Thursday, March 28, 2013

What’s All This Small Cell Stuff, Anyhow? Hear No RF Evil - See No RF Evil

What’s All This Small Cell Stuff, Anyhow? Hear No RF Evil - See No RF Evil

Link to LBA Blogs

What’s All This Small Cell Stuff, Anyhow?

Posted: 28 Mar 2013 08:10 AM PDT

You have heard the old saying "splitting hairs" referring to arguing about very small differences or trivial details. There are splitting hairs and then there are "splitting cells" – cell splitting to be exact. This is occurring all over the world as wireless service providers attempt to add ubiquitous coverage and more traffic capacity with ever smaller cells in the face of exploding mobile data requirements.  Industry experts see a near doubling of capacity required year-over-year! To cope, the small cell universe has grown to include femtocells, picocells, metrocells and microcells – generally increasing in size from femtocells (the smallest) to microcells (the largest). Any or all of these small cells may be based on femtocell technology.

Mobile data requirements are exploding worldwide - Nokia

Mobile data requirements are exploding worldwide – Nokia

Ever since the first days of AMPS analog cellular service, wireless site design was based on macrocells; relatively few regional three sector cells employing frequency reuse such as could provide a coverage range of 10 to 15 kilometers or more. In the 1990s so-called "microcells" appeared. These access points, often simple outdoor repeaters, typically had service radii of less than a kilometer or so to add coverage to weak spots. Subsequently, the concept of distributed antenna systems (DAS), involving the chaining or grouping of small cells, emerged. Thus arose the notion of "picocells", becoming popular for in-building systems. Picocells, by contrast to microcells, typically cover areas less than 100 meters. Notwithstanding, both pico and micro cells are "RF equivalent" cell sites placed under the macrocell umbrella, generally for capacity fill-in and expansion use, at least for now.

Femtocells are the smallest of the small cell family, with coverage on the order of single rooms or offices. In 2007, AT&T sold the first shoebox size "femtocell" for home and office use. Unlike many passive DAS systems who are backhauled "over-the-air" to a macro cell, an AT&T femtocell has a unique IP address and traffic is passed through the subscriber's broadband connection to an access gateway installed in the AT&T network.

4G Metrocell requirements are exploding

4G Metrocell requirements are exploding

Small cells deployed in metropolitan areas are often referred to as metrocells – compact and discrete micro base stations mounted on lampposts, positioned on the sides of buildings or found indoors in stadiums, transport hubs and other public areas.  Small cells typically can cover up to 200 meters for some applications. "Small cells" therefore is nothing new, technically speaking but they do present deployment challenges much different from "greenfield" sites. The discussion within the wireless industry about small cells and Heterogeneous Networks (HetNets is the combination of both macro and smaller cell sites) is reminiscent of the mid 1990s when there was talk about underlay-overlay techniques and macro versus micro base station.

One can say that small cells are in the orbit of Distributed Antenna Systems or "DAS". I speculate that small cells will be the future because of spectrum demands; tower sites will be too high and thus a small cell "drop-in" will be appealing to the wireless carriers.  The idea is for a small cell "shoebox" to contain integrated 3G/4G/Wi-Fi, but most manufacturers are still in the product development stage for that topology.

A variety of small cells now cover the urban landscape - OFCOM UK

A variety of small cells now cover the urban landscape – OFCOM UK

Wireless providers are and will continue to use small cells and some are now trialing them in strategic locations. Where DAS has been king for coverage fill-in and capacity growth, experts estimate that small cell equipment growth should catch up to DAS by late 2016. Small cells and DAS should complement each other. ABI Research estimates that one-fourth of DAS will eventually be fed by small cells due to smaller equipment and may be more inexpensive than feeding DAS with more expensive macro site. Because small cells are completely IP-based, a standard Internet service over a virtual private network can be used to connect to the carrier's core network.

Small cells are designed to increase overall sector density or capacity, but can present challenges when it comes to acquiring sites and integrating them into the macro wireless network.  Some of the challenges faced by the macro network are similar to todays' small cell deployment challenges, including the availability and cost of backhaul and commercial power. If carriers do not achieve significant economies of scale on small cell equipment, site costs could be more than expected and result in a negative NPV and no return on investment. In many urban and suburban areas, because the cost of acquiring a cell site can be greater than the cost of installing equipment, carriers are planning to deploy lower power and smaller antenna cells (or mini-cells) that occupy less space.

