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MIRA INFORM REPORT
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Report No. : |
491578 |
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Report Date : |
14.02.2018 |
IDENTIFICATION DETAILS
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Name : |
GLOBAL SOLAR
ENERGY, INC. |
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Registered Office : |
8500 S Rita Rd,
Tucson, Az 85747 |
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Country : |
United States |
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Date of Incorporation : |
1996 |
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Legal Form : |
Corporation |
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Line of Business : |
Subject is mid-sized
organization in the semiconductors and related device manufacturers industry |
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No. of Employees : |
162 |
RATING & COMMENTS
(Mira Inform has adopted New Rating mechanism w.e.f. 23rd
January 2017)
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MIRA’s Rating : |
A |
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Credit Rating |
Explanation |
Rating Comments |
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A |
Acceptable Risk |
Business dealings permissible with
moderate risk of default |
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Status : |
Good |
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Payment Behaviour : |
Regular |
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Litigation : |
Clear |
NOTES :
Any query related to this report can be made
on e-mail : infodept@mirainform.com
while quoting report number, name and date.
ECGC Country Risk Classification List
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Country Name |
Previous Rating (30.06.2017) |
Current Rating (30.09.2017) |
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United States |
A1 |
A1 |
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Risk Category |
ECGC
Classification |
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Insignificant |
A1 |
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Low Risk |
A2 |
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Moderately Low Risk |
B1 |
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Moderate Risk |
B2 |
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Moderately High Risk |
C1 |
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High Risk |
C2 |
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Very High Risk |
D |
UNITED STATES - ECONOMIC OVERVIEW
The US has the most technologically powerful economy in the world, with a per capita GDP of $57,300. US firms are at or near the forefront in technological advances, especially in computers, pharmaceuticals, and medical, aerospace, and military equipment; however, their advantage has narrowed since the end of World War II. Based on a comparison of GDP measured at purchasing power parity conversion rates, the US economy in 2014, having stood as the largest in the world for more than a century, slipped into second place behind China, which has more than tripled the US growth rate for each year of the past four decades.
In the US, private individuals and business firms make most of the decisions, and the federal and state governments buy needed goods and services predominantly in the private marketplace. US business firms enjoy greater flexibility than their counterparts in Western Europe and Japan in decisions to expand capital plant, to lay off surplus workers, and to develop new products. At the same time, businesses face higher barriers to enter their rivals' home markets than foreign firms face entering US markets.
Long-term problems for the US include stagnation of wages for lower-income families, inadequate investment in deteriorating infrastructure, rapidly rising medical and pension costs of an aging population, energy shortages, and sizable current account and budget deficits.
The onrush of technology has been a driving factor in the gradual development of a "two-tier" labor market in which those at the bottom lack the education and the professional/technical skills of those at the top and, more and more, fail to get comparable pay raises, health insurance coverage, and other benefits. But the globalization of trade, and especially the rise of low-wage producers such as China, has put additional downward pressure on wages and upward pressure on the return to capital. Since 1975, practically all the gains in household income have gone to the top 20% of households. Since 1996, dividends and capital gains have grown faster than wages or any other category of after-tax income.
Imported oil accounts for nearly 55% of US consumption and oil has a major impact on the overall health of the economy. Crude oil prices doubled between 2001 and 2006, the year home prices peaked; higher gasoline prices ate into consumers' budgets and many individuals fell behind in their mortgage payments. Oil prices climbed another 50% between 2006 and 2008, and bank foreclosures more than doubled in the same period. Besides dampening the housing market, soaring oil prices caused a drop in the value of the dollar and a deterioration in the US merchandise trade deficit, which peaked at $840 billion in 2008. Because the US economy is energy-intensive, falling oil prices since 2013 have alleviated many of the problems the earlier increases had created.
The sub-prime mortgage crisis, falling home prices, investment bank failures, tight credit, and the global economic downturn pushed the US into a recession by mid-2008. GDP contracted until the third quarter of 2009, making this the deepest and longest downturn since the Great Depression. To help stabilize financial markets, the US Congress established a $700 billion Troubled Asset Relief Program (TARP) in October 2008. The government used some of these funds to purchase equity in US banks and industrial corporations, much of which had been returned to the government by early 2011. In January 2009, Congress passed and President Barack OBAMA signed a bill providing an additional $787 billion fiscal stimulus to be used over 10 years - two-thirds on additional spending and one-third on tax cuts - to create jobs and to help the economy recover. In 2010 and 2011, the federal budget deficit reached nearly 9% of GDP. In 2012, the Federal Government reduced the growth of spending and the deficit shrank to 7.6% of GDP. US revenues from taxes and other sources are lower, as a percentage of GDP, than those of most other countries.
