XPIC

Ceragon Networks Set to Deliver Multiple Industry-First Innovations at MWC 2024

Retrieved on: 
Thursday, February 15, 2024
Networking hardware, Acquisition, TCO, FWA, Mobile, Growth, MWC, Data-rate units, MMW, MIMO, Government, Catalog, Mobile World Congress, Telephone, XPIC, Managed services, Internet service provider, Hertz, Mobile phone

ROSH HA'AIN, Israel, Feb. 15, 2024 /PRNewswire/ -- Ceragon Networks Ltd. (NASDAQ: CRNT), the global innovator and leading solutions provider of wireless connectivity, today announced plans to unveil its new lineup of industry-first innovations at Mobile World Congress (MWC) 2024.

Key Points: 
  • ROSH HA'AIN, Israel, Feb. 15, 2024 /PRNewswire/ -- Ceragon Networks Ltd. (NASDAQ: CRNT), the global innovator and leading solutions provider of wireless connectivity, today announced plans to unveil its new lineup of industry-first innovations at Mobile World Congress (MWC) 2024.
  • Also, on hand will be the newest members of the Ceragon hardware lineup, the IP-50CX microwave radio, and IP-50EX millimeter wave radio.
  • Doron Arazi, Ceragon CEO commented, "MWC has always been a great opportunity to meet with new customers, catch up with old friends, and showcase the incredible innovations Ceragon is bringing to the world of wireless connectivity.
  • To set up a meeting with Ceragon at MWC, CLICK HERE .

Mobile Base Station Wireless Backhaul Market Set for Robust Growth With 2.5 Million E-Band Link Installations Forecasted by 2027

Retrieved on: 
Wednesday, September 6, 2023
Carrier aggregation, High-pass filter, Wi-Fi, XPIC, Research, FSO, Free-space optical communication, Compound annual growth rate, BCA, IMT, Personal Communications Service, Growth, World Radiocommunication Conference, Conference, Industry analyst, Telephone, Communications satellite

NEW YORK, Sept. 6, 2023 /PRNewswire/ -- In the 5G era, the demand for data is reaching new highs. Annual data traffic from the top 30 countries monitored by ABI Research is forecast to grow from almost 1,100 exabytes in 2022 to over 4,000 exabytes in 2027 (at a CAGR of 30%), with 5G making up ~60% of total data traffic in 2027. With the higher data throughputs and lower latencies required by 5G networks, backhaul or transport solutions must also adapt to meet the increased requirements needed by 5G technology. While fiber-optic remains a preferred choice for 5G backhaul, wireless backhaul technology is still seen as a key component in many 5G networks due to its lower deployment costs and ability to be deployed in areas where fiber deployment is difficult, as well as its capacity to handle 5G backhaul requirements. Additionally, wireless backhaul deployments can also be used to complement fiber backhaul deployments by providing increased resiliency. According to global technology intelligence firm ABI Research, the total number of cellular base stations (including both macro and small cells) using wireless backhaul links will increase from 6.3 million in 2022 to 7.6 million in 2027 (at a Compound Annual Growth Rate (CAGR) of 4%), with E-band growing rapidly from almost 400,000 links in 2022 to 2.5 million links in 2027 (at a CAGR of 44%).

Key Points: 
  • With the higher data throughputs and lower latencies required by 5G networks, backhaul or transport solutions must also adapt to meet the increased requirements needed by 5G technology.
  • Additionally, wireless backhaul deployments can also be used to complement fiber backhaul deployments by providing increased resiliency.
  • "With the improving capabilities of various wireless backhaul technologies, there is strong growth potential for wireless backhaul industry.
  • Based on extensive primary interviews, Application Analysis reports present in-depth analysis on key market trends and factors for a specific technology.

Mobile Base Station Wireless Backhaul Market Set for Robust Growth With 2.5 Million E-Band Link Installations Forecasted by 2027

Retrieved on: 
Wednesday, September 6, 2023
Carrier aggregation, High-pass filter, Wi-Fi, XPIC, Research, FSO, Free-space optical communication, Compound annual growth rate, BCA, IMT, Personal Communications Service, Growth, World Radiocommunication Conference, Conference, Industry analyst, Telephone, Communications satellite

NEW YORK, Sept. 6, 2023 /PRNewswire/ -- In the 5G era, the demand for data is reaching new highs. Annual data traffic from the top 30 countries monitored by ABI Research is forecast to grow from almost 1,100 exabytes in 2022 to over 4,000 exabytes in 2027 (at a CAGR of 30%), with 5G making up ~60% of total data traffic in 2027. With the higher data throughputs and lower latencies required by 5G networks, backhaul or transport solutions must also adapt to meet the increased requirements needed by 5G technology. While fiber-optic remains a preferred choice for 5G backhaul, wireless backhaul technology is still seen as a key component in many 5G networks due to its lower deployment costs and ability to be deployed in areas where fiber deployment is difficult, as well as its capacity to handle 5G backhaul requirements. Additionally, wireless backhaul deployments can also be used to complement fiber backhaul deployments by providing increased resiliency. According to global technology intelligence firm ABI Research, the total number of cellular base stations (including both macro and small cells) using wireless backhaul links will increase from 6.3 million in 2022 to 7.6 million in 2027 (at a Compound Annual Growth Rate (CAGR) of 4%), with E-band growing rapidly from almost 400,000 links in 2022 to 2.5 million links in 2027 (at a CAGR of 44%).