An often very frustrating consideration involves acquiring approvals from local regulatory and zoning bodies to permit installation of small cell sites. Regulatory processes can be time and resource consuming; thus the cost to acquire site access may exceed the cost to install the equipment. Concealment and aesthetics also require attention for these dense urban small cell sites. Many municipalities and permitting bodies require specific aesthetic designs and unappealing sites can face additional costs.

Faux trees concealing urban wireless antennas for zoning compliance - Spaceandculture

Faux trees concealing urban wireless antennas for zoning compliance – Spaceandculture

In addition to reducing the visual impact of the pico/micro cell equipment, carriers must address engineering challenges such as interference with adjacent sectors and providing adequate backhaul to reduce transport/backhaul congestion. Without self-optimizing network (SON) capabilities, interference and coordination may be unmanageable and impractical. Furthermore, to achieve maximum data throughput in areas with high data usage by customers, improving the signal level and reducing noise and interference so that all data packets can be successfully received is critically important. Performance degrades with distance from the cell, so antenna pattern shaping and signal-to-interference control needs to be optimum.

In summary, key considerations in the deployment of small cells will include: 1) development of flexible all-outdoor non-traditional structures, 2) meeting strict zoning/permitting requirements by blending into the urban environment using compact design and mini-antennas, 3) engineering systems to be simple to deploy, maintain, and operate with maximum integration, and 4) meeting microcell backhaul needs where fiber may not be available.

With all these challenges the big question is how to utilize the small cell for coverage and capacity enhancements without "splitting hairs" even further!



Chris Horne, Chief Technology Officer
Chris Horne is Chief Technology Officer with the LBA Group, Inc. Chris is a Professional Engineer, and holds a Doctorate in Electrical Engineering.

He specializes in wireless and industrial communications, including DAS system design and evaluation, and RF interference management. Contact Chris at chris.horne@lbagroup.com or 252-757-0279.


The post What's All This Small Cell Stuff, Anyhow? appeared first on LBA Blogs.

Tuesday, March 26, 2013

Como un Sistema de Agua en Arkansas Eliminó Costosos Daños por Rayos Hear No RF Evil - See No RF Evil

Como un Sistema de Agua en Arkansas Eliminó Costosos Daños por Rayos Hear No RF Evil - See No RF Evil

Link to LBA Blogs

Como un Sistema de Agua en Arkansas Eliminó Costosos Daños por Rayos

Posted: 26 Mar 2013 02:27 PM PDT

No importa que tan avanzada es la tecnología, las fuerzas de la naturaleza siguen siendo las mismas. La Comisión de Agua de Crossett lo sabe muy bien. La planta de de agua de  la Comisión en Crossett, Arkansas se enfrentaba a un problema de rayos caro. Sabían que su planta de agua necesitaba  una solución seria después que varias descargas de rayos en un período de tiempo les ocasionó más de $ 40.000 en daños.

Planta del Sistema de Agua, Crossett, Arkansas

Planta del Sistema de Agua, Crossett, Arkansas

La utilización de tecnologías mas avanzadas por las industrias a nivel mundial significa que la protección de estos componentes sensibles a los rayos es más importante que nunca. En el caso de Crossett, los grandes motores industriales que mueven su serie de pozos son controlados por sistemas  electrónicos de estado sólido que no tienen que sostener una carga estática  masiva para sufrir daños. “Sabíamos que teníamos tomar el toro por los cuernos”, dijo Buddy Kinney con Crossett.

Después de buscar intensamente por la solución adecuada para la planta de agua, Kinney encontró a LBA Technology, Inc. en Greenville, Carolina del Norte y se puso en contacto con el representante de productos  Javier Castillo. “En la investigación de LBA, he encontrado algunos productos que yo pensé que eran adecuado para nuestras necesidades. Javier me ayudó a  determinar  cuáles eran  los productos que necesitábamos. ”

La Comisión del Agua Crossett ahora protege su instalación, que incluye una renovación de $ 6,6 millones, con mástiles especializados contra rayos de  LBA. Recientemente han instalado la protección contra rayos en una serie de pozos y en  un silo de cal alto, después de un largo calvario que comenzó en julio de 2010.

