<PAGE> 1
AS FILED WITH THE SECURITIES AND EXCHANGE COMMISSION ON MARCH 24, 1998
REGISTRATION NO. 333-
================================================================================
SECURITIES AND EXCHANGE COMMISSION
WASHINGTON, D.C. 20549
------------------------
FORM S-3
REGISTRATION STATEMENT UNDER THE SECURITIES ACT OF 1933
------------------------
AMERICAN SUPERCONDUCTOR CORPORATION
(Exact name of registrant as specified in its charter)
<TABLE>
<S> <C>
DELAWARE 04-2959321
(State of other jurisdiction of (I.R.S. employer
incorporation or organization) identification No.)
</TABLE>
TWO TECHNOLOGY DRIVE
WESTBOROUGH, MASSACHUSETTS 01581
(508) 836-4200
(Address, including zip code, and telephone number, including area code, of
registrant's principal executive offices)
------------------------
GREGORY J. YUREK
CHAIRMAN, PRESIDENT AND CHIEF EXECUTIVE OFFICER
AMERICAN SUPERCONDUCTOR CORPORATION
Two Technology Drive
Westborough, Massachusetts 01581
(508) 836-4200
(Name, address, including zip code, and telephone number, including area code,
of agent for service)
COPY OF COMMUNICATIONS TO:
<TABLE>
<S> <C>
PATRICK J. RONDEAU, ESQ. WINTHROP B. CONRAD, JR., ESQ.
HALE AND DORR LLP DAVIS POLK & WARDWELL
60 State Street 450 Lexington Avenue
Boston, Massachusetts 02109 New York, New York 10017
(617) 526-6000 (212) 450-4000
</TABLE>
------------------------
Approximate date of commencement of proposed sale to the public: As soon as
practicable after the effective date of this Registration Statement.
If the only securities being registered on this form are being offered
pursuant to dividend or interest reinvestment plans, please check the following
box. [ ]
If any of the securities being registered on this form are to be offered on
a delayed or continuous basis pursuant to Rule 415 under the Securities Act of
1933, other than securities offered only in connection with dividend or interest
reinvestment plans, check the following box. [ ]
If this Form is filed to register additional securities for an offering
pursuant to Rule 462(b) under the Securities Act, please check the following box
and list the Securities Act registration statement number of the earlier
effective registration statement for the same offering. [ ]
If this Form is filed to register additional securities for an offering
pursuant to Rule 462(b) under the Securities Act, please check the following box
and list the Securities Act registration statement number of the earlier
effective registration statement for the same offering. [ ]
If this Form is a post-effective amendment filed pursuant to Rule 462(c)
under the Securities Act, check the following box and list the Securities Act
registration statement number of the earlier effective registration statement
for the same offering. [ ]
If delivery of the Prospectus is expected to be made pursuant to Rule 434,
please check the following box. [ ]
CALCULATION OF REGISTRATION FEE
<TABLE>
<S> <C> <C> <C> <C>
==========================================================================================================================
Title of each class Proposed maximum Proposed maximum
of securities to be Amount to offering price aggregate offering Amount of
registered be registered per unit(1) price(1) registration fee
- --------------------------------------------------------------------------------------------------------------------------
Common Stock, $.01 par value.................. 4,025,000 $14.5625 $58,614,062.50 $17,291.15
==========================================================================================================================
</TABLE>
(1) Estimated solely for the purpose of computing the amount of the registration
fee pursuant to Rule 457 under the Securities Act of 1933, as amended, based
on the average of the high and low sale prices of the Registrant's Common
Stock on the Nasdaq National Market on March 20, 1998.
THE REGISTRANT HEREBY AMENDS THIS REGISTRATION STATEMENT ON SUCH DATE OR
DATES AS MAY BE NECESSARY TO DELAY ITS EFFECTIVE DATE UNTIL THE REGISTRANT SHALL
FILE A FURTHER AMENDMENT WHICH SPECIFICALLY STATES THAT THIS REGISTRATION
STATEMENT SHALL THEREAFTER BECOME EFFECTIVE IN ACCORDANCE WITH SECTION 8(a) OF
THE SECURITIES ACT OF 1933, AS AMENDED, OR UNTIL THE REGISTRATION STATEMENT
SHALL BECOME EFFECTIVE ON SUCH DATE AS THE COMMISSION, ACTING PURSUANT TO SAID
SECTION 8(a), MAY DETERMINE.
================================================================================
<PAGE> 2
INFORMATION CONTAINED HEREIN IS SUBJECT TO COMPLETION OR AMENDMENT. A
REGISTRATION STATEMENT RELATING TO THESE SECURITIES HAS BEEN FILED WITH THE
SECURITIES AND EXCHANGE COMMISSION. THESE SECURITIES MAY NOT BE SOLD NOR MAY
OFFERS TO BUY BE ACCEPTED PRIOR TO THE TIME THE REGISTRATION STATEMENT BECOMES
EFFECTIVE. THIS PROSPECTUS SHALL NOT CONSTITUTE AN OFFER TO SELL OR THE
SOLICITATION OF AN OFFER TO BUY NOR SHALL THERE BE ANY SALE OF THESE SECURITIES
IN ANY STATE IN WHICH SUCH OFFER, SOLICITATION OR SALE WOULD BE UNLAWFUL PRIOR
TO REGISTRATION OR QUALIFICATION UNDER THE SECURITIES LAWS OF ANY SUCH STATE.
PROSPECTUS (Subject to Completion)
Issued March 24, 1998
3,500,000 Shares
[AMERICAN SUPERCONDUCTOR LOGO]
COMMON STOCK
------------------------
OF THE 3,500,000 SHARES OF COMMON STOCK ("COMMON STOCK") OFFERED HEREBY,
3,029,121 SHARES ARE BEING OFFERED BY AMERICAN SUPERCONDUCTOR CORPORATION (THE
"COMPANY") AND 470,879 SHARES ARE BEING OFFERED BY THE SELLING STOCKHOLDERS (THE
"SELLING STOCKHOLDERS"). SEE "PRINCIPAL AND SELLING STOCKHOLDERS." THE COMMON
STOCK IS QUOTED ON THE NASDAQ NATIONAL MARKET UNDER THE SYMBOL "AMSC." ON MARCH
23, 1998, THE REPORTED CLOSING PRICE OF THE COMMON STOCK ON THE NASDAQ NATIONAL
MARKET WAS $14 3/16 PER SHARE. SEE "PRICE RANGE OF COMMON STOCK AND DIVIDEND
POLICY."
------------------------
SEE "RISK FACTORS" BEGINNING ON PAGE 8 FOR INFORMATION
THAT SHOULD BE CONSIDERED BY PROSPECTIVE INVESTORS.
------------------------
THESE SECURITIES HAVE NOT BEEN APPROVED OR DISAPPROVED BY THE SECURITIES AND
EXCHANGE COMMISSION OR ANY STATE SECURITIES COMMISSION NOR HAS THE SECURITIES
AND EXCHANGE COMMISSION OR ANY STATE SECURITIES COMMISSION PASSED UPON THE
ACCURACY OR ADEQUACY OF THIS PROSPECTUS. ANY REPRESENTATION TO THE CONTRARY IS A
CRIMINAL OFFENSE.
------------------------
PRICE $ A SHARE
------------------------
<TABLE>
<CAPTION>
UNDERWRITING PROCEEDS TO
PRICE TO DISCOUNTS AND PROCEEDS TO SELLING
PUBLIC COMMISSIONS(1) COMPANY(2) STOCKHOLDERS(1)
-------- -------------- ----------- ---------------
<S> <C> <C> <C> <C>
Per Share............................ $ $ $ $
Total(3)............................. $ $ $ $
</TABLE>
- ------------
(1) The Company and the Selling Stockholders have agreed to indemnify the
Underwriters against certain liabilities, including liabilities under
the Securities Act of 1933, as amended. See "Underwriters."
(2) Before deducting expenses payable by the Company estimated at $300,000.
(3) The Company has granted to the Underwriters an option, exercisable
within 30 days of the date hereof, to purchase up to an aggregate of
525,000 additional shares of Common Stock at the price to public less
underwriting discounts and commissions, for the purpose of covering
over-allotments, if any. If the Underwriters exercise such option in
full, the total price to public, underwriting discounts and commissions
and proceeds to the Company will be $ , $ and $ ,
respectively. See "Underwriters."
------------------------
The shares are offered, subject to prior sale, when, as and if accepted by
the Underwriters named herein and subject to approval of certain legal matters
by Davis Polk & Wardwell, counsel for the Underwriters. It is expected that
delivery of the shares will be made on or about , 1998 at
the office of Morgan Stanley & Co. Incorporated, New York, N.Y., against payment
therefor in immediately available funds.
------------------------
MORGAN STANLEY DEAN WITTER
NATIONSBANC MONTGOMERY SECURITIES LLC
, 1998
<PAGE> 3
[INSIDE COVER ART]
SUPERCONDUCTING MAGNETIC ENERGY STORAGE ("SMES") FOR INDUSTRIAL POWER QUALITY
SOLUTIONS
[picture of SMES power electronics]
Innovative power electronics are a critical component of each SMES system.
[picture of SMES diagram]
Precision integration ensures effective system performance.
[picture of SMES cryogenic system]
Advanced cryogenic system design optimizes system performance.
1993 -- 1st onsite testing of LT-SMES at chemical processing plant
1995 -- 1st HT-SMES laboratory prototype sold
1996 -- Superconductivity, Inc. (SI) signs 1st distribution agreement with major
electric utility
1997 -- AMSC acquires SI
Commercial launch of 1st LT-SMES product
1998 -- Manufacturing plant expansion
1st commercial sale of hybrid HT/LT-SMES
9 LT-SMES systems currently installed at commercial sites
1999 -- Expansion of product line
Increase worldwide sales efforts and broaden channels to market
[INSIDE COVER ART FOLD-OUT]
HIGH TEMPERATURE SUPERCONDUCTIVITY FOR ELECTRIC POWER APPLICATIONS
[picture of power transformers]
ABB, in conjunction with Electricite de France, manufactured a 630 kVA
transformer in 1997 using American Superconductor's AMSC'S HTS wire.
[picture of cross-sections of a copper cable and HTS wires]
Although almost 100 times smaller in cross-section, four strands of AMSC's multi
filamentary HTS wire (foreground) can transmit as much electrical current as the
copper cable shown here.
[picture of HTS transmission cable]
Pirelli demonstrated a 50 meter, 3300 amp prototype HTS cable conductor for
power transmission in 1996 using AMSC's HTS wire.
[picture of rolls of HTS wire]
AMSC produced more than 150,000 meters of HTS wire in 1997.
[picture of HTS motor]
Building on a successful 1996 demonstration of this 286 hp motor, Reliance
Electric and AMSC plan to test 1000 hp HTS motor in 1999.
1990 -- AMSC forges strategic alliance with Pirelli Cables for development of
HTS wire for underground power transmission
1991 -- 0.03 horsepower (hp) HTS motor (laboratory demonstration)
1992 -- 500 amp, 1 meter HTS cable conductor demonstration
1993 -- 2 hp HTS motor (laboratory demonstration)
1994 -- 4200 amp, 1 meter HTS cable conductor demonstration
1st 1000 meter lengths of HTS wire
1995 -- Accelerated development program with Pirelli
1800 amp, 50 meter machine-stranded HTS cable conductor by Pirelli
1996 -- Strategic alliance with EPRI on 2nd generation HTS wire technology
286 hp HTS motor demonstration
Development program on HTS motors with Reliance Electric
1997 -- Three-phase, 630 kVA, HTS transformer with ABB and EDF
$10 million equity investment by EDF
AMSC acquires Superconductivity, Inc.
1998 -- Strategic alliance with ABB and EDF on HTS transformers
Contract for 1st HTS cable installation by Pirelli
1999 -- 1st 1000 hp HTS motor prototype
Manufacture of coils for 1st 5000 hp HTS motor
2000 -- 1st HTS cable installation in utility network
1st 5000 hp HTS motor prototype
1st coaxial HTS cable demonstration
1st 3-phase 10 MVA HTS transformer demonstration
2001 -- 1st commercial sales of HTS cables
1st commercial sales of HTS motors
<PAGE> 4
NO PERSON HAS BEEN AUTHORIZED TO GIVE ANY INFORMATION OR TO MAKE ANY
REPRESENTATIONS OTHER THAN THOSE CONTAINED IN THIS PROSPECTUS, AND, IF GIVEN OR
MADE, SUCH INFORMATION OR REPRESENTATIONS MUST NOT BE RELIED UPON AS HAVING BEEN
AUTHORIZED. THIS PROSPECTUS DOES NOT CONSTITUTE AN OFFER TO SELL OR THE
SOLICITATION OF AN OFFER TO BUY ANY SECURITIES OTHER THAN THE COMMON STOCK OR AN
OFFER TO SELL OR THE SOLICITATION OF AN OFFER TO BUY SUCH COMMON STOCK IN ANY
CIRCUMSTANCES IN WHICH SUCH OFFER OR SOLICITATION IS UNLAWFUL. NEITHER THE
DELIVERY OF THIS PROSPECTUS NOR ANY SALE THEREUNDER SHALL, UNDER ANY
CIRCUMSTANCES, CREATE ANY IMPLICATION THAT THERE HAS BEEN NO CHANGE IN THE
AFFAIRS OF THE COMPANY SINCE THE DATE HEREOF OR THEREOF OR THAT THE INFORMATION
CONTAINED HEREIN OR THEREIN IS CORRECT AS OF ANY TIME SUBSEQUENT TO ITS DATE.
NO ACTION HAS BEEN OR WILL BE TAKEN IN ANY JURISDICTION BY THE COMPANY OR
BY ANY UNDERWRITER THAT WOULD PERMIT A PUBLIC OFFERING OF THE COMMON STOCK OR
POSSESSION OR DISTRIBUTION OF THIS PROSPECTUS IN ANY JURISDICTION WHERE ACTION
FOR THAT PURPOSE IS REQUIRED, OTHER THAN IN THE UNITED STATES. PERSONS INTO
WHOSE POSSESSION THIS PROSPECTUS COMES ARE REQUIRED BY THE COMPANY AND THE
UNDERWRITERS TO INFORM THEMSELVES ABOUT AND TO OBSERVE ANY RESTRICTIONS AS TO
THE OFFERING OF THE COMMON STOCK AND THE DISTRIBUTION OF THIS PROSPECTUS.
------------------------
TABLE OF CONTENTS
<TABLE>
<CAPTION>
PAGE
----
<S> <C>
Available Information....................................... 4
Incorporation of Certain Documents by Reference............. 4
Summary..................................................... 5
Risk Factors................................................ 8
Use of Proceeds............................................. 12
Price Range of Common Stock and Dividend Policy............. 13
Capitalization.............................................. 14
Dilution.................................................... 15
Selected Consolidated Financial Data........................ 16
Management's Discussion and Analysis of Financial Condition
and Results of Operations................................. 18
Business.................................................... 23
Management.................................................. 36
Principal and Selling Stockholders.......................... 38
Description of Capital Stock................................ 40
Underwriters................................................ 41
Legal Matters............................................... 42
Experts..................................................... 42
Glossary of Significant Technical Terms..................... G-1
</TABLE>
------------------------
This Prospectus includes product names and other trade names and trademarks
of the Company and product names, trademarks, and trade names owned by other
companies and organizations.
------------------------
CERTAIN PERSONS PARTICIPATING IN THIS OFFERING MAY ENGAGE IN TRANSACTIONS
THAT STABILIZE, MAINTAIN, OR OTHERWISE AFFECT THE PRICE OF THE COMMON STOCK.
SPECIFICALLY, THE UNDERWRITERS MAY OVER-ALLOT IN CONNECTION WITH THIS OFFERING,
AND MAY BID FOR, AND PURCHASE, SHARES OF THE COMMON STOCK IN THE OPEN MARKET.
FOR A DESCRIPTION OF THESE ACTIVITIES, SEE "UNDERWRITERS."
IN CONNECTION WITH THIS OFFERING, CERTAIN UNDERWRITERS AND SELLING GROUP
MEMBERS MAY ENGAGE IN PASSIVE MARKET MAKING TRANSACTIONS IN THE COMMON STOCK ON
THE NASDAQ NATIONAL MARKET IN ACCORDANCE WITH RULE 103 UNDER REGULATION M. SEE
"UNDERWRITERS."
3
<PAGE> 5
AVAILABLE INFORMATION
The Company is subject to the informational requirements of the Securities
Exchange Act of 1934, as amended (the "Exchange Act"), and in accordance
therewith files reports, proxy statements and other information with the
Securities and Exchange Commission (the "Commission"). Such reports, proxy
statements and other information filed by the Company with the Commission can be
inspected and copied at the public reference facilities maintained by the
Commission at 450 Fifth Street, N.W., Washington, D.C., 20549, and at the
following regional offices: Seven World Trade Center, Suite 1300, New York, New
York 10048 and Citicorp Center, 500 West Madison Street, Suite 1400, Chicago,
Illinois 60661. Copies of such material can be obtained from the Commission's
public reference section at 450 Fifth Street, N.W., Washington, D.C. 20549 at
prescribed rates. In addition, the Company is required to file electronic
versions of these documents through the Commission's Electronic Data Gathering,
Analysis and Retrieval System (EDGAR). The Commission maintains a World Wide Web
site at http://www.sec.gov that contains reports, proxy statements and other
information regarding registrants that file electronically with the Commission.
