DOCSLIB.ORG

Sunpower Names Three Solar Industry Veterans to Its Management Team

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Sunpower Names Three Solar Industry Veterans to Its Management Team SunPower Names Three Solar Industry Veterans to Its Management Team SAN JOSE, Calif., Sept 24, 2007 /PRNewswire-FirstCall via COMTEX News Network/ -- SunPower Corporation (Nasdaq: SPWR), a Silicon Valley-based manufacturer of high-efficiency solar cells, solar panels and solar systems, today announced that three solar industry veterans, Terry Jester, Ed Smeloff, and James Torpey were named to SunPower's management team. Jester joins SunPower with more than 27 years of experience in the solar industry. She will lead the team managing SunPower's recently awarded U.S. Department of Energy Solar America Initiative contract, coordinating project execution, scheduling and reporting. Jester has an extensive background in crystalline silicon and thin-film solar cells, as well as experience across the solar value chain, including ingot growth, wafering, cell processing, module manufacturing, and solar product development. Previously, she was senior director of engineering and operations at SolarWorld, where she oversaw factory production and manufacturing. She also has held engineering and management positions at Shell Solar, Siemens Solar and Arco Solar, driving research and development for each of these organizations. Jester chairs the California State University, Northridge's College of Engineering and Computer Science Industrial Advisory Board. She is also a member of the National Center for Photovoltaics Advisory Board. She holds three patents and has been published in more than 50 publications on solar technology, manufacturing and safety. Smeloff joins SunPower as senior manager, Utility Project Sales, and is responsible for developing large solar projects for electric utilities for SunPower's North American Systems division. His expertise includes more than 20 years in solar and energy efficiency project development, energy policy, and strategic planning and program management. Most recently, Smeloff was senior manager for project sales at Sharp Solar, where he successfully drove module sales for commercial projects. Previously, he was assistant general manager for power policy, planning and resource development at the San Francisco Public Utilities Commission, where was instrumental in developing the 670 kW SunPower solar electric system on the Moscone Convention Center rooftop. Smeloff began his power industry career as a member of the Sacramento Municipal Utility District Board of Directors, where he transitioned the agency into one of the nation's leading utilities in developing effective energy efficiency programs. Torpey joins SunPower as its newly appointed director of market development. He brings two decades of power industry expertise to SunPower including extensive experience in solar and renewable energy certificate markets. In his market development role, Torpey will be responsible for working with public policy officials to grow solar markets in the eastern U.S. In addition, he will have responsibility for Sunpower's solar certificate trading activity in the same region. Most recently, he was president of Madison Energy Consultants (MEC), a firm that has helped develop supportive policy environments at the State and National levels to enable clean, distributed resources to become a significant factor in the U.S. energy supply. Prior to that, Torpey spent more than 20 years in the electric utility industry, serving in a number of management posts, where he led the development of solar independent power plants in California. He has served as the National Chairman of the Solar Electric Power Association, and the Policy Committee Chair for the Mid-Atlantic Solar Energy Industries Association. "As we drive our business to scale, we are excited to draw exceptional talent and expertise from across the solar industry," said Tom Werner, chief executive officer of SunPower Corp. "Terry, Ed and Jim add tremendous depth to our management team and we welcome them to SunPower." About SunPower SunPower Corporation (Nasdaq: SPWR) designs, manufactures and delivers high-performance solar electric systems worldwide for residential, commercial and utility-scale power plant customers. SunPower high-efficiency solar cells and solar panels generate up to 50 percent more power than conventional solar technologies and have a uniquely attractive, all-black appearance. With headquarters in San Jose, Calif., SunPower has offices in North America, Europe and Asia. For more information, visit www.sunpowercorp.com. SunPower is a majority-owned subsidiary of Cypress Semiconductor Corp. (NYSE: CY). SunPower is a registered trademark of SunPower Corp. Cypress is a registered trademark of Cypress Semiconductor Corp. All other trademarks are the property of their respective owners. SOURCE SunPower Corporation http://www.sunpowercorp.com/ Copyright (C) 2007 PR Newswire. All rights reserved News Provided by COMTEX.
