、温感、复印防伪等防伪工艺。材料咨询办理、认证咨询办理请加学历顾问Q/微741003700
留信网认证的作用:
1:该专业认证可证明留学生真实身份
2:同时对留学生所学专业登记给予评定
3:国家专业人才认证中心颁发入库证书
4:这个认证书并且可以归档倒地方
5:凡事获得留信网入网的信息将会逐步更新到个人身份内,将在公安局网内查询个人身份证信息后,同步读取人才网入库信息
6:个人职称评审加20分
7:个人信誉贷款加10分
8:在国家人才网主办的国家网络招聘大会中纳入资料,供国家高端企业选择人才
Optimizing Gradle Builds - Gradle DPE Tour Berlin 2024
Sinan from the Delivery Hero mobile infrastructure engineering team shares a deep dive into performance acceleration with Gradle build cache optimizations. Sinan shares their journey into solving complex build-cache problems that affect Gradle builds. By understanding the challenges and solutions found in our journey, we aim to demonstrate the possibilities for faster builds. The case study reveals how overlapping outputs and cache misconfigurations led to significant increases in build times, especially as the project scaled up with numerous modules using Paparazzi tests. The journey from diagnosing to defeating cache issues offers invaluable lessons on maintaining cache integrity without sacrificing functionality.
Computational Engineering IITH Presentation
This Presentation will give you a brief idea about what Computational Engineering at IIT Hyderabad has to offer.
Casting-Defect-inSlab continuous casting.pdf
Casting-Defect-inSlab continuous casting. Casting-Defect-inSlab continuous casting. Casting-Defect-inSlab continuous casting. Casting-Defect-inSlab continuous casting. Casting-Defect-inSlab continuous casting. Casting-Defect-inSlab continuous casting. Casting-Defect-inSlab continuous casting. Casting-Defect-inSlab continuous casting
哪里办理(csu毕业证书)查尔斯特大学毕业证硕士学历原版一模一样
原版一模一样【微信:741003700 】【(csu毕业证书)查尔斯特大学毕业证硕士学历】【微信:741003700 】学位证,留信认证(真实可查,永久存档)offer、雅思、外壳等材料/诚信可靠,可直接看成品样本,帮您解决无法毕业带来的各种难题!外壳,原版制作,诚信可靠,可直接看成品样本。行业标杆!精益求精,诚心合作,真诚制作!多年品质 ,按需精细制作,24小时接单,全套进口原装设备。十五年致力于帮助留学生解决难题,包您满意。
本公司拥有海外各大学样板无数,能完美还原海外各大学 Bachelor Diploma degree, Master Degree Diploma
1:1完美还原海外各大学毕业材料上的工艺:水印,阴影底纹,钢印LOGO烫金烫银,LOGO烫金烫银复合重叠。文字图案浮雕、激光镭射、紫外荧光、温感、复印防伪等防伪工艺。材料咨询办理、认证咨询办理请加学历顾问Q/微741003700
留信网认证的作用:
1:该专业认证可证明留学生真实身份
2:同时对留学生所学专业登记给予评定
3:国家专业人才认证中心颁发入库证书
4:这个认证书并且可以归档倒地方
5:凡事获得留信网入网的信息将会逐步更新到个人身份内,将在公安局网内查询个人身份证信息后,同步读取人才网入库信息
6:个人职称评审加20分
7:个人信誉贷款加10分
8:在国家人才网主办的国家网络招聘大会中纳入资料,供国家高端企业选择人才
Literature Review Basics and Understanding Reference Management.pptx
Three-day training on academic research focuses on analytical tools at United Technical College, supported by the University Grant Commission, Nepal. 24-26 May 2024
Comparative analysis between traditional aquaponics and reconstructed aquapon...
The aquaponic system of planting is a method that does not require soil usage. It is a method that only needs water, fish, lava rocks (a substitute for soil), and plants. Aquaponic systems are sustainable and environmentally friendly. Its use not only helps to plant in small spaces but also helps reduce artificial chemical use and minimizes excess water use, as aquaponics consumes 90% less water than soil-based gardening. The study applied a descriptive and experimental design to assess and compare conventional and reconstructed aquaponic methods for reproducing tomatoes. The researchers created an observation checklist to determine the significant factors of the study. The study aims to determine the significant difference between traditional aquaponics and reconstructed aquaponics systems propagating tomatoes in terms of height, weight, girth, and number of fruits. The reconstructed aquaponics system’s higher growth yield results in a much more nourished crop than the traditional aquaponics system. It is superior in its number of fruits, height, weight, and girth measurement. Moreover, the reconstructed aquaponics system is proven to eliminate all the hindrances present in the traditional aquaponics system, which are overcrowding of fish, algae growth, pest problems, contaminated water, and dead fish.