The Company's Common Stock is quoted on the Nasdaq National Market. Reports,
proxy statements and other information concerning the Company can be inspected
at the National Association of Securities Dealers, Inc., 1735 K Street, N.W.,
Washington, D.C. 20006.
The Company has filed with the Commission a Registration Statement on Form
S-3 under the Securities Act of 1933, as amended (the "Securities Act"), with
respect to the Common Stock offered hereby. This Prospectus does not contain all
of the information set forth in the Registration Statement and the exhibits and
schedules thereto. For further information with respect to the Company and its
Common Stock, reference is hereby made to such Registration Statement, exhibits
and schedules. Statements contained in this Prospectus as to the contents of any
contract or any other document are not necessarily complete, and in each
instance reference is hereby made to the copy of such contract or document (if
any) filed as an exhibit to the Registration Statement, each such statement
being qualified in all respects by such reference. The Registration Statement
and the exhibits and schedules thereto may be examined without charge at the
office of the Commission at 450 Fifth Street, N.W., Washington, D.C. 20549, and
copies of all or any part thereof may be obtained from the Commission at
prescribed rates.
INCORPORATION OF CERTAIN DOCUMENTS BY REFERENCE
The following documents filed by the Company with the Commission are
incorporated herein by reference: (1) the Company's Annual Report on Form 10-K
for the fiscal year ended March 31, 1997, as amended by Amendment No. 1 on Form
10-K/A filed on July 3, 1997; (2) the Company's Quarterly Reports on Form 10-Q
for the fiscal quarters ended June 30, 1997, September 30, 1997 and December 31,
1997; (3) the Company's Current Report on Form 8-K filed April 23, 1997, as
amended by Amendment No. 1 on Form 8-K/A filed on June 23, 1997, the Company's
Current Report on Form 8-K filed September 5, 1997 and the Company's Current
Report on Form 8-K filed March 24, 1998; and (4) the Company's Registration
Statement on Form 8-A filed November 5, 1991 registering the Company's Common
Stock under Section 12(g) of the Exchange Act. All documents filed by the
Company pursuant to Sections 13(a), 13(c), 14 or 15(d) of the Exchange Act
subsequent to the date of this Prospectus and prior to the termination of this
offering of Common Stock shall be deemed to be incorporated by reference herein
and to be part hereof from the date of the filing of such documents.
Any statement contained in a document incorporated by reference herein
shall be deemed to be modified or superseded for purposes of this Prospectus to
the extent that a statement contained in this Prospectus or in any other
subsequently filed document which also is or is deemed to be incorporated by
reference herein modifies or supersedes such statement. Any statement so
modified or superseded shall not be deemed, except as so modified or superseded,
to constitute a part of this Prospectus.
The Company will provide without charge to each person to whom a copy of
this Prospectus is delivered, upon the written or oral request of any such
person, a copy of any or all of the documents incorporated by reference into
this Prospectus (without exhibits to such documents other than exhibits
specifically incorporated by reference into such documents). Such requests
should be directed to the Treasurer of the Company, Two Technology Drive,
Westborough, Massachusetts 01581, telephone (508) 836-4200.
4
<PAGE> 6
- --------------------------------------------------------------------------------
SUMMARY
The following summary is qualified in its entirety by, and should be read
in conjunction with, the more detailed information and the consolidated
financial statements of the Company and the notes thereto appearing elsewhere in
this Prospectus or incorporated by reference herein. As used in this Prospectus,
the "Company" or "AMSC" refers to American Superconductor Corporation, a
Delaware corporation, and its subsidiaries (including from the date of its
inception Superconductivity, Inc. ("SI"), which was acquired by the Company in
April 1997). Unless otherwise indicated, all information in this Prospectus
assumes that the Underwriters' over-allotment option to purchase from the
Company up to 525,000 additional shares of Common Stock will not be exercised.
See "Glossary of Significant Technical Terms" for the definitions of certain
terms used in this Prospectus. The Company was incorporated in Delaware on April
9, 1987. Its corporate offices are located at Two Technology Drive, Westborough,
Massachusetts 01581 and its telephone number is (508) 836-4200.
THE COMPANY
American Superconductor Corporation is an industry leader in developing,
manufacturing and marketing products utilizing superconducting materials for
electric power applications. Electrical products that incorporate
superconducting wires can be more efficient, compact and cost effective than
those utilizing conventional copper wires. Products incorporating
superconducting materials are currently utilized in the medical, electronics,
power equipment and transportation industries.
Superconducting wires provide significant advantages over conventional
copper wires because superconducting wires conduct electricity with little or no
resistance and associated energy loss, and can transmit much larger amounts of
electricity than conventional wires of the same size. The Company's development
and commercialization efforts have been focused on electrical products and
equipment utilizing superconductors for use in the electric power industry.
According to industry sources, it is estimated that in the year 2010, worldwide
products based on superconductors that are sold to the electric power industry
will generate approximately $12 billion of revenues.
The Company currently manufactures and markets commercial industrial power
quality products and services. These products incorporate superconducting
magnetic energy storage ("SMES") systems utilizing low temperature
superconductor ("LTS") electromagnets ("LT-SMES"). The Company's SMES systems
are designed to address industrial power quality and reliability problems, which
industry sources estimate cost U.S. industry alone more than $10 billion per
year in factory downtime and lost work in process. These systems are expected to
be sold initially to semiconductor production facilities, pulp and paper mills,
chemical processing plants, and similar power-intensive manufacturing
operations. The Company has nine SMES units in operation at customer sites, the
first of which was installed in May 1993.
The Company has focused its new product development efforts on improving
the performance of high temperature superconductors ("HTS"), the first of which
was discovered in 1986. HTS materials exhibit little or no resistance to the
flow of electrical current at significantly higher temperatures than previously
existing superconducting materials (LTS materials), and HTS products therefore
offer significant cost and performance advantages relative to LTS products. HTS
wire is the basic building block for electric power applications under
development. The Company anticipates that it will begin to market HTS products
for use in electric power applications such as underground power transmission
cables, motors, transformers, generators and fault current limiters over the
next two to four years. The Company is also incorporating its HTS technology
into its LT-SMES products in order to reduce systems manufacturing costs and to
improve the efficiency of operation of the LT-SMES products.
The Company's strategic relationships, research arrangements and government
contracts provide it with significant benefits including technical assistance,
development and marketing rights to important technologies, research and
development funding, and potential direct markets for the Company's products.
The Company's corporate partners Electricite de France ("EDF"), Pirelli Cavi E
Sistemi S.p.A. ("Pirelli") and ABB Power Transmission and Distribution Company
SA ("ABB") fund research and development related to
- --------------------------------------------------------------------------------
5
<PAGE> 7
- --------------------------------------------------------------------------------
specific product applications. Since April 1, 1993, the Company has received
more than $30 million of funding pursuant to research and development contracts.
In April 1997, EDF, one of the world's largest electric utilities, invested $10
million in the Company through the purchase of shares of the Company's Common
Stock. In January 1998, ABB, one of the world's largest electrical equipment
manufacturers, and EDF each agreed pursuant to separate joint development
agreements to provide $5 million in development funds to the Company through
2001 to develop HTS wire for transformers. As of December 31, 1997, the Company
had received through a joint development agreement an aggregate of $12.7 million
from Pirelli, one of the world's largest cable and cable systems manufacturers,
for the development of HTS wires for use in power transmission cables. Pirelli
has agreed to provide an additional $3.4 million in funding through September
30, 1999. See "Business -- Strategic Relationships, Research Arrangements and
Government Contracts."
The Company believes that, in order to be able to operate in its chosen
areas of business, it is important to have a globally-oriented patent and
licensing strategy. The Company has developed and plans to continue to develop a
strong patent portfolio, both through filing its own patent applications in
selected countries, and by licensing key patents from others. The Company will
use its patent portfolio to assist it in negotiating licensing agreements with
others who may have key patents the Company needs to operate its business. See
"Business -- Patents, Trade Secrets and Licenses."
THE OFFERING
<TABLE>
<S> <C>
Common Stock offered by the Company........................ 3,029,121 shares
Common Stock offered by the Selling Stockholders(1)........ 470,879 shares
==========
Total.................................................. 3,500,000 shares
==========
Common Stock to be outstanding after this offering(2)...... 14,728,746 shares
Use of proceeds............................................ For general corporate purposes, primarily to
fund its operations, to acquire capital
equipment and for repayment of debt. The
Company will not receive any proceeds from
the shares of Common Stock being sold by the
Selling Stockholders. See "Use of Proceeds."
Nasdaq National Market symbol.............................. "AMSC"
</TABLE>
- ------------------
(1) These shares are being offered by certain former stockholders of SI.
(2) Based on the number of shares outstanding as of February 27, 1998, and
excluding 3,335,658 shares reserved for issuance upon the exercise of stock
options and warrants outstanding as of February 27, 1998.
- --------------------------------------------------------------------------------
6
<PAGE> 8
- --------------------------------------------------------------------------------
SUMMARY CONSOLIDATED FINANCIAL DATA
<TABLE>
<CAPTION>
NINE MONTHS
ENDED
YEAR ENDED MARCH 31,(1) DECEMBER 31,(1)
------------------------------------------------ -----------------
1993 1994 1995 1996 1997 1996 1997
------- ------- ------- ------- -------- ------- -------
(IN THOUSANDS, EXCEPT PER SHARE DATA)
<S> <C> <C> <C> <C> <C> <C> <C>
STATEMENT OF OPERATIONS DATA:
Total revenues.................. $ 3,508 $ 4,942 $ 8,593 $10,764 $ 10,551 $ 7,980 $11,384
Total costs and expenses........ 11,914 13,376 17,267 21,796 23,345 17,426 20,617
Net loss........................ (7,435) (7,717) (7,036) (9,698) (13,377) (9,488) (8,894)
Net loss per common share (basic
and diluted)................. (0.85) (0.86) (0.69) (0.94) (1.27) (0.90) (0.76)
Weighted average number of
common shares outstanding
(basic and diluted).......... 8,712 8,980 10,249 10,352 10,498 10,498 11,638
OTHER DATA:
Research and development
expenses..................... $ 4,546 $ 4,787 $ 5,349 $ 5,704 $ 8,477 $ 6,814 $ 6,382
Adjusted research and
development expenses(2)...... 6,834 7,850 10,054 11,544 14,678 11,438 12,161
</TABLE>
<TABLE>
<CAPTION>
AS OF
DECEMBER 31, 1997
---------------------
AS
ACTUAL ADJUSTED(3)
------- -----------
(IN THOUSANDS)
<S> <C> <C>
BALANCE SHEET DATA:
Cash, cash equivalents and long-term marketable
securities............................................ $ 9,717 $46,672
Working capital......................................... 7,599 44,554
Total assets............................................ 22,459 59,414
Total long-term debt.................................... 3,142 --
Stockholders' equity.................................... 15,958 56,055
</TABLE>
- ------------------
(1) All financial information presented herein has been retroactively restated
to reflect the April 1997 acquisition of SI, which has been accounted for as
a pooling of interests. See the Company's consolidated financial statements
and the notes thereto incorporated herein by reference.
(2) Consists of research and development expenses plus (i) research and
development expenses related to externally funded development contracts
included in costs of revenue and (ii) research and development expenses
offset by cost-sharing funding under government contracts. The Company
believes that adjusted research and development expenses provides useful
information as to the Company's aggregate research and development spending.
See "Management's Discussion and Analysis of Financial Condition and Results
of Operations."
(3) Adjusted to reflect the sale by the Company of the 3,029,121 shares of
Common Stock offered by the Company hereby, at an assumed public offering
price of $14 3/16 per share, after deducting the estimated underwriting
discounts and commissions and offering expenses, and the application of the
estimated net proceeds therefrom. See "Use of Proceeds" and
"Capitalization."
- --------------------------------------------------------------------------------
7
<PAGE> 9
RISK FACTORS
In evaluating the Company and its business, prospective investors should
carefully consider the following risk factors in addition to the other
information contained in this Prospectus before purchasing the Common Stock. Any
statements included in this Prospectus (including statements to the effect that
the Company or its management "believes," "expects," "anticipates," "plans" and
similar expressions) which are not statements regarding historical matters
constitute forward looking statements within the meaning of the "safe harbor"
provisions of the Private Securities Litigation Reform Act of 1995. There are a
number of important factors which could cause actual events or the Company's
actual results of operations and financial condition in the future to vary from
that indicated in such forward looking statements. Factors that may cause such
differences include, without limitation, the risks, uncertainties and other
information set forth below.
DEVELOPMENT STAGE OF THE COMPANY; TECHNOLOGICAL CHALLENGES
To date, the Company has been principally engaged in research and
development activities. Many of the Company's products are in the early stages
of commercialization and testing, while others are still under development.
There are a number of technological challenges that the Company must
successfully address to complete any of its commercialization and development
efforts. Neither the Company, nor to its knowledge any other company, has
successfully developed and commercialized any significant quantities of HTS
wires or wire products. There can be no assurance that the Company will be able
to meet such technological challenges and commercialize any such products or
that these products, if developed and commercialized, will be technically or
commercially successful. In addition, delays in development, as a result of
technological challenges or otherwise, may result in the Company's introducing
its products later than anticipated, which may have an adverse effect on both
the Company's financial and competitive position. The Company believes that
several years of further development will be necessary before its HTS wires and
wire products will be available for significant commercial end-use applications,
and that significant additional development work is necessary to improve the
commercial feasibility and acceptance of its LT-SMES products. Moreover, there
can be no assurance that the Company will ever be successful in developing and
manufacturing HTS or LT-SMES products in commercial quantities at commercially
acceptable cost levels or on a timely basis, or that any HTS or LT-SMES products
developed and manufactured by the Company will attain market acceptance. See
"Business."
UNCERTAINTY REGARDING DEVELOPMENT OF MARKET
To date, there has been no widespread commercial use of HTS products.
Although LTS products are currently used in a number of commercial applications,
commercial acceptance of LTS products has been significantly limited by the
cooling requirements of LTS materials and other factors. There can be no
assurance that the technological hurdles currently limiting commercial use of
HTS and LTS products will ever be overcome. Moreover, if such technological
hurdles are overcome, there can be no assurance that the market demands
currently anticipated by the Company for its HTS and LTS products will develop
or that superconductivity products will ever achieve widespread commercial
acceptance. See "Business."
HISTORY OF LOSSES AND UNCERTAINTY OF FINANCIAL RESULTS
The Company has incurred net losses in each year since its inception. The
Company's net loss for fiscal 1996, fiscal 1997 and the first nine months of
fiscal 1998 was $9,698,000, $13,377,000 and $8,894,000, respectively, and the
Company had an accumulated deficit as of December 31, 1997 of $70,307,000. The
Company expects to continue to incur operating losses for at least the next few
years and there can be no assurance that the Company will ever achieve a
profitable level of operations. See "Selected Consolidated Financial Data" and
"Management's Discussion and Analysis of Financial Condition and Results of
Operations."
UNCERTAINTIES REGARDING PROPRIETARY RIGHTS
The Company expects that some or all of the HTS materials now used, or that
may be used in the future, in the manufacture of its products, and certain
aspects of the technologies now used, or that may be used in
8
<PAGE> 10
the future, by the Company in processing HTS materials, are or will become
covered by patents issued to other parties (who may include competitors of the
Company). Accordingly, the Company will need to acquire licenses to, or
successfully contest the validity of, such patents in order to avoid patent
infringement claims being brought against it. Based on commercial practices in
other industries, the Company is optimistic that such licenses will be
available. However, there can be no assurance that such licenses will be
available, or that, if available, they will be available on commercially
reasonable terms. If the Company is unable to obtain licenses under such
patents, the Company may be required to successfully contest the validity or
scope of such patents to avoid infringement claims by the owners of such
patents. The likelihood of successfully contesting the validity or scope of any
such patents or of otherwise prevailing in a patent infringement claim is
uncertain. In any event, even if the Company were successful in such actions,
the Company could incur substantial costs in prosecuting or defending such
actions. The failure of the Company to obtain such licenses or to successfully
contest such patents, if necessary, would have a material adverse effect upon
the Company's business, financial condition and results of operations.
The Company owns or has rights under a number of patents and pending patent
applications. However, there can be no assurance that the patent applications
filed by the Company or by the Company's licensors will result in patents being
issued, that any patents issued will afford meaningful protection against
competitors or that any patents issued will not be challenged by third parties.
Moreover, the Company could incur substantial litigation costs in defending the
validity of its own patents. There also can be no assurance that others will not
independently develop similar technologies, duplicate the Company's technologies
or, if patents are issued to the Company, design around the patented aspects of
any technologies developed by the Company. The Company also relies on trade
secrets and proprietary know-how to protect its intellectual property. However,
there can be no assurance that the Company's non-disclosure agreements and other
safeguards will provide meaningful protection for the Company's trade secrets
and other proprietary information. See "Business -- Patents, Trade Secrets and
Licenses."