Load more

Recommended publications
  • Sharp's 100-Year History: Company Information
    Corporate Profile / Major Bases in Japan and Abroad 8 9 Name 26 3#! Europe Group Sales company in Australia Sharp Corporation 10 27 3#.: 11 Sales company in New Zealand Head Office 1 2 22-22 Nagaike-cho, Abeno-ku, 3 3%#, 28 Osaka 545-8522, Japan 4 Sales company in Canada 31 28 29 Tel: +81-6-6621-1221 5 7 3%# 6 29 Representatives 20 32 North & South Sales company in the US China Group 30 America Group Mikio Katayama, Chairman 3-#! 13 21 33 30 Takashi Okuda, President Manufacturing division of SEC Middle East and Africa Group 12 22 23 14 34 3,! Operations 31 16 24 Sharp Laboratories of America Consumer/Information Products 15 18 s!UDIO 6ISUALAND#OMMUNICATION%QUIPMENT 2ECURRENT%NERGY ,,# 17 ASEAN Group 32 Solar power plant development LCD color TVs, color TVs, projectors, DVD 19 company in the US recorders, Blu-ray Disc recorders, Blu-ray 25 3%-%8 Disc players, mobile phones, mobile 33 Manufacturing company in Mexico communications handsets, electronic dictionaries, calculators, facsimiles, 3#-%8 35 34 telephones Sales company in Mexico s(EALTHAND%NVIRONMENTAL%QUIPMENT 3"#$ 35 Refrigerators, superheated steam ovens, 26 Sales company in Brazil 27 microwave ovens, air conditioners, washing -AJOR/VERSEAS"ASES machines, vacuum cleaners, air purifiers, dehumidifiers, humidifiers, electric heaters, 3%% -AJOR"ASESIN*APAN 1 3%. 323 22 32( small cooking appliances, Plasmacluster European headquarters 10 Sales company in Sweden Sales company in Singapore Sales company in Hong Kong Ion generators, LED lights, solar-powered 19 35+ 3%2 3%3, 3%#4 11 LED
    [Show full text]
  • Turkey Lake Feasibility Study
    A Comprehensive Solar Energy Power System for the Turkey Lake Service Plaza Contract #: BDK75-977-18 7 January 2010 Project Research Team Charles J. Kibert, Ph.D., P.E., Principal Investigator S.A. Sherif, Ph.D. Robert Ries, Ph.D. Edward Minchin, Ph.D., P.E. Russell Walters, Ph.D., P.E. Lauren Hertel Consultant Al Simpler, President, Simpler Solar, Inc. Research Assistants Kevin Priest Jason Sanders Sean Snowden Srikanth Madala Milind Gholap 01/07/2010 iii EXECUTIVE SUMMARY The Florida Turnpike Enterprise (FTE) has the bold vision of maximizing the use of renewable energy in their operations and potentially supplying all the energy needs of their facilities via solar technologies. To determine the technical and financial feasibility of executing this vision, the FTE selected the Turkey Lake Service Plaza on the Florida Turnpike for a case study to explore this potential shift to renewable energy sources. A University of Florida research team collaborated with FTE and Florida Department of Transportation staff to examine contemporary solar technologies, particularly solar photovoltaic (PV) systems, for their potential to meet the energy needs of the Turkey Lake Service Plaza. The scope of the research included: 1. Evaluation of Solar Electric (PV), Solar Thermal (hot water), and Solar Lighting systems. 2. Assessment of the renewable energy generation potential of the Service Plaza. 3. Designing and planning of photovoltaic systems to determine the energy output. 4. Identification of innovative financing options. 5. Development of a marketing and education concept for the project. The research team concluded that by implementing the Net Zero Energy scenario, the annual electrical energy needs of all the facilities at the Turkey Lake Service Plaza could be met.