Unit-III-ELECTROCHEMICAL STORAGE DEVICES.ppt
Batteries -Introduction – Types of Batteries – discharging and charging of battery - characteristics of battery –battery rating- various tests on battery- – Primary battery: silver button cell- Secondary battery :Ni-Cd battery-modern battery: lithium ion battery-maintenance of batteries-choices of batteries for electric vehicle applications.
Fuel Cells: Introduction- importance and classification of fuel cells - description, principle, components, applications of fuel cells: H2-O2 fuel cell, alkaline fuel cell, molten carbonate fuel cell and direct methanol fuel cells.
22CYT12-Unit-V-E Waste and its Management.ppt
Introduction- e - waste – definition - sources of e-waste– hazardous substances in e-waste - effects of e-waste on environment and human health- need for e-waste management– e-waste handling rules - waste minimization techniques for managing e-waste – recycling of e-waste - disposal treatment methods of e- waste – mechanism of extraction of precious metal from leaching solution-global Scenario of E-waste – E-waste in India- case studies.
Recycled Concrete Aggregate in Construction Part II
Using recycled concrete aggregates (RCA) for pavements is crucial to achieving sustainability. Implementing RCA for new pavement can minimize carbon footprint, conserve natural resources, reduce harmful emissions, and lower life cycle costs. Compared to natural aggregate (NA), RCA pavement has fewer comprehensive studies and sustainability assessments.
Advanced control scheme of doubly fed induction generator for wind turbine us...
This paper describes a speed control device for generating electrical energy on an electricity network based on the doubly fed induction generator (DFIG) used for wind power conversion systems. At first, a double-fed induction generator model was constructed. A control law is formulated to govern the flow of energy between the stator of a DFIG and the energy network using three types of controllers: proportional integral (PI), sliding mode controller (SMC) and second order sliding mode controller (SOSMC). Their different results in terms of power reference tracking, reaction to unexpected speed fluctuations, sensitivity to perturbations, and resilience against machine parameter alterations are compared. MATLAB/Simulink was used to conduct the simulations for the preceding study. Multiple simulations have shown very satisfying results, and the investigations demonstrate the efficacy and power-enhancing capabilities of the suggested control system.
2008 BUILDING CONSTRUCTION Illustrated - Ching Chapter 02 The Building.pdf
2008 BUILDING CONSTRUCTION Illustrated - Ching Chapter 02 The Building
CHINA’S GEO-ECONOMIC OUTREACH IN CENTRAL ASIAN COUNTRIES AND FUTURE PROSPECT
The rivalry between prominent international actors for dominance over Central Asia's hydrocarbon
reserves and the ancient silk trade route, along with China's diplomatic endeavours in the area, has been
referred to as the "New Great Game." This research centres on the power struggle, considering
geopolitical, geostrategic, and geoeconomic variables. Topics including trade, political hegemony, oil
politics, and conventional and nontraditional security are all explored and explained by the researcher.
Using Mackinder's Heartland, Spykman Rimland, and Hegemonic Stability theories, examines China's role
in Central Asia. This study adheres to the empirical epistemological method and has taken care of
objectivity. This study analyze primary and secondary research documents critically to elaborate role of
china’s geo economic outreach in central Asian countries and its future prospect. China is thriving in trade,
pipeline politics, and winning states, according to this study, thanks to important instruments like the
Shanghai Cooperation Organisation and the Belt and Road Economic Initiative. According to this study,
China is seeing significant success in commerce, pipeline politics, and gaining influence on other
governments. This success may be attributed to the effective utilisation of key tools such as the Shanghai
Cooperation Organisation and the Belt and Road Economic Initiative.
Recently uploaded (20)
A review on techniques and modelling methodologies used for checking electrom...
