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May 16, 2011
FREEWAVE TECHNOLOGIES’ RENEWABLE ENERGY EXPERT TO PRESENT AT ASES SOLAR CONFERENCE 2011
FREEWAVE TECHNOLOGIES’ RENEWABLE ENERGY EXPERT TO PRESENT AT ASES SOLAR CONFERENCE 2011
Bret Dianich to present the advantages of using wireless communication systems with distributed intelligence for utility and commercial scale solar power
WHO: Bret Dianich
Business Development Executive, Energy Markets
FreeWave Technologies, Inc.
Dianich joined FreeWave in 2010 as a business development executive for energy markets. Dianich is responsible for business development for solar and wind energy markets,, such as utility-scale concentrated solar power, concentrated photovoltaic, wind turbines and wind farms.
Founded in 1993, FreeWave Technologies is a world leader in the innovative design/manufacture of license-free spread spectrum, licensed band radios and wireless data solutions that are trusted for mission critical applications around the world (www.freewave.com).
WHAT: Optimizing Communication with Distributed Intelligence for the Utility and Commercial Scale Solar Power Industry
As investments in strategic implementations for the solar power generation industry continue to increase, there is an increasing need for obtaining a secure, reliable communication network for critical-data transmission at the best cost/performance ratio. Communication options today range from fiber optic cable to standards-based and proprietary protocol wireless technologies. Depending on the application requirements, these same tools have been used for mission critical applications in the military and oil and gas markets and now are being introduced to the utility and commercial scale solar power generation industry
This presentation will explain how deploying wireless distributed intelligence networks can lower installation and infrastructure costs, while also providing reliable, robust communication performance with dependable, easily installed networks. The presenter will provide a real-life example of how these technologies are currently being deployed at a solar company. Attendees will discover the advantages of using wireless communication systems with distributed intelligence for the utility and commercial scale solar power industry and learn how to deploy a reliable, secure data communication network throughout the plant.
WHERE: SOLAR 2010 (ASES National Solar Conference)
Raleigh Convention Center
500 South Salisbury Street
Raleigh, NC 27601
WHEN: Thursday, May 19
CONTACT: For more information on FreeWave, or to set up an interview with Mr.Dianich, please contact Christin Jeffers at:
Catapult PR-IR
(303) 581-7760, ext. 19
February 2, 2011
Optimizing Communication Networks in Renewable Energy Markets with Wireless Technologies
Optimizing Communication Networks in Renewable Energy Markets with Wireless Technologies
Each of the applications that can be performed using data radios in solar and wind power generation plants are conducted today in many thousands of other market applications. These radios are relied upon in mission critical monitoring, controlling and data acquisition situations in the harshest weather and RF conditions.
By Colin Lippincott, Colin Lippincott, General Manager, Energy Markets – FreeWave Technologies
To view published article on Alt Energy’s EMagazine, please click here: http://www.altenergymag.com/emagazine.php?art_id=1670
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Introduction
As alternative energy sources, such as wind and solar, become an increasingly compelling solution for power generation, utilities operators are looking for new ways to maximize their investment in communication networks while ensuring reliable, secure data transmission across them. There are a variety of communication options, including data radios, fiber-optic cable, cell phones, and satellite modems.
The same wireless technologies used in many utility applications, such as distribution automation, are available to renewable energy plants. With wind turbines and solar power generation, systems can often benefit from the cost savings of wireless versus fiber optic cable. While fiber is both an expensive and time-consuming process to install, wireless technologies are easily deployed, dependable solutions. Wireless technologies can support all types of solar power generation models, from the solar troughs, dishes, tracking photovoltaic and heliostats, delivering information directly to the user’s desktop.
Data radios provide proven, reliable data transmission and advantages where:
The system owner wants to control the communications
Cell phone coverage is inconsistent or non-existent
Communication security is a priority
Budgets require efficient communications investment.
In other words, data radios offer wind and solar power generation facility developers and operators a viable solution for meeting their communication network’s requirements while also cutting costs. As the industry continues its fast-paced growth, the need to identify ways to lower infrastructure costs, improve time-to-market and increase performance with reliable, easily installed networks is no longer a wish, but, a requirement.