Wars in Iraq and Afghanistan required major shifts in national resources from civilian to military purposes and contributed to the growth of the budget deficit and public debt. Through 2014, the direct costs of the wars totaled more than $1.5 trillion, according to US Government figures.
In March 2010, President OBAMA signed into law the Patient Protection and Affordable Care Act, a health insurance reform that was designed to extend coverage to an additional 32 million Americans by 2016, through private health insurance for the general population and Medicaid for the impoverished. Total spending on healthcare - public plus private - rose from 9.0% of GDP in 1980 to 17.9% in 2010.
In July 2010, the president signed the DODD-FRANK Wall Street Reform and Consumer Protection Act, a law designed to promote financial stability by protecting consumers from financial abuses, ending taxpayer bailouts of financial firms, dealing with troubled banks that are "too big to fail," and improving accountability and transparency in the financial system - in particular, by requiring certain financial derivatives to be traded in markets that are subject to government regulation and oversight.
In December 2012, the Federal Reserve Board (Fed) announced plans to purchase $85 billion per month of mortgage-backed and Treasury securities in an effort to hold down long-term interest rates, and to keep short-term rates near zero until unemployment dropped below 6.5% or inflation rose above 2.5%. In late 2013, the Fed announced that it would begin scaling back long-term bond purchases to $75 billion per month in January 2014 and further reduce them as conditions warranted; the Fed ended the purchases during the summer of 2014. In 2014, the unemployment rate dropped to 6.2%, and continued to fall to 5.5% by mid-2015, the lowest rate of joblessness since before the global recession began; inflation stood at 1.7%, and public debt as a share of GDP continued to decline, following several years of increases. In December 2015, the Fed raised its target for the benchmark federal funds rate by 0.25%, the first increase since the recession began. With US GDP growth below 2%, the Fed opted to raise rates three times since then, and in mid-June 2017, the range for the target rate stood at 1% to 1.25%.
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Source
: CIA |
STATUTORY
INFORMATION
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Legal Name: |
GLOBAL SOLAR
ENERGY, INC. |
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Trade Name: |
GLOBAL SOLAR ENERGY |
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ID: |
09481338 |
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Date Created: |
1996 |
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Date Incorporated: |
April 26, 2000 |
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Legal Address: |
8500 S Rita Rd Tucson, AZ 85747 United States |
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Operative Address: |
8500 S Rita Rd Tucson, Arizona
85747-9142 United States |
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Telephone: |
(520) 546-6313 |
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Fax: |
(520) 396-1915 |
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Legal Form: |
Corporation |
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Email: |
info@globalsolar.com |
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Registered in: |
Arizona |
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Website: |
www.globalsolar.com |
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Contact: |
Jeffrey S. Britt
Ph.d., Chief Executive Officer and President Timothy P Teich,
Resident Agent |
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Staff: |
162 |
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Activity: |
NAICS 1:
Semiconductor and Related Device Manufacturing NAICS 2: Other
Electric Power Generation NAICS 3:
Photographic and Photocopying Equipment Manufacturing SIC 1:
Semiconductors And Related Devices SIC 2: Electric Services SIC 3: Photographic
Equipment And Supplies |
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BANKS: |
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The company does not make its
banking data public |
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HISTORY: |
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The company was founded in 1996. |
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Key Developments: |
2002 GSE introduces portable
charger, launching the first commercial product based on flexible, CIGS
cells. Ongoing development
of machinery at the U.S. production site in Tucson, Arizona 2005 GSE develops new
products for global, commercial trade (incl. SUNLINQ and Brunton product
lines) 2007 - 2008 Production site in
Tucson, Arizona extended from 24,800 ft2 to 100,000 ft2. Production capacity
increased from 4.2MW to 40MW GSED production
site established in Berlin, Germany with a capacity of 35MW 2008 GSE launches 2nd
