The document provides specifications for Sub10's Liberator wireless Ethernet bridges, which operate at 60GHz frequencies and can transmit data at speeds up to 1Gbps over distances up to 1km. The bridges are compact at 182x182x60mm and lightweight at 2.5kg. They use PoE for power and have an IP67 outdoor rating. Common applications include wireless backhauling, leased line replacement, LAN connectivity between buildings, and use in mobile networks and broadcast applications.
Starview International manufactures and distributes optical transceivers and networking solutions. They offer a wide range of transceiver products including SFP, SFP+, GBIC, XFP, and QSFP modules that are compatible with major networking equipment vendors. Starview's transceivers feature digital diagnostics monitoring and comply with various industry standards. They provide reliable products, dedicated after-sales support, and competitive pricing to customers in the telecom, enterprise, and industrial sectors.
This white paper discusses using 60GHz wireless backhaul to address increasing mobile data demand in dense urban areas. It describes trends in mobile network architecture including replacing old base stations with higher capacity ones, increasing base station density, and adding small cells. 60GHz technology provides benefits for these "metro cell" deployments, including high bandwidth, low interference between links due to oxygen absorption, and small form factor equipment suitable for placement on street furniture. A case study examines replacing an existing Nokia microwave radio product with a new 60GHz solution to backhaul increased traffic from new small cells and base stations.
The document describes Cisco ASR 9000 Series Ethernet Line Cards, which are carrier-grade networking components. The line cards deliver scalable, high-availability Ethernet and IP services to enable profitable business, residential, and mobile services. They provide dense QoS and support both Layer 2 and 3 services, allowing operators to reduce costs and quickly deploy new services. Key features include high port densities, support for various interface types and distances, extensive Layer 2 and 3 capabilities, carrier-class OAM functions, and timing synchronization.
MPlus has a powerful strategy to deploy wifi internet coverage all over the world. So far there has never been a city or region that we could not cover. Whether it be up in the mountain province using satellite internet or out in the province with a bundled range of carriers smart bro or others after we combine bandwidth, it always works.
DWDM & Packet Optical Fundamentals by Dion Leung [APRICOT 2015]APNIC
This document provides an overview of optical networking fundamentals and components for designing DWDM networks. It discusses:
- Key components used to build optical networks including fiber, transceivers, muxponders, amplifiers, and dispersion compensation modules.
- Design considerations for point-to-point and multi-node linear DWDM networks such as length, number of fiber strands, fiber type and condition, transmission capacity needs, and calculating power budgets.
- The roles of optical amplifiers and dispersion compensation in extending transmission reach over long distances and high bitrates.
- A quick summary of the essential "lego blocks" used to construct metro and regional optical networks.
The document introduces the Liberator-V320/1000 millimeter wave wireless system from Sub10 Systems. It provides an overview of the company and product range, including specifications for the Liberator-V320 and Liberator-V1000 models. It discusses key concepts like millimeter wave spectrum, narrow beam antennas, and security. It also covers link planning considerations, production and warranty support.
The document provides an overview of wavelength division multiplexing (WDM) technology and Juniper's packet optical solutions. It discusses key optical transmission challenges like attenuation, dispersion, and nonlinearities. It also covers topics such as receive power, multiple wavelengths, amplifiers, ROADMs, transponders, and Juniper's integrated and disaggregated product portfolio including the MX series and BTI7000/7800 series. The training is intended to provide a high-level introduction to DWDM 101 and Juniper's end-to-end packet optical solutions.
Performance Tradeoffs of 120 Gb/s DP-QPSK in ROADM SystemsADVA
Check out Mark Filer and Sorin Tibuleac's IEEE IPC 2013 slides on performance tradeoffs of 120 Gb/s DP-QPSK in ROADM systems employing broadcast-and-select versus route-and-select architectures
Starview International manufactures and distributes optical transceivers and networking solutions. They offer a wide range of transceiver products including SFP, SFP+, GBIC, XFP, and QSFP modules that are compatible with major networking equipment vendors. Starview's transceivers feature digital diagnostics monitoring and comply with various industry standards. They provide reliable products, dedicated after-sales support, and competitive pricing to customers in the telecom, enterprise, and industrial sectors.
This white paper discusses using 60GHz wireless backhaul to address increasing mobile data demand in dense urban areas. It describes trends in mobile network architecture including replacing old base stations with higher capacity ones, increasing base station density, and adding small cells. 60GHz technology provides benefits for these "metro cell" deployments, including high bandwidth, low interference between links due to oxygen absorption, and small form factor equipment suitable for placement on street furniture. A case study examines replacing an existing Nokia microwave radio product with a new 60GHz solution to backhaul increased traffic from new small cells and base stations.
The document describes Cisco ASR 9000 Series Ethernet Line Cards, which are carrier-grade networking components. The line cards deliver scalable, high-availability Ethernet and IP services to enable profitable business, residential, and mobile services. They provide dense QoS and support both Layer 2 and 3 services, allowing operators to reduce costs and quickly deploy new services. Key features include high port densities, support for various interface types and distances, extensive Layer 2 and 3 capabilities, carrier-class OAM functions, and timing synchronization.
MPlus has a powerful strategy to deploy wifi internet coverage all over the world. So far there has never been a city or region that we could not cover. Whether it be up in the mountain province using satellite internet or out in the province with a bundled range of carriers smart bro or others after we combine bandwidth, it always works.