COMPETITION AND TECHNOLOGICAL CHANGE
The superconductivity industry is characterized by rapidly changing and
advancing technology. In the market for industrial power quality systems and
services, the Company competes with vendors of a number of non-superconductivity
products as well as developers of SMES systems. The Company does not know of any
companies currently selling LT-SMES products that compete with the SMES products
offered by the Company. However, at least one company, Intermagnetics General
Corporation ("IGC"), is developing SMES systems for power quality applications,
and the Company believes there is a government-sponsored program in Japan to
develop SMES systems for power quality applications. The Company's SMES products
also compete against dynamic voltage restorers produced by companies such as
Westinghouse, flywheels under development by various companies around the world,
and battery-based, uninterruptible power supply systems, which are widely
manufactured and used around the world. A number of companies are working to
bring to market high performance, technologically advanced, cost effective HTS
products for electric power applications. For HTS applications, the Company's
principal competitors presently include several major Japanese companies, such
as Sumitomo Electric Industries, Ltd., Hitachi, Ltd. and Furukawa Electric Co.
Ltd.; several European companies, such as Siemens A.G. in Germany and B.I.C.C.
and Oxford Instruments in England; and several companies in the U.S., such as
IGC and 3M.
The future success of the Company will depend in large part upon its
ability to keep pace with advancing HTS and LTS technology and developing
industry standards. There can be no assurance that the Company's development
efforts will not be rendered obsolete by research efforts and technological
advances made by others. Many of the Company's competitors have substantially
greater financial resources, research and development, manufacturing and
marketing capabilities than the Company. In addition, as the power quality and
HTS markets develop, other large industrial companies may enter these fields and
compete with the Company. See "Business -- Competition."
9
<PAGE> 11
FUTURE CAPITAL NEEDS
The Company may require substantial additional funds after this offering
for its research and development programs, operating expenses, licensing fees,
scale-up of manufacturing capabilities, expansion of sales and marketing
capabilities, potential acquisitions and working capital. The Company believes,
based upon its current business plan, that the proceeds of this offering,
together with its current cash and marketable securities, should be sufficient
to fund the Company's operations as planned for at least the next three years.
However, the Company may need additional funds sooner than anticipated if the
Company's performance deviates significantly from its current business plan or
if there are significant changes in competitive or other market factors. There
can be no assurance that such funds, whether from equity or debt financing,
development contracts or other sources, will be available, or available on terms
acceptable to the Company. If adequate funding is not available, the Company may
be required to reduce, delay or eliminate certain research and development,
marketing or manufacturing activities or to license or sell to others certain
proprietary technology, which could delay, either temporarily or permanently,
the development and commercialization of certain products and technologies
currently under development by the Company. See "Management's Discussion and
Analysis of Financial Condition and Results of Operations -- Liquidity and
Capital Resources."
LACK OF MANUFACTURING AND MARKETING EXPERIENCE
For the Company to be financially successful, it must manufacture the
products developed by it in commercial quantities at acceptable costs and on a
timely basis. The production of commercial quantities at acceptable costs
presents a number of technological and engineering challenges for the Company,
and significant start-up costs and unforeseen expenses may be incurred in
connection with efforts to manufacture commercial quantities of the Company's
products. Accordingly, there can be no assurance that the Company will be able
to make the transition to commercial production successfully. See
"Business -- HTS Wire Production Processes."
In addition, the Company will be required to develop a marketing and sales
force that will effectively demonstrate the advantages of its products over more
traditional products, as well as competitive superconductive products. The
Company's marketing and selling experience to date is limited. The Company may
also elect to enter into agreements or relationships with third parties
regarding the commercialization or marketing of its products. If the Company
enters into such agreements or relationships, it will be substantially dependent
upon the efforts of others in deriving commercial benefits from its products.
There can be no assurance that the Company will be successful in its marketing
efforts, that it will be able to establish adequate sales and distribution
capabilities, that it will be able to enter into marketing agreements or
relationships with third parties on financially acceptable terms, or that any
third parties with whom it enters into such arrangements will be successful in
marketing the Company's products. See "Business -- Applications and Markets for
Superconductors."
DEPENDENCE ON STRATEGIC RELATIONSHIPS
The Company's business strategy includes entering into strategic
relationships with corporate partners. Although the Company has strategic
relationships with Pirelli, EDF and ABB, there can be no assurance that the
Company will be able to maintain these relationships or that these relationships
will be technologically or commercially successful. In addition, there can be no
assurance that the Company will be able to negotiate additional strategic
relationships, that such relationships will be available to the Company on
acceptable terms or that any such relationships, if established, will be
technologically or commercially successful. The Company expects that its
corporate partners will provide the Company with, among other things, technical
assistance, development and marketing rights to important technologies, research
and development funding and a potential direct market, or access to potential
markets, for the Company's products. The failure of any of the Company's
corporate partners to provide these benefits or the termination of the
relationship with any of the Company's corporate partners could have a material
adverse effect on the Company's business, financial condition and results of
operations. See "Business -- Strategic Relationships, Research Arrangements and
Government Contracts."
10
<PAGE> 12
DEPENDENCE ON KEY PERSONNEL
The Company's success will depend in large part upon its ability to attract
and retain highly qualified research and development, management, manufacturing,
marketing and sales personnel. Due to the specialized nature of the Company's
business, it may be difficult to locate and hire qualified personnel. The
Company is particularly dependent upon the services of Dr. Gregory J. Yurek, a
founder and its Chairman of the Board, President and Chief Executive Officer,
and Dr. Alexis P. Malozemoff, its Chief Technical Officer. The loss of the
services of either of these individuals, or the failure of the Company to
attract and retain other key personnel, could have a material adverse effect on
the Company's business, financial condition and results of operations. See
"Management."
DEPENDENCE ON ACQUISITIONS STRATEGY
The Company's strategy includes acquiring companies to enhance its market
position, add value to its product lines and strengthen its technology base. The
Company made two acquisitions in 1997. There can be no assurance that the
Company will make any additional acquisitions in the future or, if it makes an
acquisition, as to the terms of any such acquisition. Any acquisitions present a
number of new challenges for the Company's management, including the entry into
new lines of business, the integration of new products, technologies and
personnel into the Company's existing business organization, the management and
operation of geographically dispersed operations, and the adaptation of the
Company's information systems and management structure to a larger organization.
There can be no assurance that the Company will be successful in addressing
these challenges, or that acquisitions will produce the benefits anticipated by
the Company.
POSSIBLE VOLATILITY OF STOCK PRICE
The market price of the Company's Common Stock has historically experienced
significant volatility and may continue to experience such volatility in the
future. Factors such as technological achievements by the Company and its
competitors, the establishment of development or other collaborative
relationships with other companies, the introduction of commercial products, and
the Company's financial performance may have a significant effect on the market
price of the Common Stock. In addition, the stock market in general has in
recent years experienced extreme price and volume fluctuations, which are often
unrelated to the performance or condition of particular companies, and these
broad market fluctuations could adversely affect the market price of the Common
Stock. See "Price Range of Common Stock and Dividend Policy."
DILUTION
The public offering price of the Common Stock offered hereby will be
substantially higher than the net tangible book value per share of the currently
outstanding Common Stock. Investors purchasing shares in this offering will
therefore suffer immediate and substantial dilution. See "Dilution."
11
<PAGE> 13
USE OF PROCEEDS
The net proceeds to the Company from this offering, after deducting the
estimated underwriting discounts and commissions and offering expenses payable
by the Company, are expected to be $40.1 million ($47.1 million if the
Underwriters' over-allotment option is exercised in full), assuming a public
offering price of $14 3/16 per share. The Company will not receive any proceeds
from the sale of Common Stock by the Selling Stockholders.
The Company intends to use the net proceeds from this offering to fund its
operations, to acquire capital equipment and to repay outstanding indebtedness
under the SI Notes (as defined below). The Company is in the process of
preparing for commercial operations and expects to expend significant funds in
that process. In addition, the Company anticipates that a portion of the net
proceeds may be used for the payment of licensing fees under patent and other
technology licenses. The Company may also use a portion of the net proceeds to
acquire businesses, products or technologies complementary to the Company's
current business, although the Company has no current plans or commitments for
any such acquisitions. The exact uses by the Company of the proceeds of this
offering, and the amounts expended for the various purposes described above,
will depend on a number of factors, including the progress of the Company's
commercialization and development efforts, the status of the Company's
relationships with strategic partners and technological developments in the
industry. Pending the uses described above, the Company intends to invest the
net proceeds of this offering in short-term and long-term, interest-bearing,
investment-grade marketable securities.
In connection with the acquisition of SI, the Company issued subordinated
notes to certain of the former stockholders of SI in the aggregate original
principal amount of approximately $3.1 million (the "SI Notes"). The SI Notes
bear interest at the rate of 7% per annum, payable semi-annually, and mature on
April 8, 1999.
12
<PAGE> 14
PRICE RANGE OF COMMON STOCK AND DIVIDEND POLICY
The Company's Common Stock has been quoted on the Nasdaq National Market
under the symbol "AMSC" since 1991. The following table sets forth the high and
low sales price per share of the Company's Common Stock as reported on the
Nasdaq National Market for the periods indicated.
<TABLE>
<CAPTION>
COMMON STOCK PRICE
------------------
HIGH LOW
---- ---
<S> <C> <C>
FISCAL YEAR ENDED MARCH 31, 1996:
First quarter....................................... $19 1/4 $13
Second quarter...................................... 14 1/4 11 3/4
Third quarter....................................... 15 1/4 10 1/4
Fourth quarter...................................... 16 12
FISCAL YEAR ENDED MARCH 31, 1997:
First quarter....................................... 15 12 1/8
Second quarter...................................... 15 3/4 11
Third quarter....................................... 15 1/4 9 3/4
Fourth quarter...................................... 12 7 3/4
FISCAL YEAR ENDING MARCH 31, 1998:
First quarter....................................... 12 1/4 8 1/8
Second quarter...................................... 13 3/8 8 1/2
Third quarter....................................... 14 3/4 8 1/4
Fourth quarter (through March 23, 1998)............. 15 1/8 8 1/2
</TABLE>
The reported closing price of the Company's Common Stock on the Nasdaq
National Market on March 23, 1998 was $14 3/16 per share. The number of
stockholders of record on February 27, 1998 was 406.
The Company has never paid cash dividends on its Common Stock, and the
Company does not expect to pay dividends on its Common Stock in the foreseeable
future.
13
<PAGE> 15
CAPITALIZATION
The following table sets forth the cash, cash equivalents and long-term
marketable securities and the consolidated capitalization of the Company as of
December 31, 1997 and as adjusted to give effect to the sale by the Company of
the 3,029,121 shares of Common Stock offered by the Company hereby, at an
assumed public offering price of $14 3/16 per share, after deducting the
estimated underwriting discounts and commissions and offering expenses, and the
application of the estimated net proceeds therefrom as described under "Use of
Proceeds." The table should be read in conjunction with "Management's Discussion
and Analysis of Financial Condition and Results of Operations" and the Company's
consolidated financial statements and the notes thereto incorporated herein by
reference.
<TABLE>
<CAPTION>
DECEMBER 31, 1997
-------------------------
AS
ACTUAL ADJUSTED
------ --------
(IN THOUSANDS)
<S> <C> <C>
Cash, cash equivalents and long-term marketable
securities................................................ $ 9,717 $ 46,672
======== ========
Long-term debt.............................................. $ 3,142 --
-------- --------
Stockholders' equity:
Common Stock, $.01 par value; 20,000,000 shares
authorized; 11,696,991 shares issued and outstanding;
14,726,112 shares issued and outstanding, as
adjusted(1)........................................... 117 147
Additional paid-in capital............................. 86,580 126,647
Deferred contract costs................................ (438) (438)
Unrealized gain (loss) on investment................... 29 29
Cumulative translation adjustment...................... (23) (23)
Accumulated deficit.................................... (70,307) (70,307)
-------- --------
Total stockholders' equity........................ 15,958 56,055
-------- --------
Total capitalization........................................ $ 19,100 $ 56,055
======== ========
</TABLE>
- ---------------
(1) Excludes 2,953,792 shares of Common Stock reserved as of December 31, 1997
for issuance upon exercise of outstanding options and warrants.
14
<PAGE> 16
DILUTION
As of December 31, 1997, the Company had a net tangible book value of
approximately $15,958,000, or $1.36 per share. Net tangible book value per share
represents the Company's total tangible assets less its total liabilities,
divided by the aggregate number of shares of Common Stock outstanding. After
giving effect to the sale of the 3,029,121 shares of Common Stock offered by the
Company hereby at an assumed public offering price of $14 3/16 per share, after
deducting the estimated underwriting discounts and commissions and offering
expenses, and the application of the estimated net proceeds therefrom as
described under "Use of Proceeds," the Company's net tangible book value at
December 31, 1997 would have been approximately $56,055,000, or $3.81 per share.
This represents an immediate increase in net tangible book value per share of
$2.45 to existing stockholders and an immediate dilution of $10.38 per share to
the new investors. Dilution per share represents the difference between the
amount per share paid by the new investors in this offering and the net tangible
book value per share at December 31, 1997, giving effect to this offering and
application of the proceeds therefrom. The following table illustrates this per
share dilution to new investors.
<TABLE>
<S> <C> <C>
Assumed public offering price per share..................... $14.19
Net tangible book value per share before this
offering.............................................. $1.36
Increase in net tangible book value per share resulting
from this offering.................................... 2.45
-----
Net tangible book value per share after this offering....... 3.81
------
Dilution per share to new investors......................... $10.38
======
</TABLE>
The foregoing calculations do not give effect to the exercise of stock
options and warrants outstanding as of December 31, 1997 for the purchase of an
aggregate of 2,953,792 shares of Common Stock. The exercise of such options and
warrants would result in further dilution to new investors.
15
<PAGE> 17
SELECTED CONSOLIDATED FINANCIAL DATA
The selected consolidated financial data presented below reflects the
combined results of operations and financial position of the Company and SI
restated for all periods presented pursuant to the pooling of interests method
of accounting. The financial data for each of the five fiscal years in the
period ended March 31, 1997 have been derived from the combination of the
Company's consolidated financial statements that have been audited by Coopers &
Lybrand L.L.P., independent accountants, and the SI financial statements that
have been audited by other independent accountants. In addition, the combination
of the separate audited financial statements of the Company and SI for the three
fiscal years in the period ended March 31, 1997 has been audited by Coopers &
Lybrand L.L.P. The financial data for the nine-month periods ended December 31,
1996 and 1997 and as of such dates have been derived from the unaudited
consolidated financial statements of the Company. In the opinion of management
of the Company, such unaudited consolidated financial statements have been
prepared on the same basis as the audited consolidated financial statements and
include all adjustments, consisting only of normal recurring adjustments,
necessary for a fair presentation of the Company's operating results and
financial position for such periods and as of such dates. The Company's
operating results for the nine months ended December 31, 1997 are not
necessarily indicative of the results to be expected for the entire fiscal year
ending March 31, 1998.
Prior to the acquisition of SI by the Company, SI's fiscal year end was
December 31. Effective upon the consummation of the acquisition, SI's fiscal
year end was changed to March 31 to conform to the Company's fiscal year end.
The audited results of SI's operations for the twelve month periods ended
December 31, 1996, 1995, 1994, 1993 and 1992 are included in the Company's
results of operations for the fiscal years ended March 31, 1997, 1996, 1995,
1994 and 1993, respectively. SI's audited balance sheets as of December 31,
1996, 1995, 1994, 1993 and 1992 are included in the Company's balance sheets as
of March 31, 1997, 1996, 1995, 1994 and 1993, respectively. As a result, SI's
results of operations for the quarter ended March 31, 1997 are not included in
the consolidated statements of operations of the Company. In the quarter ended
March 31, 1997, SI recorded revenues of $262,295 and incurred a net loss of
$2,156,399, which included merger-related expenses of $1,457,054.
This financial data should be read in conjunction with the other financial
information appearing elsewhere in this Prospectus or incorporated by reference
herein.