generation thin-film CIGS solar cells for use in standard glass modules 750 kilowatt CIGS
solar farm constructed on the U.S. company premises in Tucson, Arizona 2010 GSE becomes
supplier for DOW™ POWERHOUSE™ solar shingles 2011 GSE’s PowerFLEXTM product
family for roof-integrated solar installations receives IEC 61730, IEC 61646
and UL 1703 certifications 2013 GSE is acquired by
Hanergy Thin Film Group 2014 GSE establishes
pilot line for revolutionary new Integrated Cell Interconnect technology
(ICI) 2015 GSE provides
PowerFLEXTM modules for a number of key commercial and industrial customers,
including a 350 kW project in Florida to help achieve LEED status. 2016 GSE installs
automated lines for Integrated Cell Interconnect technology, leading to
largest continuous CIGS module structure ever built and goes into production
supplying innovative CIGS submodules to a variety of OEMs. |
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PRINCIPAL
ACTIVITY
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Global Solar Energy,
Inc. is a mid-sized organization in the semiconductors and related device
manufacturers industry located in Tucson, AZ. |
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Products/Services description: |
Global Solar
Energy, Inc. manufactures copper indium gallium diselenide cells and
photovoltaic cells. It offers portable solar chargers for charging batteries,
power cell phones, laptop computers, satellite communication equipment, and
other mobile devices used in retail and military applications; and building
integrated photovoltaic (BIPV) cells and modules for BIPV, trucks, RVs, and
OEM applications. The company also offers lightweight and portable
photovoltaic materials for integration in commercial, residential,
utility-scale, and government applications. It serves customers through
dealers. |
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Brands: |
DOW™ POWERHOUSE™ |
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Sales are: |
Wholesale and Retail |
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Clients: |
DAVID JARAMILLO Y CIA LTDA Colombia |
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Suppliers: |
Universal Metaltek India |
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Operations area: |
National and International |
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The company imports from |
India |
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The company exports to |
Colombia |
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The subject employs |
162 employees |
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Payments: |
Regular |
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LOCATION
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Headquarters : |
8500 S Rita Rd Tucson, Arizona 85747-9142 United States |
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Comments: |
NA |
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Branches: |
No branches found |
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Main Competitors |
Texas Instruments
Tucson Corporation 5411 E Williams
Blvd The Third Domain
Inc. 8000 S Kolb Rd |
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Related Companies: |
NA |
GROUP STRUCTURE AND SUBSIDIARY COMPANIES
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Listed at the stock exchange: |
NO |
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Capital: |
NA |
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Shareholders: |
This is a private company. The company
does not disclose information on shareholders. The following information has
been obtained through private sources and could not be confirmed: As of July 24, 2013, Global Solar
Energy, Inc. operates as a subsidiary of Hanergy Holding Group Ltd. No.0-A, Anli Road, Chaoyang Dist. China |
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Management: |
Jeffrey S. Britt Ph.d., Chief Executive
Officer and President Kirk D. Shockley, Chief Operations
Officer Jens Mühling, Co-Managing Director of
Global Solar Energy - Deutschland Ronald Erdmann, Co-Managing Director of
Global Solar Energy - Deutschland Jean Poirier, Vice President Sales Barton Starkey, Director of Supply Chain Stephen Alexander, Chief Financial
Officer Darren Verebelyi, Vice President of Engineering Frank Dai, Director Gregory Jung, Secretary Jeff Zhou, Director Lars Stolt, Director Sandra Wallach, Treasurer Timothy P Teich, Officer Urs Schoop, Officer Zhou Jiesan, Director |
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FINANCIAL
INFORMATION
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The company does not make its financial statements
public. The following information has been provided by private sources: |
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USD 2016 |
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Revenue |
20 000 000 |
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Cash flow |
Normal |
LEGAL
FILINGS