Reliable and Effective Communication as a Key Success Component for Renewable Energy Power Operators
As the renewable energy market continues to make strides in the power industry, operations and maintenance (O&M) providers are looking for economical ways to manage their systems. To do this most efficiently, some sort of communication system is required. Today, solar and wind power generation plants have economical systems that ensure reliable, secure data transmission from remote locations. The wireless networks need to be easily maintained, with the ability to handle the amount of data transmission required. Many O&M providers in the solar and wind industries are beginning to discover that there are several other options.
Wired versus Wireless Solutions
The class of wireless radios that are industrially hardened and proven to be reliable in the harshest environments are commonly deployed daily in mission critical industrial applications and life-or-death applications in the military. These radios may offer the most effective, economical solution, when compared to other options. For example, when compared with fiber, wireless systems are relatively easy to install. In the event that a buried cable is damaged to the extent that it requires repair or replacement, the costs can be vey high. Wireless systems are relatively maintenance-free and, if maintenance does become necessary, they are easily maintained. Once installed, top class wireless systems rarely need any type of service. If, for some reason, maintenance is required, the best systems provide information regarding a pending maintenance concern and the location or type of maintenance required can easily be detected remotely. So, operators only send someone out for service if/when they need it, thereby saving time and money. If engineered and installed correctly, wireless systems will last maintenance-free for years. At least one of the top class wireless manufacturers provides backwards compatible solutions throughout its family of products. That, too, saves on maintenance concerns as well as stocking and replacement costs.
Finally, wired options are priced by the foot. With wireless data radios, the pricing covers ranges expressed in terms of miles. For instance, a pair of top class serial radios will likely communicate reliably across 60-mile links with line-of-sight designs.
Communication Systems and Options – Pros and Cons
Today, solar or wind utilities operators have a number of different options they can employ for their communications needs. The major ones include:
Wireless Data Radios – The top industrially hardened class of proprietary protocol wireless radios systems are quite easy to install, require minimal labor, don’t require any trenching or expensive equipment. In addition, users can obtain real-time data fast. Users can be operational quickly and don’t have to wait until some sort of network typology is complete. Once a remote radio and a master radio are installed, users can monitor these points right away. Although these radios are reliable, they often are more expensive than standards-based radios because these radios provide the range, throughput options and reliability found only in this class of offering.
ZigBee – A somewhat inexpensive, standards-based wireless solution. Zigbee offers a self-healing mesh network. However, these products also have a direct sequence protocol that is susceptible to interference, especially when compared with proprietary protocol systems. The range is extremely short in comparison to others and as the users add repeaters to lengthen the range, the throughput degrades quickly – and the “perceived” low cost goes up. At 230 Kbps, the throughput without repeaters is acceptable in many applications. However, to achieve the self-healing networks, repeaters are required and as stated above, as repeaters are added, throughput decreases.
Wired – Copper, fiber and an Ethernet cable are some of the options available as wired solutions. Each of these types of cable will have limitations as to how far the signal can be sent before you encounter line loss. And, wired solutions typically require more money and more time to install. What are the advantages to wired solutions? If implemented correctly, wired solutions provide secure, reliable data communications. The main issues operators will face with wire are the cost of materials and installation. Time to install is also an issue especially when compared with data radios.
Cell Phone/Satellite – Cell phone and satellite technologies have many similar attributes. They both are public systems and, therefore, not controlled by the plant owner. Carrier-based systems, such as these, include monthly fees, that add to the overall cost of ownership, making it even more costly over time. Notoriously, cell phone-based systems do not have a history for being backwards compatible. Replacing old technology with new technology can be very costly. What are the advantages? Sometimes these systems can reach extreme or remote locations where it is not feasible to lay fiber or even deploy a full wireless communication network. This is especially true in the case of satellite systems.
Hybrid Communications as Yet Another Option
None of the systems described above solve all problems in all situations. Hybrid networks – a blend of different technologies – are often important to consider especially in the wind power generation markets. Wind installations can be very remote. In such situations, there are benefits to implementing a system that uses data radios from location to location with a satellite modem at a site data concentrator. Hybrid networks also might include a mix of fiber, data radios, satellite or cell phone-based technologies. A hybrid system can be a more cost-effective and effective solution for remote networks through lower hardware unit costs, fewer points requiring monthly fee-based satellite or cell connection modems, and lower power-consuming technologies.