<TABLE>
<CAPTION>
NINE MONTHS
ENDED
FISCAL YEAR ENDED MARCH 31, DECEMBER 31,
------------------------------------------------ ------------
1993 1994 1995 1996 1997 1996 1997
---- ---- ---- ---- ---- ---- ----
(IN THOUSANDS, EXCEPT PER SHARE DATA)
<S> <C> <C> <C> <C> <C> <C> <C>
STATEMENT OF OPERATIONS DATA:
Revenues:
Contract revenue....................... $ 2,344 $ 3,275 $ 6,596 $ 7,526 $ 6,867 $ 5,037 $ 6,547
Product sales and prototype development
contracts............................ 989 728 1,107 2,366 2,937 2,330 4,053
Rental/other revenue................... 175 939 889 872 747 613 783
------- ------- ------- ------- -------- ------- -------
Total revenues......................... 3,508 4,942 8,593 10,764 10,551 7,980 11,384
Costs and expenses:
Costs of revenue(1).................... 3,442 4,999 7,993 11,553 10,577 7,538 10,511
Research and development(1)............ 4,546 4,787 5,349 5,704 8,477 6,814 6,382
Selling, general and
administrative(1).................... 3,462 3,518 3,924 4,538 4,291 3,073 3,724
Relocation costs....................... 464 72 -- -- -- -- --
------- ------- ------- ------- -------- ------- -------
Total costs and expenses.......... 11,914 13,376 17,267 21,796 23,345 17,426 20,617
Transaction fees....................... -- -- -- -- (710) -- (136)
Interest income........................ 973 786 1,873 1,585 1,177 933 677
Interest expense....................... -- (60) (212) (215) (356) (281) (188)
Other income (expense), net................ (2) (8) (23) (38) (693) (694) (12)
------- ------- ------- ------- -------- ------- -------
Net loss................................... $(7,435) $(7,717) $(7,036) $(9,698) $(13,377) $(9,488) $(8,894)
======= ======= ======= ======= ======== ======= =======
Net loss per common share (basic and
diluted)................................. $ (0.85) $ (0.86) $ (0.69) $ (0.94) $ (1.27) $ (0.90) $ (0.76)
======= ======= ======= ======= ======== ======= =======
Weighted average number of common shares
outstanding (basic and diluted).......... 8,712 8,980 10,249 10,352 10,498 10,498 11,638
OTHER DATA:
Research and development expenses.......... $ 4,546 $ 4,787 $ 5,349 $ 5,704 $ 8,477 $ 6,814 $ 6,382
Adjusted research and development
expenses(2).............................. 6,834 7,850 10,054 11,544 14,678 11,438 12,161
</TABLE>
16
<PAGE> 18
<TABLE>
<CAPTION>
MARCH 31,
----------------------------------------------- DECEMBER 31,
1993 1994 1995 1996 1997 1997
---- ---- ---- ---- ---- ------------
(IN THOUSANDS)
<S> <C> <C> <C> <C> <C> <C>
BALANCE SHEET DATA:
Cash, cash equivalents and short-term and
long-term marketable securities................ $24,301 $41,774 $33,653 $26,519 $16,031 $ 9,717
Working capital.................................. 18,439 7,666 2,341 5,101 318 7,599
Total assets..................................... 29,043 50,037 44,887 35,856 26,581 22,459
Total long-term debt............................. -- 1,885 1,693 1,898 3,074 3,142
Stockholders' equity............................. 25,631 45,349 38,416 29,780 16,501 15,958
</TABLE>
- ---------------
(1) Costs of revenue include certain research and development expenses and
selling, general and administrative expenses incurred in connection with
work performed under development contracts. See "Management's Discussion and
Analysis of Financial Condition and Results of Operations."
(2) Consists of research and development expenses, plus (i) research and
development expenses related to externally funded development contracts
included in costs of revenue and (ii) research and development expenses
offset by cost-sharing funding under government contracts. The Company
believes that adjusted research and development expenses provides useful
information as to the Company's aggregate research and development spending.
See "Management's Discussion and Analysis of Financial Condition and Results
of Operations."
17
<PAGE> 19
MANAGEMENT'S DISCUSSION AND ANALYSIS OF
FINANCIAL CONDITION AND RESULTS OF OPERATIONS
The Company was founded in 1987 to develop for commercialization HTS wires
and wire products. On April 8, 1997, the Company acquired SI in a transaction
accounted for under the pooling of interests method of accounting. Accordingly,
the Company's consolidated financial statements reflect the combined financial
position, operating results and cash flows of the Company and SI as if they had
been combined for all periods presented. For purposes of the discussion of the
results of operations of the Company for the fiscal years ended March 31, 1997,
1996 and 1995, the term "Former ASC" is used to refer to the Company prior to
the SI acquisition. On July 31, 1997, the Company acquired Applied Engineering
Technologies, Ltd. ("AET") in a transaction accounted for under the pooling of
interests method of accounting. Due to the immaterial effect on the Company's
consolidated financial statements, prior periods have not been adjusted to
reflect the effect of this transaction on the financial position, operating
results and cash flows of the Company.
RESULTS OF OPERATIONS
NINE MONTHS ENDED DECEMBER 31, 1997 AND DECEMBER 31, 1996
Revenues during the nine months ended December 31, 1997, increased 43% to
$11,384,000 as compared to $7,980,000 for the same 1996 period. Revenues were
positively affected by the recognition of $2,400,000 in revenue on the four-year
research and development cost reimbursement contract (the "ABB/EDF Agreement")
with EDF and ABB. This agreement is retroactively effective to April 1, 1997,
and provides for payments of $800,000 per quarter for the first three quarters
of fiscal 1998. As the agreement was only recently finalized, the $2,400,000 in
revenue and associated costs were not recognized until the third quarter.
Revenues for the first nine months of fiscal year 1998 were also positively
affected by new contracts with the Department of the Navy and Electric Power
Research Institute ("EPRI") as well as SI's sales of SMES systems in the first
and second quarters. Prior year revenues for the nine months ended December 31,
1996 included $825,000 relating to a research and development contract with Inco
Alloys International, Inc. ("Inco") which was discontinued on December 31, 1996.
For the nine months ended December 31, 1997, the Company also recorded
funding of $1,198,000 under government cost-sharing agreements, as compared to
$1,346,000 for the comparable period in 1996. The Company anticipates that a
portion of its funding in the future will continue to come from cost- sharing
agreements as the Company continues to develop joint programs with government
agencies. Funding from government cost-sharing agreements is recorded as an
offset to research and development and selling, general and administrative
expenses, as required by government contract accounting guidelines, rather than
as revenues.
The Company's total operating expenses for the nine months ended December
31, 1997 were $20,617,000 compared to $17,426,000 for the same period in the
prior year.
For the nine months ended December 31, 1997, costs of revenue increased to
$10,511,000 from $7,538,000 for the same period a year earlier. These increases
reflect the costs of revenue associated with the revenue recognized under the
ABB/EDF Agreement, costs of revenue associated with SI's sales of SMES systems,
and the costs of revenue associated with the Navy and EPRI contracts.
For the first nine months of fiscal year 1998, research and development
("R&D") expenses were $6,382,000 compared to $6,814,000 for the same period last
year. The decline in net R&D expenses on a year-to-date basis is due to a higher
percentage of R&D expenditures being classified as costs of revenue (rather than
as R&D expenses) as they relate to externally funded development contracts.
These R&D expenditures included in costs of revenue for the nine-month period
ended December 31, 1997 were $5,162,000, compared to $3,931,000 for the same
period in the prior year. In addition, the R&D amounts offset by cost-sharing
funding were $617,000 and $693,000 for the first nine months of fiscal years
1998 and 1997, respectively.
Selling, general and administrative ("SG&A") expenses for the nine months
ended December 31, 1997 were $3,724,000 compared to $3,073,000 for the same
period in the prior year. This increase was primarily due to additional
recruiting, legal, consulting, and marketing expenses incurred to support the
overall increase in
18
<PAGE> 20
the Company's revenues and R&D activities. The SG&A amount offset by
cost-sharing funding was $580,000 for the nine months ended December 31, 1997,
as compared to $653,000 for the comparable period in 1996. In addition, certain
SG&A expenditures related to externally funded development contracts have been
classified as costs of revenue (rather than as SG&A expenses). Such indirect
costs included in costs of revenue during the nine months ended December 31,
1997 were $2,547,000. For the nine months ended December 31, 1996, these costs
were $1,606,000.
Transaction fees of $136,000 for the nine months ended December 31, 1997
reflect certain legal and accounting fees incurred this fiscal year associated
with the acquisition of SI on April 8, 1997 ($66,000) and AET on July 31, 1997
($70,000). Other income (expense) for the nine months ended December 31, 1996
includes $670,000 of expense incurred by SI relating to a terminated merger
negotiation.
Interest income was $677,000 in the nine months ended December 31, 1997
compared to $933,000 for the same period in the previous year. This decrease
primarily reflects lower cash balances available for investment as a result of
cash being used to fund the Company's operations, to purchase property and
equipment, and to pay down SI's liabilities.
Interest expense was $188,000 in the nine months ended December 31, 1997
compared to $281,000 for the same period in the previous year. This decrease
primarily reflects the Company's retirement of certain SI bank debts and
liabilities.
The Company expects to continue to incur operating losses for the next few
years, as it continues to devote significant financial resources to its research
and development activities and commercialization efforts.
The Company expects to be party to agreements which, from time to time, may
result in costs incurred exceeding expected revenues under such contracts. The
Company may enter into such agreements for a variety of reasons including, but
not limited to, entering new product application areas, furthering the
development of key technologies, and advancing the demonstration of commercial
prototypes in critical market applications.
FISCAL YEARS ENDED MARCH 31, 1997 AND MARCH 31, 1996
Total revenues decreased to $10,551,000 in fiscal 1997 from $10,764,000 in
fiscal 1996. The Former ASC's revenues from research and development contracts,
prototype development contracts and the sale of prototypes increased to
$7,175,000 in fiscal 1997 from $7,131,000 in fiscal 1996. This increase was due
primarily to work performed on a research and development contract with ABB and
increases in funding on various U.S. government grants and prototype development
contracts. This increase was largely offset by a drop in prototype sales
associated with a major cable prototype on which the Former ASC concluded
shipping HTS wire in the year ended March 31, 1996, and by the discontinuation
(effective December 31, 1996) of the joint research and development program on
metallic precursor wire technology with Inco, which had been providing $1.1
million in annual funding.
At SI, revenues in fiscal 1997 were $3,376,000 compared to $3,633,000 in
fiscal 1996. This decrease in revenues was due to the completion of a long-term
cost-plus-fixed-fee government contract in September 1996, which was in progress
during all of fiscal 1996. SI began an additional long-term government contract
in October of 1996; however, revenue under this firm fixed-price contract was
not recognized until fiscal 1998. The decrease in SI's contract revenue (from a
total of $2,762,000 in 1996 to $1,570,000 in 1997) was partially offset by SI's
first commercial sale of a customer evaluation unit which generated $993,000 in
revenue in fiscal 1997.
In addition to reported revenues, the Former ASC also received funding of
$1,706,000 in fiscal 1997 under government cost-sharing agreements as compared
to $985,000 in fiscal 1996. This increased cost-sharing funding was primarily
due to the award of a $20.5 million Phase II Superconductivity Partnership
Initiative contract on commercial-scale HTS motors by the Department of Energy
to the Company and Reliance Electric Company (a Rockwell Automation business).
The Company expects to receive approximately $7.3 million over the next five
years (including the year ended March 31, 1997) and Reliance expects
19
<PAGE> 21
to receive $2.9 million, with each company investing a corresponding amount of
their own funds to bring the total program value to $20.5 million.
The Company's total operating expenses in fiscal 1997 were $23,345,000
compared to $21,796,000 in fiscal 1996. At the Former ASC, operating expenses
increased to $18,035,000 in fiscal 1997 from $15,992,000 in fiscal 1996. Costs
of revenue, which include costs of research and development contracts and costs
of prototypes and prototype development contracts, increased to $7,508,000 in
fiscal 1997 compared to $7,331,000 in fiscal 1996 at the Former ASC. This
increase reflects expenditures to support the increase in contract and prototype
development revenues, including the hiring of additional personnel and purchases
of materials and equipment, partially offset by lower costs of revenue
associated with the decreased sales of prototypes.
At SI, operating expenses decreased to $5,310,000 in fiscal 1997 from
$5,804,000 in fiscal 1996. SI's costs of revenue decreased to $3,070,000 in
fiscal 1997 from $4,222,000 in fiscal 1996. Included in costs of revenue are
write-down provisions of $445,000 and $1,175,000 in fiscal 1997 and fiscal 1996,
respectively. These provisions were required to adjust the carrying values of
certain items of inventory and equipment to their market values.
R&D expenses increased to $8,477,000 in fiscal 1997 from $5,704,000 the
prior year. The Former ASC's R&D expenses were $7,709,000 in fiscal 1997
compared to $5,341,000 in fiscal 1996. This increase was due to the continued
scale-up of the Former ASC's internal research and development activities
including the hiring of additional personnel and purchases of materials and
equipment. In addition to these expenses, a portion of the Former ASC's R&D
expenditures related to externally funded development contracts has been
classified as costs of revenue (rather than as R&D expenses). These R&D
expenditures that were included as costs of revenue during fiscal 1997 and
fiscal 1996 were $5,322,000 and $5,256,000, respectively. Additionally, R&D
expenses that were offset by cost share funding were $879,000 and $584,000 in
fiscal years 1997 and 1996, respectively. At SI, R&D expenses increased from
$363,000 in fiscal 1996 to $769,000 in fiscal 1997 because a higher proportion
of R&D expenses were classified as costs of revenue. This classification was a
result of the higher funding by the government cost-plus-fixed-fee contract in
fiscal 1996 due to the completion of the contract during fiscal 1997.
SG&A expenses were $4,291,000 in fiscal 1997 as compared to $4,538,000 in
fiscal 1996. At the Former ASC, SG&A expenses decreased to $2,818,000 in fiscal
1997 from $3,319,000 in fiscal 1996. This was primarily the result of certain
SG&A expenditures that were offset by the increased funding received under cost
sharing agreements. The SG&A amounts offset by cost share funding at the Former
ASC were $828,000 and $378,000 in fiscal years 1997 and 1996, respectively. SI's
SG&A expenses increased from $1,219,000 in fiscal 1996 to $1,472,000 in fiscal
1997. This increase was principally due to an increase in selling expenses,
primarily relating to the hiring of additional sales and marketing personnel to
support the South African market and SI's expanding line of commercial products.
In addition to these expenses, a portion of the Former ASC's SG&A expenditures
related to externally funded development contracts has been classified as costs
of revenue (rather than as SG&A expenses). SG&A expenditures included as costs
of revenue during fiscal 1997 and fiscal 1996 were $2,186,000 and $2,075,000,
respectively.
Interest income decreased to $1,177,000 in fiscal 1997, as compared to
$1,585,000 in fiscal 1996. This decrease primarily reflects lower cash, cash
equivalents and long-term marketable securities balances available for
investment as a result of cash being used to fund the Company's operations and
to purchase capital equipment. Interest expense increased from $215,000 in
fiscal 1996 to $356,000 in fiscal 1997 primarily due to SI's $1,200,000
convertible debenture financing. Other expense, net is comprised primarily of
miscellaneous taxes net of gains on the disposition of excess capital equipment.
Merger related fees of $710,000 in fiscal 1997 related to the costs
incurred through March 31, 1997 in connection with the Company's acquisition of
SI, and consisted primarily of financial advisory and legal fees. In fiscal 1997
SI incurred professional fees relating to a terminated merger negotiation
amounting to $670,000.
20
<PAGE> 22
FISCAL YEAR ENDED MARCH 31, 1996 AND MARCH 31, 1995
Total revenues increased to $10,764,000 in fiscal 1996 from $8,593,000 in
fiscal 1995. The Former ASC's revenues from R&D contracts, prototype development
contracts and the sale of prototypes increased to $7,131,000 in fiscal 1996 from
$4,270,000 in fiscal 1995. This increase was due primarily to the expansion of
the corporate development contract with Pirelli and an increase in sales of
prototypes. This increase was partially offset by the completion of work and
related funding under a collaborative research and development agreement in
August 1994.
The Former ASC also received funding of $985,000 in fiscal 1996 under
government cost-sharing agreements as compared to $2,866,000 in fiscal 1995.
This lower level of cost-sharing funding was primarily due to a decrease in work
performed under several cost-sharing contracts with the Department of Energy and
the Department of Commerce which were completed during fiscal 1996. This funding
was recorded as an offset to research and development and selling, general and
administrative expenses, as required by government contract accounting
guidelines, rather than as revenue.
At SI, revenues decreased from $4,323,000 in fiscal 1995 to $3,633,000 in
fiscal 1996. This decrease was attributable to lower revenues recognized on the
cost-plus-fixed-fee contract ($3,356,000 in fiscal 1995 compared to $2,575,000
in fiscal 1996).
The Company's total operating expenses in fiscal 1996 were $21,796,000,
compared to $17,267,000 in fiscal 1995. At the Former ASC, operating expenses
were $15,992,000, compared to $11,887,000 in fiscal 1995. Costs of revenue at
the Former ASC, which include costs of R&D contracts and costs of prototypes and
prototype development contracts, increased to $7,331,000 in fiscal 1996 compared
to $4,397,000 in fiscal 1995. This increase reflects expenditures to support the
increase in sales of prototypes, including the hiring of additional personnel
and purchases of materials and equipment.
At SI, operating expenses increased from $5,379,000 in fiscal 1995 to
$5,804,000 in fiscal 1996. This increase was primarily due to two factors
affecting cost of revenue in fiscal 1996. These were a write-down of inventory
and equipment that amounted to $1,175,000 which was partially offset by a
decrease in other costs of revenue of $550,000 primarily resulting from the
reduction in revenue from the government cost-plus-fixed-fee contract.
R&D expenses increased to $5,704,000 in fiscal 1996 from $5,349,000 the
prior year. This increase was due to the continued scale-up of the Company's
internal research and development activities including the hiring of additional
personnel and purchases of materials and equipment. In addition to these
expenses, a portion of R&D expenditures related to externally funded development
contracts has been classified as costs of revenue (rather than as research and
development expenses). R&D expenditures included as costs of revenue during
fiscal 1996 and fiscal 1995 were $5,256,000, and $3,032,000, respectively.
Additionally, R&D expenses that were offset by cost share funding were $584,000
and $1,673,000 in fiscal years 1996 and 1995, respectively.
SG&A expenses were $4,538,000 in fiscal 1996 as compared to $3,924,000 in
fiscal 1995. This increase reflects increased staffing, recruiting costs, and
legal costs associated with the signing of several corporate development
agreements and other expenses necessary to support the overall increase in the
Company's revenues, sales and marketing programs and internal research and
development activities. In addition to these expenses, a portion of SG&A
expenditures related to externally funded development contracts has been
classified as costs of revenue (rather than as SG&A expenses). SG&A expenditures
included as costs of revenue during fiscal 1996 and fiscal 1995 were $2,075,000
and $1,365,000 respectively. The SG&A amounts offset by cost share funding were
$378,000 and $956,000 in fiscal years 1996 and 1995, respectively.
