Lemko's Node1 and Node2 products are 4G core network solutions that virtualize network functions and distribute them to cell sites, eliminating the need for channel-based backhaul. They provide low latency and support high data traffic, while simplifying network design and reducing total cost of ownership. The documents describe various models that support different cellular standards and can be configured for different power sources, environmental conditions, and interfaces.
The document introduces Lemko's X5TM High Power Portable Swarming Node system. The X5TM virtualizes the EPC and IMS core at each eNodeB, eliminating the need for data to traverse a centralized core. A single X5TM provides LTE voice, SMS, data and video coverage over 10 km. Multiple X5TM nodes can form a scalable in-band mesh network for larger coverage areas or higher capacity. The X5TM is compact, powerful, rugged and suitable for UAV/UAS deployments, providing up to 10 watts of power and 20 MHz of bandwidth.
Interested or exploring GPON technology? This document will help you to gain an understanding of the technology and discover why this maturing, disruptive technology is part of the future of your campus network. Discover the Difference, Discover GPON today.
Rebuttal to Lippis Consulting "GPON vs Gigabit Ethernet in Campus Networks". You make decisions every day. The Game has Changed for decisions regarding campus networks and you can continue to do what you have done and expect different results .. or .. you can consider a future that sets your business apart from the competition.
Ethernet was invented in the 1970s at Xerox PARC and was later commercialized. It is a widely used wired networking technology that uses bus topology and CSMA/CD protocol to allow multiple devices to share bandwidth on the same network. Li-Fi is a new wireless technology that uses visible light communication through LED lights to transmit data, providing a potential alternative to Wi-Fi that has benefits like higher speeds, more bandwidth availability, and better security. It was introduced in 2011 and companies are working to commercialize Li-Fi products and networks. Potential applications include use in places where radio signals cannot be used safely or are restricted.
Mobile broadband provides opportunities for business and consumers. LTE technology delivers high data rates and throughput. It can support a wide range of spectrum allocations. Nokia Siemens Networks provides a complete end-to-end LTE solution including flexible base stations, core network equipment, and professional services to ensure a smooth migration from current 3G networks to LTE.
What are the differences and relationships between LTE-M and NB-IoT?
What is LTE-M?
LTE-M, or LTE-Machine-to-Machine, is an LTE evolution-based IoT technology, called Low-Cost MTC in R12 and LTE enhanced MTC (eMTC) in R13, designed to meet the needs of IoT devices based on existing LTE carriers.
The full name of eMTC is enhanced Machine-Type Communication. It is the LTE network between machines using LTE communication for the IoT. It is often abbreviated as M2M.
A response to the growing interest in IoT and LPWAN, LTE-M is unique in that it can be very energy efficient and transmit up to 10 bytes of data per day, but can also transmit up to one megabit per second. LTE-M serves a very wide range of use cases.
The document discusses passive optical LAN (POLAN) technology. It provides an overview of POLAN components and fundamentals, including how it uses single mode fiber and splitters to provide connectivity to end users. POLAN offers benefits over traditional copper networks like lower costs, reduced power consumption, and space savings. The document also covers sample POLAN layouts, supported network protocols, bandwidth and quality of service capabilities, and typical enterprise bandwidth needs.
The document introduces Lemko's X5TM High Power Portable Swarming Node system. The X5TM virtualizes the EPC and IMS core at each eNodeB, eliminating the need for data to traverse a centralized core. A single X5TM provides LTE voice, SMS, data and video coverage over 10 km. Multiple X5TM nodes can form a scalable in-band mesh network for larger coverage areas or higher capacity. The X5TM is compact, powerful, rugged and suitable for UAV/UAS deployments, providing up to 10 watts of power and 20 MHz of bandwidth.
Interested or exploring GPON technology? This document will help you to gain an understanding of the technology and discover why this maturing, disruptive technology is part of the future of your campus network. Discover the Difference, Discover GPON today.
Rebuttal to Lippis Consulting "GPON vs Gigabit Ethernet in Campus Networks". You make decisions every day. The Game has Changed for decisions regarding campus networks and you can continue to do what you have done and expect different results .. or .. you can consider a future that sets your business apart from the competition.
Ethernet was invented in the 1970s at Xerox PARC and was later commercialized. It is a widely used wired networking technology that uses bus topology and CSMA/CD protocol to allow multiple devices to share bandwidth on the same network. Li-Fi is a new wireless technology that uses visible light communication through LED lights to transmit data, providing a potential alternative to Wi-Fi that has benefits like higher speeds, more bandwidth availability, and better security. It was introduced in 2011 and companies are working to commercialize Li-Fi products and networks. Potential applications include use in places where radio signals cannot be used safely or are restricted.
Mobile broadband provides opportunities for business and consumers. LTE technology delivers high data rates and throughput. It can support a wide range of spectrum allocations. Nokia Siemens Networks provides a complete end-to-end LTE solution including flexible base stations, core network equipment, and professional services to ensure a smooth migration from current 3G networks to LTE.
What are the differences and relationships between LTE-M and NB-IoT?
What is LTE-M?
LTE-M, or LTE-Machine-to-Machine, is an LTE evolution-based IoT technology, called Low-Cost MTC in R12 and LTE enhanced MTC (eMTC) in R13, designed to meet the needs of IoT devices based on existing LTE carriers.
The full name of eMTC is enhanced Machine-Type Communication. It is the LTE network between machines using LTE communication for the IoT. It is often abbreviated as M2M.
A response to the growing interest in IoT and LPWAN, LTE-M is unique in that it can be very energy efficient and transmit up to 10 bytes of data per day, but can also transmit up to one megabit per second. LTE-M serves a very wide range of use cases.