    [Show full text]
  • CSPV Solar Cells and Modules from China
    Crystalline Silicon Photovoltaic Cells and Modules from China Investigation Nos. 701-TA-481 and 731-TA-1190 (Preliminary) Publication 4295 December 2011 U.S. International Trade Commission Washington, DC 20436 U.S. International Trade Commission COMMISSIONERS Deanna Tanner Okun, Chairman Irving A. Williamson, Vice Chairman Charlotte R. Lane Daniel R. Pearson Shara L. Aranoff Dean A. Pinkert Robert B. Koopman Acting Director of Operations Staff assigned Christopher Cassise, Senior Investigator Andrew David, Industry Analyst Nannette Christ, Economist Samantha Warrington, Economist Charles Yost, Accountant Gracemary Roth-Roffy, Attorney Lemuel Shields, Statistician Jim McClure, Supervisory Investigator Address all communications to Secretary to the Commission United States International Trade Commission Washington, DC 20436 U.S. International Trade Commission Washington, DC 20436 www.usitc.gov Crystalline Silicon Photovoltaic Cells and Modules from China Investigation Nos. 701-TA-481 and 731-TA-1190 (Preliminary) Publication 4295 December 2011 C O N T E N T S Page Determinations.................................................................. 1 Views of the Commission ......................................................... 3 Separate Views of Commission Charlotte R. Lane ...................................... 31 Part I: Introduction ............................................................ I-1 Background .................................................................. I-1 Organization of report.........................................................
    [Show full text]
  • DOE Solar Energy Technologies Program FY 2005 Annual
    DOE Solar Energy Technologies Program Cover Photos (clockwise from lower right): On August 8, 2005, President George W. Bush visited the National Solar Thermal Test Facility at Sandia National Laboratories as part of his signing of the Energy Bill. R.J. Montoya Photo National Renewable Energy Laboratory researchers use a computer-controlled data acquisition system at the laboratory’s Outdoor Test Facility to characterize the performance and reliability of PV cells and modules. Jim Yost, PIX14094 A Cornell University student cleans the solar-powered rooftop of his team’s entry in preparation for the 2005 Solar Decathlon competition in Washington, D.C. Stefano Paltera/Solar Decathlon Global Solar Energy, a member of the Thin Film PV Partnership, produces PV material by depositing CIGS (copper indium gallium diselenide) on a lightweight, flexible polymide substrate in roll form. Global Solar Energy, PIX13419 The DOE Solar Energy Technologies Program Raymond A. Sutula, Manager, DOE Solar Energy Technologies Program The Solar Energy Technologies Program, within the U.S. Department of Energy's Office of Energy Efficiency and Renewable Energy (EERE), is responsible for developing solar energy technologies that can convert sunlight to useful energy and make that energy available to satisfy a significant portion of our nation's energy needs in a cost-effective way. The Solar Program supports research and development that addresses a wide range of applications, including on- site electricity generation, thermal energy for space heating and hot water, and large-scale power production. This is a great time to be involved with solar energy. Photovoltaic (PV) systems are being installed in the United States and around the world in unprecedented quantities.