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Patents |
THIN FILM SOLAR CELL STRING Publication number: 20130037074 Abstract: Thin film PV cells and strings
of such cells that may be electrically joined with conductive tabs or
ribbons. A semi-flexible, electrically conductive adhesive is applied to join
the tabs to the front and back of a cell, providing a conductive pathway
between the tab and solar cell, with good adhesion to both. The tabs may be
constructed of one or more materials having a thermal expansion coefficient
that closely matches that of the substrate material of the cells, so that
when the string or module is subsequently heated, mechanical stress between
the tab and solar cell is minimized. The semi-flexible nature of the ECA also
acts to relieve stress between the tab and the solar cell, decreasing the
possibility of adhesion failure at critical locations. One or more dielectric
materials may be applied to the PV cells and/or the tabs in regions where a
tab crosses the edge of a cell, to avoid electrical shorting between the
negative and positive electrodes of the cell. Type: Application Filed: May 29, 2012 Publication date: February 14, 2013 Applicant: GLOBAL SOLAR ENERGY, INC. Inventors: Jeffrey S. Britt, Eric Kanto,
Charles D. Gambill, II THIN FILM SOLAR CELL STRING Publication number: 20090255565 Abstract: Thin film PV cells and strings
of such cells that may be electrically joined with conductive tabs or
ribbons. A semi-flexible, electrically conductive adhesive is applied to join
the tabs to the front and back of a cell, providing a conductive pathway
between the tab and solar cell, with good adhesion to both. The tabs may be
constructed of one or more materials having a thermal expansion coefficient
that closely matches that of the substrate material of the cells, so that
when the string or module is subsequently heated, mechanical stress between
the tab and solar cell is minimized. The semi-flexible nature of the ECA also
acts to relieve stress between the tab and the solar cell, decreasing the
possibility of adhesion failure at critical locations. One or more dielectric
materials may be applied to the PV cells and/or the tabs in regions where a
tab crosses the edge of a cell, to avoid electrical shorting between the
negative and positive electrodes of the cell. Type: Application Filed: February 2, 2009 Publication date: October 15, 2009 Applicant: Global Solar Energy, Inc. Inventors: Jeffrey S. Britt, Eric Kanto,
Charles D. Gambill, II APPARATUS AND METHODS FOR MANUFACTURING
THIN-FILM SOLAR CELLS Publication number: 20090255469 Abstract: Improved methods and apparatus
for forming thin-film layers of semiconductor material absorber layers on a
substrate web. According to the present teachings, a semiconductor layer may
be formed in a multi-zone process whereby various layers are deposited
sequentially onto a moving substrate web. Type: Application Filed: April 15, 2009 Publication date: October 15, 2009 Applicant: GLOBAL SOLAR ENERGY, INC. Inventors: Jeffrey S. Britt, Scot
Albright APPARATUS AND METHODS FOR MANUFACTURING
THIN-FILM SOLAR CELLS Publication number: 20090258476 Abstract: Improved methods and apparatus
for forming thin-film layers of semiconductor material absorber layers on a
substrate web. According to the present teachings, a semiconductor layer may
be formed in a multi-zone process whereby various layers are deposited
sequentially onto a moving substrate web. Type: Application Filed: April 15, 2009 Publication date: October 15, 2009 Applicant: Global Solar Energy, Inc. Inventors: Jeffrey S. Britt, Scot
Albright APPARATUS AND METHODS FOR MANUFACTURING
THIN-FILM SOLAR CELLS Publication number: 20100087016 Abstract: Improved methods and apparatus
for forming thin-film layers of semiconductor material absorber layers on a
substrate web. According to the present teachings, a semiconductor layer may
be formed in a multi-zone process whereby various layers are deposited
sequentially onto a moving substrate web. Type: Application Filed: April 15, 2009 Publication date: April 8, 2010 Applicant: Global Solar Energy, Inc. Inventors: Jeffrey S. Britt, Scott
Wiedeman APPARATUS AND METHODS FOR MANUFACTURING
THIN-FILM SOLAR CELLS Publication number: 20090258444 Abstract: Improved methods and apparatus
for forming thin-film layers of semiconductor material absorber layers on a substrate
web. According to the present teachings, a semiconductor layer may be formed
in a multi-zone process whereby various layers are deposited sequentially
onto a moving substrate web. Type: Application Filed: April 15, 2009 Publication date: October 15, 2009 Applicant: Global Solar Energy, Inc. Inventors: Jeffrey S. Britt, Scot
Albright APPARATUS AND METHODS FOR MANUFACTURING
THIN-FILM SOLAR CELLS Publication number: 20090255467 Abstract: Improved methods and apparatus
for forming thin-film layers of semiconductor material absorber layers on a
substrate web. According to the present teachings, a semiconductor layer may