The document discusses passive optical LAN (POLAN) technology. It provides an overview of POLAN components and fundamentals, including how it uses single mode fiber and splitters to provide connectivity to end users. POLAN offers benefits over traditional copper networks like lower costs, reduced power consumption, and space savings. The document also covers sample POLAN layouts, supported network protocols, bandwidth and quality of service capabilities, and typical enterprise bandwidth needs.
10 Gigabit Ethernet (10GE, 10GbE, or 10 GigE) is a group of computer networking technologies for transmitting Ethernet frames at a rate of 10 gigabits per second (10×109 or 10 billion bits per second). It was first defined by the IEEE 802.3ae-2002 standard.
Presented at the Economic Development Conference in Ontario, CA, on October 25 2018, by John George.
Learn about FTTX, 5G, Rollable Ribbon, ADSS, Micro-cables, InvisiLight ® Solutions, and Slimbox® Solutions.
THE INTERNET OF THINGS AND HOW TO CONNECT IT
This presentation, delivered to the Denver Google Developer's Group on April 28 by Laurie Lamberth, has three parts.
A. IoT Overview. What it is, how it's connected, how big is the market, how fast is it growing
B. Not Your Father's Network. Overview of the new generation of machine-ceentric networks coming to market, why they are needed, what they look like and how they perform. Plus profiles of three new IOT networks (SIGFOX, LoRa, Weightless-N)
C. Not Your Father's Platform. Overview of the new generation of platforms cfour oming to market that blur the previous "bright line" between device and application management platforms. Plus profiles of three new IOT platforms (machineshop.io, Xively, Kii, ThingWorx)
Passive Optical LAN Solution - White PaperSyed Firas
This document summarizes a white paper about passive optical LAN (POL) solutions. It discusses how POL uses fiber optic and passive splitting technology based on Gigabit PON to replace traditional copper-based active Ethernet LANs. POL provides significant benefits like reduced capital and operating expenses, improved energy efficiency, security and reliability. It allows enterprises to meet growing bandwidth needs without needing to change existing services or devices.
Presented by Stephan Litjens, MulteFire Alliance Board Chair
Part of the MulteFire Business Opportunities event hosted at Mobile World Congress Barcelona 2017.
Motorola's passive optical LAN solution uses a single optical fiber to provide high-speed connectivity to thousands of users. It utilizes passive splitters and terminals to deliver services like data, video, and voice without active equipment in telecom closets. The solution offers lower total cost of ownership through reduced equipment, power, and space needs compared to traditional copper-based networks.
3G and LTE Enterprise Small Cell Architecture 2016David Chambers
Webinar slides with presentations from David Chamber/ThinkSmallCell and Amit Jain/Spidercloud contrasting the various Enterprise small cell architectures.
The webinar considered building size segmentation, 3G/4G technology mix, alternative approaches for distributed radio and controller functions, with a forward looking section covering LAA, MulteFire and shared spectrum
A Q&A session touched on the impact of Wi-Fi, how Enterprise IT departments look at co-existence of LTE/Wi-Fi, and whether small cells can be used to provide full multi-operator service.
Innovations for Better Performing NetworksAviat Networks
This document discusses how Aviat Networks provides solutions to help mobile network operators build smarter, smaller, simpler networks with lower total cost of ownership. It describes how Aviat's portfolio of intelligent packet nodes, compact microwave routers and radios, and network management software enable operators to cost-effectively support new IP and mobile services with greater network capacity, reliability, security and simplified operations. The document also emphasizes that Aviat's solutions combine hardware and software innovations to future-proof operators' networks and help maximize performance as network demands increase.
This document discusses MulteFire and its potential use cases for ENEL. It describes key features of MulteFire such as operating on unlicensed spectrum, LTE-like performance, and seamless mobility. It then provides examples of MulteFire use cases for industrial sites, remote production sites, and sustainability. Some specific use cases mentioned include asset tracking, machine monitoring, video surveillance, telecommunications during emergencies, and providing connectivity to remote or isolated areas. The document promotes MulteFire as a way to deliver reliable, high-performance connectivity for industrial IoT, remote sites, and disaster response situations.
MulteFire: Reliable Wireless for Industrial IoTMFA
MulteFire allows companies to easily deploy private LTE networks for industrial IoT applications using unlicensed spectrum. It extends the LTE ecosystem to new vertical markets while delivering reliable wireless connectivity, security, mobility, and future compatibility with 5G. Release 1.1 of MulteFire adds support for additional spectrum bands, including 1.9 GHz operations in Japan and expanded IoT capabilities in other global bands.
The document discusses how service providers can transform their businesses by combining 5G, cloud computing, and artificial intelligence (AI). It outlines five key shifts needed for this transformation: 1) Moving from physical to virtualized and cloud-native infrastructure, 2) Transitioning from centralized to distributed architectures, 3) Changing from static to dynamic capacity that scales with demand, 4) Automating operations that were previously manual, and 5) Integrating security across the network rather than using isolated security solutions. The document argues that combining these technologies will allow service providers to launch new services, improve operational efficiency, differentiate customer experiences, and compete more effectively.
1. The document provides guidelines for the end-to-end process of partnering with new businesses to promote Excitel Fiber, including identifying prospective partners, scoping the business and project, and signing partners up by completing the provisioning process.
2. It describes the scope of work which includes market planning, network planning and rollout, sales support, service delivery, and operation and management in partnership between Excitel and businesses.
3. The architecture provides guidelines for a sustainable and scalable fiber network using GPON and EPON technologies with components like OLTs, ONUs, and splitters to deliver fiber connectivity to customers.