DWDM & Packet Optical Fundamentals by Dion Leung [APRICOT 2015]APNIC
This document provides an overview of optical networking fundamentals and components for designing DWDM networks. It discusses:
- Key components used to build optical networks including fiber, transceivers, muxponders, amplifiers, and dispersion compensation modules.
- Design considerations for point-to-point and multi-node linear DWDM networks such as length, number of fiber strands, fiber type and condition, transmission capacity needs, and calculating power budgets.
- The roles of optical amplifiers and dispersion compensation in extending transmission reach over long distances and high bitrates.
- A quick summary of the essential "lego blocks" used to construct metro and regional optical networks.
The document introduces the Liberator-V320/1000 millimeter wave wireless system from Sub10 Systems. It provides an overview of the company and product range, including specifications for the Liberator-V320 and Liberator-V1000 models. It discusses key concepts like millimeter wave spectrum, narrow beam antennas, and security. It also covers link planning considerations, production and warranty support.
The document provides an overview of wavelength division multiplexing (WDM) technology and Juniper's packet optical solutions. It discusses key optical transmission challenges like attenuation, dispersion, and nonlinearities. It also covers topics such as receive power, multiple wavelengths, amplifiers, ROADMs, transponders, and Juniper's integrated and disaggregated product portfolio including the MX series and BTI7000/7800 series. The training is intended to provide a high-level introduction to DWDM 101 and Juniper's end-to-end packet optical solutions.
Performance Tradeoffs of 120 Gb/s DP-QPSK in ROADM SystemsADVA
Check out Mark Filer and Sorin Tibuleac's IEEE IPC 2013 slides on performance tradeoffs of 120 Gb/s DP-QPSK in ROADM systems employing broadcast-and-select versus route-and-select architectures
Applying The LED System instead Of The RFID System In Transportations TollEng_Ahmad
The document proposes replacing RFID technology with an LED-based optoelectronic system for toll collection. It describes the basic principles of LEDs, how they can function as both light emitters and sensors. Calculations are shown to determine system parameters like wavelength and beam divergence over the 5m distance between vehicles and road sensors. The proposed system would use a programmed LED on each vehicle to transmit a unique code to multiple photo-receivers at the toll point. This would allow toll collection without vehicles stopping. The system aims to reduce radiation risks compared to RFID and could integrate with vehicle systems to provide additional transportation data. In conclusion, the LED system design aims to successfully implement non-stop tolling using similar principles as remote
The document provides an overview and agenda for a presentation on advances in Dense Wavelength Division Multiplexing (DWDM). It begins with definitions of DWDM and how it works by combining multiple optical transmitters onto an optical fiber using different wavelengths. It then covers optical fiber types and properties, linear and non-linear effects that impact transmission over fiber including attenuation, chromatic dispersion, optical signal-to-noise ratio, and solutions to mitigate these effects like amplifiers, dispersion compensation, and forward error correction. Finally, it reviews common DWDM components like transmitters, receivers, mux/demux filters, optical add/drop multiplexers, and reconfigurable optical add/drop multiplexers.
Mobile WiMAX and 3G technologies each have their advantages for providing mobile broadband access. Mobile WiMAX uses OFDMA which improves multipath tolerance and supports asymmetric traffic. It also provides high data rates, advanced QoS features, and efficient support for IP services. 3G technologies have evolved from 2G systems and provide improved voice and data capabilities through innovations like HSDPA and HSUPA, but were originally optimized for voice. Mobile WiMAX is designed from the start to meet broadband requirements for high speed data.
1) By 2020, mobile networks will need to support 1000 times more traffic than 2010 levels through advancements in spectral efficiency, available spectrum, network densification, and new technologies.
2) New radio technologies aim to reduce latency by 10 times to 1ms and improve spectral efficiency 10 times through techniques like coordinated multipoint and interference cancellation.
3) Ten times more spectrum could be made available through initiatives to drive spectrum availability and technologies like cognitive radio.
4) The number of base stations is expected to grow to over 50 million by 2020, 80% being micro, pico or femtocells, to support 1000 times more network capacity through densification.
This document discusses the future of mobile broadband beyond 4G by 2020. It predicts:
1) Mobile data traffic will increase up to 1000 times from 2010 levels, requiring support for 1000 exabytes of traffic.
2) Latency in radio networks can be reduced to 1 millisecond through shorter frame lengths, enabling low-latency applications.
3) Spectral efficiency can be improved 10 times through technologies like coordinated multipoint to manage interference.
1) By 2020, mobile networks will need to support up to 1000 times more data traffic than in 2010 through advancements like 10x more spectrum availability, 10x more base stations, and 10x improvements in spectral and latency performance.
2) New radio technologies aim to reduce latency to 1ms and improve spectral efficiency 10x by 2020 through techniques like shorter frame lengths, interference cancellation, and advanced antenna technologies.
3) To achieve 1000x more network capacity, mobile networks will rely on 10x gains in performance, spectrum, and base station deployment through smaller cells and a combination of new 4G, 5G, and WiFi technologies working together.
This document provides an overview of dense wavelength division multiplexing (DWDM) systems. It discusses the advantages of DWDM over traditional discrete transport channels, including more efficient use of fiber and lower costs. It also covers various types of multiplexing such as time division multiplexing and wavelength division multiplexing. The document describes different optical multiplexing technologies used in DWDM systems, such as thin-film filters, fiber Bragg gratings, and arrayed waveguide gratings. It also discusses components of an optical network such as tunable lasers, amplifiers, and regeneration. Finally, it reviews impairments and considerations for DWDM transmission.