be formed in a multi-zone process whereby various layers are deposited
sequentially onto a moving substrate web. Type: Application Filed: April 15, 2009 Publication date: October 15, 2009 Applicant: Global Solar Energy, Inc. Inventors: Jeffrey S. Britt, Scot
Albright Monolithically integrated diodes in
thin-film photovoltaic devices Patent number: 6690041 Abstract: The present invention relates
to the design of and includes monolithically integrated diodes for use in
planar, thin-film, photovoltaic devices, such as solar cells. Type: Grant Filed: May 14, 2002 Date of Patent: February 10, 2004 Assignee: Global Solar Energy, Inc. Inventors: Joseph H. Armstrong, Scott
Wiedeman, Lawrence M. Woods BUFFER LAYER DEPOSITION FOR THIN-FILM
SOLAR CELLS Publication number: 20120034726 Abstract: Improved methods and apparatus
for forming thin-film buffer layers of chalcogenide on a substrate web. Solutions
containing the reactants for the buffer layer or layers may be dispensed
separately to the substrate web, rather than being mixed prior to their
application. The web and/or the dispensed solutions may be heated by a
plurality of heating elements. Type: Application Filed: October 13, 2011 Publication date: February 9, 2012 Applicant: Global Solar Energy, Inc. Inventors: Jeffrey S. Britt, Scot
Albright, Urs Schoop BUFFER LAYER DEPOSITION FOR THIN-FILM
SOLAR CELLS Publication number: 20160308087 Abstract: Improved methods and apparatus
for forming thin-film buffer layers of chalcogenide on a substrate web.
Solutions containing the reactants for the buffer layer or layers may be
dispensed separately to the substrate web, rather than being mixed prior to
their application. The web and/or the dispensed solutions may be heated by a
plurality of heating elements. Type: Application Filed: June 27, 2016 Publication date: October 20, 2016 Applicant: Global Solar Energy, Inc. Inventors: Jeffrey S. BRITT, Scot
ALBRIGHT, Urs SCHOOP Apparatus and methods for manufacturing
thin-film solar cells Patent number: 8198123 Abstract: Improved methods and apparatus
for forming thin-film layers of semiconductor material absorber layers on a
substrate web. According to the present teachings, a semiconductor layer may
be formed in a multi-zone process whereby various layers are deposited
sequentially onto a moving substrate web. Type: Grant Filed: April 15, 2009 Date of Patent: June 12, 2012 Assignee: Global Solar Energy, Inc. Inventors: Jeffrey S. Britt, Scott
Wiedeman INTEGRATED THIN FILM SOLAR CELL
INTERCONNECTION Publication number: 20130269748 Abstract: Photovoltaic modules may
include multiple flexible thin film photovoltaic cells electrically connected
in series, and laminated to a substantially transparent top sheet having a
conductive grid pattern facing the cells. Methods of manufacturing
photovoltaic modules including integrated multi-cell interconnections are
provided. Methods may include steps of coordinating, integrating, and
registering multiple rolls of substrates in continuous processes. Type: Application Filed: April 17, 2013 Publication date: October 17, 2013 Applicant: GLOBAL SOLAR ENERGY, INC. Inventors: Scott WIEDEMAN, Eric SHEEHAN,
Jeffrey S. BRITT Buffer layer deposition for thin-film
solar cells Patent number: 9673348 Abstract: Improved methods and apparatus
for forming thin-film buffer layers of chalcogenide on a substrate web.
Solutions containing the reactants for the buffer layer or layers may be
dispensed separately to the substrate web, rather than being mixed prior to
their application. The web and/or the dispensed solutions may be heated by a
plurality of heating elements. Type: Grant Filed: June 27, 2016 Date of Patent: June 6, 2017 Assignee: Global Solar Energy, Inc. Inventors: Jeffrey S. Britt, Scot
Albright, Urs Schoop Apparatus and methods for manufacturing
thin-film solar cells Patent number: 7968353 Abstract: Improved methods and apparatus
for forming thin-film layers of semiconductor material absorber layers on a
substrate web. According to the present teachings, a semiconductor layer may
be formed in a multi-zone process whereby various layers are deposited
sequentially onto a moving substrate web. Type: Grant Filed: April 15, 2009 Date of Patent: June 28, 2011 Assignee: Global Solar Energy, Inc. Inventors: Jeffrey S. Britt, Scott
Wiedeman INTEGRATED THIN FILM SOLAR CELL
INTERCONNECTION Publication number: 20140170798 Abstract: Photovoltaic modules may
include multiple flexible thin film photovoltaic cells electrically connected
in series, and laminated to a substantially transparent top sheet having a
conductive grid pattern facing the cells. Methods of manufacturing
photovoltaic modules including integrated multi-cell interconnections are
provided. Methods may include steps of coordinating, integrating, and
registering multiple rolls of substrates in continuous processes. Type: Application Filed: January 9, 2014 Publication date: June 19, 2014 Applicant: Global Solar Energy, Inc. Inventors: Scott WIEDEMAN, Jeffrey S.