Interest income decreased to $1,585,000 in fiscal 1996 as compared to
$1,873,000 in fiscal 1995. This decrease primarily reflects lower cash, cash
equivalents and long-term marketable securities balances available for
investment as a result of cash being used to fund the Company's operations and
to purchase capital equipment. Other expense, net is comprised primarily of
miscellaneous taxes net of gains on the disposition of excess capital equipment.
21
<PAGE> 23
LIQUIDITY AND CAPITAL RESOURCES
At December 31, 1997, the Company had cash, cash equivalents and long-term
marketable securities of $9,717,000 compared to $16,031,000 at March 31, 1997.
Principal uses of cash during the nine months ended December 31, 1997 were the
funding of the Company's operations and the acquisition of capital equipment,
primarily for research and development and manufacturing. In addition,
approximately $4,400,000 was used to pay the investment banking and legal fees
associated with the Company's April 8, 1997 acquisition of SI and the retirement
of various SI liabilities. This decrease in cash was partially offset by a
$10,000,000 equity investment in the Company on April 7, 1997 by a subsidiary of
EDF.
The Company believes that several years of further development will be
necessary before HTS wires and related products are available in significant
quantities for commercial power applications. The Company believes, based upon
its current business plan, that the proceeds of this offering, together with its
current cash and marketable securities, should be sufficient to fund the
Company's operations as planned for at least the next three years. However, the
Company may need additional funds sooner than anticipated if the Company's
performance deviates significantly from its current business plan or if there
are significant changes in competitive or other market factors. There can be no
assurance that such funds, whether from equity or debt financing, development
contracts or other sources, will be available, or available on terms acceptable
to the Company. If adequate funding is not available, the Company may be
required to reduce, delay or eliminate certain research and development,
marketing or manufacturing activities or to license or sell to others certain
proprietary technology, which could delay, either temporarily or permanently,
the development and commercialization of certain products and technologies
currently under development by the Company.
The Company has analyzed the computer systems and related applications of
the Company and its subsidiaries to assess the expected impact of the Year 2000
date recognition issue on these systems and applications. Certain systems will
need to be updated in order to be prepared for the Year 2000 issue, and the
Company anticipates this process will be completed by the end of fiscal 1999.
The Company does not anticipate that the costs associated with this updating or
with the Year 2000 issue will have a material adverse effect on the financial
condition or results of operations of the Company.
To date, inflation has not had a material impact on the Company's financial
results.
22
<PAGE> 24
BUSINESS
American Superconductor Corporation is an industry leader in developing,
manufacturing and marketing products utilizing superconducting materials for
electric power applications. Electrical products that incorporate
superconducting wires can be more efficient, compact and cost effective than
those utilizing conventional copper wires. Products incorporating
superconducting materials are currently utilized in the medical, electronics,
power equipment and transportation industries.
Superconducting wires provide significant advantages over conventional
copper wires because superconducting wires conduct electricity with little or no
resistance and associated energy loss, and can transmit much larger amounts of
electricity than conventional wires of the same size. The Company's development
and commercialization efforts have been focused on electrical products and
equipment utilizing superconductors for use in the electric power industry.
According to industry sources, it is estimated that in the year 2010, worldwide
products based on superconductors that are sold to the electric power industry
will generate approximately $12 billion of revenues.
SUPERCONDUCTIVITY
A superconductor is a perfect conductor of electricity; it carries direct
current with 100% efficiency because no energy is dissipated by resistive
heating. Once induced in a superconducting loop, direct current can flow
undiminished forever. Superconductors can also conduct alternating current, but
with some slight dissipation of energy.
Superconductors lose all resistance to the flow of direct electrical
current and nearly all resistance to the flow of alternating electrical current
when cooled below a critical temperature, which is different for each
superconducting material. Superconducting materials known today, including both
HTS and LTS materials, need to be cooled to cryogenic temperatures in order to
exhibit the property of superconductivity, as illustrated in the following
graph.
[SUPERCONDUCTIVITY GRAPH]
This graph illustrates the complete loss of resistance to the flow of
electricity through wires of an LTS material (niobium-titanium alloy) and
an HTS material (bismuth-based, copper oxide ceramic) at the critical
temperature, T(c), which is different for each superconducting material.
The specific HTS material in this chart has no electrical resistance below
108K (-265 degrees F), as opposed to the specific LTS material in this
chart, which has no electrical resistance below 10 K (-441 degrees F).
23
<PAGE> 25
A combination of three conditions must actually be met for a material to
exhibit superconducting behavior:
- The material must be cooled below a characteristic temperature,
known as its superconducting transition or critical temperature (T(c));
- The current passing through a given cross-section of the material
must be below a characteristic level known as the critical current density
(J(c)); and
- The magnetic field to which the material is exposed must be below a
characteristic value known as the critical magnetic field (H(c)).
These conditions are interdependent, and define the environmental operating
conditions for the superconductor, as shown in the following graph.
[SUPERCONDUCTING GRAPH]
Not only must a superconducting material be cooled below its critical
temperature, T(c), to lose all resistance to the flow of electricity, but
also the amount of current flowing through a given cross sectional area
of superconducting wire must not exceed a critical amount, the critical
current density, J(c), and the magnetic field to which the superconductor
is exposed must not be above a critical level, H(c). The key focus of the
Company's HTS development program is to increase the critical current
density of its wires through research advancements and through
optimization of its wire manufacturing methodologies.
The initial discovery of superconductive materials was made in 1911.
Before 1986, the critical temperatures for all known superconductors did not
exceed 23 Kelvin (23K or -418 degrees Fahrenheit; 0 K is absolute zero, or
- -459 degrees Fahrenheit). Before the discovery and development of HTS
materials, the use of superconductivity had not been practical for widespread
commercial applications, except for magnetic resonance imaging ("MRI") and SMES
applications, principally because commercially available superconductors (i.e.,
LTS materials) are made superconductive only when these materials are cooled
to near 0 K. Although it is technologically possible to cool LTS materials to
a temperature at which they become
24
<PAGE> 26
superconductive, broad commercialization of LTS materials has been inhibited by
the high cost associated with the cooling process. For example, liquid helium,
which can be used to cool materials to about 4K (-452 degrees Fahrenheit), and
which has been commonly used to cool LTS materials, is expensive and relatively
costly to maintain.
In 1986, a breakthrough in superconductivity occurred when two scientists,
Dr. K. Alex Muller, who is currently under contract as a consultant to the
Company, and Dr. J. Georg Bednorz, at an IBM laboratory in Zurich, Switzerland,
identified a ceramic oxide compound which was shown to be superconductive at 36K
(-395 degrees Fahrenheit). This discovery earned them the Nobel Prize for
Physics in 1987, which is one of the four Nobel Prizes that have been awarded
for work on superconductivity. A series of related ceramic oxide compounds which
have higher critical temperatures were subsequently discovered, including those
being used by the Company.
APPLICATIONS AND MARKETS FOR SUPERCONDUCTORS
Wire is an integral component of most products that transmit, transfer or
utilize electricity. Superconducting wires provide significant advantages over
conventional wires because superconducting wires conduct electricity with little
or no energy loss, which enables them to transmit much larger amounts of
electricity than conventional wires of the same size. These underlying
characteristics lead to the potential for more efficient, smaller and lighter
electrical products and equipment, such as motors, generators, power
transmission cables, and transformers. Deregulation of the electric power
industry, which is an increasing trend in the United States and certain other
countries, may enhance the potential market for superconducting wires by
providing opportunities in markets that were not previously open to the Company.
Because the superconducting wire in a coil of this material exhibits no
resistance to the passage of electrical current, large amounts of electricity
can be stored in coils of superconducting wire, and because the wire coil has no
electrical resistance, the stored electricity can be removed from the coil very
rapidly. These features provide the basis for the Company's line of LT-SMES
power quality products, which are currently being sold or leased to industrial
users of power to prevent factory downtime and loss of "work in process" caused
by momentary dips in voltage that occur in power distribution networks.
LTS products are used in a number of applications, including MRI diagnostic
equipment, which currently represents the single largest commercial use of LTS
materials, commercial magnetic separation equipment, commercial SMES power
quality products, commercial laboratory electromagnets and electromagnets used
in particle accelerators. The Company's development efforts with respect to LTS
products are focused on commercial SMES power quality products. LTS products
have been under development since the early 1960s and LTS technology is
relatively mature as compared with HTS technology. However, commercial
acceptance of LTS products in power applications other than SMES systems has
been significantly limited by the cooling requirements of LTS materials. LTS
materials generally require costly cooling by liquid helium at nearly the
absolute zero temperature or cooling by cryocoolers below 10 K (-441 degrees
Fahrenheit).
In contrast, HTS wires maintain their superconductivity at higher
temperatures than LTS wires. They can be cooled with liquid nitrogen or
closed-cycle refrigerators at temperatures above 20 K (-423 degrees Fahrenheit),
which are much less expensive and easier to utilize than liquid helium.
Closed-cycle refrigerators operate in much the same way as household
refrigerators, but because of their lower operating temperature they are
somewhat more complicated to build and maintain. Specially designed closed-cycle
refrigerators have been used by the Company to cool a variety of commercial and
developmental HTS electromagnets. It is presently anticipated that HTS power
cables would be cooled by maintaining liquid nitrogen within hollow cores of an
HTS cable, and/or by flowing liquid nitrogen around the power cables, much the
same as oil is now maintained within the cores of some conventional underground
power cables and used to cool power cables maintained within steel pipes under
the streets of cities.
The Company anticipates that HTS motors and generators would be cooled by
cryocoolers, without the presence of a liquid cryogen, such as liquid nitrogen.
However, it is anticipated that HTS transformers would be cooled by submerging
the HTS coils in liquid nitrogen, with the nitrogen maintained at temperature by
a
25
<PAGE> 27
closed cycle refrigerator. In this application, the liquid nitrogen acts both as
a coolant and as an electrical insulating medium, or dielectric. Therefore, HTS
products may replace or compete with LTS products in certain applications in
which LTS products are currently used and the Company believes that the less
demanding cooling requirements of HTS materials will permit their use in a broad
range of applications not currently available to LTS products.
The Company is currently focusing on two markets for superconductivity
products: the industrial power quality market, for which the Company currently
manufactures and markets commercial industrial power quality systems and
services; and the market for other electric power products, for which the
Company is currently developing a number of HTS products.
Industrial Power Quality Systems and Services
The Company has focused initially on SMES systems as its product platform
to address the need for solutions for industrial power quality problems, which
industry sources estimate cost U.S. industry alone more than $10 billion per
year in factory downtime. Protection against power quality problems such as
momentary (typically less than two seconds) voltage sags can provide significant
economic value to large industrial users of power. SMES systems are designed to
protect industrial customers from the adverse effects of voltage sags by
releasing large quantities of power within a fraction of a cycle to normalize
the degraded incoming power supply. It is estimated that more than 80% of all
power quality events, including brownouts and blackouts, are less than two
seconds in duration. With large energy storage capacities and fast recharging
capabilities, SMES systems can provide a solution to momentary aberrations in
power quality.
In April 1997, the Company acquired SI, a manufacturer of SMES power
quality systems based on LTS electromagnets. The Company believes that this
acquisition provides it with a strong presence in the industrial power quality
market, and will allow it to accelerate its plan to penetrate this sector of the
market. The Company is currently expanding sales and marketing and manufacturing
capacity for its existing SMES-based power quality products. The Company also
plans to expand its current SMES product line and to introduce HT-SMES products
within three to five years. The Company is also incorporating its HTS current
leads product into its LT-SMES products in order to reduce systems manufacturing
costs and to improve the efficiency of operation of the LT-SMES products.
The Company introduced two commercial SMES-based products in calendar year
1997. Both are designed to provide instantaneous boosts in voltage, either
within individual pieces of electrical equipment, such as motor drives, or to
power lines supplying industrial users of power, in both cases to prevent
factory downtime caused by momentary dips in voltage that occur in distribution
power networks. The Company also has units at customer sites that are designed
to prevent factory downtime and lost work in process caused by momentary
(typically less than one to two seconds) outages (a dip in voltage to zero),
which also occur on power distribution networks. The Company has sold or leased
nine SMES units, which are currently located at customer sites in the United
States and in South Africa.
The Company is developing multiple channels to market for its power quality
products, including, but not limited to, distributors, OEMs and direct sales.
The Company has a distribution agreement with Eskom, the largest utility in
Africa, to distribute the Company's power quality products exclusively in South
Africa.
The Company currently offers a service component of its industrial power
quality business that assesses the power quality needs of industrial sites, and
provides extended warranties. The Company plans to expand this portion of its
industrial power quality business area.
HTS Electric Power Products
HTS electric power products under development include power transmission
cables, motors, transformers, generators and SMES systems. The Company's
development efforts for this market segment are focused on HTS wires and
products made from these wires, such as electromagnetic motor coils integrated
with appropriate cryogenic cooling systems. The Company's revenues in this
business area currently come primarily from research and development contracts,
including governmental contracts, prototype sales and funds from
26
<PAGE> 28
corporate partners Pirelli, EDF and ABB. See "Business -- Strategic
Relationships, Research Arrangements and Government Contracts."
The Company has produced and sold prototype HTS wires and electromagnetic
coils for use in several development and demonstration programs. Nevertheless,
significantly better strength, flexibility, and electrical performance need to
be achieved, over longer wire lengths, and at lower costs, for the
commercialization of HTS wire and wire products to be successful. Despite the
advances being made, to date neither the Company nor, to the Company's
knowledge, any other company has produced HTS wires in commercial quantities
adequate for the electrical equipment market, and hurdles to commercialization
continue to exist.
The Company's strategy is to develop its HTS products through a combination
of internally funded and customer-, and government-sponsored programs, as well
as through other research programs, and to market these products through
strategic partners or directly through its sales and marketing organization. In
addition to its strategic alliances with Pirelli, EDF and ABB, the Company has
established research arrangements with several US National Laboratories and with
Industrial Research Limited, and is currently a party to development contracts
with several U.S. government agencies to build prototype HTS electromagnetic
coils. As the Company develops HTS electric power applications and industrial
power quality systems and services, it expects to continue to pursue strategic
acquisitions to enhance its market position, add value to its product line and
strengthen its technology base. In April 1997, the Company acquired SI in order
to establish a presence in the industrial power quality market; in July 1997,
the Company acquired AET in order to strengthen it core capabilities in
cryogenic engineering. The Company has sold several prototype HTS products to
private-sector companies, including HTS wires to ABB Secheron SA and Pirelli,
HTS motor coils to Rockwell Automation, an HT-SMES system to E.-U.-S. GmbH of
Germany, and an HTS accelerator magnet system to Alphatech International. It has
also sold HTS coils to U.S. government laboratories, including HTS generator
coils to Wright-Patterson Air Force Base, and a high field (7 Tesla) research
magnet to the Naval Research Laboratory. The Company is selling HTS current
leads commercially to a variety of customers including MRI manufacturers and
particle accelerator laboratories.
If the Company is successful in developing its HTS technology for
commercial applications, the Company intends to bring the following product
lines to market in the next several years.
Wires for Power Transmission Cables. In cooperation with Pirelli, the
Company is developing HTS wires for underground HTS cables designed to provide
more efficient and economical ways for utilities to transmit power. Underground
power cables using HTS wires have the potential to carry two to five times more
power than cables of the same size made from copper wires. The use of HTS wires
would therefore result in more efficient transmission, more effective use of
existing rights of way, reduced environmental stress and cost-effective
replacement of worn-out infrastructure. This is very attractive both to urban
planners who need to retrofit aging infrastructures with increased power
capacity and to suburban engineers who find it increasingly difficult to secure
clearance for overhead transmission lines. At least two underground copper
cables are required to replace one equally rated overhead transmission line,
whereas a single HTS cable could replace one equally rated overhead line.
Moreover the liquid nitrogen used to cool underground HTS cables is less
expensive and presents less environmental risks than the oil used to cool copper
cables. The Company expects that the first significant demonstration of utility
networks utilizing HTS-based power transmission cables will occur in 2000 and
that the first sales of its HTS wire for such applications will occur in 2001.
Coils for Motors and Generators. The Company is designing, developing and
fabricating HTS rotor coils and cryocoolers for use in high-horsepower electric
motors with the potential for use in industrial and utility applications. HTS
motors utilizing these rotor coils are expected to be half the weight and size
of conventional motors and would provide greater operating efficiency. Since
industrial electric motors consume most of the electricity used in a typical
manufacturing operation, increased efficiency should yield significant savings
in power costs. The Company and Reliance Electric Company, a Rockwell Automation
business, are developing 1,000 and 5,000 horsepower (hp) motors under a U.S.
Department of Energy Superconductivity Partnership Initiative. The Company
expects the 1,000 hp motor to be in initial laboratory tests in early 1999 and
to be installed in an industrial site during the second half of 1999. The
Company expects that the first sales of its HTS rotor coils and cryocoolers for
these motors for commercial applications will occur in 2001.