This document provides an introduction to Dense Wavelength Division Multiplexing (DWDM) technology. It discusses the economic drivers pushing for increased bandwidth in networks, and describes DWDM as an option for increasing carrier bandwidth by allowing multiple wavelengths of light to be transmitted simultaneously along the same fiber. The document outlines some key components of DWDM systems, such as optical fibers, light sources and detectors, optical amplifiers, and multiplexers/demultiplexers. It also notes some benefits of using DWDM with SONET, such as enhanced performance, reliability, and network management capabilities.
Today, Metrodata offers a wide range of connectivity solutions for the LAN and WAN arena. Network Interfaces supported include those for Serial, SDH/PDH, ATM, Ethernet and Fibre applications. Our portfolio extends from simple connectivity products through to Multiplexing and Managed Service Delivery Solutions for the Telecoms Carrier market. A complete guide to Metrodata's Portfolio of products.
Increase Profitability with WAV and Exalt SolutionsWAV Inc.
Increase your profitability with Exalt Solutions and WAV Wireless Outfitters.
Go to www.wavonline.com to learn more!
For all of your Wireless needs... WAV's Got You Covered
ASON – Automatically Switched Optical Networks
Dynamically switch the light path
Enabler for many applications
Controlled by UNI and NNI – Allow applications to set the light path
Allow to add the intelligence into the optical core
ASON:
The Automatic Switched Optical Network (ASON) is both a framework and a technology capability.
As a framework that describes a control and management architecture for an automatic switched optical transport network.
As a technology, it refers to routing and signalling protocols applied to an optical network which enable dynamic path setup.
Recently changed names to Automatic Switched Transport Network (G.ASTN)
Internet2 will be aggressive in its deployment of its Innovation Platform in order to allow its members to capitalize on the groundswell of support for high-speed software defined networking - summer of networking, Chris Robb, Indiana University/Internet2
The document provides specifications for the PTP 500 series of point-to-point wireless Ethernet bridges. The PTP 500 systems can create powerful wireless networks for businesses and governments while providing flexibility. They operate between 5.4-5.8 GHz, support data rates up to 105 Mbps at distances up to 155 miles. Key features include throughput, reach, security and reliability required for applications such as backhaul, campus connectivity, and more.
The TR-WMX-3.5-pBS pico Base Station is a WiMAX product that:
1) Adheres to IEEE 802.16-2004 standards and is based on Wavesat products, providing a comprehensive WiMAX product family.
2) Offers future-proof features like remote software management and is Airsync-ready for autonomous QoS and real-time provisioning.
3) Has a low-cost design, high quality, and ease of installation making it suitable for incremental network build-outs and guaranteed high-bandwidth applications.
This white paper discusses using 60GHz wireless backhaul to address increasing mobile data demand in dense urban areas. It notes that service providers are deploying more small cells and traditional base stations to boost capacity. However, this requires efficient backhaul solutions, as fiber may not reach all locations. 60GHz technology is presented as an optimal solution through its high bandwidth, small form factors suitable for street furniture mounting, and lack of interference between short-range links. A case study describes replacing aging Nokia microwave radios with a new 60GHz system for interference-free small cell backhaul.
Gi-Fi is a new wireless technology that offers faster data transfer rates of up to 5 gigabits per second, ten times faster than current WiFi speeds. It utilizes a small chip and antenna to transmit data wirelessly over short distances of around 10 meters, with lower power consumption than WiFi. Gi-Fi integrated the transmitter and receiver onto a single chip using CMOS technology to allow for wireless transfer of large files like videos within seconds. It could enable wireless home networks of the future with high-speed broadband connections and the transfer of large files.
Ulrich Kohn discusses small cell backhauling and synchronization. Small cells improve coverage and bandwidth by supplementing macro cells. Fronthaul networks digitally transport small cell signals over fiber. Emerging architectures use centralized baseband units pooled in a data center and remote radio heads at antenna sites. Synchronization is critical and can be enabled through boundary clocks, transparent transport, and co-located boundary clocks and transport controllers. ADVA Optical Networks provides solutions for fronthaul networks, carrier Ethernet backhaul, synchronization, and assurance to support small cell deployments.
This document discusses integrated antennas at 60 GHz. It describes several short-range wireless technologies including ultra-wideband, Zigbee, and 60 GHz millimeter-wave wireless personal area networks. It then discusses three main IC technologies for implementing RF circuits: low temperature co-fired ceramic, multi-chip module using deposited thin films/laminate, and complementary metal oxide semiconductor. The document focuses on the challenges of implementing on-chip antennas using a CMOS substrate due to energy losses in silicon and proposes a design for an integrated antenna to minimize radiation losses.
WiMAX is a wireless technology that provides broadband access over long distances. It can deliver high-speed internet access to both fixed and mobile users. WiMAX uses radio signals to transmit data between an antenna mounted on a structure like a tower and a wireless device. This allows it to provide broadband connectivity to areas where cable or DSL internet is unavailable or too expensive. WiMAX has advantages over WiFi like greater range, higher speeds, and less interference. While it promises high speeds and long ranges, its real-world performance depends on factors like line of sight, number of users, and environmental conditions. WiMAX can help provide emergency communications networks that are difficult to disrupt.