CORECESS Inc. is a Korean company founded in 1997 that focuses on broadband access technology including WDM PON, GEPON, and GPON. It has headquarters in South Korea and branches in the US, Japan, and Russia. CORECESS was a pioneer in WDM PON and GEPON FTTH technology and has deployed its solutions to over 500k lines worldwide. The document provides an overview of CORECESS' FTTx solutions including Hybrid WDM PON, GPON, and GEPON networks that can connect up to 1024 homes per fiber and extend coverage up to 40km from the hub. It also describes CORECESS' triple play and smart grid services that are integrated on
Which solution you should choose to deploy your IoT network.
LoRa, Sigfox, LTE-M are very similar in nature and functionality, which can confuse you during the decision-making process.
Fourth-generation cellular networks (4G) are projected to provide speeds up to 100 Mbps for mobile users and 1 Gbps for stationary users. 4G networks will rely entirely on packet-switching and help deliver broadband wireless internet access. While 3G networks combine circuit-switching and packet-switching, 4G will focus only on packet-switching for faster data transmission. WiMAX is a key 4G wireless technology that provides last mile wireless broadband as an alternative to cable/DSL. Mobile WiMAX will offer broadband speeds with full mobility like cellular networks.
The document discusses Qualcomm Technologies' role in connecting the Internet of Things through cellular technologies like LTE Cat-M1 and NB-IoT. It outlines how these new narrowband LTE technologies optimize cellular to address a wide range of IoT use cases in a low-cost and low-power way while leveraging existing LTE infrastructure. The technologies are designed to deliver benefits like multi-year battery life, ubiquitous coverage including deeper indoor coverage, and support for massive numbers of devices connecting in a heterogeneous connectivity landscape.
This document discusses 4G cellular networks and their evolution from earlier generations. 4G is defined as a fully packet-switched network optimized for data providing speeds up to 1 Gbps. The document outlines the progression from 0G to 1G to 2G to 3G networks and increased capabilities. It describes technologies like WiMAX that could enable 4G networks and possibilities like enhanced mobile gaming, personal media repositories, and broadband access anywhere. The road ahead and adoption of 4G is uncertain but mobile broadband will significantly impact lifestyles and work.
The document discusses the telecom and SCADA systems used in pipeline industries like GAIL (India) Limited. It provides details about GAILTEL, the telecom arm of GAIL which provides communication services for pipeline monitoring and control using a SCADA system. It also describes the optical fiber network, technologies like PDH, SDH, DWDM used for data transmission and the network management system. SCADA systems provide benefits like reliability, robustness and technical support for critical industrial processes.
10 Gigabit Ethernet (10GE, 10GbE, or 10 GigE) is a group of computer networking technologies for transmitting Ethernet frames at a rate of 10 gigabits per second (10×109 or 10 billion bits per second). It was first defined by the IEEE 802.3ae-2002 standard.
Presented at the Economic Development Conference in Ontario, CA, on October 25 2018, by John George.
Learn about FTTX, 5G, Rollable Ribbon, ADSS, Micro-cables, InvisiLight ® Solutions, and Slimbox® Solutions.
THE INTERNET OF THINGS AND HOW TO CONNECT IT
This presentation, delivered to the Denver Google Developer's Group on April 28 by Laurie Lamberth, has three parts.
A. IoT Overview. What it is, how it's connected, how big is the market, how fast is it growing
B. Not Your Father's Network. Overview of the new generation of machine-ceentric networks coming to market, why they are needed, what they look like and how they perform. Plus profiles of three new IOT networks (SIGFOX, LoRa, Weightless-N)
C. Not Your Father's Platform. Overview of the new generation of platforms cfour oming to market that blur the previous "bright line" between device and application management platforms. Plus profiles of three new IOT platforms (machineshop.io, Xively, Kii, ThingWorx)
Passive Optical LAN Solution - White PaperSyed Firas
This document summarizes a white paper about passive optical LAN (POL) solutions. It discusses how POL uses fiber optic and passive splitting technology based on Gigabit PON to replace traditional copper-based active Ethernet LANs. POL provides significant benefits like reduced capital and operating expenses, improved energy efficiency, security and reliability. It allows enterprises to meet growing bandwidth needs without needing to change existing services or devices.
Presented by Stephan Litjens, MulteFire Alliance Board Chair
Part of the MulteFire Business Opportunities event hosted at Mobile World Congress Barcelona 2017.
Motorola's passive optical LAN solution uses a single optical fiber to provide high-speed connectivity to thousands of users. It utilizes passive splitters and terminals to deliver services like data, video, and voice without active equipment in telecom closets. The solution offers lower total cost of ownership through reduced equipment, power, and space needs compared to traditional copper-based networks.
3G and LTE Enterprise Small Cell Architecture 2016David Chambers
Webinar slides with presentations from David Chamber/ThinkSmallCell and Amit Jain/Spidercloud contrasting the various Enterprise small cell architectures.
The webinar considered building size segmentation, 3G/4G technology mix, alternative approaches for distributed radio and controller functions, with a forward looking section covering LAA, MulteFire and shared spectrum
A Q&A session touched on the impact of Wi-Fi, how Enterprise IT departments look at co-existence of LTE/Wi-Fi, and whether small cells can be used to provide full multi-operator service.
Innovations for Better Performing NetworksAviat Networks
This document discusses how Aviat Networks provides solutions to help mobile network operators build smarter, smaller, simpler networks with lower total cost of ownership. It describes how Aviat's portfolio of intelligent packet nodes, compact microwave routers and radios, and network management software enable operators to cost-effectively support new IP and mobile services with greater network capacity, reliability, security and simplified operations. The document also emphasizes that Aviat's solutions combine hardware and software innovations to future-proof operators' networks and help maximize performance as network demands increase.