A specific example might be a wind farm located in an isolated region with 10 turbines. Land line access does not exist, cell coverage is not present though satellite coverage is present. A viable, hybrid solution would include data radios on each turbine communicating to one “master station” turbine. With those radios, there can be reliable communications with no monthly fees and backwards compatibility. At the master station, a master radio is wired to a satellite modem that uplinks data to and from the wind farm. This system eliminates the monthly fees for nine of the 10 towers.
Proven Benefits of Using Industrially Hardened Wireless Radios
Top class data radio communication systems – composed of industrially hardened radios – offer several advantages that some of the other options do not. This class of radio has been proven in communication-intensive industries, such as military, oil and gas, and electric power. The leading companies offering data radios stand by their products with training, tech support, warranties and experience. These attributes arm O&M providers with the confidence required for managing their communication system. Proprietary data radios are offered at a variety of speeds, interface protocols and security. They are offered with varieties of form factors available to match the needs of the user.
Range or link distance is another advantage in the top class of radios. Some types have proven to communicate over 60 miles line-of-sight. Others, such as standards-based radios, offer a range that is more accurately characterized in hundreds of feet. The top class technologies are used successfully in extremely harsh conditions with high vibration, such as robotics, unmanned aerial vehicles in the military, and farm vehicles, proving in the field that they can effectively communicate in all types of environments, including the challenges presented by wind turbines. Data radios even have proven effective and reliable in high-speed racing environments – such as Formula One car and motorcycle races.
Sample Renewable Market Applications for Wireless Communications
Wireless radios can be used for a variety of options in the renewable energy markets, including:
Orientation and Positioning Operations & Maintenance
Tracking Controls Condition Monitoring
Status Updates Met Tower Communications
Telemetry Emergency Messaging (especially weather changes)
SCADA Alarms from the remote points
Temperature Monitoring E-Stop
Pressure Monitoring Perimeter security
Performance reporting And, more….
Conclusion
Each of the applications that can be performed using data radios in solar and wind power generation plants are conducted today in many thousands of other market applications. These radios are relied upon in mission critical monitoring, controlling and data acquisition situations in the harshest weather and RF conditions. Radios are used on natural gas wells in every climate imaginable. They are used reliably in baking high heat and in the freezing cold in Antarctica, for example. The top class of radios is used in urban situations, plant situations and rural situations. Again, the top class of radios is known to perform with comparable reliability to the wired alternatives and, all at a fraction of the cost.
The advances of wireless technology in the renewable energy power markets on both an industrial and commercial scale are anticipated to increase. The costs, reliability, reporting and more are driving operators to consider alternatives to wired solutions. The experience mentioned above of operators in many, many industries around the world are evidence that data radios are a very viable alternative. Wireless data radio technologies provide a long-range, reliable and affordable solution to providers. A wireless system can potentially save a company millions of dollars of installation fees and the technologies have been proven in the field over and over again in many different industries. Not all radios are created equal. Top class radios have proven, industrially hardened equipment and the flexibility to perform in almost any situation. Any manufacturer who has a solid product offering is likely willing to provide operators with test equipment to prove the technology before they buy it. It is easy to use, quick to install, reliable and low risk. When ROI is a key in determining the best communications solution, the benefits of top class data radios should be part of every decision process.
Colin Lippincott has been with FreeWave Technologies, Inc. (www.freewave.com) for seven years. In his current position, general manager of energy markets, he works primarily with solar, wind and smart grid technologies to advance remote automation, condition monitoring, positioning and SCADA success with affordable wireless systems and unmatched reliability. Prior to FreeWave, he served in various management and operations roles with several companies since graduating from the University of Colorado with a Master’s in Business Administration.
May 18, 2010
FREEWAVE TECHNOLOGIES’ EXPERT COLIN LIPPINCOTT TO PRESENT AT SOLAR 2010
WHO: Colin Lippincott
General Manager, Renewable Energy Markets
FreeWave Technologies, Inc.
