Wireless Online's PointBeam solutions provide fixed wireless broadband networks using multibeam antenna arrays that increase coverage and capacity while reducing the number of cell sites needed. The PointBeam 2500 and 2150 products can improve spectrum allocation by reusing frequencies within a site, increasing capacity by up to 400% without adding sites or antennas. The antenna arrays also enhance performance, support more subscribers per site, and are designed to withstand harsh environments with low maintenance needs.
Ausgrid is investing more than $1 billion in the Sydney CBD electricity network over five years to 2014. Ausgrid's Sydney CityGrid project involves constructing new substations, replacing and upgrading high-voltage cables and constructing a new tunnel to link into our existing network of CBD cable tunnels. These tunnels connect to form an 8 km ring under Sydney's CBD that interconnects Ausgrid's substations.
To provide a GRN P-25 coverage solution into these tunnels for Ausgrid's maintenance staff presented a challenge. Coverage is provided by utilising 'radio over fibre' repeater technology which rebroadcasts the NSW Government Radio Network from two dedicated base station sites located in two of Ausgrid's substations. Radiating cable, fixed to the ceiling of the tunnel, distributes the radio signals to the user in the tunnel, providing a method of communications deep underneath Sydney's CBD, where previously there was no way of communicating with the outside world.
Steve Harvey, Engineering Manager, Distributed Coverage and Capacity Solutions (DCCS), CommScope
Ausgrid is investing more than $1 billion in the Sydney CBD electricity network over five years to 2014. Ausgrid's Sydney CityGrid project involves constructing new substations, replacing and upgrading high-voltage cables and constructing a new tunnel to link into our existing network of CBD cable tunnels. These tunnels connect to form an 8 km ring under Sydney's CBD that interconnects Ausgrid's substations.
To provide a GRN P-25 coverage solution into these tunnels for Ausgrid's maintenance staff presented a challenge. Coverage is provided by utilising 'radio over fibre' repeater technology which rebroadcasts the NSW Government Radio Network from two dedicated base station sites located in two of Ausgrid's substations. Radiating cable, fixed to the ceiling of the tunnel, distributes the radio signals to the user in the tunnel, providing a method of communications deep underneath Sydney's CBD, where previously there was no way of communicating with the outside world.
Steve Harvey, Engineering Manager, Distributed Coverage and Capacity Solutions (DCCS), CommScope
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.
Here is an affordable and easy to set up wirless microphone from Dukane
Bill McIntosh
Authorized Dukane Consultant
Phone :843-442-8888
Email : WKMcIntosh@Comcast.net
Medalas Presentation of Network Optimisation problems, given at the TETRA Association China Roadshow in October 2010 in Hangzhou, Guangzhou and Chengdu
SUN Telecom’s SUN-LS200 series Handheld Optical Fiber Output Power Variable Light Source emits
excellent stability laser for fiber optic measurement. This Light Source is able to offer wavelength and
frequency identification information, which is widely applied with SUN Telecom’s SUN-OPM200 series
Power Meter for testing the optical loss of both single mode (SM) and multimode (MM) fiber optic cable.
Understanding RF Fundamentals and the Radio Design of Wireless NetworksCisco Mobility
This advanced session focuses on deep-dive understanding of the often overlooked Radio Frequency part of designing and deploying a Wireless LAN Network. It discusses 802.11 radio MIMO APs and antennas placements when to use a DAS system antenna patterns. It covers the main environments such as carpeted offices campuses and conference centers, providing feedback based on lessons learned from challenging deployments such as outdoor/stadium/rail deployments and manufacturing areas. Learn More: http://www.cisco.com/go/wireless
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
Choosing the correct antenna for the Mimosa point-to-multipoint (PTMP) solution is critical to delivering a high-performance wireless network. This webinar will review how to get the best ground coverage based on the subscriber density, distances, interference levels and terrain challenges; deployment options for density versus performance, and how to identify quality antennas.
RADWIN JET enables to deliver high quality & reliable broadband wireless access, to residential customers for a fiber-like experience with fast go-to-market, less network infrastructure, while opening up new opportunities for increased ARPU.
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.
Here is an affordable and easy to set up wirless microphone from Dukane
Bill McIntosh
Authorized Dukane Consultant
Phone :843-442-8888
Email : WKMcIntosh@Comcast.net
Medalas Presentation of Network Optimisation problems, given at the TETRA Association China Roadshow in October 2010 in Hangzhou, Guangzhou and Chengdu
SUN Telecom’s SUN-LS200 series Handheld Optical Fiber Output Power Variable Light Source emits
excellent stability laser for fiber optic measurement. This Light Source is able to offer wavelength and
frequency identification information, which is widely applied with SUN Telecom’s SUN-OPM200 series
Power Meter for testing the optical loss of both single mode (SM) and multimode (MM) fiber optic cable.
Understanding RF Fundamentals and the Radio Design of Wireless NetworksCisco Mobility
This advanced session focuses on deep-dive understanding of the often overlooked Radio Frequency part of designing and deploying a Wireless LAN Network. It discusses 802.11 radio MIMO APs and antennas placements when to use a DAS system antenna patterns. It covers the main environments such as carpeted offices campuses and conference centers, providing feedback based on lessons learned from challenging deployments such as outdoor/stadium/rail deployments and manufacturing areas. Learn More: http://www.cisco.com/go/wireless
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
Choosing the correct antenna for the Mimosa point-to-multipoint (PTMP) solution is critical to delivering a high-performance wireless network. This webinar will review how to get the best ground coverage based on the subscriber density, distances, interference levels and terrain challenges; deployment options for density versus performance, and how to identify quality antennas.