Next Level Communication with 5G NetworkingAmphenol ICC
With the implementation of the fifth generation of telecom networking, the 5G, it is not only meeting high-speed requirements but also creating a new ecosystem with the Internet of Things where these connected devices communicate with each other making life easier.
The document provides information about WiMAX including:
1) WiMAX is a wireless technology that provides broadband internet access over long distances, as an alternative to cable and DSL. It uses towers and receivers to connect devices to the internet.
2) A single WiMAX tower can provide coverage to a large area of up to 3,000 square miles using connections to other towers. This allows WiMAX to service remote rural areas.
3) WiMAX can provide both non-line-of-sight and line-of-sight services using different frequency ranges. It is suitable for applications like broadband access, connecting WiFi hotspots, and providing backup internet connections for businesses.
Applying The LED System instead Of The RFID System In Transportations TollEng_Ahmad
The document proposes replacing RFID technology with an LED-based optoelectronic system for toll collection. It describes the basic principles of LEDs, how they can function as both light emitters and sensors. Calculations are shown to determine system parameters like wavelength and beam divergence over the 5m distance between vehicles and road sensors. The proposed system would use a programmed LED on each vehicle to transmit a unique code to multiple photo-receivers at the toll point. This would allow toll collection without vehicles stopping. The system aims to reduce radiation risks compared to RFID and could integrate with vehicle systems to provide additional transportation data. In conclusion, the LED system design aims to successfully implement non-stop tolling using similar principles as remote
The document provides an overview and agenda for a presentation on advances in Dense Wavelength Division Multiplexing (DWDM). It begins with definitions of DWDM and how it works by combining multiple optical transmitters onto an optical fiber using different wavelengths. It then covers optical fiber types and properties, linear and non-linear effects that impact transmission over fiber including attenuation, chromatic dispersion, optical signal-to-noise ratio, and solutions to mitigate these effects like amplifiers, dispersion compensation, and forward error correction. Finally, it reviews common DWDM components like transmitters, receivers, mux/demux filters, optical add/drop multiplexers, and reconfigurable optical add/drop multiplexers.
Mobile WiMAX and 3G technologies each have their advantages for providing mobile broadband access. Mobile WiMAX uses OFDMA which improves multipath tolerance and supports asymmetric traffic. It also provides high data rates, advanced QoS features, and efficient support for IP services. 3G technologies have evolved from 2G systems and provide improved voice and data capabilities through innovations like HSDPA and HSUPA, but were originally optimized for voice. Mobile WiMAX is designed from the start to meet broadband requirements for high speed data.
1) By 2020, mobile networks will need to support 1000 times more traffic than 2010 levels through advancements in spectral efficiency, available spectrum, network densification, and new technologies.
2) New radio technologies aim to reduce latency by 10 times to 1ms and improve spectral efficiency 10 times through techniques like coordinated multipoint and interference cancellation.
3) Ten times more spectrum could be made available through initiatives to drive spectrum availability and technologies like cognitive radio.
4) The number of base stations is expected to grow to over 50 million by 2020, 80% being micro, pico or femtocells, to support 1000 times more network capacity through densification.
This document discusses the future of mobile broadband beyond 4G by 2020. It predicts:
1) Mobile data traffic will increase up to 1000 times from 2010 levels, requiring support for 1000 exabytes of traffic.
2) Latency in radio networks can be reduced to 1 millisecond through shorter frame lengths, enabling low-latency applications.
3) Spectral efficiency can be improved 10 times through technologies like coordinated multipoint to manage interference.
1) By 2020, mobile networks will need to support up to 1000 times more data traffic than in 2010 through advancements like 10x more spectrum availability, 10x more base stations, and 10x improvements in spectral and latency performance.
2) New radio technologies aim to reduce latency to 1ms and improve spectral efficiency 10x by 2020 through techniques like shorter frame lengths, interference cancellation, and advanced antenna technologies.
3) To achieve 1000x more network capacity, mobile networks will rely on 10x gains in performance, spectrum, and base station deployment through smaller cells and a combination of new 4G, 5G, and WiFi technologies working together.
This document provides an overview of dense wavelength division multiplexing (DWDM) systems. It discusses the advantages of DWDM over traditional discrete transport channels, including more efficient use of fiber and lower costs. It also covers various types of multiplexing such as time division multiplexing and wavelength division multiplexing. The document describes different optical multiplexing technologies used in DWDM systems, such as thin-film filters, fiber Bragg gratings, and arrayed waveguide gratings. It also discusses components of an optical network such as tunable lasers, amplifiers, and regeneration. Finally, it reviews impairments and considerations for DWDM transmission.
This document provides an introduction to Dense Wavelength Division Multiplexing (DWDM) technology. It discusses the economic drivers pushing for increased bandwidth in networks, and describes DWDM as an option for increasing carrier bandwidth by allowing multiple wavelengths of light to be transmitted simultaneously along the same fiber. The document outlines some key components of DWDM systems, such as optical fibers, light sources and detectors, optical amplifiers, and multiplexers/demultiplexers. It also notes some benefits of using DWDM with SONET, such as enhanced performance, reliability, and network management capabilities.
Today, Metrodata offers a wide range of connectivity solutions for the LAN and WAN arena. Network Interfaces supported include those for Serial, SDH/PDH, ATM, Ethernet and Fibre applications. Our portfolio extends from simple connectivity products through to Multiplexing and Managed Service Delivery Solutions for the Telecoms Carrier market. A complete guide to Metrodata's Portfolio of products.