(www.freewave.com)
Colin Lippincott is the general manager of renewable energy markets at FreeWave Technologies, Inc. Mr. Lippincott has served in senior management positions at FreeWave since joining the company in January 2003. He led sales for the company to record revenues every year. In his current position, he works primarily with solar, wind and smart grid technologies to advance remote automation, condition monitoring, positioning and SCADA success with affordable wireless systems and unmatched reliability. Prior to FreeWave, he served in various management and operations roles with several companies since graduating from the University of Colorado with a Masters in Business Administration.
Founded in 1993, FreeWave Technologies is a world leader in the innovative design/manufacture of license-free spread spectrum, licensed band radios and wireless data solutions that are trusted for mission critical applications around the world (www.freewave.com).
WHAT: Wireless Technologies Provide Effective Data Communications to the Solar Power Industry
This presentation will explain how deploying wireless technologies for solar power applications can lower installation and infrastructure costs, while also providing reliable, robust communication performance with dependable, easily installed networks. Attendees will discover the advantages of using wireless communication systems and will learn how to deploy a reliable, secure data communication network throughout the plant. In addition, Lippincott will present some results of a real-world solar pilot project using this type of technology.
WHERE: SOLAR 2010 (ASES National Solar Conference)
Phoenix Convention Center
150 North 5th Street
Phoenix, AZ 85004
WHEN: Wednesday, May 19 at 2 p.m.
CONTACT: For more information on FreeWave, or to set up an interview with Mr. Lippincott, please contact Christin Jeffers at Catapult PR-IR (303) 581-7760, ext. 19 or cjeffers@catapultpr-ir.com.
April 30, 2010
FREEWAVE TECHNOLOGIES ADDS GLENN BOOTH AS BUSINESS DEVELOPMENT EXECUTIVE FOR RENEWABLE ENERGY MARKETS
Newest addition to FreeWave’s growing team selected to help drive business development in solar, wind markets
BOULDER, Colo., April 30, 2010- FreeWave Technologies, (http://www.freewave.com), manufacturer of the most reliable, high-performance spread spectrum and licensed radios for critical data transmission, today announced it has hired Glenn Booth as a business development executive for renewable energy markets.
At FreeWave, Booth will be responsible for business development of FreeWave’s wireless communications solutions to solar and wind energy customers, including utility-scale Concentrated Solar Power (CSP), Concentrated Photovoltaic (CPV), Wind Turbine and Wind Farms. Booth will help expand FreeWave’s renewable energy business by working with original equipment manufacturers (OEMs), integrators, resellers and strategic partners.
“The renewable energy industry is fairly new to FreeWave and I feel my experience will help drive the company’s growth and ongoing success in both the wind and solar markets,” Booth said. “I’m excited to join a company that is known industry-wide for providing wireless data radios of superior reliability and accuracy.”
Prior to FreeWave, Booth was the VP of marketing and business development at Cool Energy, a solar energy startup company. Booth also has years of experience in wireless technology sales. He was VP of marketing for Rajant and Director of Marketing for Vivato. He began his career as a design engineer for Boeing, where he designed and delivered communications software and hardware for aerospace and military avionics applications. Booth holds a Bachelor of Science degree in Electrical Engineering from the University of Colorado.
“Glenn is a great fit for the renewable energy team,” said Colin Lippincott, general manager of renewable energy markets at FreeWave. “The combination of his extensive industry experience, as well as engineering background, made him a top candidate for the job.”
About FreeWave Technologies
Founded in 1993, FreeWave Technologies manufactures the most reliable, high performing, lowest power consumption, spread spectrum and licensed radios for mission-critical data transmission. Through engineering excellence and a relentless commitment to best-in-class manufacturing, FreeWave customers enjoy superior radio up-time, range and the lowest cost of ownership available. Based in Boulder, Colorado, FreeWave designs and manufactures radios that are the leading choice for oil and gas, utility, military and numerous other industrial applications. Organizations that count on radio data communications for operational success – where failure and down-time are not an option – trust FreeWave for custom network design, system engineering and customer support that is unparalleled in the market. For additional information, contact FreeWave directly at 866.399.4930 or at newsinfo@freewave.com. Visit the company’s web site at www.freewave.com.
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Press Contact:
Christin Jeffers
Catapult PR-IR
303.581.7760, ext. 14
cjeffers@catapultpr-ir.com