This document discusses MulteFire and its potential use cases for ENEL. It describes key features of MulteFire such as operating on unlicensed spectrum, LTE-like performance, and seamless mobility. It then provides examples of MulteFire use cases for industrial sites, remote production sites, and sustainability. Some specific use cases mentioned include asset tracking, machine monitoring, video surveillance, telecommunications during emergencies, and providing connectivity to remote or isolated areas. The document promotes MulteFire as a way to deliver reliable, high-performance connectivity for industrial IoT, remote sites, and disaster response situations.
MulteFire: Reliable Wireless for Industrial IoTMFA
MulteFire allows companies to easily deploy private LTE networks for industrial IoT applications using unlicensed spectrum. It extends the LTE ecosystem to new vertical markets while delivering reliable wireless connectivity, security, mobility, and future compatibility with 5G. Release 1.1 of MulteFire adds support for additional spectrum bands, including 1.9 GHz operations in Japan and expanded IoT capabilities in other global bands.
The document discusses how service providers can transform their businesses by combining 5G, cloud computing, and artificial intelligence (AI). It outlines five key shifts needed for this transformation: 1) Moving from physical to virtualized and cloud-native infrastructure, 2) Transitioning from centralized to distributed architectures, 3) Changing from static to dynamic capacity that scales with demand, 4) Automating operations that were previously manual, and 5) Integrating security across the network rather than using isolated security solutions. The document argues that combining these technologies will allow service providers to launch new services, improve operational efficiency, differentiate customer experiences, and compete more effectively.
1. The document provides guidelines for the end-to-end process of partnering with new businesses to promote Excitel Fiber, including identifying prospective partners, scoping the business and project, and signing partners up by completing the provisioning process.
2. It describes the scope of work which includes market planning, network planning and rollout, sales support, service delivery, and operation and management in partnership between Excitel and businesses.
3. The architecture provides guidelines for a sustainable and scalable fiber network using GPON and EPON technologies with components like OLTs, ONUs, and splitters to deliver fiber connectivity to customers.
CORECESS Inc. is a Korean company founded in 1997 that focuses on broadband access technology including WDM PON, GEPON, and GPON. It has headquarters in South Korea and branches in the US, Japan, and Russia. CORECESS was a pioneer in WDM PON and GEPON FTTH technology and has deployed its solutions to over 500k lines worldwide. The document provides an overview of CORECESS' FTTx solutions including Hybrid WDM PON, GPON, and GEPON networks that can connect up to 1024 homes per fiber and extend coverage up to 40km from the hub. It also describes CORECESS' triple play and smart grid services that are integrated on
Which solution you should choose to deploy your IoT network.
LoRa, Sigfox, LTE-M are very similar in nature and functionality, which can confuse you during the decision-making process.
Fourth-generation cellular networks (4G) are projected to provide speeds up to 100 Mbps for mobile users and 1 Gbps for stationary users. 4G networks will rely entirely on packet-switching and help deliver broadband wireless internet access. While 3G networks combine circuit-switching and packet-switching, 4G will focus only on packet-switching for faster data transmission. WiMAX is a key 4G wireless technology that provides last mile wireless broadband as an alternative to cable/DSL. Mobile WiMAX will offer broadband speeds with full mobility like cellular networks.
The document discusses Qualcomm Technologies' role in connecting the Internet of Things through cellular technologies like LTE Cat-M1 and NB-IoT. It outlines how these new narrowband LTE technologies optimize cellular to address a wide range of IoT use cases in a low-cost and low-power way while leveraging existing LTE infrastructure. The technologies are designed to deliver benefits like multi-year battery life, ubiquitous coverage including deeper indoor coverage, and support for massive numbers of devices connecting in a heterogeneous connectivity landscape.
This document discusses 4G cellular networks and their evolution from earlier generations. 4G is defined as a fully packet-switched network optimized for data providing speeds up to 1 Gbps. The document outlines the progression from 0G to 1G to 2G to 3G networks and increased capabilities. It describes technologies like WiMAX that could enable 4G networks and possibilities like enhanced mobile gaming, personal media repositories, and broadband access anywhere. The road ahead and adoption of 4G is uncertain but mobile broadband will significantly impact lifestyles and work.
The document discusses the telecom and SCADA systems used in pipeline industries like GAIL (India) Limited. It provides details about GAILTEL, the telecom arm of GAIL which provides communication services for pipeline monitoring and control using a SCADA system. It also describes the optical fiber network, technologies like PDH, SDH, DWDM used for data transmission and the network management system. SCADA systems provide benefits like reliability, robustness and technical support for critical industrial processes.
Arsenal berhasil mengalahkan Swansea City 2-0 di pertemuan terakhir musim lalu. Swansea belum pernah meraih kemenangan kandang musim ini. Arsenal memimpin klasemen dengan 12 poin dari lima laga.