La serie de mástiles PLP protegen las  instalaciones de Crossett, proporcionando un cono de protección dentro de la cual las descargas por rayos se desvían hacia el mástil y  a tierra en lugar de ser enviado a través del objeto protegido, como es el caso de la protección  convencional contra rayos. Este cono de protección, que se define por la NFPA cono el método  de “bola rodantes” , es crítico. Este enfoque evita que equipos costosos y sensibles sean  un conducto para los rayos. Los mástiles también están equipados con terminales aéreas de disipación de estática aire para reducir significativamente el riesgo de una descarga por rayos  mediante la reducción del campo eléctrico en la proximidad del mástil  contra rayos.

“Estoy convencido de que los mástiles conra rayos LBA ya se han  pagado por ellos mismos, manteniéndonos  a salvo durante  varias tormentas que hemos tenido desde su instalación”, agregó Kinney.

La  historia de Crosset  para eliminar el riesgo de daños por rayos  comenzó en medio de una  renovación que costaba  varios millones de dólares. El proyecto de renovación estaba por completarse en julio de 2010, cuando les afectó un rayo que causó daños en  varios circuitos eléctricos y de instrumentación a través de su sistema.  La sustitución de piezas y volver a poner el sistema en operación  tuvo un costo de más de $ 13.000. Otro rayo cayó en la víspera de Año Nuevo de 2010 con un precio de reparación de casi $ 23.000. Estos costos no tienen en cuenta el tiempo de inactividad y las molestias resultantes causadas a los clientes.

Fue en este punto que el Sr. Kinney encontró a  LBA y Castillo recopiló información de Kinney en un esfuerzo por recomendar la solución adecuada. “Javier me ayudó a entender qué productos necesitábamos  y cómo instalarlos”, dijo Kinney.

Cabezal de pozo de Crossett  protegido por un mastil contra rayos de LBA Technology PLP-22

Cabezal de pozo de Crossett protegido por un mastil contra rayos de LBA Technology PLP-22

LBA fue capaz de suplir los mástiles  especializadas a Crossett de manera rápida y eficiente ya que todas las partes y las longitudes de las secciones cumplen  con los estándares de envio via UPS. Kinney encontró que la  instalación  es sencilla y efectiva en costo; “La instalación fue sencilla y no requiere de mucha mano de obra, y lo mejor de todo, no es caro.” Los  mástiles PLP-22  fueron instalados. La instalación fue en una base sencilla  de concreto  ya  que  los mástiles s se han diseñado para ser instalados con labor manual sin que sea necesario el uso de grúas.

But Crossett's lightning challenges were not yet over.  Some of their critical infrastructure still had not been protected with the LBA lightning masts, leaving them vulnerable to strikes.  Two of Crossett's unprotected wells were hit by lightning in 2012. One took a hit in August 2012 leaving a repair cost of just over $1,400 and another well was damaged in September 2012 resulting in a damage price tag of

Pero los problemas de Crossett  con los rayos aún no habían terminado. Algunas de sus infraestructuras críticas aún no habían sido protegidas con los mástiles contra rayos LBA, dejándolas vulnerables a recibri descargas . Dos de los pozos no protegidos Crossett fueron golpeados por un rayo en 2012. Uno recibió un descarga en agosto de 2012 dejando  un costo de reparación de poco más de $ 1,400 y otro también sufrió daños en septiembre de 2012 resultando en un precio por  daños de casi $ 2.000.

El Sr. Kinney no perdió el tiempo en contactar de nuevo  a Castillo en  LBA . “Se nos ocurrió un sistema de protección contra rayos para cada uno de nuestros pozos”, dijo Kinney.

Ellos fueron capaces de proteger a cada uno de los pozos con los mástiles especializados a un costo promedio de$ 2,400 dólares por pozo. “Una inversión muy cómoda teniendo en cuenta  que un rayo puede causar entre $ 1,200.00 a $ 2,000.00 en daños”, agregó Kinney. “Yo recomiendo sin reservas los mástiles de protección contra rayos de  LBA Technology  rayos a toda entidad  que crea una atmósfera propensa a atraer un rayo debido a la electricidad, instrumentación y componentes electrónicos”, dijo Kinney.