BRITT, Zulima RHODES, Eric SHEEHAN LAMINATED SOLAR CELL INTERCONNECTION
SYSTEM Publication number: 20140137928 Abstract: Thin film photovoltaic cells and
strings of cells may be electrically joined in series. More specifically,
electrical contacts between photovoltaic cells may be formed by positioning
the cells between a pair of interconnection substrates, each of which
includes a conductive grid. By positioning the cells appropriately between
the substrates, an electrical connection is formed between one polarity of a
given cell and the opposite polarity of an adjacent cell. Type: Application Filed: January 28, 2014 Publication date: May 22, 2014 Applicant: Global Solar Energy, Inc. Inventors: Scott WIEDEMAN, Jeffrey S.
BRITT BUFFER LAYER DEPOSITION FOR THIN-FILM
SOLAR CELLS Publication number: 20090258457 Abstract: Improved methods and apparatus
for forming thin-film buffer layers of chalcogenide on a substrate web.
Solutions containing the reactants for the buffer layer or layers may be
dispensed separately to the substrate web, rather than being mixed prior to
their application. The web and/or the dispensed solutions may be heated by a
plurality of heating elements. Type: Application Filed: March 4, 2009 Publication date: October 15, 2009 Applicant: GLOBAL SOLAR ENERGY, INC. Inventors: Jeffrey S. Britt, Scot
Albright, Urs Schoop LAMINATED SOLAR CELL INTERCONNECTION
SYSTEM Publication number: 20120000510 Abstract: Thin film photovoltaic cells
and strings of cells may be electrically joined in series. More specifically,
electrical contacts between photovoltaic cells may be formed by positioning
the cells between a pair of interconnection substrates, each of which
includes a conductive grid. By positioning the cells appropriately between
the substrates, an electrical connection is formed between one polarity of a
given cell and the opposite polarity of an adjacent cell. Type: Application Filed: December 28, 2010 Publication date: January 5, 2012 Applicant: GLOBAL SOLAR ENERGY, INC. Inventors: Scott Wiedeman, Jeffrey S.
Britt Buffer layer deposition for thin-film
solar cells Patent number: 8062922 Abstract: Improved methods and apparatus
for forming thin-film buffer layers of chalcogenide on a substrate web.
Solutions containing the reactants for the buffer layer or layers may be
dispensed separately to the substrate web, rather than being mixed prior to
their application. The web and/or the dispensed solutions may be heated by a
plurality of heating elements. Type: Grant Filed: March 4, 2009 Date of Patent: November 22, 2011 Assignee: Global Solar Energy, Inc. Inventors: Jeffrey S. Britt, Scot
Albright, Urs Schoop INTEGRATED THIN FILM SOLAR CELL
INTERCONNECTION Publication number: 20120000502 Abstract: Photovoltaic modules may
include multiple flexible thin film photovoltaic cells electrically connected
in series, and laminated to a substantially transparent top sheet having a
conductive grid pattern facing the cells. Methods of manufacturing
photovoltaic modules including integrated multi-cell interconnections are
provided. Methods may include steps of coordinating, integrating, and
registering multiple rolls of substrates in continuous processes. Type: Application Filed: December 28, 2010 Publication date: January 5, 2012 Applicant: GLOBAL SOLAR ENERGY, INC. Inventors: Scott Wiedeman, Jeffrey S.