Atletico Madrid diunggulkan untuk menang atas Real Valladolid berdasarkan rekor empat pertandingan terakhir dimana Atletico selalu menang, termasuk kemenangan 3-0 di kandang lawan musim lalu. Atletico juga mencetak 12 gol atas Valladolid dalam empat pertandingan terakhir. Kedua tim sedang berada pada performa yang berbeda di awal musim ini dimana Atletico belum terkalahkan sedangkan Valladolid baru meraih satu ke
Dokumen ini berisi prediksi pertandingan Liga Champions antara Austria Vienna melawan Atletico Madrid yang akan berlangsung pada 23 Oktober 2013 di Stadion Ernst Happel, Wina. Atletico Madrid saat ini memimpin klasemen Grup G dan berharap meraih kemenangan penuh untuk memperlebar jarak dengan tim di posisi kedua. Berdasarkan rekam jejak lima pertandingan terakhir, Atletico Madrid dinilai lebih diunggulkan karena memenangkan tiga dari lima
Milan akan menjamu Atletico Madrid di leg pertama babak 16 besar Liga Champions. Kedua tim berjuang untuk lolos dari grup masing-masing, dengan Atletico menduduki puncak klasemen sementara Milan hanya finis ketiga. Beberapa pemain pernah bermain di liga masing-masing seperti Kaka, Essien, dan Zapata di La Liga serta Alderweireld dan Emanuelson di Ajax. Pelatih kedua tim juga pernah berhadapan saat masih aktif sebagai pemain
Bill was passed over for a promotion despite having over 20 years of experience, likely because he was too comfortable, made excuses, and refused to change. The document outlines 3 steps for personal growth and development: 1) Make a choice to lead yourself through clarity of purpose and vital behaviors. 2) Develop discipline by challenging excuses and building tenacity. 3) Implement systems to be proactive, productive, and interdependent through people, processes, and platforms. Following these steps can help individuals avoid Bill's mistakes and increase their personal growth.
Ringkasan singkat dari dokumen prediksi pertandingan antara Real Betis melawan Barcelona:
1. Barcelona diunggulkan karena catatan kemenangan atas Real Betis di tahun-tahun terakhir ini dan konsistensi performa bagus mereka di liga Spanyol musim ini.
2. Real Betis mengalami performa buruk beberapa minggu terakhir dengan hanya meraih satu poin dari lima laga terakhir.
3. Lionel Messi dan Alexis Sanchez diprediksi akan mencetak gol
This document discusses NB-IoT radio fundamentals and provides an overview of NB-IoT technologies. It describes how 3GPP specified NB-IoT and other IoT technologies to optimize networks for IoT use cases like enabling low cost devices, massive device densities, long battery life, and extreme coverage. Key aspects of NB-IoT like its physical channels, coverage enhancements using repetitions, and differences from legacy LTE are summarized.
Webinar: Desenvolvimento NB-IoT de baixíssimo consumoEmbarcados
Neste webinar apresentaremos todos os recursos que as redes NB-IoT possuem para permitir o desenvolvimento de dispositivos de baixíssimo consumo, assim como mostraremos na prátic
JVL Industrial Ethernet Expansion Modules for MAC MotorsElectromate
The document discusses Industrial Ethernet expansion modules from JVL for integrating servo and stepper motors with Ethernet communications. It provides an overview of the available Industrial Ethernet protocols supported by the modules, including EtherCAT, Ethernet/IP, PROFINET IO, Modbus TCP, Powerlink and SERCOS III. It also includes specifications for the modules such as electrical ratings, connector types, sample code availability, and easy installation using M12 connectors.
The document summarizes the key features and capabilities of the OptiXtrans E6600 platform:
- It is Huawei's next-generation optical transport platform for enterprises, supporting multiple services including SDH, packet, and OTN.
- It converges 4 services in 1 device and supports interfaces from 2M to 100G.
- It features high integration, huge capacity of over 20T per fiber, intelligent O&M, and simplified network architecture.
Cable free low cost microwave radio datasheetAbrar Ahmad
CableFree provides low cost microwave radios for wireless networking using licensed frequencies between 6-38GHz. The radios can transmit PDH and IP/Ethernet traffic up to 130Mbps and feature compact indoor and outdoor units, advanced modulation techniques, and flexible network interfaces. Typical applications include point-to-point wireless networking, telecom backbones, and temporary deployments. The radios offer high performance, software-defined capabilities, and low total cost of ownership.
This document provides an overview of 5G technology and its advantages over 4G LTE. It discusses the different 5G use cases like enhanced mobile broadband, massive IoT, and critical communications. It describes the evolution of radio technology including the use of new spectrum bands and massive MIMO. It also covers network architecture aspects such as centralized RAN deployments and functional splits between centralized and distributed units. The document is intended as a tutorial for IP engineers to understand 5G network capabilities and requirements.
The NetWave NWK3 and NWK4 are pre-configured point-to-point commercial grade wireless Ethernet transmission kits that allow a single Ethernet data stream to be transmitted between a client remote location and an access point or head end. Key features include support for up to 95Mbps throughput, passive PoE support, WPA2 encryption, antenna alignment tools, and a lifetime warranty.
Sorrento Networks’ GigaMux 3200
provides protocol independent data
transport to carrier and enterprise
broadband services using DWDM
technology to significantly increase
bandwidth
BaiCells Introduction & Product Introduction-EN-vf-updatedJi Hun (Jay) Ko
Baicells is a provider of LTE network solutions including small cell equipment and simplified EPC solutions. They have a strong management team with extensive experience from major telecom companies. Baicells offers a full portfolio of indoor and outdoor small cells, CPE devices, and lightweight EPC solutions to provide cost-effective wireless connectivity for a variety of uses cases. They have strategic partnerships with major ODM/OEM suppliers and implement strict quality control processes.
The document provides an overview of ZTE's NR8000 microwave solution, including:
1) The NR8000 platform can be used for access, relay, and hub stations across a wide range of frequency bands and supports technologies like header compression, adaptive coding and modulation, and physical layer aggregation.
