Motorola's Cost-Effective Wireless Ethernet Bridge Enables Connectivity Almost Anywhere

Motorola today announced its new Wireless Ethernet Bridge – the PTP 300 Series. This solution provides enterprises and government agencies with carrier class connectivity while offering a strong return on investment compared with alternatives.

Connecting with up to 99.999 percent reliability, the PTP 300 performs in challenging geographical and extreme environmental conditions including urban areas, hills, over water, and desert terrain.

These wireless bridges can cover a line-of-sight distance of up to 155 miles, with near-line-of-sight and non-line-of-sight (NLOS) ranges of up to 25 miles and 6 miles respectively. Operating in the 5.4 and 5.8 GHz bands at data rates up to 25 Mbps, the PTP 300, which is part of Motorola’s Wireless Broadband portfolio, also boasts the highest spectral efficiency and system gain for radios in its class. In addition, customer and channel partners can use the new next-generation radio frequency (RF) planning tool – PTP LINKPlanner – to determine link viability and optimization in challenging environments prior to purchase.

“Technologies previously only found in high-end NLOS solutions are now available in the new cost effective and economical PTP 300 platform,” said Shaukat Ahmed Reshi, CEO of SAR Telecom. “The new PTP 300 platform offers performance, features and reliability unmatched by any product in its class. It introduces high-end technology in a cost effective entry level solution enabling solution providers and operators a carrier grade product that makes business sense.”

The PTP 300 cost-effectively supports a variety of demanding applications including: multimedia – voice, video and data; IP gaming; distance learning and telemedicine; disaster recovery and events; wide area network backhaul; and fixed and wireless link backup.

The combination of Multiple-Input-Multiple-Output (MIMO) and intelligent Orthogonal Frequency Division Multiplexing (i-OFDM) also enable the PTP 300 to support backhaul from multiple access points to a point-of-presence and building-to-building and campus connectivity.

“The PTP 300 enables organizations to connect virtually anywhere,” said Robert Baker, general manager of the Point-to-Point Product Group, Motorola. “Combining the same award-winning MIMO and i-OFDM technology will further enable organizations to enjoy carrier class wireless connectivity cost-effectively versus the more costly options such as leased lines, fiber or microwave links.”

Source: Motorola

Related stories:

Motorola Introduces Industry’s First Tri-Radio 802.11n Access Point
Motorola, Inc. today announced its AP-7131, the industry’s first tri-radio 802.11n access point (AP) featuring Motorola’s new adaptive AP architecture. The unique tri-radio design integrates three 802.11n radios that simultaneously support high-speed client access, mesh backhaul and dedicated dual-band intrusion protection for enabling the all-wireless enterprise. Using an expansion slot, the third radio can be field upgraded to enable next-generation 3G/4G technologies like WiMAX for primary or redundant WAN connectivity.
World's First Built-In Wi-Fi -Enabled Digital Cameras
Nikon is redefining the digital camera shooting experience with the announcement of two new revolutionary Wi-Fi enabled models. The Coolpix P1 and P2 are the world's first built-in Wi-Fi-enabled (IEEE802.11b/g) digital cameras to hit the marketplace. These groundbreaking cameras allow consumers to immediately transmit images wirelessly directly to a computer or to any PictBridge-enabled printer equipped with the optional Nikon Wireless Printer Adapter (PD-10), for wireless printing.
Can you hear me now?
When it comes to cellular communication networks, a primitive single-celled microbe that answers to the name of Monosiga brevicollis has a leg up on animals composed of billions of cells. It commands a signaling network more elaborate and diverse than found in any multicellular organism higher up on the evolutionary tree, researchers at the Salk Institute for Biological Studies have discovered.
Crossed (evolutionary) signals?
What do humans and single-celled choanoflagellates have in common? More than you'd think. New research into the choanoflagellate genome shows these ancient organisms have similar levels of proteins that cells in more complex organisms, including humans, use to communicate with each other.

News discussion:

Technology news