Britt, Zulima Rhodes, Eric Sheehan |
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Trademarks |
SYSTEMS THAT DELIVER NON-METAL ROOF PANELS USING PHOTOVOLTAIC
MATERIALS Owned by: Global Solar Energy, Inc. Serial Number: 75599834 SYSTEMS THAT DELIVER PORTABLE POWER PACKS USING PHOTOVOLTAIC
MATERIALS Owned by: Global Solar Energy, Inc. Serial Number: 75599836 Image Trademark SOLAR ENERGY SYSTEM COMPRISING OF PHOTO
VOLTAIC SOLAR PANELS AND SOLAR VOLTAIC CELLS; PORTABLE POWER PACKS USING
PHOTOVOLTAIC… Owned by: Global Solar Energy, Inc. Serial Number: 75649344 Image Trademark METAL ROLLABLE, FLEXIBLE, MULTI-LAYERED
THIN FILM COMPOSITES EMPLOYING COPPER INDIUM DISELENIDE CHEMICALS FOR USE IN
MANUFACTURING… Owned by: Global Solar Energy, Inc. Serial Number: 75649345 FUTURE OF ENERGY ... TODAY METAL ROOF PANELS USING PHOTOVOLTAIC
MATERIALS Owned by: Global Solar Energy, Inc. Serial Number: 76201999 FUTURE OF ENERGY ... TODAY DESIGN OF SATELLITE SYSTEMS USING
PHOTOVOLTAICS; ENGINEERING DESIGN OF HYBRID POWER SYSTEMS UTILIZING SOLAR
ENERGY Owned by: Global Solar Energy, Inc. Serial Number: 76202075 POWERFLEX SOLAR PANELS IN THE NATURE OF PORTABLE,
THIN-FILM PHOTOVOLTAIC MODULES AND ARRAYS TO BE USED TO PROVIDE ELECTRICITY
FOR… Owned by: Global Solar Energy, Inc. Serial Number: 76202127 FUTURE OF ENERGY... TODAY METAL ROLLABLE, FLEXIBLE, MULTI-LAYERED
THIN FILM COMPOSITES EMPLOYING COPPER INDIUM DISELENIDE CHEMICALS FOR USE IN
MANUFACTURING… Owned by: Global Solar Energy, Inc. Serial Number: 76202348 FUTURE OF ENERGY. .. TODAY PORTABLE POWER PACKS USING PHOTOVOLTAIC
MATERIALS Owned by: Global Solar Energy, Inc. Serial Number: 76202349 FUTURE OF ENERGY... TODAY SOLAR ENERGY SYSTEM COMPRISING OF
PHOTOVOLTAIC SOLAR PANELS, CELLS AND MODULES Owned by: Global Solar Energy, Inc. Serial Number: 76202578 FUTURE OF ENERGY ... TODAY NON-METAL ROOF PANELS Owned by: Global Solar Energy, Inc. Serial Number: 76202579 FUTURE OF ENERGY ... TODAY PHOTOVOLTAIC SOLAR ENERGY PRODUCTS
MAINTENANCE SERVICES; BUILDING OF HYBRID POWER SYSTEMS UTILIZING SOLAR ENERGY Owned by: Global Solar Energy, Inc. Serial Number: 76202580 GLOBAL SOLAR Solar cells; photovoltaic solar modules
for production of energy; solar collector panels; solar panels for energy and
electricity… Owned by: Global Solar Energy, Inc. Serial Number: 85075529 POWERFLEX Solar cells; photovoltaic solar modules
for production of energy; solar collector panels; solar charge regulators;
solar… Owned by: Global Solar Energy, Inc. Serial Number: 85075531 GLOBAL SOLAR Solar cells; photovoltaic solar modules
for production of energy; solar panels for energy and electricity generation;
photovoltaic… Owned by: Global Solar Energy, Inc. Serial Number: 85451555 GLOBAL SOLAR Metal rollable, flexible, multi-layered
thin film composites employing copper indium diselenide chemicals for use in
manufacturing… Owned by: Global Solar Energy, Inc. Serial Number: 85451557 GLOBAL SOLAR Installation and assembly of solar power
installations in the nature of photovoltaic systems for others; installation
of… Owned by: Global Solar Energy, Inc. Serial Number: 85451560 GLOBAL SOLAR Design, drafting, and development of
solar photovoltaic systems; engineering, physics research, and technical
consultancy… Owned by: Global Solar Energy, Inc. Serial Number: 85451562 Image Trademark Design, drafting, and development of
solar photovoltaic systems; engineering, physics research, and technical
consultancy… Owned by: Global Solar Energy, Inc. Serial Number: 85451566 Image Trademark Metal rollable, flexible, multi-layered
thin film composites employing copper indium diselenide chemicals for use in
manufacturing… Owned by: Global Solar Energy, Inc. Serial Number: 85451567 Image Trademark Solar cells; photovoltaic solar modules
for production of energy; solar panels for energy and electricity generation;
photovoltaic… Owned by: Global Solar Energy, Inc. Serial Number: 85451569 Image Trademark Installation and assembly of solar power
installations in the nature of photovoltaic systems for others; installation
of… Owned by: Global Solar Energy, Inc. Serial Number: 85451570 |
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Cases |
No records found |
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UCC |
Results from this search contain all UCC
records filed on or prior to Friday, February 02, 2018 File Number:2016-002-5935-9 Origination: Jul 20,2016 Expires on: Jul 20,2021 Lien Type: Standard Type: New Filing Filed On: Jul 20,2016 Entered: Jul 26,2016 Pages: 1 Debtors GLOBAL SOLAR ENERGY, INC. 8500 S. RITA ROAD TUCSON, AZ 85747 Secured Parties AIR LIQUIDE INDUSTRIAL U.S. LP 9811 KATY FREEWAY, SUITE 100 HOUSTON, TX 77024 File Number:2014-001-2688-8 Origination: Apr 18,2014 Expires on: Apr 18,2019 Lien Type: Standard Type: New Filing Filed On: Apr 18,2014 Entered: Apr 24,2014 Pages: 1 Debtors GLOBAL SOLAR ENERGY, INC. 8500 S. RITA ROAD TUCSON, AZ 85747 Secured Parties RAYMOND LEASING CORPORATION P.O. BOX 130 GREENE, NY 13778 |