2) The portfolio includes the NR8120, NR8250, and NR8950 products, which support capacities up to 1Gbps and integrate TDM and Ethernet traffic on a unified hybrid and packet platform.
3) The solution provides high reliability features like 1+1, 1+0 protection configurations, ring protection protocols, and SNCP/SNCP+ to double network capacity.
GEPON (Gigabit Ethernet Passive Optical Network) is a fiber access technology for point-to-multipoint applications that provides high bandwidth. It consists of an OLT (Optical Line Terminal), ONUs (Optical Network Units), a passive optical splitter, and optical distribution networks. GEPON uses different wavelengths (1310nm and 1490nm) for upstream and downstream transmission over a single fiber between the OLT and multiple ONUs. It can provide symmetrical bandwidth up to 1Gbps over long transmission lengths of 10-20km while supporting data, voice, and video delivery. 2Fonet provides competitive GEPON products like their OLT3000 that can connect to 256
High Speed Cabling for 10 Gigabit Ethernet discusses the need for faster network infrastructures to support emerging applications and higher data transmission speeds. As applications like Gigabit Ethernet become standard on desktops, backbone networks need even higher bandwidth capabilities like 10 Gigabit Ethernet. Cabling systems need to support the lifetime of network equipment, which is approximately 12-15 years. Proper cabling is essential to future proof networks and maximize return on investment.
LTE and Satellite: Solutions for Rural and Public Safety NetworkingSmall Cell Forum
This document discusses using LTE and satellite solutions for rural and public safety networking. It provides an overview of why LTE is better than 3G for rural areas due to its wider coverage using low frequency spectrum and consistent backhaul technology. LTE is also driving adoption for public safety needs due to requirements for data, uplink speeds, ubiquitous coverage, and satellite backup. The document then summarizes iDirect's SatHaul solution for optimizing LTE over satellite backhaul through features that improve user experience and bandwidth efficiency while maintaining security and compliance with 3GPP standards.
The document discusses the challenges of increasing mobile broadband usage and the need for LTE and small cell solutions. It describes how mobile data usage is doubling every 9 months, driven by new internet-enabled devices and content. LTE and femtocells can help meet this exponential growth in bandwidth demand by providing significantly higher data rates and network offloading capabilities. Femtocells in particular deliver cost-effective indoor coverage and capacity by leveraging consumer broadband connections.
The document describes the NetWave NW3 and NW4 wireless Ethernet transmission links from ComNet. The NW3 and NW4 can be configured as a client or access point, allow up to 15 endpoints to connect to a central access point, and support up to 95Mbps throughput. Key features include 802.11a/n compliance, security encryption, and a lifetime warranty.
G.hn EoC is emerging as a cost-effective alternative to DOCSIS 3.1 for delivering gigabit internet speeds over existing coaxial cable infrastructure. It utilizes ITU-T G.hn Wave-2 standards and Marvell chipsets to provide up to 2Gbps speeds over coax, phone lines, or power lines using a single technology. The solution includes indoor and outdoor ONUs to connect homes to the fiber network, as well as single-port and four-port CPE devices for end users.
The document discusses various types of network hardware including:
- Local networking hardware such as network interface cards, cables, connectors, hubs, switches, servers, and workstations.
- Internetworking hardware such as line drivers, transceivers, bridges, switches, routers, and gateways.
Current internetworking devices are mostly confined to switches and routers. The document also examines network interface cards in detail, describing their specifications and evolution over time from older cards to current gigabit Ethernet cards.
The document discusses various types of network hardware including:
- Local networking hardware such as network interface cards, cables, connectors, hubs, switches, servers, and workstations.
- Internetworking hardware such as line drivers, transceivers, bridges, switches, routers, and gateways.
Current internetworking devices are mostly confined to switches and routers. The document also examines networking interface cards in detail, describing their specifications and evolution over time from older technologies like Token Ring and 10BaseT to current Gigabit Ethernet standards.
The document discusses various types of network hardware including local networking hardware like network interface cards (NICs), cables, connectors, hubs, switches, servers and workstations. It also discusses internetworking hardware like line drivers, transceivers, bridges, switches, routers and gateways. It describes the characteristics of different NICs such as their speed, connector type, and bus technology. It also examines concepts like IRQ, I/O address, base memory address, and DMA used for resource allocation on NICs. Finally, it discusses network connectors and different types of hubs.
The XFP-10G-MM-SR is a 10 Gigabit Ethernet transceiver module that supports data rates up to 10Gbps over multi-mode fiber optic cable. It uses an 850nm laser and supports distances up to 300 meters on OM3 fiber. The module plugs into an XFP port on a Cisco router or switch to connect the device to the network over multi-mode fiber. It complies with standards such as 10GBASE-SR and supports features such as hot-swapping and optical power monitoring.
1. www.Lemko.comInfo@Lemko.com
Lemko Node1TM
4G core network solutions deliver
the benefits of tomorrow’s network for today’s opera-
tors. The all-IP, packet based solution places the
functionality of an entire cellular system at each cell
site, in other word, those products are as the network
function virtualization (NFV) and as the software de-
fined network (SDN), thus eliminating all of the chan-
nel based backhaul. This revolutionary design deliv-
Lemko’s Node1 meets the goals and vision of the industry’s fourth generation core net-
work. The fully distributed, all IP based, software design delivers low data latency
while supporting the high levels of data traffic demanded by users, combined with the
high quality voice services they expect.
It simplifies network design, offering a flat architecture with peer-to-peer communica-
tion. Most important, Node1 gives you the lowest total cost of ownership from the time
it is purchased and then throughout every year it is operational.