    [Show full text]
  • LG Modules World Class When It Comes to PID Resistance LG Solar
    LG Solar - Quality & Reliability for the Future LG’s focus on quality control sits at the heart of our manufacturing philosophy. This quality-first philosophy has been developed through decades of creating top class electronic equipment. Today LG Electronics has a team of more than one hundred engineers working in solar research and development. Our module manufacturing plant located in Gumi, Korea uses the latest state-of-the-art equipment to manufacture solar panels that deliver product reliability and high performance for decades to come. It means every component from PV cells to glass and framing undergoes individual performance testing and separate quality control. If the quality of any component does not meet our industry leading standards, then it will not be used. LG’s Mono X™ range has been a huge success in the market and proven to be an investment in superior standards of design, manufacture, back up support and warranties. LG Solar’s high quality has been further proven when our previous model, LG Multi X, passed independent quality testing conducted by Fraunhofer Centre. Full details and results of the report are highlighted below where LG was proud to be one of four manufacturers to not show any degradation after being subjected to high voltage stress testing. LG Modules world class when it comes to PID resistance Outstanding quality and reliability make LG one of only four manufacturers from 13 leading module manufacturers to pass the German Fraunhofer Centre for Silicon Photovoltaics (CSP) high-voltage stress test with zero degradation. Early in 2012 the world renowned Fraunhofer Centre performed an accelerated high voltage test to characterize the PID susceptibility of commercial solar modules.
    [Show full text]
  • Power Purchase Agreement Solar Texas
    Power Purchase Agreement Solar Texas Huger or Mahratta, Shaw never sledges any jota! Unshriven Stanleigh paragraph: he pettled his pittas brusquely and illustratively. Dimitrios remains unstaid: she pitapat her oxalis tunnels too amusedly? May not a lot of our businesses to commercialize cellulosic biofuels, local utility companies with Increasingly competitive power source, with a propertytaxbased obligation into the top solar powered oreos to me what can buy the dirtier and state. Mw solar power purchase agreements and utility payment will be good for cps can bet that own energy improvements. Solar power purchase agreement marks the water and microsoft will be integrated into electricity you may not to your. Corporate Energy Sourcing and Sustainability Experience. Signed a 15- year Virtual power Purchase is with EDF Renewables North America for 250 megawatts of small solar energy in Texas. Ppa agreement worthwhile to power purchase agreements announced at a lot of the region at nrg transaction to the benefits they allow flexibility in total home? In your roof generate renewable energy credits from her practice on power purchase texas solar to figure out of energy has experience in pjm area. Where solar power purchase agreement to purchase agreement worthwhile to moveforward are easily avoidable mistakes that represent you. The deregulation of electricity in Texas and approximately two various other states provides power. Texas power purchase agreements has promised much support. Tips and regions. Keene housing and solar power purchase agreements to supply its first solar plants only the article has regional development foundation. Turning bright sunny days into renewable solar power. Is smart than a fixed price in study power purchase agreement Harrison said.
    [Show full text]
  • The Policy Drivers of Photovoltaic Industry Growth in California, Germany, and Japan
    FREEBOOK AMBIENTE Biblioteca gratuita on line di Isabella Alloisio The Policy Drivers of Photovoltaic Industry Growth in California, Germany, and Japan PhD Thesis in International Law and Economics i DECLARATION FOR THE PhD THESIS The undersigned SURNAME ALLOISIO NAME ISABELLA Registration number 1288687 Thesis title: THE POLICY DRIVERS OF PHOTOVOLTAIC INDUSTRY GROWTH IN CALIFORNIA, GERMANY, AND JAPAN PhD in INTERNATIONAL LAW AND ECONOMICS Cycle XXIII Candidate’s tutor ANGELO MARCELLO CARDANI Year of discussion 2011 ii DECLARES Under his responsibility: 1) that, according to the President’s decree of 28.12.2000, No. 445, mendacious declarations, falsifying records and the use of false records are punishable under the penal code and special laws, should any of these hypotheses prove true, all benefits included in this declaration and those of the temporary embargo are automatically forfeited from the beginning; 2) that the University has the obligation, according to art. 6, par. 11, Ministerial Decree of 30th April 1999 protocol no. 224/1999, to keep copy of the thesis on deposit at the Biblioteche Nazionali Centrali di Roma e Firenze, where consultation is permitted, unless there is a temporary embargo in order to protect the rights of external bodies and industrial/commercial exploitation of the thesis; 3) that the Servizio Biblioteca Bocconi will file the thesis in its ‘Archivio istituzionale ad accesso aperto’ and will permit on-line consultation of the complete text (except in cases of a temporary embargo); 4) that in order keep the