27
<PAGE> 29
Cables for Transformers. In cooperation with ABB, one of the largest
transformer supplier in the world, and EDF, the Company is developing
alternating current HTS transformer wire that can be used for fabrication of HTS
transformers. Utilities and industrial power customers use transformers to
increase and decrease voltage levels. HTS transformers are expected to offer a
number of improved features relative to conventional transformers as well as
entirely new functionality with important utility systems benefits. HTS
transformers are expected to be half the size and weight of conventional
transformers, which would increase existing substation capacity, reduce land
area needed for new substations, and greatly relieve transportation challenges
currently faced by electric utilities for conventional transformers. In
addition, HTS transformers would replace the dielectric oil which surrounds the
copper coils in today's power transformers with low-cost, environmentally-safe
liquid nitrogen, which would eliminate the spill risks associated with
dielectric oil. This is expected to lower associated insurance costs and allow
transformers to be installed closer to large load centers even within large
cities. The Company expects that the first sales of its HTS transformer wires or
cables for commercial applications will occur in 2002.
In addition to the products described above, the Company plans to develop
fault current limiters, which would instantaneously protect a power grid from
electric surges caused by lightning, short circuits and other common
fluctuations. If this product development is successful, the Company may
manufacture and sell fault current limiter systems. The Company expects that the
first sales of this product for commercial applications will occur in 2002.
Ultimately, if successful in developing HTS technology for commercial power
transmission and distribution products and equipment, the Company intends to
introduce and market these HTS products primarily through strategic partners and
original equipment manufacturers ("OEMs"). However, there can be no assurance
that the Company will be successful in overcoming the technological hurdles to
the development of these products or that it will be able to successfully market
and sell any products developed.
HTS DEVELOPMENT
Since its inception, the Company's main efforts have been directed towards
the development of HTS wire and its applications, primarily in the electric
power sector, including electric utilities and industrial users of electric
power. In late 1987 the Company developed its first length of current-carrying
HTS wire. In 1989 the Company added electromagnetic coils, electromagnets and
multistrand conductors to its development program, and in December 1989 the
Company sold its first prototype coil to a commercial customer. Since commencing
operations in 1987, the Company has been able to significantly increase both the
length and the current-carrying capacity of its HTS wires as well as the
magnetic field strength generated by its HTS electromagnetic coils.
The Company has chosen to focus on HTS wires and HTS wire products (rather
than HTS electronics applications) because it believes that HTS wires and wire
products offer the largest potential commercial market in the HTS field. The
Company is not devoting any efforts to the discovery of new HTS materials. The
Company primarily focuses on processing the most promising of the HTS materials
available into wires and from these wires, manufacturing components and
subsystems, such as multistrand conductors, electromagnetic coils and
electromagnets. In some cases, higher level integration is performed in
collaboration with or by the Company's customers and/or strategic partners. In
other cases, the Company itself integrates these subsystems into a full
cryogenic and electrical system, using its cryogenic and power electronics
expertise.
The Company has obtained patent licenses for a number of HTS materials. The
Company expects to be required to obtain additional licenses with respect to
these or other known HTS materials. In addition, as new HTS materials are
discovered, the Company expects that patent or other proprietary rights will be
asserted with respect to such materials, and that the Company may be required to
obtain licenses for the use of such materials. While the Company is optimistic
that it will be able to obtain such licenses, there can be no assurance of this,
and even if such licenses can be obtained the costs of obtaining such licenses
may be substantial. See "Business -- Patents, Trade Secrets and
Licenses -- Patents and the Choice of HTS Materials." Furthermore, the Company's
ability to apply its wire processing and component and subsystem manufacturing
processes to newly discovered HTS materials will depend on the nature of the
materials,
28
<PAGE> 30
although the Company believes that its manufacturing processes are sufficiently
generic that they can be adapted to newly discovered HTS materials.
STATUS OF HTS WIRE DEVELOPMENT
During the last several years considerable progress in the development of
HTS wire has occurred, both at the Company and at other institutions and
companies worldwide. There remain, however, significant technical hurdles that
will need to be overcome before HTS wires can be produced in commercial amounts
for the full range of potential applications. For commercial applications, the
critical current density of long wire lengths will need to be increased further
from present levels to higher levels already demonstrated on short-length
research samples. In addition, the wire will need to be able to be wound in a
variety of shapes to create multistrand conductors, electromagnetic coils and
electromagnets without loss of the wire's critical current density during
winding. The wire also will need to be able to withstand forces arising from the
interplay of its own current with a surrounding magnetic field. For alternating
current magnet and coil applications, special conductor architectures will need
to be developed. The Company has recently announced a significant program in
collaboration with ABB and EDF to develop such architectures.
The HTS wires used in the electromagnetic coils, electromagnets and
multistrand conductors will need to have critical current densities in the
superconducting filament of the wires (excluding any metal sheathing,
strengthening members, etc.) in the range of 30,000 to 100,000 Amperes per
square centimeter (A/cm(2)) in the magnetic field required for the application.
Most applications will require magnetic fields in the range of 0.1 to 5 Tesla (a
typical LTS magnet in an MRI system operates at about 0.5 to 1.5 Tesla; a
kitchen magnet typically has a magnetic field of less than 0.05 Tesla).
Research samples of HTS wires have already exhibited sufficient current
density in very high magnetic fields to enable applications to be developed. The
Company has reported that short lengths of multifilamentary HTS wires (typically
one centimeter) produced on a laboratory scale have filament critical current
densities of 100,000 A/cm(2) in a magnetic field of up to 3 Tesla at 20 K (-423
degrees Fahrenheit). The challenge is to produce cost effective wires with these
electrical properties by high-volume manufacturing processes in long lengths
(typically greater than 10,000 feet) and with the flexibility, strength and
durability required to fabricate and utilize multistrand conductors,
electromagnetic coils and electromagnets in end-use applications.
The Company has made considerable progress in achieving these combined
goals; it routinely manufactures wire in greater than five-hundred-foot lengths
with over 10,000 A/cm(2) at 77K over the full cross-sectional area of the
composite wire, with the actual current density in the superconducting filaments
reaching three times this level. This represents an advance by a factor of two
in performance of the Company's wires in the last two years. An earlier
generation of the Company's wires was incorporated into a number of
demonstration products. In 1996, Pirelli built and demonstrated a 50 meter cable
conductor that carried 3,300 Amperes of direct current, and Rockwell Automation
built and demonstrated a 286 horsepower HTS motor utilizing rotor coils
fabricated by the Company. The Company's wire was also incorporated into an HTS
transformer prototype built by ABB, which was installed in the headquarters
building of the electric utility of Geneva, Switzerland and operated from
approximately March 1997 to December 1997. However, considerable progress is
still required to meet the commercial needs of electric power and high-field
magnet customers. The Company believes that several years of further development
will be necessary before HTS wires and wire products are available for
significant commercial end-use applications, although HTS wires of sufficient
performance are now available for the Company's commercial current leads.
In addition to the technical hurdles described above, there are energy
losses when alternating current is employed in a superconductor (as opposed to
the zero loss that occurs when the superconductor carries direct current), and
it has been established in LTS wires that these losses can be reduced in a
multifilamentary configuration. While the Company has produced prototype
multifilamentary composite wires, the superconducting and mechanical properties
of such wires will need to be improved before they can be used for commercial
alternating current magnet applications. The Company has been engaged in a
research and development program, with partial funding of this program coming
from both EDF and ABB, to develop wires specifically for these applications.
However, there can be no assurance that the Company will succeed in
29
<PAGE> 31
developing this technology for commercial use. The Company has applied for
patents on its developments in this area. However, the Company may be required
to obtain patent licenses from third parties in order to utilize certain aspects
of this technology. While the Company is optimistic that it will be able to
obtain such licenses, there can be no assurance of this, and if such licenses
can be obtained, the license fees may be substantial. See "Business -- Patents,
Trade Secrets and Licenses."
THE COMPANY'S HTS COIL, MAGNET, CONDUCTOR, CRYOINTEGRATION AND POWER ELECTRONICS
DEVELOPMENT
Simultaneously with its development of HTS wires, the Company is engaged in
the development of electromagnetic coils, electromagnets and alternating current
cables using these wires, and the integration of these products with related
cooling systems (known as "cryointegration"). Electromagnetic coils are wire-
wound structures such as those used in the rotors or stators of electric motors;
electromagnets are coils used to produce a magnetic field, such as that required
for MRI. Alternating current cables are bundles of HTS wires woven together to
form a long conducting body, such as that needed for alternating current
applications such as power transformers.
The Company's HTS prototype coils, electromagnets and conductors are made
from multifilamentary wires. This form of wire, which is more flexible and
durable than single filament wires that contain the same amount of
superconductor, can permit winding with no further high temperature heat
treatment being required (referred to as the "react and wind" method). The
Company believes that this approach permits more versatile application of its
wires to a variety of prototypes, although the alternative method, the "wind and
react" technique, may be appropriate in certain circumstances. The "wind and
react" technique, which can also use multifilamentary wires, means that an
additional heat treatment is required after winding a coil, electromagnet or
cable. Both techniques are being utilized by the Company.
The Company has demonstrated increasingly advanced prototypes of
electromagnetic coils and multistrand conductors, including an electromagnet
that produces a magnetic field of 7 Tesla at 27K (-411 degrees Fahrenheit) when
cooled by a mechanical cryocooler, which magnetic field exceeds significantly
the maximum field (2 Tesla) obtainable from iron. The principal hurdle to
increased commercial use of this technology is to lower the cost of the system.
The Company believes that this can be achieved through the development of more
efficient manufacturing systems for its coils, cryogenics and systems
integration, and through the further reduction in the cost of HTS wire. Longer
term, the Company believes that the introduction of HTS coated conductor wire
will lead to more significant cost reductions.
The Company has also developed and is selling current leads that
incorporate the Company's multifilamentary wires, and which, as compared to
normal metal current leads, reduce the heat leak into, and the heat generated
in, cryogenic systems operating at temperatures below 77K (-321 degrees
Fahrenheit).
The Company is also developing improvements to its SMES-based industrial
power quality products and enhancing and expanding its SMES product line. It is
working to decrease the cost of these products by introducing HTS current leads
to simplify the cryogenic system, by improving the cryostat and by upgrading the
magnet design. It is also seeking to expand the functionality of these products
by developing new power electronics to provide higher voltage capability and
dc-to-ac conversion, and to reduce the costs of the power electronics components
of the SMES products. There can be no assurance that the Company will succeed in
reducing the costs of SMES systems sufficiently to create a significantly larger
market.
HTS WIRE PRODUCTION PROCESSES
The Company produces HTS wires by a variety of techniques. The principal
technique involves deformation processing, which is in some respects closely
analogous to the technique used in the existing metal wire industry. In this
approach a metal tube, typically silver, is packed with a precursor powder and
sealed to form a "billet." The billet is then deformed into a wire shape by a
variety of classical deformation processing techniques: extrusion, wire-drawing,
multifilamentary bundling and rolling. Finally, the wire is heat-treated to
transform the precursor powder inside the wire into a high-temperature
superconductor. The resulting multifilamentary composite structure, consisting
of many fine superconducting filaments imbedded in a metal matrix, is considered
by the Company to be a preferred method of achieving flexibility and durability
30
<PAGE> 32
in its wires and wire products. This composite structure is the subject of a
patent owned by MIT, based on an invention by Dr. Yurek and Dr. Vander Sande,
which patent is licensed to the Company on an exclusive basis until 2010 in
return for license fees and shares of the Company's Common Stock. See
"Business -- Patents, Trade Secrets and Licenses."
The Company has pursued two basic approaches to the deformation processing
of silver-sheathed, powder-in-tube, multifilamentary composite wires. They
differ principally in the type of powder that is packed into the silver billet.
One, referred to as the oxide-powder-in-tube or "OPIT" process, involves the use
of oxide powders. The Company is presently focused primarily on the OPIT process
and has established a manufacturing line using this method. The manufacturing
line has produced sufficient lengths of wire with sufficient performance to
enable the Company to use the wire in commercial current lead products as well
as in prototype electromagnetic coils and multistrand conductors and to permit
other companies to demonstrate prototype HTS transformers, power cables and
motors using the Company's HTS wires or coils.
In the alternative technique for making multifilamentary wires, referred to
as the metallic precursor or "MP" process, metallic (rather than oxide) powders
are packed into the silver billet. While the Company is not manufacturing HTS
wire by this methodology at the present time, it continues to use the technology
in certain of its wire development programs.
Precise control of initial composition, heat-treatment temperatures and
their interplay with the deformation are required to obtain the best
superconducting performance of the wire material. The Company has protected many
aspects of its processes with patents. However, the Company expects to be
required to obtain patent licenses from third parties in order to utilize
certain aspects of these processes. While the Company is optimistic that it will
be able to obtain such licenses, there can be no assurance of this, and even if
such licenses can be obtained, the license fees may be substantial. See
"Business -- Patents, Trade Secrets and Licenses."
Within the past few years, very high levels of current carrying performance
have been reported in small laboratory samples of HTS "coated conductors," which
comprise a thick film of HTS material deposited on a flexible substrate,
typically with an intermediate buffer layer. One variation of this process is
called IBAD, or ion beam assisted deposition. In this process, thick films of
HTS material are deposited on an aligned buffer layer (the IBAD layer) which is
placed on a flexible substrate. This process improves the alignment of the HTS
thick films and consequently their electrical performance. Initially developed
by Fujikura Ltd., the Company believes that this process has been significantly
improved by Los Alamos National Laboratory.
Another variant of coated conductor, called deformation texturing of
substrates, has been developed by Toshiba Corporation and significantly improved
by Oak Ridge National Laboratory (whose trademark for their version of this
process is "RABiTS"). The Company has studied both processes and believes that
these processes have the potential to be future processes for manufacturing HTS
wire with high current carrying capacity and lower cost than composite
deformation-processed wire. The Company is pursuing the development of these
processes with an active internal program in collaboration with EPRI, Los Alamos
National Laboratory, MIT and other organizations. However, only short coated
conductor wire samples have been fabricated at high-performance levels, and
there can be no assurance that the Company will succeed in developing this
technology for commercial use. The Company has applied for patent protection on
many aspects of its preferred coated conductor process. However, the Company may
be required to obtain patent licenses from third parties in order to utilize the
process. While the Company is optimistic that it will be able to obtain such
licenses, there can be no assurance of this, and even if such licenses can be
obtained, the license fees may be substantial. See "Business -- Patents, Trade
Secrets and Licenses."
COMPETITION
The Company does not know of any companies currently selling LT-SMES
products that compete with the SMES products offered by the Company. However, at
least one company, IGC, is developing SMES systems for power quality
applications, and the Company believes there is a government-sponsored program
in Japan to develop SMES systems for power quality applications. The Company's
SMES products also compete against dynamic voltage restorers produced by
companies such as Westinghouse, flywheels under development
31
<PAGE> 33
by various companies around the world, and battery-based, uninterruptible power
supply systems, which are widely manufactured and used around the world.
There are a number of companies in the United States, Europe and Japan
engaged in attempts to bring to market high performance, technologically
advanced, cost effective HTS products. However, to the Company's knowledge, no
significant commercial amounts of HTS wire or other HTS products have been
produced or sold to date. For HTS applications, the Company's principal
competitors presently include several Japanese companies, such as Sumitomo
Electric Industries, Ltd. ("SEI"), Hitachi, Ltd., and Furukawa Electric Co.,
Ltd.; several European companies, such as Siemens A.G. in Germany and B.I.C.C.
and Oxford Instruments in England; and several companies in the U.S., such as
IGC and 3M. Each of these companies is directing significant efforts to develop
flexible, long-length HTS wires. SEI, Hitachi, Oxford and IGC are also
developing HTS magnets and systems.
Many of the Company's competitors have substantially greater financial
resources, research and development, manufacturing and marketing capabilities
than the Company. In addition, as the power quality and HTS markets develop,
other large industrial companies may enter these fields and compete with the
Company.
STRATEGIC RELATIONSHIPS, RESEARCH ARRANGEMENTS AND GOVERNMENT CONTRACTS
The Company is party to a number of strategic relationships, research
arrangements and government contracts. Its most significant strategic corporate
agreements are with Pirelli, EDF and ABB.
The Pirelli alliance, originally established in February 1990, is designed
to combine Pirelli's cable technology, manufacturing and marketing expertise
with the Company's proprietary wire-manufacturing technologies for the purpose
of developing and producing HTS wires for cables used to transmit both electric
power and control signals. Under the Pirelli alliance, the Company has recorded
as revenue $12.7 million from 1990 to December 31, 1997 and Pirelli has agreed
to pay the Company an aggregate of $3.4 million over the next two years as
"development fees;" however, this agreement may be terminated upon 90 days
notice in certain circumstances. As of February 27, 1998, Pirelli owned
approximately 1% of the Company's Common Stock.
The EDF relationship, established in April 1997, involves the exchange of
information relating to developments in HTS technology and related fields and
trends in the electricity industry, and the review of technical, industrial and
commercial topics by the parties through an advisory board comprised of
representatives from both the Company and EDF. The EDF relationship also
includes a development program, in conjunction with ABB, on HTS wire for
transformers. Under the EDF alliance, the Company received $10.0 million in 1997
from EDF as an equity contribution in exchange for 1.0 million shares of the
Company's Common Stock, which represented, as of February 27, 1998,
approximately 9% of the Company's outstanding Common Stock. EDF has agreed to
pay the Company an aggregate of $5.0 million (of which $1.4 million has been
recorded as revenue as of December 31, 1997) over the next four years as
"development fees;" however, this agreement may be terminated upon 90 days
notice by either party.