4G Core Network
Node1
L8306 LTE (TDD/FDD)
Power :
-48 V DC / 110 & 220 V AC
Typical Consumption 0.5 kW
Environmental: -40°C to +55°C
Band: all most all bands in FDD/TDD
TX Power: 2x40W or 4x20W MIMO
Chassis:
BBU: 86 mm x 442 mm x 260 mm
1xRRU: 380 mm x 320 mm x 140 mm
Approx. 48lbs. (5kg + 1x17kg) unloaded
Interfaces:
Fast Ethernet: 2x1GB
Primary Rate ISDN
Node1 is a Registered Trademark of The LEMKO Corporation
Node1™
2. www.Lemko.comInfo@Lemko.com
Lemko Node1TM
4G core network solutions deliver the
benefits of tomorrow’s network for today’s operators.
The all-IP, packet based solution places the functional-
ity of an entire cellular system at each cell site, thus
eliminating all of the channel based backhaul. This
revolutionary design delivers a profitable business
case for providing service to previously cost-prohibitive
areas. All voice calls and data can be off loaded locally
Lemko’s Node1 meets the goals and vision of the industry’s fourth generation core net-
work. The fully distributed, all IP based, software design delivers low data latency
while supporting the high levels of data traffic demanded by users, combined with the
high quality voice services they expect.
It simplifies network design, offering a flat architecture with peer-to-peer communica-
tion. Most important, Node1 gives you the lowest total cost of ownership from the time
it is purchased and then throughout every year it is operational.
4G Core Network
Node1
L3900 UMTS/HSPA
Power:
-48 V DC / 110 & 220 V AC
Typical Consumption 0.5 kW
Environmental: -40°C to +55°C
Band: 850/900/1800/1900/2100/1700
TX Power per RRU:
TRX x 40W or 2TRX x 10W
3 x RRU
Chassis:
BBU: 86 mm x 442 mm x 310 mm
1xRRU: 480 mm x 270 mm x 140 mm
Approx. 48lbs. (7kg+1x15kg) unloaded
Interfaces:
Fast Ethernet: 2x1GB
Primary Rate ISDN
SIP/IMS
Node1 is a Registered Trademark of The LEMKO Corporation
Node1™
3. www.Lemko.comInfo@Lemko.com
Lemko Node1TM
4G core network solutions deliver the
benefits of tomorrow’s network for today’s operators. The
all-IP, packet based solution places the functionality of an
entire cellular system at each cell site, in other word,
those products are as the network function virtualization
(NFV) and as the software defined network (SDN), thus
eliminating all of the channel based backhaul. This revo-
lutionary design delivers a profitable business case for providing service to previously
cost-prohibitive areas.
Lemko’s Node1m meets the goals on the mobile network in mobility. The fully distrib-
uted, all IP based, software design delivers low data latency while supporting the high
levels of data traffic demanded by users, combined with the high quality voice services
they expect. Also it supports the satellite link for interconnection
It simplifies network design, offering a flat architecture with peer-to-peer communica-
tion. Most important, Node1m gives you the lowest total cost of ownership from the
4G Core Network
Node1m
LS8306 LTE/UMTS
Power :
SUV Internal Supply
Environmental: -40°C to +55°C
Band: all most all bands
TX Power: 2x40W or 4x20W MIMO
Chassis:
Mounted in the back luggage area in all
middle SUV, Auto risible antenna mask
can extend up to 10 meters height.
Interfaces:
Fast Ethernet: 2x1GB
Primary Rate ISDN
Satellite Link Available
Node1 is a Registered Trademark of The LEMKO Corporation
Node1™
4. www.Lemko.comInfo@Lemko.com
Lemko Node1TM
4G core network solutions deliver the
benefits of tomorrow’s network for today’s operators.
The all-IP, packet based solution places the functional-
ity of an entire cellular system at each cell site, thus
eliminating all of the channel based backhaul. This
revolutionary design delivers a profitable business
case for providing service to previously cost-prohibitive
areas. All voice calls can go through SIP to the VoIP
Lemko’s Node1 meets the goals and vision of the industry’s fourth generation core net-
work. The fully distributed, all IP based, software design delivers low data latency
while supporting the high levels of data traffic demanded by users, combined with the
high quality voice services they expect.
It simplifies network design, offering a flat architecture with peer-to-peer communica-
tion. Most important, Node1 gives you the lowest total cost of ownership from the time
it is purchased and then throughout every year it is operational.
4G Core Network
Node1
L3900 GSM/EDGE 6TRX
Power:
-48 V DC /110 & 220 V AC
Typical Consumption 0.5 kW
Environmental: -40°C to +55°C
Band: 850/900/1800/1900
TX Power/RRU:
2TRX@40W/8TRX@7.5W
3xRRU: 6TRX@40W/8TRX@7.5W
Chassis:
BBU: 86 mm x 442 mm x 310 mm
1xRRU: 480 mm x 270 mm x 140 mm
Approx. 48lbs. (7kg+1x15kg) unloaded
Interfaces:
Fast Ethernet: 2 x 1GB
Primary Rate ISDN
SIP
Node1 is a Registered Trademark of The LEMKO Corporation
Node1™
5. www.Lemko.comInfo@Lemko.com
Lemko Node1TM
4G core network solutions deliver
the benefits of tomorrow’s network for today’s opera-
tors. The all-IP, packet based solution places the func-
tionality of an entire cellular system at each cell site,
thus eliminating all of the channel based backhaul.
This revolutionary design delivers a profitable busi-
ness case for providing service to previously cost-
Lemko’s Node1 meets the goals and vision of the industry’s fourth generation core net-
work. The fully distributed, all IP based, software design delivers low data latency
while supporting the high levels of data traffic demanded by users, combined with the
high quality voice services they expect.