    [Show full text]
  • Solar Photovoltaic Manufacturing: Industry Trends, Global Competition, Federal Support
    U.S. Solar Photovoltaic Manufacturing: Industry Trends, Global Competition, Federal Support Michaela D. Platzer Specialist in Industrial Organization and Business January 27, 2015 Congressional Research Service 7-5700 www.crs.gov R42509 U.S. Solar PV Manufacturing: Industry Trends, Global Competition, Federal Support Summary Every President since Richard Nixon has sought to increase U.S. energy supply diversity. Job creation and the development of a domestic renewable energy manufacturing base have joined national security and environmental concerns as reasons for promoting the manufacturing of solar power equipment in the United States. The federal government maintains a variety of tax credits and targeted research and development programs to encourage the solar manufacturing sector, and state-level mandates that utilities obtain specified percentages of their electricity from renewable sources have bolstered demand for large solar projects. The most widely used solar technology involves photovoltaic (PV) solar modules, which draw on semiconducting materials to convert sunlight into electricity. By year-end 2013, the total number of grid-connected PV systems nationwide reached more than 445,000. Domestic demand is met both by imports and by about 75 U.S. manufacturing facilities employing upwards of 30,000 U.S. workers in 2014. Production is clustered in a few states including California, Ohio, Oregon, Texas, and Washington. Domestic PV manufacturers operate in a dynamic, volatile, and highly competitive global market now dominated by Chinese and Taiwanese companies. China alone accounted for nearly 70% of total solar module production in 2013. Some PV manufacturers have expanded their operations beyond China to places like Malaysia, the Philippines, and Mexico.
    [Show full text]
  • The Solar Alliance Comments on the Draft 2009 New York State Energy
    THE SOLAR ALLIANCE MEMBER COMPANIES American Solar Electric Applied Materials Borrego Solar The Solar Alliance BP Solar Comments on the Conergy Draft 2009 New York State Energy Plan Dow‐Corning October 19, 2009 Energy Innovations Evergreen Solar First Solar On August 10, 2009, the New York State Energy Planning Board released its draft Iberdrola Renewables state energy plan, charting the state’s energy future and identifying a set of Kyocera recommended policies and actions to support reliable, efficient, secure, Mainstream Energy environmentally sound, and affordable energy resource development over a 10‐ year planning horizon. Mitsubishi Electric Renewable Ventures We applaud the State Planning Board for recognizing the multiple benefits of Oerlikon Solar renewable energy resources, and specifically solar PV, and its important role in contributing to New York State’s future economic and environmental welfare. Open Energy Further, we support the Board in aspiring to make New York’s indigenous Sanyo renewable energy resources an essential and growing part of the state’s overall Schott Solar electricity supply mix. Sharp Solar However, the Draft State Energy Plan (“SEP”) falls short as a blueprint to fully SolarCity exploit the energy security, job creation, long‐term rate stabilization and climate Solaria mitigation potential of New York’s abundant solar resource. The Draft State Solar Power Partners Energy Plan fails to outline a bold, comprehensive vision for developing a world‐ SolarWorld class solar energy market. SPG Solar The Solar Alliance, a coalition of the world’s leading solar PV manufacturers, SunEdison developers, and financiers, believes the Draft SEP overstates the barriers and SunPower costs of transforming New York’s solar marketplace, and that ‐ largely by SunRun leveraging existing institutions and programs ‐ there are a number of cost‐ Suntech effective measures that New York can take to jump‐start economic activity and promote investment in the state’s clean energy economy.