Increase Profitability with WAV and Exalt SolutionsWAV Inc.
Increase your profitability with Exalt Solutions and WAV Wireless Outfitters.
Go to www.wavonline.com to learn more!
For all of your Wireless needs... WAV's Got You Covered
ASON – Automatically Switched Optical Networks
Dynamically switch the light path
Enabler for many applications
Controlled by UNI and NNI – Allow applications to set the light path
Allow to add the intelligence into the optical core
ASON:
The Automatic Switched Optical Network (ASON) is both a framework and a technology capability.
As a framework that describes a control and management architecture for an automatic switched optical transport network.
As a technology, it refers to routing and signalling protocols applied to an optical network which enable dynamic path setup.
Recently changed names to Automatic Switched Transport Network (G.ASTN)
Internet2 will be aggressive in its deployment of its Innovation Platform in order to allow its members to capitalize on the groundswell of support for high-speed software defined networking - summer of networking, Chris Robb, Indiana University/Internet2
The document provides specifications for the PTP 500 series of point-to-point wireless Ethernet bridges. The PTP 500 systems can create powerful wireless networks for businesses and governments while providing flexibility. They operate between 5.4-5.8 GHz, support data rates up to 105 Mbps at distances up to 155 miles. Key features include throughput, reach, security and reliability required for applications such as backhaul, campus connectivity, and more.
The TR-WMX-3.5-pBS pico Base Station is a WiMAX product that:
1) Adheres to IEEE 802.16-2004 standards and is based on Wavesat products, providing a comprehensive WiMAX product family.
2) Offers future-proof features like remote software management and is Airsync-ready for autonomous QoS and real-time provisioning.
3) Has a low-cost design, high quality, and ease of installation making it suitable for incremental network build-outs and guaranteed high-bandwidth applications.
This white paper discusses using 60GHz wireless backhaul to address increasing mobile data demand in dense urban areas. It notes that service providers are deploying more small cells and traditional base stations to boost capacity. However, this requires efficient backhaul solutions, as fiber may not reach all locations. 60GHz technology is presented as an optimal solution through its high bandwidth, small form factors suitable for street furniture mounting, and lack of interference between short-range links. A case study describes replacing aging Nokia microwave radios with a new 60GHz system for interference-free small cell backhaul.
Gi-Fi is a new wireless technology that offers faster data transfer rates of up to 5 gigabits per second, ten times faster than current WiFi speeds. It utilizes a small chip and antenna to transmit data wirelessly over short distances of around 10 meters, with lower power consumption than WiFi. Gi-Fi integrated the transmitter and receiver onto a single chip using CMOS technology to allow for wireless transfer of large files like videos within seconds. It could enable wireless home networks of the future with high-speed broadband connections and the transfer of large files.
Ulrich Kohn discusses small cell backhauling and synchronization. Small cells improve coverage and bandwidth by supplementing macro cells. Fronthaul networks digitally transport small cell signals over fiber. Emerging architectures use centralized baseband units pooled in a data center and remote radio heads at antenna sites. Synchronization is critical and can be enabled through boundary clocks, transparent transport, and co-located boundary clocks and transport controllers. ADVA Optical Networks provides solutions for fronthaul networks, carrier Ethernet backhaul, synchronization, and assurance to support small cell deployments.
This document discusses integrated antennas at 60 GHz. It describes several short-range wireless technologies including ultra-wideband, Zigbee, and 60 GHz millimeter-wave wireless personal area networks. It then discusses three main IC technologies for implementing RF circuits: low temperature co-fired ceramic, multi-chip module using deposited thin films/laminate, and complementary metal oxide semiconductor. The document focuses on the challenges of implementing on-chip antennas using a CMOS substrate due to energy losses in silicon and proposes a design for an integrated antenna to minimize radiation losses.
WiMAX is a wireless technology that provides broadband access over long distances. It can deliver high-speed internet access to both fixed and mobile users. WiMAX uses radio signals to transmit data between an antenna mounted on a structure like a tower and a wireless device. This allows it to provide broadband connectivity to areas where cable or DSL internet is unavailable or too expensive. WiMAX has advantages over WiFi like greater range, higher speeds, and less interference. While it promises high speeds and long ranges, its real-world performance depends on factors like line of sight, number of users, and environmental conditions. WiMAX can help provide emergency communications networks that are difficult to disrupt.
Next Level Communication with 5G NetworkingAmphenol ICC
With the implementation of the fifth generation of telecom networking, the 5G, it is not only meeting high-speed requirements but also creating a new ecosystem with the Internet of Things where these connected devices communicate with each other making life easier.
The document provides information about WiMAX including:
1) WiMAX is a wireless technology that provides broadband internet access over long distances, as an alternative to cable and DSL. It uses towers and receivers to connect devices to the internet.
2) A single WiMAX tower can provide coverage to a large area of up to 3,000 square miles using connections to other towers. This allows WiMAX to service remote rural areas.
3) WiMAX can provide both non-line-of-sight and line-of-sight services using different frequency ranges. It is suitable for applications like broadband access, connecting WiFi hotspots, and providing backup internet connections for businesses.
WiMAX has the potential to:
1) Extend public WiFi hotspots to provide metropolitan-wide mobile data coverage;
2) Connect enterprises and residents in urban and suburban areas where copper infrastructure is limited; and
3) Bridge the digital divide by delivering broadband access in low-density areas. WiMAX uses innovative technology to provide broadband wireless access at multiple Mbit/s data rates within a range of several kilometers. It will enable the "Portable Internet" experience on mobile devices.