Mas Acerca de los Mastiles Contra Rayos PLP de LBA

LBA Technology ofrece el PP-14, PP-22, PP-30 y PP-38. Estos mástiles contra rayos son  ligeros, robustos, fijos y portátiles  están fabricados con aleaciones de aluminio del masalto grado. Los mástiles, que varían en altura desde 14 pies a 38 pies, son resistentes y están disponibles con diferentes estilos de montaje y sistemas de puesta a tierra. Junto con las terminales aéreas de disipación de estática , este sistema especializado de LBA  ofrece una defensa contra rayos  que es incomparable.

El montaje y desmontaje de la serie de mástiles PLP es un simple procedimiento para una  persona, utilizando herramientas manuales comunes, y normalmente requiere menos de una hora. Una vez montado, un mástil PLP puede ser fácilmente acoplado con un sistema de apoyo apropiado. La sección de base universal del mástil está diseñado para interactuar con una base fija opcional (FB-1), la base portátil (PB-1), o una base suministrada por el cliente.

Independientemente de la solución de protección contra rayos usada, hay un hecho que es cierto acerca del rayo y es  que es de  naturaleza impredecible. No hay un sistema en el mercado que pueda garantizar el 100 por ciento de protección contra un fenómeno natural, como un rayo, pero con 50 años de experiencia a nivel mundial en protección electromagnética, LBA tiene la experiencia para diseñar y proporcionar las mejores soluciones de protección contra rayos para  infraestructura especializadas.

Para mayor información acerca de las soluciones ofrecidas en protección contra rayos por LBA Technology, visite  http://www.lbagroup.com/es/productos/sistemas-de-proteccion-contra-rayos-para-torres-antenas-y-estructuras  Para discutir su aplicación contacte a  Javier Castillo, jcastillo@lbagroup.com o llamando al  252-757-0279.

Mantengase al dia con LBA siguiendo nuestro  blog en www.lbagroup.com/blog/ y en  Facebook  www.facebook.com/LBAGroup.

The post Como un Sistema de Agua en Arkansas Eliminó Costosos Daños por Rayos appeared first on LBA Blogs.

Wednesday, March 20, 2013

How Arkansas Water System Ended Costly Lightning Damage Hear No RF Evil - See No RF Evil

How Arkansas Water System Ended Costly Lightning Damage Hear No RF Evil - See No RF Evil

Link to LBA Blogs

How Arkansas Water System Ended Costly Lightning Damage

Posted: 20 Mar 2013 02:03 PM PDT

No matter how advanced technology becomes the forces of nature remain the same. The Crossett Water Commission knows this all too well.  The Commission's water plant in Crossett, Arkansas was faced with an expensive lightning problem.  They knew their water plant needed a serious solution after several lightning hits over a period of time cost them more than $40,000 in damage.

Crossett, Arkansas water system plant

Crossett, Arkansas water system plant

More advanced electronics being used by industries worldwide mean protecting these sensitive components from lightning is more critical than ever before.  In Crossett's case, the large industrial motors running their series of wells are controlled by solid state electronics which do not have to sustain a massive static charge to suffer damage. "We knew we had to put this horse out to pasture," said Buddy Kinney with Crossett.

After searching intensely for the right solution for the water plant, Kinney found LBA Technology, Inc.  in Greenville, NC. He then contacted product representative Javier Castillo. "In researching LBA, I found some products I thought would fit our needs. Javier helped me understand what products we needed."

The Crossett Water Commission now protects their facility, which includes a $6.6 million renovation, with specialized LBA lightning masts. They have recently installed the lightning protection on a series of wells and a tall lime silo after a long ordeal that began in July 2010.

The PLP series of lightning masts protect Crossett's facilities by providing a cone of protection within which lightning charges are diverted to the mast and grounded instead of being sent through the protected object, as is the case with conventional lightning protection. This cone of protection, defined by the NFPA "rolling ball" method, is critical. This approach avoids making expensive and sensitive equipment a conduit for lightning. The lightning masts are also equipped with charge dissipating air terminals to significantly reduce the risk of an actual strike by reducing the electrical field in the vicinity of the lightning mast.