    [Show full text]
  • Solar Power in Building Design
    Endorsements for Solar Power in Building Design Dr. Peter Gevorkian’s Solar Power in Building Design is the third book in a sequence of compre- hensive surveys in the field of modern solar energy theory and practice. The technical title does little to betray to the reader (including the lay reader) the wonderful and uniquely entertaining immersion into the world of solar energy. It is apparent to the reader, from the very first page, that the author is a master of the field and is weav- ing a story with a carefully designed plot. The author is a great storyteller and begins the book with a romantic yet rigorous historical perspective that includes the contribution of modern physics. A description of Einstein’s photoelectric effect, which forms one of the foundations of current photo- voltaic devices, sets the tone. We are then invited to witness the tense dialogue (the ac versus dc debate) between two giants in the field of electric energy, Edison and Tesla. The issues, though a century old, seem astonishingly fresh and relevant. In the smoothest possible way Dr. Gevorkian escorts us in a well-rehearsed manner through a fascinat- ing tour of the field of solar energy making stops to discuss the basic physics of the technology, manu- facturing process, and detailed system design. Occasionally there is a delightful excursion into subjects such as energy conservation, building codes, and the practical side of project implementation. All this would have been more than enough to satisfy the versed and unversed in the field of renew- able energy.
    [Show full text]
  • Solar Power Plants, Sharp Has Been Providing Reliable Solar Solutions in an Effort to Free the World from Carbon Dependency
    50 years of innovations in solar technology www.sharp-solar.com Why Sharp? * Portions indicated by yellow lines and rooftop solar cell panels are an artist’s impression of the completed appearance. World-leading environmentally advanced factories We aim to achieve large-scale solar power generation systems by using available space such as the roofs of buildings within the site. The electricity produced will provide a portion of the power used by the factiories. It’s been nearly half-century since Sharp’s first reliable solar-power solution was first used in a lighthouse. Since then, Sharp has made countless innovations and has grown to a global leader in solar, offering a portfolio of proven solar solutions including monocrystalline, polycrystalline and amorphous silicon. When you choose Sharp, From the world’s first solar-powered calculator to solar-powered residential, you get 50 years of commercial and government applications, Sharp powers more homes, businesses and government entities than any other solar manufacturer in the world. And what’s proven reliability and more, Sharp is one of the only PV manufacturers that’s been in business longer than outstanding innovations. anyone else. Advanced thin-film technology. Currently our tandem-type thin-film solar cell panel in which a layer of amorphous silicon and micro crystal silicon are applied to a glass substrate has achieved an impressive 9.5% module conversion efficiency. To further boost conversion efficiency, we are developing a triple-type junction with three silicon layers. At our new plant, we are vigorously striving for improved conversion efficiency of our solar panels.
    [Show full text]
  • Thin Film Business
    Photovoltaics thin Film Business is exciting OptiSolar is currently constructing a large commercial-scale amorphous silicon solar thin- irst of all, Sempra Generation, a subsidiary of Sempra Energy, in December film project in Sarnia, Ontario. Photo: OptiSolar completed a 10 MW thin-film plant in Nevada – which is the largest thin-film F installation in North America today. The company says it believes the project – which uses thin film manufactured by First Solar of Arizona – produces the least expen- sive solar energy in the world. Pacific Gas & Electric (PG&E) of California has signed a 20-year contract for the output of the plant. What’s more, even bigger plants are on the horizon. For example, OptiSolar, based in California, has proposed the 550 MW Topaz Solar Farm project in California, which would use relatively low-cost, thin-film PV panels, according to the company. PG&E has If there’s one word solar industry members signed a contract to purchase the output of the plant, which would begin power delivery in 2011 use to describe the state of the thin-film and be fully operational by 2013. business today in the USA, it’s “exciting”. Growing market share Thin-film technologies, which reduce the amount of light-absorbing material used to manufacture a solar cell, are grabbing up some of the market shares formerly taken by the conventional crystalline silicon panels. Because thin-film photovoltaics can produce electricity at lower prices than crystalline silicon and don’t use much of the shortage- plagued silicon, they’re gaining in popularity and are seen as more attractive under cer- tain circumstances.
    [Show full text]