The ABB relationship is designed to combine ABB's transformer technology,
manufacturing and marketing expertise with the Company's proprietary
wire-forming technologies for the purpose of developing and producing HTS wires
and cables for transformers. ABB has agreed to pay the Company an aggregate of
$5.0 million (of which $2.0 million has already been recorded as revenue as of
December 31, 1997) over the next four years as "development fees;" however, this
agreement may be terminated upon 90 days notice by either party.
The Company has also established a number of collaborative research
relationships with various organizations such as Industrial Research, Ltd., four
U.S. Department of Energy laboratories, University of Wisconsin Applied
Superconductivity Center, MIT and EPRI. Finally, the Company is party to a
number of government contracts, with entities such as Wright-Patterson Air Force
Base, the Naval Research Laboratory and the U.S. Department of Energy through
its Superconductivity Partnership Initiative, relating to the development and
supply of prototype products.
32
<PAGE> 34
The Company believes strategic relationships, research arrangements and
government contracts provide it with several important benefits. First, they
assist the Company in meeting and exceeding the technical benchmarks. Second,
they provide the Company with development and marketing rights to important
technologies. Third, various parties to these arrangements provide the Company
with critical funding as the Company's research and development efforts progress
toward commercialization. Since April 1, 1993, the Company has received more
than $30 million of funding under research and development contracts. Finally,
and perhaps most importantly, several of these relationships, particularly those
with Pirelli and ABB, provide a potential direct market for the Company's HTS
wires.
PATENTS, TRADE SECRETS AND LICENSES
The HTS Patent Background
Since the discovery of high temperature superconductors in 1986, the HTS
industry has been characterized by rapid technical advances, which in turn have
resulted in a large number of patents relating to superconductivity being
applied for and granted worldwide. The claims in different granted patents often
overlap, and similar patents in different countries may have different claims or
be owned by different entities. As a result, the patent situation in the field
of HTS technology and products is unusually complex.
Most major potential HTS manufacturers, including the Company and its
competitors, own or may obtain patents which may interfere with each other. A
number of United States and foreign patents and patent applications, held by
third parties, relate to the Company's current products or to products under
development, or to the technology now or later to be utilized by the Company in
the development or production of certain present and future products. Additional
patents relating to the Company's technology, processes or applications may be
issued to third parties in the future. The Company will need to acquire licenses
to, or to successfully contest the scope or validity of, patents owned by third
parties.
The Company believes that companies holding patent portfolios which may
complement portfolios held by others in the industry are more likely to be
willing to enter into cross-licensing arrangements with such other patent owners
than with companies that do not have such patent positions. The Company believes
that the patents it has licensed from others covering basic materials processing
methods, and composites of HTS ceramics and noble metals, will improve the
strength of its patent portfolio and therefore its position in these future
licensing negotiations. See "Business -- Patents, Trade Secrets and
Licenses -- Patents and Wire Architecture."
However, many patents and patent applications are held by companies with
which the Company may not compete, and such companies may not be interested in
cross-licensing. Moreover, it is possible that the Company could be required to
obtain licenses under a number of different patents and from a number of
different patent holders in connection with various aspects of its present and
planned business operations. Although the Company is optimistic that it will be
able to obtain any necessary licenses on commercially reasonable terms, there
can be no assurance that all necessary licenses will be available on
commercially reasonable terms, or at all.
The cost of any such licenses is not known, but the Company is likely to be
required to obtain multiple licenses and, to the extent that licenses can be
obtained the cost is expected, in aggregate, to be substantial. The failure to
obtain all necessary licenses upon reasonable terms could significantly reduce
the scope of the Company's business, limit its profit margins, and otherwise
have a material adverse effect on the Company's operations.
The likelihood of successfully contesting the scope or validity of any such
patents is also uncertain; and, in any event, the Company could incur
substantial costs in challenging the patents of other companies. Moreover, the
Company could incur substantial litigation costs in defending the scope and
validity of its own patents.
To understand the Company's approach to patents in light of these
circumstances, it is useful to analyze HTS patents in relation to the issues the
Company needs to consider in the process of designing and manufacturing HTS
products: the choice of material used to make an HTS product; the choice of the
33
<PAGE> 35
processing method to be applied to that material; and the choice of components
or subsystems to be fabricated and the fabrication methods used.
Patents and the Choice of HTS Materials
Presently, the materials from which HTS products are made are copper
oxides, or "cuprates." The Company does not anticipate that anyone will receive
a broad basic patent on cuprates, but there can be no assurance in this regard.
There are a number of HTS materials within the cuprate family. A number of
patents have been issued with regard to certain specific HTS materials within
the cuprate family and the Company believes that a number of other patent
applications for various HTS materials within the cuprate family, some with
broad claims, are pending.
At any given time, the Company will have a preference for utilizing one or
a few specific HTS materials in the production of its products for commercial
application, and any HTS material used by the Company is likely to be covered by
one or more patents issued to other parties. Because of the number and scope of
patents pending or issued in various parts of the world, the Company may be
required to obtain multiple licenses to use any particular material.
The Company jointly owns or has obtained licenses with respect to patents
covering certain HTS materials through its collaborations with MIT and
Superlink. However, the Company expects that additional materials licenses may
be required. There is no assurance that the Company will be able to obtain on
commercially reasonable terms all the licenses that may be needed for the
Company to use preferred HTS materials, and even if the Company is able to
obtain such licenses, the license fees may be substantial.
Patents and the Processing of HTS Materials
The Company is concentrating on two main methods for processing the
materials it currently intends to use: the OPIT method, and the "coated
conductor" technology. See "Business -- HTS Wire Production Processes." The
Company's strategy is to obtain a proprietary position in each of these
processes through a combination of patents, licensing and proprietary know-how.
If alternative processes become more promising in the future, the Company will
also seek to develop a proprietary position in these alternative processes.
The Company has filed a number of patent applications which are applicable
to one or more of the MP method, the OPIT method, and coated conductor
technology. Some of these applications have been issued as patents in the U.S.
and abroad while others are pending. The Company also has acquired options to
exclusively license additional intellectual property in the coated conductor
area through its collaborations with EPRI and MIT.
Additional U.S. and foreign patents have been issued to third parties with
claims directed to HTS processing methods which, if valid, may cover one or more
of the MP, the OPIT or the coated conductor technologies used by the Company.
Several U.S. and foreign patents have been issued with claims which, if valid,
may cover various aspects of the coated conductor process. In addition, the
Company has learned that a number of additional U.S. and foreign patent
applications have been filed which contain similar claims. To the extent any of
these issued patents are valid and cover any processing methods used by the
Company, or if any of the pending applications result in a valid patent with
claims covering the Company's methods, the Company would be required to obtain
licenses under any applicable patents. There is no assurance that the Company
will be able to obtain such licenses, and even if such licenses can be obtained,
the license fees may be substantial.
Patents and Wire Architecture
The Company has an exclusive license from MIT under an issued U.S. patent
that covers composites (including multifilamentary wires) of HTS ceramics and
noble metals such as silver.
A number of other companies have also filed, and in some instances, have
been issued patents on various aspects of wire architecture. To the extent any
of these issued patents are valid and cover the wire architectures used by the
Company, or to the extent any of the pending applications result in a valid
patent
34
<PAGE> 36
with claims covering the Company's methods, the Company would be required to
obtain licenses under any applicable patents. There is no assurance that the
Company will be able to obtain such licenses, and even if such licenses can be
obtained, the license fees may be substantial.
HTS Component and Subsystem Fabrication Patents; HTS Application Patents; Power
Quality and SMES
The Company has been issued several patents and filed several additional
patent applications regarding the design and fabrication of electromagnetic
coils and electromagnets, the integration of these products with an appropriate
coolant or cryocooler and the application of these products to certain specific
end uses, as well as several patent applications on cryocooled power
electronics. The Company holds several issued patents and pending applications
on power quality systems as a result of the acquisition of SI.
Since the HTS and cryocooled power systems fields are relatively new,
significant applications can and are being patented by others. A number of other
companies have also filed, and in some instances have been issued, patents on
various applications of HTS wire, cryocooled power electronics and component and
subsystem fabrication methods. To the extent any existing or future third party
patents are pertinent to these aspects of the Company's operations, the Company
would be required to obtain licenses under the applicable patents. There is no
assurance that the Company will be able to obtain such licenses, and even if
such licenses can be obtained, the license fees may be substantial.
Trade Secrets
Some of the technology used in, and that may be important to, the Company's
operations and products is not covered by any patent or patent application owned
by or licensed to the Company. However, the Company takes steps to maintain the
confidentiality of this technology by requiring all employees and all
consultants to sign confidentiality agreements and limiting access to
confidential information. However, no assurance can be given that these measures
will prevent the unauthorized disclosure or use of such information. Further,
there is no assurance that others, including the Company's competitors, will not
independently develop the same or comparable technology.
EMPLOYEES
As of February 27, 1998, the Company employed a total of 212 persons, 24 of
whom have Ph.D's in material science, physics or related fields. No Company
employees are represented by a labor union. The Company believes that its
employee relations are good.
PROPERTIES
The Company's operations are located in approximately 102,000 square feet
of space in Westborough, Massachusetts, approximately 60,000 square feet of
space in Middleton, Wisconsin and approximately 3,700 square feet of space in
Woburn, Massachusetts. The Company occupies the Westborough facility under a
lease which expires on May 31, 2003 and has an option to extend the lease for an
additional five-year term. The Company occupies the Middleton facilities under
two leases which expire on December 31, 2003. The Company occupies the Woburn
facility under a lease which expires on January 30, 1999.
35
<PAGE> 37
MANAGEMENT
The executive officers, certain significant employees and the directors of
the Company are as follows:
<TABLE>
<CAPTION>
NAME AGE OFFICE
---- --- ------
<S> <C> <C>
Gregory J. Yurek................. 50 President, Chief Executive Officer and
Chairman of the Board of Directors
Stanley Piekos................... 50 Vice President, Corporate Development, Chief
Financial Officer, Treasurer and Secretary
Ross S. Gibson................... 39 Vice President, Human Resources
Paul F. Koeppe................... 47 Executive Vice President, Strategic Planning
for Power Quality Solutions
Roland E. Lefebvre............... 46 Vice President, Sales and Marketing
Alexis P. Malozemoff............. 53 Chief Technical Officer
Gero G. Papst.................... 53 Managing Director, American Superconductor
Europe GmbH
Robert E. Schwall................ 50 Vice President, Engineered Products
John D. Scudiere................. 44 Vice President, Operations
John B. Howe..................... 41 Director of Electric Industry Affairs
Albert J. Baciocco, Jr. ......... 66 Director
Frank Borman..................... 69 Director
Peter O. Crisp................... 64 Director
Richard Drouin................... 65 Director
Gerard J. Menjon................. 49 Director
Andrew G. C. Sage, II............ 71 Director
John B. Vander Sande............. 53 Director
</TABLE>
Dr. Yurek co-founded the Company and has been a director since July 1987,
President since March 1989, Chief Executive Officer since December 1989 and
Chairman of the Board since October 1991. Dr. Yurek also served as Vice
President and Chief Technical Officer from August 1988 until March 1989 and as
Chief Operating Officer from March 1989 until December 1989. Prior to joining
the Company, Dr. Yurek was a Professor of Materials Science and Engineering at
MIT for 13 years.
Mr. Piekos joined the Company in February 1998 as Chief Financial Officer,
Vice President, Corporate Development, Treasurer and Secretary. From June 1994
until February 1998, Mr. Piekos served as Vice President and Chief Financial
Officer of Brooks Automation, Inc., a supplier of robotics and controls to the
semiconductor production equipment industry. For the nine years prior to June
1994, Mr. Piekos was employed by Helix Technology Corporation, a manufacturer of
cryogenic equipment, most recently as Vice President and Chief Financial
Officer.
Mr. Gibson joined the Company as Vice President, Human Resources in July
1997. From April 1992 until June 1997, Mr. Gibson served in a variety of
positions at Cambridge Neuroscience, Inc., most recently as Vice President,
Human Resources and Administration and Chief Administrative Officer.
Mr. Koeppe joined the Company as President of the Company's subsidiary, SI,
in April 1997 with the Company's acquisition of SI. Since November 1997, Mr.
Koeppe has served as Executive Vice President of Strategic Planning for Power
Quality Solutions. From 1988 until April 1997, Mr. Koeppe served as the
President and a Director of SI.
Mr. Lefebvre joined the Company in May 1996 as Vice President, Sales and
Marketing. Prior to joining the Company, Mr. Lefebvre spent 23 years at General
Electric Company in a variety of positions, most recently as General Manager,
National Account Sales.
Dr. Malozemoff joined the Company as Vice President, Research and
Development in January 1991 and was elected Chief Technical Officer in January
1993. Prior to joining the Company, Dr. Malozemoff spent 19 years at IBM in a
variety of research and management positions, most recently as IBM Research
Coordinator for High Temperature Superconductivity.
37
<PAGE> 38
Dr. Papst joined the Company in January 1993 as Managing Director of
American Superconductor Europe GmbH, the Company's European subsidiary. Prior to
joining the Company, Dr. Papst was President of Otto Oko-Tech GmbH & Co., an
environmental technology company, from 1987 to 1992.
Dr. Schwall joined the Company in April 1993 and was elected Vice
President, Engineered Products in April 1996. From March 1984 until April 1993,
Dr. Schwall served in a variety of positions at IBM Corporation, most recently
as Department Manager at the IBM T.J. Watson Research Center.
Mr. Scudiere joined the Company in November 1993, was promoted to Vice
President, Manufacturing in July 1994 and was promoted to Vice President,
Operations in May 1996. Prior to joining the Company, Mr. Scudiere was Director,
Programs and Marketing for Oxford Superconductor Technology, a superconductor
manufacturer, from August 1990 to October 1993. Prior to August 1990, Mr.
Scudiere was Manager, Liquid Propellant Development Program for General Electric
Corporation, a diversified manufacturing and services company.
Mr. Howe joined the Company in November 1997 as Director, Electric Industry
Affairs. From November 1995 until September 1997, Mr. Howe was Chairman of the
Massachusetts Department of Public Utilities. For the five and one-half years
prior to November 1995, Mr. Howe served in various positions, most recently as
Vice President, Regulatory and Government Affairs, for U.S. Generating Company.
Mr. Baciocco has been the President of The Baciocco Group, Inc., a
technical and management consulting practice, since 1987 when he retired from
the U.S. Navy as a Vice Admiral after 34 years of distinguished service. Mr.
Baciocco is a director of Honeywell, Inc. and Shell Exploration and Production
Company. Mr. Baciocco became a director of the Company in April 1997.
Mr. Borman has been Chairman of the Board of AutoFinance Group, Inc., an
automotive finance company, since December 1993 and has been Chief Executive
Officer and President of its wholly owned subsidiary, Patlex Corporation, a
company engaged in enforcing and exploiting laser-related patents, since 1989.
From 1976 to 1986, Mr. Borman was Chairman and Chief Executive Officer of
Eastern Airlines, Inc. Mr. Borman was the Commander of the Apollo 8 Mission in
1968 and retired from the Air Force in 1970. Mr. Borman is a director of
Outboard Marine Corporation, The Home Depot, Inc. and Thermo Instrument Systems.
Mr. Borman became a director of the Company in 1992.
Mr. Crisp has been a General Partner of Venrock Associates, a venture
capital firm based in New York, since 1969. Mr. Crisp is also a director of
Evans & Sutherland Computer Corporation, Novacare, Inc., Thermedics, Inc.,
Thermo Electron Corporation, Thermo Power Corporation, Thermotrex Corporation
and United States Trust Corporation. Mr. Crisp became a director of the Company
in 1987.
Mr. Drouin has been a partner at McCarthy Tetrault, a law firm based in
Montreal, Canada, since December 1995. Mr. Drouin is also Vice Chairman of
Morgan Stanley Canada Limited. Mr. Drouin was the Chairman and Chief Executive
Officer of Hydro-Quebec, a power company based in Canada, from April 1988 to
September 1995. Mr. Drouin is a director of Abitibi Price Inc., CT Financial
Services Inc., Provigo Inc., Stelco Inc., Tele-Metropole Inc. and Memotec
Communications Inc. Mr. Drouin became a director of the Company in February
1996.
Mr. Menjon has been Executive Vice President, Head of the Research and
Development Division, of Electricite de France, the French public electric
utility ("EDF"), since December 1994 and was the Senior Vice President, Business
Development, of EDF from February 1992 to November 1994. Mr. Menjon became a
director of the Company in April 1997.
Mr. Sage has been President of Sage Capital Corporation since December 1993
and was the President and Chief Executive Officer of Robertson Ceco Corporation,
a metal buildings manufacturing company, from November 1992 to December 1993.
From late 1991 until January 1998, Mr. Sage was a member of the Board of
Directors and a consultant to Computervision Corporation. In addition, Mr. Sage
serves as Chairman of the Board of Robertson Ceco Corporation. Mr. Sage became a
director of the Company in April 1997.
Dr. Vander Sande co-founded the Company. He has been a professor at MIT
specializing in the microstructure of materials since 1971 and became Associate
Dean of Engineering at MIT in 1992. Dr. Vander Sande became a director of the
Company in 1990.