It simplifies network design, offering a flat architecture with peer-to-peer communica-
tion. Most important, Node1 gives you the lowest total cost of ownership from the time
it is purchased and then throughout every year it is operational.
4G Core Network
Node1
L3900 CDMA 1X+DO
Power :
-48 V DC / 110 & 220 V AC
Typical Consumption 0.5 kW
Environmental: -40°C to +55°C
Band: 450/850/1700/1900
TX Power: 3TRX 20W@1X 20W@DO
Chassis:
BBU: 86 mm x 442 mm x 310 mm
1xRRU: 480 mm x 270 mm x 140 mm
Approx. 48lbs. (7kg + 1x15kg) unloaded
Interfaces:
Fast Ethernet: 2x1GB
Primary Rate ISDN
Node1 is a Registered Trademark of The LEMKO Corporation
Node1™
6. www.Lemko.comInfo@Lemko.com
The Lemko Node2™ provides carrier grade
solution that connects an all IP network with
any existing legacy core networks using SS7
over IP Sigtran and Diameter which include MAP, IS-41D, CAMEL, WIN, ISUP signal-
ing and call setup. The Node2 is designed for scalability and is 3GPP and 3GPP2
standards compliant.
Node2 enables full roaming with legacy core networks, and provides all the necessary
signaling and bearer functions for IP interconnect.
Power :
110/240 (200 Watts) hot-plug auto-
switching universal DC configuration
with redundant hot plug -48 to -60 V20
A DC power supplies
Chassis:
2U Rack-mountable chassis
74.4cm D x 44.43cm W x 8.64cm H *
* with bezel attached
Rack Weight 50.71 lbs (23 Kg),
maximum configuration
Circuit IO:
4 ISUP Traffic Trunks
Environmental:
Operating Temperature: 10º C to 35º C
(50º F to 95º F)
Storage Temperature: -40º C to 65º C
(-40º F to 149º F)
Operating Relative Humidity (non-
condensing twmax = 29C): 20% to
80% non-condensing
Maximum humidity gradient: 10% per
hour, operational and non-operational
conditions
Interfaces:
2 x 1Gb Ethernet
from the Lemko Node2 Family of Products
Node2 :
Supports: Sigtran/Diameter
SS7 over IP
MAP/CAMEL/IS-41D/WIN
Node2
Packet-1
Node2 is a Registered Trademark of The LEMKO Corporation
Node2™
7. www.Lemko.comInfo@Lemko.com
The Lemko Node2™ provides carrier grade
solution that connects an all IP network with
any existing legacy core networks using E1,
SS7, MAP, IS-41D, CAMEL, WIN, ISUP signaling and call setup. The Node2 is de-
signed for scalability and is 3GPP and 3GPP2 standards compliant.
Node2 enables full roaming with legacy core networks, and provides all the necessary
signaling and bearer functions for IP interconnect.
Power :
110/240 (200 Watts) hot-plug auto-
switching universal DC configuration
with redundant hot plug -48 to -60 V20
A DC power supplies
Chassis:
2U Rack-mountable chassis
74.4cm D x 44.43cm W x 8.64cm H *
* with bezel attached
Rack Weight 50.71 lbs (23 Kg),
maximum configuration
Circuit IO:
4 x E1 or 4 x T1
Environmental:
Operating Temperature: 10º C to 35º C
(50º F to 95º F)
Storage Temperature: -40º C to 65º C
(-40º F to 149º F)
Operating Relative Humidity (non-
condensing twmax = 29C): 20% to
80% non-condensing
Maximum humidity gradient: 10% per
hour, operational and non-operational
conditions
Interfaces:
2 x 1Gb Ethernet
from the Lemko Node2 Family of Products
Node2 :
Supports: SS7 over E1 or T1
ISUP Traffic Over E1 or T1
MAP/CAMEL/IS-41D/WIN
Node2
Circuit-1
Node2 is a Registered Trademark of The LEMKO Corporation
Node2™
8. www.Lemko.comInfo@Lemko.com
The Lemko Node2™ GGSN/PGW provides carrier grade solution that connects an all
IP GGSN network with any existing legacy core networks using Gi, Gn/Gp signaling
and call setup. The Node2 GGSN/PG is designed for scalability and is 3GPP Rel 4,
Rel 5 and Rel 6 standards compliant.
Node2 GGSN/PG enables full roaming with legacy core networks, and provides all the
necessary signaling and bearer functions for IP interconnect.
Power:
110/240 (200 Watts) hot-plug auto-
switching universal DC configuration
with redundant hot plug -48 to -60 V20
A DC power supplies
Chassis:
2U Rack-mountable chassis
74.4cm D x 44.43cm W x 8.64cm H *
* with bezel attached
Rack Weight 50.71 lbs (23 Kg),
maximum configuration
Maximum Through Put:
Gbps @ 1400BPP Per 1U
Can be parallel stack to increase the
through put
Environmental:
Operating Temperature: 10º C to 35º C
(50º F to 95º F)
Storage Temperature: -40º C to 65º C
(-40º F to 149º F)
Operating Relative Humidity (non-
condensing twmax = 29C): 20% to
80% non-condensing
Maximum humidity gradient: 10% per
hour, operational and non-operational
conditions
Interfaces:
2 x 1Gb Ethernet
from the Lemko Node2 Family of Products
Node2 GGSN/PG:
Supports: Gi
Gn/Gp
3GPP Rel 6
Node2
GGSN/PGW
Node2 is a Registered Trademark of The LEMKO Corporation
Node2™