TechWiseTV Workshop: Q&A for 802.11ac Wave 2Robb Boyd
Q&A from the Workshop: 802.11ac Wave 2 with Innovations for High-Density Networks
Watch the Replay: http://cs.co/9006Bq8bq
This was easily one of our most popular workshops. The slides are here in .pdf form as this is what SlideShare provides…but if you have not listened to the wireless experts we gathered for this one…stop, go to http://cs.co/9006Bq8bq and watch the replay. It is WELL worth your time. (I will post the Q&A we captured from this one soon….right here on Slideshare within a few days).
Three wireless wizards: Bill Rubino, Mark Denny, and Jim Florwick
The marketing description: To meet the needs of today’s demanding user environments, Cisco’s high-speed access points do much more than meet the 802.11ac Wave 2 standard. They go beyond it.
See how these highly intelligent solutions deliver greater flexibility, a more optimized wireless environment, and a better user experience through innovations such as flexible radio assignment, hyperlocation antenna, Bluetooth integration, and more.
Don’t miss this exclusive, in-depth look at the hardware that combines the highest Wi-Fi performance with powerful end-device efficiency. And remember to bring your toughest questions for our live Q&A. Save your spot now.
A few additional resources from TechWiseTV for you:
Two great animations:
- Learn more about MultiGig with our 'Fundamentals of NBaseT" https://youtu.be/87dsbpi3iCw
- "Fundamentals of 802.11ac WAVE 2" https://youtu.be/kjapSG_CvJc
TechWiseTV (The Show)
See the AP’s and Mark Denny: https://youtu.be/H8rPvJLcTww
Great stuff on Wireless Location Services: https://youtu.be/8HHrA1qkdAI
Broadband Wireless Access (BWA) has been serving enterprises and operators for years, to the great satisfaction of its users. However, the new IP-based standard developed by the IEEE 802.16 is likely to accelerate adoption of the technology. It will expand the scope of usage thanks to: the possibility of operating in licensed and unlicensed frequency bands,
unique performance under Non-Line-of-Sight (NLOS) conditions, Quality of Service (QoS) awareness, extension to nomadicity, and more. In parallel, the WiMAX forum, backed by industry leaders, will encourage the widespread adoption of broadband wireless access by establishing a brand for the technology and pushing interoperability between products.
The document describes WiMAX technology and compares it to WiFi. It discusses the IEEE 802.16 standard that WiMAX is based on and the two versions: fixed and mobile. It also reviews some non-standard commercial solutions for wireless networks like Alvarion, Motorola Canopy, and MikroTik that have been used for medium to long-range networks.
Solectek Corporate Overview Wireless Solution For Ip CameraAli Shoaee
Solectek is a wireless networking company headquartered in San Diego, CA that provides broadband wireless solutions. It has over 100,000 wireless installations in over 80 countries worldwide, serving over 100 government institutions, 100 school districts, and 50 carriers/ISPs. Its product line includes WiMAX, licensed and unlicensed microwave, and wireless Ethernet solutions for applications such as mobile broadband, backhaul, and enterprise connectivity.
This document discusses WiMAX technology and its applications. It begins by defining WiMAX and comparing it to other wireless technologies such as WiFi, DSL, and cable. It then addresses whether WiMAX will replace these existing broadband technologies. While WiMAX provides broadband wireless access not available in all areas, DSL and cable will likely continue to be deployed where infrastructure allows. The document goes on to describe the IEEE 802.16 standard that defines WiMAX and how it has evolved. It also explains WiMAX system models including point-to-point, point-to-multipoint, and mesh topologies. Finally, it covers WiMAX's use as a metro-access option and details its physical layer technology which is based
WiMAX, short for Worldwide Interoperability for Microwave Access, is the name for 802.16 family of wireless services.
Used as carriers in metropolitan area networks.
It has a tremendous range, up to 30 miles, and speeds of up to 70 Mbps.
It combines the familiarity of Wi-Fi with the mobility of cellular that will deliver personal mobile broadband that moves with you.
It lets us get connected to the Internet, miles from the nearest Wi-Fi hotspot.
Low power wireless technologies for connecting embedded sensors in the IoT: A...Gilles Callebaut
Embedded sensors are enabling a wide range of emerging smart services in domains ranging from
healthcare to smart homes and cities. They are waiting to be connected to the internet and rapidly
becoming crucial components of a valuable Internet of Things (IoT).
The variety of wireless sensor system applications demands appropriate wireless connectivity.
Several new technologies and standards are popping up, fit for short or large range, and various data
rate requirements. Dedicated networks are being deployed for Machine Type Communication.
This tutorial will bring a theoretical and practical initiation of wireless technologies tailored for connecting
embedded sensors. It will explain fundamental concepts of wireless propagation, highlighting the
challenges and opportunities to realize low power connections. Several actual technologies and
standards for different categories of connections will be introduced. A few illustrative use cases will be
presented. A hands-on session will allow the participants to experiment with EFM32 Happy Gecko
developer boards, cooperating in small teams. In a final session, a glance at future trends will be
given. The tutorial will be concluded with an overview of interesting relevant resources and a discussion
with the participants on the expectations for follow up beyond the tutorial.
Search Results
WiMAX (Worldwide Interoperability for Microwave Access) is a wireless industry coalition dedicated to the advancement of IEEE 802.16 standards for broadband wireless access (BWA) networks.
