Company/Product Overviews -
Electric Utility, Oil & Gas, Railroads
Affordable Migration Path for Legacy Networks
The patent pending Xeta9-INS enables XetaWave radios to coexist with other non-XetaWave radios in a single, integrated network. This capability enables customers to leverage their existing investment in legacy networks while taking advantage of the increased performance and capability of XetaWave's new generation software defined radios. For oil and gas applications, customers can improve SCADA polling times and bandwidth, provide Ethernet to the wellhead, increase bandwidth to support video survelliance, enable distributed intelligence, support pipeline protocol, gain increased flexibility and reliability with MAS & ISM-FHSS, DTS.
Network Integration & Migration: Serial to Ethernet/IP
view Seamless Serial diagram
XetaWave radios enable the
seamless integration of legacy serial-based
communication systems and the
latest Ethernet and TCP/IP technologies into a single network providing you
the flexibility to plan migrations according to your budgets and
Well Pad Communications view Digital Oilfield
XetaWave's unified networking
technology allows serial and Ethernet slave radios to be deployed together on
a remote well pad and share a single Ethernet/IP backhaul to a distant master
radio. All XetaWave serial radios on the pad site are configurable via a
webpage hosted by a nearby Ethernet radio.
MultiSpeed MultiPoint™ - Support for Video view diagram
data-rates and MultiSpeed MultiPoint™ capabilities of XetaWave radios enable
high-bandwidth video and low-bandwidth SCADA messages to coexist on a single
wireless network creating the opportunity to add video monitoring systems to
your critical remote sites.
channel-sizes, frequency ranges, and power levels provide the flexibility
necessary to comply with a wide-range of regulatory limits allowing the
deployment of a single RF solution across the globe.
modern enterprise's need for data continues to grow and the higher data-rates
offered by XetaWave radios allow you to reliably capture and send more
information back to where it is needed most.