A review on techniques and modelling methodologies used for checking electrom...
basic-wireline-operations-course-mahmoud-f-radwan.pdf
basic-wireline-operations-course-mahmoud-f-radwan.pdf
Optimizing Gradle Builds - Gradle DPE Tour Berlin 2024
Optimizing Gradle Builds - Gradle DPE Tour Berlin 2024
BPV-GUI-01-Guide-for-ASME-Review-Teams-(General)-10-10-2023.pdf
BPV-GUI-01-Guide-for-ASME-Review-Teams-(General)-10-10-2023.pdf
Generative AI leverages algorithms to create various forms of content
Generative AI leverages algorithms to create various forms of content
Literature Review Basics and Understanding Reference Management.pptx
Literature Review Basics and Understanding Reference Management.pptx
Comparative analysis between traditional aquaponics and reconstructed aquapon...
Comparative analysis between traditional aquaponics and reconstructed aquapon...
Recycled Concrete Aggregate in Construction Part II
Recycled Concrete Aggregate in Construction Part II
Advanced control scheme of doubly fed induction generator for wind turbine us...
Advanced control scheme of doubly fed induction generator for wind turbine us...
2008 BUILDING CONSTRUCTION Illustrated - Ching Chapter 02 The Building.pdf
2008 BUILDING CONSTRUCTION Illustrated - Ching Chapter 02 The Building.pdf
CHINA’S GEO-ECONOMIC OUTREACH IN CENTRAL ASIAN COUNTRIES AND FUTURE PROSPECT
CHINA’S GEO-ECONOMIC OUTREACH IN CENTRAL ASIAN COUNTRIES AND FUTURE PROSPECT
System design consideration OC (Tamilselvan).pptx
- 1. System design considerations optical communication Mr.S.Tamilselvan
- 2. Components of Optical Communication Systems Optical Fiber: The choice of optical fiber is a fundamental consideration. Single-mode fibers are preferred for long-distance communication due to lower dispersion and attenuation. Multi-mode fibers may be used for shorter distances but have limitations in terms of data rate and distance.
- 3. Components of Optical Communication Systems Light Sources: Laser diodes or light-emitting diodes (LEDs) are used as light sources. Laser diodes provide a narrower spectrum, allowing for higher data rates and longer distances. Proper selection of the light source is critical for system performance.
- 4. Components of Optical Communication Systems Photodetectors: A photodetector at the receiver end converts optical signals back into electrical signals. High-speed and low-noise photodetectors are essential for maintaining signal quality and integrity.
- 5. Components of Optical Communication Systems Connectors and Splices: The quality of connectors and splices affects signal loss. Proper alignment and cleanliness are essential to minimize signal degradation.
- 6. Signal Modulation Techniques Modulation Formats: Different modulation formats, such as amplitude modulation (AM), frequency modulation (FM), or phase modulation (PM), are used to encode information on the optical signal. Quadrature amplitude modulation (QAM) is widely used for high-capacity transmission.
- 7. Signal Modulation Techniques Modulation Speed: The modulation speed, often measured in gigabits per second (Gbps) or terabits per second (Tbps), affects the data rate. Higher speeds require advanced modulation techniques and components.
- 8. Dispersion Managemen Chromatic Dispersion: Chromatic dispersion occurs when different wavelengths of light travel at different speeds in the fiber, causing signal distortion. Dispersion compensation modules or dispersion-shifted fibers are used to manage chromatic dispersion.
- 9. Dispersion Managemen Polarization Mode Dispersion (PMD): PMD can cause signal degradation due to polarization variations in the fiber. Specialized fibers and polarization controllers are employed to mitigate PMD effects.
- 10. Network Architecture Point-to-Point vs. Wavelength-Division Multiplexing (WDM): Optical networks can be point-to-point or use WDM to transmit multiple wavelengths on a single fiber. WDM increases network capacity significantly and is commonly used in long-haul communication.
- 11. Network Architecture Network Topology: The choice of network topology (e.g., ring, mesh, or star) affects network resilience and scalability. Mesh topologies are often preferred for redundancy and fault tolerance.
- 12. Network Architecture Network Management and Monitoring: Real-time monitoring and management tools are essential for detecting and addressing network issues promptly. Optical performance monitoring and fault localization systems are crucial for maintaining network reliability.