DCN Product Training 20220920 - Wireless Product.pptcesardavid55
1. The document introduces DCN's wireless product family including Wi-Fi 5 and Wi-Fi 6 access points, wireless controllers, and case studies of implementations in industries such as hotels, ISPs, and more.
2. It provides details on the various AP models for indoor, outdoor, and in-wall deployment and highlights their features such as supported wireless standards, number of spatial streams, bandwidth, and ports.
3. Case studies demonstrate successful implementations of DCN wireless solutions in environments like hotels, rural broadband projects, and an energy park to provide services like internet access, surveillance, and more.
MetroLinq™ One 60 - the world’s latest cost-effective high capacity 60GHz PTP/PTMP radio enabling high performance, interference-free and long distance wireless connections worldwide.
Significantly enhanced throughput by combining resources in multiple frequency bands. Leveraging Siklu’s interference free Multi Gigabit capacity, it’s integrated Ethernet switch and the advanced networking capabilities. The two radios become a capacity-boosted link with which to utilize your install base.
Significantly enhanced throughput by combining resources in multiple frequency bands. Leveraging Siklu’s interference free Multi Gigabit capacity, it’s integrated Ethernet switch and the advanced networking capabilities, the two radios become a capacity-boosted link with which to utilize your install base.
Cambium Networks is an industry leader in point-to-multipoint and point-to-point wireless broadband solutions. They have shipped over 4 million nodes totaling over $1 billion to networks in more than 150 countries. Their ePMP product line provides affordable and scalable wireless access networks through features like GPS synchronization, high scalability and consistent performance, interference mitigation technology, and effective quality of service capabilities.
The VX 9000 virtualized software-based wireless LAN controller combines the power of virtualization with Motorola Solutions' WiNG Controller. It provides centralized management of wireless networks through a single interface with high scalability, flexibility and advanced wireless services. Key features include integrated network security, the advanced WiNG 5 operating system, plug-and-play deployment, simplified licensing and infinite scalability through virtualization. It supports all major hypervisors and public/private clouds for maximum deployment flexibility at low cost.
The NX 7500 integrated services platform provides comprehensive management of up to 2,048 network elements through a single interface. It allows all network infrastructure to intelligently route traffic for maximum speed and throughput without congestion. The NX 7500 offers advanced wireless LAN performance for mid-sized and campus environments with features such as plug-and-play installation, hierarchical management, smart routing, BYOD support, and integrated security services. It provides flexibility and investment protection through modular upgrades.
The document discusses the challenges retailers face in supporting increased wireless applications and next-generation Wi-Fi in stores. It introduces the Motorola AP 8200 Series as a solution that provides high-performance wireless connectivity for customers and staff. The AP 8200 Series allows easy access, security, support for 802.11ac Wi-Fi, bandwidth for applications, and performance for many users. It provides flexibility, a cost-effective upgrade to 802.11ac, and features for security, environmental monitoring, location services, and more.
The document describes the innovative features of the Motorola AP 8222 wireless access point. It has a sleek design suitable for retail, office, and other customer-facing spaces. It provides dual-band 802.11ac and 802.11n wireless connectivity at speeds up to 1.3Gbps. Key features include advanced beamforming, gap-free security, and support for bandwidth-heavy applications like video calling. The access point is centrally managed through Motorola's WiNG 5 networking operating system.
The AP 8163 is a ruggedized outdoor mesh access point designed to withstand extreme weather conditions. It has three radios - two for client access across 2.4GHz and 5GHz bands, and a third radio that can be used for wireless intrusion prevention scanning or dynamic frequency selection to avoid radar interference. The advanced WiNG 5 operating system allows the access points to self-optimize the network for best performance. Key features include powerful antennas for extended range, mesh networking for redundancy, and security features like firewalls and wireless intrusion prevention.
The document describes the features and capabilities of the Motorola AP 8122 3x3 MIMO 802.11n access point. It delivers high throughput to support enterprise applications including voice and HD video using 802.11n technology with standard 802.3af PoE. It has advanced features like load balancing, pre-emptive roaming, and dual band radios to increase network reliability, resilience, and security. The access point also supports advanced wireless capabilities such as voice over wireless, location services, and guest access controls.
The document describes the innovative features of the AP 7532 wireless access point. It provides the highest wireless speeds available with 3x3 MIMO and 256 QAM modulation on both 2.4GHz and 5GHz radios. It has a dual radio 802.11ac/802.11n design that provides a upgrade path to 1.3Gbps 802.11ac speeds while maintaining support for existing devices. It offers various advanced features like load balancing, security, sensor support and quality of service for voice. The access point is designed to deliver maximum performance at a low cost.
The AP 7502 is a dual-band 802.11ac wireless access point designed for installation in small spaces like hotel rooms. It has a compact wall-mount design, supports the latest WiFi standards, and includes features to ensure reliable connectivity even in challenging environments. Setup and management are simplified through zero-touch provisioning and both standalone and controller-based operation modes.
The document describes the innovative features of the AP 7522 wireless access point. It provides dual-band 802.11ac and 802.11n radios for high performance WiFi. It offers internal or external antenna options and can function as both an access point and wireless sensor. The access point provides security, load balancing, and other features to support mission critical applications on the wireless network.