"I am convinced the LBA lightning masts have already paid for themselves, keeping us safe through several thunderstorms we have had since installation," added Kinney.

Crossett's story of how they conquered the risk of costly lightning damage started in the midst of their multi-million dollar renovation. The renovation project was nearly complete in July 2010 when the first lightning strike hit, shorting out several electrical and instrumentation circuits throughout their system.  Replacing parts and getting their system back on line came at a cost of over $13,000.  They took another lightning hit on New Year's Eve 2010 with a repair price tag of nearly $23,000. These costs don't take into account the resulting downtime and potential water customer inconvenience.

It was at this point that Mr. Kinney found LBA and Castillo gathered information from Kinney in an effort to recommend the right solution.  "Javier helped me understand what products we needed and how to install them" said Kinney.

Crossett wellhead protected by LBA Technology PLP-22 lightning mast

Crossett wellhead protected by LBA Technology PLP-22 lightning mast

LBA was able to get the specialized lightning masts to Crossett quickly and efficiently since all parts and section lengths meet UPS shipping standards.  Kinney also found installation straightforward and cost effective; "Installation was simple, not time consuming, not labor intensive, and best of all, not expensive." PLP-22 lightning masts were installed. Installation was on a simple concrete pier, and the lightning masts were designed to be set up with manual labor; no cranes needed.

But Crossett's lightning challenges were not yet over.  Some of their critical infrastructure still had not been protected with the LBA lightning masts, leaving them vulnerable to strikes.  Two of Crossett's unprotected wells were hit by lightning in 2012. One took a hit in August 2012 leaving a repair cost of just over $1,400 and another well was damaged in September 2012 resulting in a damage price tag of almost $2,000.

Mr. Kinney wasted no time contacting Castillo at LBA again.  "We came up with a lightning protection system for each one of our wells," said Kinney.

They were able to protect each of the wells with the specialized masts at an average cost of $2,400 per well.  "A very comfortable investment considering one lightning bolt can cause anywhere from $1,200.00 to $2,000.00 damage," added Kinney. "I would without reservation highly recommend the LBA Technology lightning protection masts to any facility that creates an atmosphere that wants to attract lightning due to electrical, instrumentation, and electronic components," said Kinney.

More about LBA PLP lightning masts

LBA Technology offers the PLP-14, PLP-22, PLP-30 and PLP-38.  These lightweight, heavy duty fixed, portable, and kitted lightning protection masts systems are manufactured from highest grade lightweight aluminum alloys. The masts, which range in height from 14 feet to 38 feet, are rugged and are available with various mounting styles and grounding systems.  Coupled with LBA's dissipater air terminals, this specialized system offers a lightning defense that is unmatched.

Assembly and disassembly of the PLP series of masts is a simple one person procedure, using only common hand tools, and typically requires under an hour. Once assembled, a PLP mast may be readily mated with an appropriate support system. The universal base section of the mast is designed to interface with an optional fixed base (FB-1), portable base (PB-1), or customer supplied base.

No matter what lightning protection solution is deployed, there is one fact that is certain about lightning and that its unpredictable nature.  There is no system on the market that can guarantee 100 percent protection against a natural phenomenon like lightning, but with 50 years' experience worldwide in electromagnetic protection, LBA has the expertise to design and furnish the best lightning protection solutions for specialty infrastructure.

For more information on lightning protection solutions offered by LBA Technology, visit www.lbagroup.com/products/lightning-protection-systems-for-towers-antennas-and-structures. To discuss your application, contact Javier Castillo or Byron Johnson at lbagrp@lbagroup.com, phone 252-757-0279.

Keep up with what's going on at LBA by following our blog at www.lbagroup.com/blog/ and on Facebook at www.facebook.com/LBAGroup.

 

The post How Arkansas Water System Ended Costly Lightning Damage appeared first on LBA Blogs.

LBA’s Lightning Mast Provides Protection for Arkansas Water Plant

Posted: 20 Mar 2013 11:40 AM PDT

LBA Technology Solves Arkansas Water Plant's Lightning Protection Challenge
System pays for itself with one strike

Click here to view the press release.

LBA Technology solves Arkansas water plant's lightning protection challenge

The post LBA’s Lightning Mast Provides Protection for Arkansas Water Plant appeared first on LBA Blogs.

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