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OFAC Sanctions
List Search |
The company
is not listed in the OFAC list. |
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SUMMARY
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Founded in 1996, Global Solar Energy,
Inc. is a mid-sized organization in the semiconductors and related device manufacturers
industry located in Tucson, AZ. The company has 162 full-time employees
and generates an estimated USD 54,312
million in annual revenue. The company imports from India and
exports to Colombia, operating within national and international markets. As of July 24, 2013, Global Solar
Energy, Inc. operates as a subsidiary of Hanergy Holding Group Ltd. This has been an ACTIVE company
incorporated in Arizona in 2000. |
RISK
INFORMATION
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DEBTS |
Controlled |
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PAYMENTS |
Regular |
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CASH FLOW |
Normal |
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STATUS |
ACTIVE |
INTERVIEW
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NAME |
Sally |
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POSITION |
Operator |
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COMMENTS |
She confirmed legal
name, trade name, address, telephone, website and principal activity. She asked the reason
of the call and transferred it to a superior. However, the person contacted
did not answer. |
FOREIGN EXCHANGE RATES
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Currency |
Unit
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Indian Rupees |
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US Dollar |
1 |
INR 64.28 |
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1 |
INR 89.02 |
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Euro |
1 |
INR 78.93 |
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USD |
1 |
INR 64.16 |
Note :
Above are approximate rates obtained from sources believed to be correct
INFORMATION DETAILS
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Analysis Done by
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NIS |
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Report Prepared
by : |
KET |
RATING EXPLANATIONS
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Credit Rating |
Explanation |
Rating Comments |
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A++ |
Minimum Risk |
Business dealings permissible with minimum
risk of default |
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A+ |
Low Risk |
Business dealings permissible with low
risk of default |
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A |
Acceptable Risk |
Business dealings permissible with moderate
risk of default |
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B |
Medium Risk |
Business dealings permissible on a regular
monitoring basis |
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C |
Medium High Risk |
Business dealings permissible preferably
on secured basis |
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D |
High Risk |
Business dealing not recommended or on secured
terms only |
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NB |
New Business |
No recommendation can be done due to
business in infancy stage |
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NT |
No Trace |
No recommendation can be done as the
business is not traceable |
NB is stated where there is insufficient information to facilitate rating. However, it is not to be considered as unfavourable.
This score serves as a reference to assess
SC’s credit risk and to set the amount of credit to be extended. It is
calculated from a composite of weighted scores obtained from each of the major
sections of this report. The assessed factors are as follows:
·
Financial
condition covering various ratios
·
Company
background and operations size
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Promoters
/ Management background
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Payment
record
·
Litigation
against the subject
·
Industry
scenario / competitor analysis
·
Supplier
/ Customer / Banker review (wherever available)
This report is issued at
your request without any risk and responsibility on the part of MIRA INFORM
PRIVATE LIMITED (MIPL) or its officials.