1. Specification How to Order
We distribute our products via a network
Frequency1: 60GHz (57 – 64GHz) V Band of distributors worldwide. Please visit
www.sub10systems.com/how-to-buy to
Ethernet throughput:
V320 (BPSK) 160Mbps – Full Duplex
find your local distributor. If you would A world class bridging solution
like to become a distributor, please
V320 (QPSK) 320Mbps – Full Duplex contact us on +44 (0)1626 818520 in the palm of your hand
V1000 (QPSK) 1000Mbps – Full Duplex Learn More 60 GHz PTP Wireless Ethernet Bridges
for Mobile, Data & Internet
Maximum Ranges2:
Download case studies, data
V320 (BPSK) 160Mbps – 1600M sheets & user manuals from
V320 (QPSK) 320Mbps – 1000M www.sub10systems.com
V1000 (QPSK) 1000Mbps – 800M
Size/Weight – ODU:
Download White Papers
182 x 182 x 60mm/2.5Kg
• The Benefits of 60GHz
Power Supply: PoE IEEE 802.3at • 60GHz Metro Cell and Small Cell
Backhauling for Service Providers
Connection: Cable – CAT5e
Outdoor Rated (100m max)
Connector: RJ45
About Sub10
Sub10 design, develop and manufacture
Notes: cutting edge MMW systems in the 60GHz,
1. Licence Exempt in many countries 70GHz and 80GHz areas of spectrum. We
– check with your regulator
2. Maximum operating range influenced
supply, train and support a carefully selected
by propagation and rain team of regional distributors worldwide,
who cascade our technology and ethos to
specialist resellers and their end users.
Frequently Asked Questions
Q. Do I need to apply for a licence for my link? Q. Will mist, fog, dust or snow
A. Many countries allow the use of 60GHz affect link performance?
without a licence or after payment of a A. No. However, rain will have an effect, but
small annual fee. Check the status of you we take this into account when planning
country with your telecoms regulator. a link and predicting availability.
Q. Is Liberator Non Line Q. How is the Liberator radio unit powered?
of Sight or Line of Sight? A. The Liberator radio uses the 802.3at
A. Strictly Line of Sight. There should be PoE standard. Providing a minimum
no obstructions in the Fresnel zone. of 18W is available, any compatible
Q. Do Liberator MMW links pose a health risk? supply can be used – including solar.
A. No, the RF power levels permitted are very Q. Why is the Ethernet cable factory • Wireless backhauling for mobile carriers
low and spread over the whole area of the fitted to the Outdoor Radio Unit?
antenna. Moreover, an antenna will always A. This is done to ensure there will be no water • Leased line replacement
be positioned well clear of the population. ingress and to preserve the 24 month warranty.
• Disaster recovery / backup
• Multi-building LAN connectivity
www.sub10systems.com
01502SUB10datasheetAW.indd 2-3 06/02/2012 15:53
2. Compact plug and play wireless Ethernet Installations
bridges, broadcasting up to 1Gb per 90 links help
provide citywide
second up to a distance of 1km mobile connectivity
in Vienna, Austria Solar powered
Liberator at a
Scout camp in
Applications Benefits Switzerland
Wireless Backhauling Over 60% Smaller & Abu Dhabi Grand
Sub10 has supplied 90 wireless bridges Lighter Than Competitors Prix, 2010. Set up in
to a mobile phone service provider in Sub10’s wireless Ethernet link is over 2 hours to provide a
Vienna, facilitating connectivity between 60% smaller than competing products. TV broadcast link
base stations and Points of Presence. At just 2.5kg, Sub10’s outdoor unit
Lightweight (2.5kg) and small, with a low can be easily and inconspicuously
profile, Sub10’s Ethernet links support high mounted on a variety of structures.
data rates and carrier class availability.
Robust: New York Subway
Low Cost Leased Used on the New York subway since 2006
Line Replacement in dirty, dusty, extreme underground
Completely replace leased lines at a fraction environments, Sub10 wireless bridges relay
of the total cost of ownership. No wires, no service critical information to train operators.
cables, no digging and no yearly costs.
Fast: Abu Dhabi Grand Prix
LAN Extension up to 1km At up to 1Gb per second, Sub10
Securely extend networks to wireless bridges reliably handles
multiple office buildings without massive quantities of mission-critical
disruption or unnecessary cost. data including live TV broadcast at
the Abu Dhabi Grand Prix in 2010.
3G, 4G, Mobile, Internet
or transport of HD CCTV Plug and Play
Sub10 products can be used to Sub10 wireless bridges are easy to
securely transmit data anywhere install and maintain. A temporary
physical circuits, such as fibre optic installation at the Abu Dhabi Grand
cables are impractical or costly. Prix in 2010 took just 2 hours.
Connecting multiple
Path Redundancy Secure buildings campus-
Sub10’s proprietary radio means wide at universities
Sub10’s products are often used as
redundancy for Free Space Optics data is exceptionally secure and
(FSO), where building subsidence, extremely difficult to decode.
dirt and other environmental factors CCTV & intelligent
require robust back-up systems.
License Exempt Other applications building data Used by the New
or Lightly Licensed include: councils, transfer York Subway as fibre
alternative since
Permanent or Temporary In over 22 countries including the USA, emergency
2006
services, MOD &
Plug and play installation means both China, UK, Germany, Japan, UAE,
broadcasting
temporary and permanent connections Australia and New Zealand 60GHz is
can be set up quickly and cost-effectively. either lightly licensed or license exempt.
www.sub10systems.com www.sub10systems.com
01502SUB10datasheetAW.indd 4-5 06/02/2012 15:53