Key Points: 
  • With the higher data throughputs and lower latencies required by 5G networks, backhaul or transport solutions must also adapt to meet the increased requirements needed by 5G technology.
  • Additionally, wireless backhaul deployments can also be used to complement fiber backhaul deployments by providing increased resiliency.
  • "With the improving capabilities of various wireless backhaul technologies, there is strong growth potential for wireless backhaul industry.
  • Based on extensive primary interviews, Application Analysis reports present in-depth analysis on key market trends and factors for a specific technology.

NEC to increase Orange Egypt LTE network capacity with iPASOLINK E-band microwave radios

Retrieved on: 
Thursday, January 28, 2021
Telecommunications, Technology, Wireless networking, Mobile telecommunications, Mobile technology, Backhaul, Network architecture, Microwave transmission, XPIC, LTE, 4G, Orange Egypt

TOKYO, Jan 28, 2021 - (JCN Newswire) - Orange Egypt has deployed NECs iPASOLINK EX Advanced in Egypt since 2016, and maintained a leading position for 14 consecutive months as the fastest network in Egypt in terms of data transmission.

Key Points: 
  • TOKYO, Jan 28, 2021 - (JCN Newswire) - Orange Egypt has deployed NECs iPASOLINK EX Advanced in Egypt since 2016, and maintained a leading position for 14 consecutive months as the fastest network in Egypt in terms of data transmission.
  • NEC is one of just two vendors providing Orange Egypt with microwave radios, giving it a 40% share of the microwave radios deployed by the carrier.
  • These new units of iPASOLINK EX Advanced feature cross-polarization interference cancelling technology (XPIC) and E-Band spectrum of up to 6.4Gbps throughput per link.
  • "NECs iPASOLINK EX Advanced is heralding a new era in LTE backhaul technology, and we are delighted that Orange Egypt is expanding its system with us," said Hassan Abou Khatwa, General Manager, NEC Cairo.

BridgeWave Breaks Bandwidth Barriers in Licensed Microwave with Navigator Dual and Quad Stacked Sub-Carriers, Doubling Radio Capacity with NO Additional Hardware

Retrieved on: 
Thursday, September 5, 2019
Telecommunications, Information and communications technology, Data transmission, Radio electronics, Networking hardware, Digital signal processing, XPIC, Radio, Transceiver, Technology

Enabled by software licenses, Navigator's stacked sub-carriers double radio capacity without compression or the need for any additional equipment.

Key Points: 
  • Enabled by software licenses, Navigator's stacked sub-carriers double radio capacity without compression or the need for any additional equipment.
  • The Navigator ST single transceiver radio can now deliver up to 1.6Gbps per radio by carrying two stacked sub-carriers across a single transceiver, with bandwidth up to 112MHz per channel (2x112MHz).
  • The Navigator DT dual transceiver radio can now deliver up to 3.2Gbps per radio by carrying four stacked sub-carriers across dual transceivers, with bandwidth up to 112MHz per channel (4x112 MHz).
  • The Navigator DT radio system takes capacity even further, supporting XPIC with quad sub-carriers to provide 2 x (2+0 XPIC) operation in a single radio without requiring any additional hardware or external components and saving valuable spectrum.

BridgeWave Introduces XPIC Support to Double Link Capacity and Break Barrier of Spectral Efficiency in Spectrum-Limited or Congested Markets

Retrieved on: 
Tuesday, September 18, 2018
Radio spectrum, Data transmission, Information theory, Extremely high frequency, Throughput, XPIC, Telecommunications engineering, Information and communications technology, Information

XPIC is also advantageous in areas where spectrum is highly congested, enabling network operators to avoid interference while transmitting twice the data throughput.

Key Points: 
  • XPIC is also advantageous in areas where spectrum is highly congested, enabling network operators to avoid interference while transmitting twice the data throughput.
  • Until now, ultra-high capacity radio systems like the Flex4G-10000 required 2000MHz bandwidth to provide 10Gbps capacity.
  • "By deploying Flex4G-10000 systems with XPIC, operators gain significant advantages to cost-effectively deliver service and support applications without spectrum limitations."
  • BridgeWave has led the industry with this technology first introduced with BridgeWave millimeter wave radios more than a decade ago.