RADWIN JET enables to deliver high quality & reliable broadband wireless access, to residential customers for a fiber-like experience with fast go-to-market, less network infrastructure, while opening up new opportunities for increased ARPU.
Techniques and Challenges in Designing Wideband Power Amplifiers Using GaN an...NXP Admin
At EDI CON USA 2016, Jeff Ho from NXP presented a workshop on the benefits and challenges in designing wideband power amplifiers using GaN and LDMOS technologies. Click through to explore the great potential of wideband power amplifier designs due to excellent power and efficiency characteristics at RF and microwave frequencies.
Techniques and Challenges in Designing Wideband Power Amplifiers Using GaN an...Lisa Bradley
At EDI CON USA 2016, Jeff Ho from NXP presented a workshop on the benefits and challenges in designing wideband power amplifiers using GaN and LDMOS technologies. Click through to explore the great potential of wideband power amplifier designs due to excellent power and efficiency characteristics at RF and microwave frequencies.
This slide deck presents a user case by Microsoft (Mark Filer) for a 100G DWDM alternative to Coherent systems <80km using the PAM-4 approach. Fujitsu (Muhammed Sarwar) and Finisar (Gert Sarlet) present the case for Coherent. Inphi (Radha Nagarajan) and ADVA (Joerg-Peter Elbers) present the case for the PAM-4 approach. IEEE (John D'Ambrosia) weighs in from the standards perspective.
JTOPTICS® 100Gb/s transceiver module, meticulously crafted for optical communication applications in compliance with the 100G 4WDM 10 MSA. This module adeptly converts four input channels of 25Gb/s electrical data into four channels of CWDM optical signals, subsequently multiplexing them into a single channel for 100Gb/s optical transmission. On the receiver side, the module reversely demultiplexes a 100Gb/s optical input into four channels of CWDM optical signals, converting them into four output channels of electrical data. Equipped with high-performance cooled CWDM DFB transmitters and highly sensitive PIN receivers, this module delivers superior performance for 100 Gigabit Ethernet applications, reaching up to 10km.
Key Features:
1. Hot-pluggable QSFP28 form factor for convenient installation.
2. Maximum link length of 10km over single-mode fiber.
3. Incorporates 4 x 26Gb/s DFB-based CWDM cooling transmitters.
4. Features 4 channels PIN ROSA (Receiver Optical Sub-Assembly).
5. Internal Clock and Data Recovery (CDR) circuits for both receiver and transmitter channels.
6. Supports CDR bypass for enhanced flexibility.
7. Transmission data rate of up to 26Gbps per channel.
8. Utilizes a duplex LC connector for streamlined connectivity.
9. Compliant with IEEE 802.3ba 100GBASE LR4, IEEE 802.3bm, SFF 8665, and SFF 8636 standards.
10. Maximum power dissipation of 4W.
11. Operates on a single 3.3V power supply for simplified power management.
12. RoHS 6 compliant, adhering to environmental standards by being lead-free.
Building a network using 3.5GHz, CBRS or C-Band spectrum is a smart business decision. Demand for connectivity is surging, and it’s one more step toward ending the digital divide. As promising as this spectrum is, however, new technologies can present unexpected obstacles. Alpha Wireless has deep experience designing 3.5 GHz networks.
tunable laser is a laser that can change its wavelength
2500_2150
1. Wireless Online’s PointBeam™ solutions provide fixed
broadband networks with better coverage and capacity
using fewer cell sites for wireless networks operating
between 2.15 and 2.8 GHz.
PointBeam 2150 MDS,WCS bands and networks
operating between 2.15 and 2.36 GHz
PointBeam 2500 MMDS, unlicensed bands and networks
operating between 2.4 and 2.8 GHz
Together they provide the ideal smart wireless equipment
for upstream and downstream network communication in
frequency division duplex (FDD) and time division duplex
(TDD systems).
SmartWaves forWireless Data™
High-speed wireless networks represent a fast, easy-to-
deploy alternative to DSL and cable networks.Wireless
Online’s PointBeam smart multibeam arrays make deploying
fixed wireless networks even faster and smarter –
significantly reducing time-to-market and delivering a state-
of-the-art solution.PointBeam provides better coverage and
capacity with fewer sites than conventional antenna
systems by increasing bandwidth and supporting more
subscribers per site.
SmartWavesforSmartSpectrumReuse
Network operators optimize their allocation of limited and
costly frequencies to maximize profitability.The PointBeam
2500 and 2150 improves the use of scarce broadband
frequencies through Wireless Online’s proven, patented
SeRFiT™, Spectrum Reuse and Filtering Technology. These
PointBeam products allow an operator to add more
subscribers by reusing frequencies within a cell site.Typical
installations increase capacity by up to 400% without
increasing cell sites or the number of antenna arrays.
SmartDesignandConstruction
The PointBeam 2500 and 2150 products are designed to
withstand the harshest environments, resulting in fewer
network outages, lower maintenance costs and improved
service quality. PointBeam’s smart, multibeam antenna array
delivers a truly scalable broadband wireless access system
that is field upgradeable without service disruption.
SmartPerformance
PointBeam 2500 and 2150 provide state-of-the-art
performance,delivering up to 19 dB gain and 22 dB side lobes.
ProvenCoverage,CapacityandBandwidth
ImprovementsUsingFewerSites
• 1.5 times the coverage area for each cell site
• 4 to 6 times the capacity over conventional sectored
solutions – increasing the number of subscribers or the
bandwidth available for each subscriber
• 1 to 6 channels available per 90° sector, providing the
ability to scale with subscriber growth
• Capable of handling high power conditions with a 10
Watts/beam or 60 Watts/sector design
PointBeam 2500/2150
Broadband MultiBeam Antennas for
MMDS,MDS,WCS and Unlicensed Bands
POINTBEAM2500/2150