38
<PAGE> 39
PRINCIPAL AND SELLING STOCKHOLDERS
The following table sets forth the beneficial ownership of the Common Stock
as of February 27, 1998, and as adjusted to reflect the sale of the shares of
Common Stock offered hereby, by (i) each person or entity known to the Company
who own beneficially 5% or more of the outstanding shares of Common Stock, (ii)
each of the Company's directors, (iii) each of the Company's executive officers,
(iv) all directors and executive officers of the Company as a group and (v) each
Selling Stockholder.
<TABLE>
<CAPTION>
SHARES BENEFICIALLY SHARES BENEFICIALLY
OWNED PRIOR TO SHARES OWNED AFTER
OFFERING(1) TO BE OFFERING(1)(2)
-------------------- SOLD IN --------------------
NUMBER PERCENT OFFERING NUMBER PERCENT
------ ------- -------- ------ -------
<S> <C> <C> <C> <C> <C>
5% STOCKHOLDERS
CHARTH (Compagnie Holding d'Applications et de
Realisations Thermiques et Hydrauliques) S.A., a
subsidiary of Electricite de France..................... 1,000,000 8.5 -- 1,000,000 6.8
Stanley Druckenmiller(3)................................ 742,000 6.3 -- 742,000 5.0
DIRECTORS
Gregory J. Yurek(4)..................................... 506,162 4.2 -- 506,162 3.4
John B. Vander Sande(5)................................. 138,562 1.2 -- 138,562 *
Peter O. Crisp(6)....................................... 73,603 * -- 73,603 *
Frank Borman(7)......................................... 37,500 * -- 37,500 *
Richard Drouin(8)....................................... 31,000 * -- 31,000 *
Albert J. Baciocco, Jr.(9).............................. 9,000 * -- 9,000 *
Gerard J. Menjon(10).................................... -- -- -- -- --
Andrew G.C. Sage, II(11)................................ 44,000 * -- 44,000 *
OTHER EXECUTIVE OFFICERS
Stanley Piekos.......................................... 5,000 * -- 5,000 *
Ross S. Gibson.......................................... -- -- -- -- --
Paul F. Koeppe(12)...................................... 89,870 * -- 89,870 *
Roland E. Lefebvre(13).................................. 22,000 * -- 22,000 *
Alexis P. Malozemoff(14)................................ 195,250 1.6 -- 195,250 1.3
Gero G. Papst(15)....................................... 121,500 1.0 -- 121,500 *
Robert E. Schwall(16)................................... 47,925 * -- 47,925 *
John D. Scudiere(17).................................... 57,000 * -- 57,000 *
All directors and executive officers as a group (16
persons)(18).......................................... 1,378,372 10.9 -- 1,378,372 8.8
SELLING STOCKHOLDERS
Pierce Nordquist Partners II, L.P....................... 2,252 * 2,252 -- --
Adhill Limited Partnership.............................. 33,412 * 33,412 -- --
Advent Future Limited Partnership....................... 33,412 * 33,412 -- --
Advent International Investors Limited Partnership...... 1,234 * 1,234 -- --
Advent Performance Materials Limited Partnership........ 33,412 * 33,412 -- --
Adwest Limited Partnership.............................. 33,412 * 33,412 -- --
World Technology Limited Partnership.................... 33,412 * 33,412 -- --
Materia Ventures I, L.P................................. 97,763 * 97,763 -- --
MidAmerican Capital Company............................. 114,291 * 114,291 -- --
Xerox Corporation....................................... 88,279 * 88,279 -- --
</TABLE>
- ---------------
* Less than 1%
(1) Shares beneficially owned include shares subject to stock options that are
currently exercisable or exercisable within 60 days after February 27,
1998. Any reference in the footnotes below to shares subject to stock
options held by the person in question refers to such stock options.
(2) Number of shares deemed outstanding includes 11,699,625 shares outstanding
as of February 27, 1998 and any shares subject to options held by the
person or entity in question. Number of shares deemed outstanding after
this offering includes the additional 3,029,121 shares of Common Stock
which are being offered hereby. Percentage of outstanding shares owned
after this offering assumes none of the listed stockholders will purchase
additional shares in this offering.
39
<PAGE> 40
(3) Mr. Druckenmiller, as the Lead Portfolio Manager of Soros Fund Management
LLC, the principal investment advisor to Quantum Partners LDC ("Quantum"),
and as the sole managing member of Duquesne Capital Management L.L.C., a
discretionary investment advisor to a limited number of institutional
clients (the "Duquesne Clients"), may be deemed to be the beneficial owner
of the shares of Common Stock of the Company held for the accounts of
Quantum and the Duquesne Clients. Information is derived from a Schedule
13G filed with the Securities and Exchange Commission on March 6, 1998.
(4) Includes 16,262 shares held by Dr. Yurek's wife and minor children and
361,500 shares subject to outstanding stock options.
(5) Includes 42,000 shares subject to outstanding stock options.
(6) Includes (i) 3,000 shares held by Mr. Crisp's wife and (ii) 42,000 shares
subject to outstanding stock options. Mr. Crisp disclaims beneficial
ownership of the shares held by his wife.
(7) Includes 34,500 shares subject to outstanding stock options.
(8) Includes 22,000 shares subject to outstanding stock options.
(9) Comprised of 9,000 shares subject to outstanding stock options.
(10) Does not include any shares beneficially owned by CHARTH (Compagnie Holding
d'Applications et de Realisations Thermiques et Hydrauliques) S.A., a
subsidiary of Electricite de France, of which Mr. Menjon is an executive
officer.
(11) Comprised of 35,000 shares owned by a limited partnership of which Mr. Sage
is the general partner and 9,000 shares subject to outstanding stock
options.
(12) Includes 53,858 shares subject to outstanding stock options.
(13) Comprised of 22,000 shares subject to outstanding stock options.
(14) Includes (i) 4,500 shares held in two trusts of which Dr. Malozemoff is the
co-trustee and (ii) 165,250 shares subject to outstanding stock options.
(15) Comprised of 121,500 shares subject to outstanding stock options.
(16) Includes 47,900 shares subject to outstanding stock options.
(17) Comprised of 57,000 shares subject to outstanding stock options.
(18) Includes 987,508 shares subject to outstanding stock options.
40
<PAGE> 41
DESCRIPTION OF CAPITAL STOCK
The authorized capital stock of the Company consists of 20,000,000 shares
of Common Stock, $.01 par value per share. Holders of Common Stock are entitled
to one vote for each share held on all matters submitted to a vote of
stockholders and do not have cumulative voting rights. Accordingly, holders of a
majority of the outstanding shares of Common Stock entitled to vote in any
election of directors may elect all of the directors standing for election.
Holders of Common Stock are entitled to receive ratably such dividends, if any,
as may be declared by the Board of Directors out of funds legally available
therefor. Upon the liquidation, dissolution or winding-up of the Company,
holders of Common Stock are entitled to receive ratably the net assets of the
Company available for distribution after the payment of all debts and other
liabilities of the Company. Holders of Common Stock have no preemptive,
subscription, redemption or conversion rights. The outstanding shares of Common
Stock are, and the shares offered hereby will be, when issued and paid for,
fully paid and nonassessable.
The Company is subject to the provisions of Section 203 of the General
Corporation Law of Delaware. In general, Section 203 prohibits a publicly-held
Delaware corporation from engaging in a "business combination" with an
"interested stockholder" for a period of three years after the date of the
transaction in which the person became an interested stockholder, unless the
business combination is approved in a prescribed manner or unless the interested
stockholder acquired at least 85% of the corporation's voting stock (excluding
shares held by certain designated stockholders) in the transaction in which it
became an interested stockholder. A "business combination" includes mergers,
assets sales and other transactions resulting in a financial benefit to the
interested stockholder. Subject to certain exceptions, an "interested
stockholder" is a person who, together with affiliates and associates, owns, or
within the previous three years did own, 15% or more of the corporation's voting
stock.
The Company's Certificate of Incorporation and By-laws contain certain
provisions which provide for the indemnification and limitation of liability of
directors and officers. The Company's By-laws provide that, subject to certain
conditions, the Company shall indemnify each director and officer of the Company
against liabilities incurred by reason of the fact that such person was a
director or officer of the Company if such director or officer acted in good
faith and in a manner he reasonably believed to be in or not opposed to the best
interests of the Company. The Company's Certificate of Incorporation also
provide that directors of the Company may not be held personally liable to the
Company or its stockholders for monetary damages for a breach of fiduciary duty,
except in certain circumstances involving wrongful acts, such as the breach of a
director's duty of loyalty or acts of omission not in good faith or which
involve intentional misconduct or a knowing violation of law. However, such
limitation of liability would not apply to violations of the federal securities
laws, nor does it limit the availability of nonmonetary relief in any action or
proceeding against a director.
The transfer agent for the Common Stock is American Stock Transfer & Trust
Company.
41
<PAGE> 42
UNDERWRITERS
Under the terms of and subject to conditions contained in an Underwriting
Agreement dated the date hereof (the "Underwriting Agreement"), the Underwriters
named below (the "Underwriters") for whom Morgan Stanley & Co. Incorporated and
NationsBanc Montgomery Securities LLC are acting as Representatives (the
"Representatives"), have severally agreed to purchase, and the Company and the
Selling Stockholders have agreed to sell to them, severally, the respective
number of shares of Common Stock set forth opposite the names of such
Underwriters below:
<TABLE>
<CAPTION>
NUMBER OF
NAME SHARES
---- ---------
<S> <C>
Morgan Stanley & Co. Incorporated.........................
NationsBanc Montgomery Securities LLC.....................
---------
Total................................................ 3,500,000
=========
</TABLE>
The Underwriting Agreement provides that the obligations of the several
Underwriters to pay for and accept delivery of the shares of Common Stock
offered hereby are subject to the approval of certain legal matters by their
counsel and to certain other conditions. The Underwriters are obligated to take
and pay for all of the shares of Common Stock offered hereby (other than those
covered by the over-allotment option described below) if any such shares are
taken.
The Underwriters initially propose to offer part of the shares of Common
Stock directly to the public at the public offering price set forth on the cover
page hereof and part to certain dealers at a price that represents a concession
not in excess of $ a share under the public offering price. Any
Underwriter may allow, and such dealers may reallow, a concession not in excess
of $ a share to other Underwriters or to certain other dealers.
The Company has granted to the Underwriters an option, exercisable for 30
days from the date of this Prospectus, to purchase up to an aggregate of 525,000
additional shares of Common Stock at the public offering price set forth on the
cover page hereof, less underwriting discounts and commissions. The Underwriters
may exercise such option solely for the purpose of covering over-allotments, if
any, made in connection with this offering of the shares of Common Stock offered
hereby. To the extent such option is exercised, each Underwriter will become
obligated, subject to certain conditions, to purchase approximately the same
percentage of such additional shares of Common Stock as the number set forth
next to such Underwriter's name in the preceding table bears to the total number
of shares of Common Stock set forth next to the names of all Underwriters in the
preceding table.
The Company, its executive officers and directors and the Selling
Stockholders have agreed that, without the prior consent of Morgan Stanley & Co.
Incorporated on behalf of the Underwriters, they will not (i) offer, pledge,
sell, contract to sell, sell any option or contract to purchase, lend, purchase
any option or contract to sell, grant any option, right or warrant to purchase,
or otherwise transfer or dispose of, directly or indirectly, any share of Common
Stock or any securities convertible into or exercisable or exchangeable for
Common Stock or (ii) enter into any swap or other arrangement that transfers, in
whole or in part, any of the economic consequences of ownership of the Common
Stock, whether any such transaction described in the above clause (i) or (ii) is
to be settled by delivery of such Common Stock or such other securities, in cash
or otherwise for a period of 90 days after the date of this Prospectus, subject
to certain limited exceptions.
In order to facilitate the offering of the Common Stock, the Underwriters
may engage in transactions that stabilize, maintain or otherwise affect the
price of the Common Stock. Specifically, the Underwriters may over-allot in
connection with this offering, creating a short position in the Common Stock for
their own account. In addition, to cover over-allotments or to stabilize the
price of the Common Stock, the Underwriters may bid for, and purchase, shares of
Common Stock in the open market. Finally, the underwriting syndicate
42
<PAGE> 43
may reclaim selling concessions allowed to an Underwriter or a dealer for
distributing the Common Stock in this offering, if the syndicate repurchases
previously distributed Common Stock in transactions to cover syndicate short
positions, in stabilization transactions or otherwise. Any of these activities
may stabilize or maintain the market price of the Common Stock above independent
market levels. The Underwriters are not required to engage in these activities,
and may end any of these activities at any time. The Underwriters and dealers
may engage in passive market making transactions in the Common Stock in
accordance with Rule 103 of Regulation M promulgated by the Commission. In
general, a passive market maker may not bid for, or purchase, the Common Stock
at a price that exceeds the highest independent bid. In addition, the net daily
purchases made by any passive market maker may not exceed 30% of its average
daily trading volume in the Common Stock during a specified two month period, or
200 shares, whichever is greater. A passive market maker must identify passive
market making bids as such on the Nasdaq electronic inter-dealer reporting
system. Passive market making may stabilize or maintain the market price of the
Common Stock above independent market levels. Underwriters and dealers are not
required to engage in passive market making and may end passive market making
activities at any time.
The Company, the Selling Stockholders and the Underwriters have agreed to
indemnify each other against certain liabilities, including liabilities under
the Securities Act.
Mr. Drouin, a director of the Company, is also Vice Chairman of Morgan
Stanley Canada Limited, an affiliate of Morgan Stanley & Co. Incorporated.
LEGAL MATTERS
The validity of the Common Stock offered hereby will be passed upon by Hale
and Dorr LLP, Boston, Massachusetts. Certain legal matters will be passed upon
for the Underwriters by Davis Polk & Wardwell, New York, New York.
EXPERTS
The consolidated balance sheets as of March 31, 1997 and 1996 and the
consolidated statements of operations, cash flows and stockholders' equity of
the Company for each of the three years in the period ended March 31, 1997
incorporated by reference in this Prospectus from the Annual Report on Form
10-K, as amended, the Current Report on Form 8-K/A filed on June 23, 1997 and
the Current Report on Form 8-K filed on September 5, 1997 have been incorporated
herein in reliance on the reports of Coopers & Lybrand L.L.P., Ernst & Young LLP
and Smith & Gesteland, LLP, independent accountants, given on the authority of
these firms as experts in accounting and auditing.
43
<PAGE> 44
GLOSSARY OF SIGNIFICANT TECHNICAL TERMS
<TABLE>
<S> <C>
Amp Ampere. The standard unit for measuring the magnitude of an
electric current.
Billet A metal container suitable for rolling or extrusion, into
which a superconducting material is packed.
Coated Conductors Ribbon-shaped wires that show promise as a next generation
wire technology. These wires are made by depositing thin
films of intermediate materials, e.g. cubic zirconia, on
ribbons of metals, followed by deposition of a thin layer of
HTS material and a protective coating.
Cryogenic Relating to processes that achieve and maintain low
temperatures through the use of special refrigeration and
cooling techniques, including the use of liquified gases
such as helium and nitrogen and the use of mechanical
refrigerators.
Current Leads (HTS) Conductors that carry electric current but minimal heat into
ultra-low temperature cryogenic environments. HTS current
leads address the critical problem of heat leaks in
LTS-based electrical equipment and magnets.
Current Limiter A device used to instantaneously limit the flow of excessive
electrical current (fault current) in a circuit, thereby
protecting expensive electrical equipment. Fault currents
are typically caused by short circuits or lightning.
Dielectric An insulating substance, such as oil, liquid nitrogen or
paper impregnated with oil, designed to withstand applied
voltages.
Electric Motor Equipment that converts electrical energy into useful
rotational mechanical power.
Electromagnet A coil of wire carrying electric current and designed to
create a magnetic field. The purpose of the magnetic field
can be energy storage, medical magnetic resonance imagining,
magnetic levitation, etc.
EPRI Electric Power Research Institute. Founded in 1972, EPRI
identifies and pursues advanced technology for the U.S.
electric utility industry to improve power production,
distribution and use. EPRI serves more than 700 member
utilities.
Generator Equipment that converts rotational mechanical input power,
such as that from a steam turbine, into electricity by using
electromagnetic force.
Grid The electric power industry infrastructure of interconnected
electrical systems and services that provides power to all
users.
High Temperature Resistance-free conductors made of ceramic materials that
Superconductor (HTS) exhibit superconducting properties at temperatures between
20 and 135 Kelvin (-423 degreesto
-216 degreesF), therefore requiring less expensive cooling
systems than those needed for low temperature
superconductors. The first high temperature superconductor
was discovered in 1986.
HTS Electronic Communication, data and measurement applications such as
Applications base stations for cellular phones and satellite
communications, scientific research instruments and high
speed computing.
hp Horsepower. A measurement of power used to rate motors. HTS
technology will be most effective initially in motors rated
1,000 hp or higher. 1,000 hp = 0.746 MVA.
Kelvin A temperature scale according to which absolute zero is 0 K,
the equivalent of -459 degrees Fahrenheit, and the freezing
point of water is 275K, the equivalent of 32 degrees
Fahrenheit.
Liquid Helium An ordorless, colorless material used for particularly
extreme cooling requirements. Liquid helium boils at 4.2K
(-452 degrees F).
</TABLE>
G-1
<PAGE> 45
<TABLE>
<S> <C>
Liquid Nitrogen An inexpensive, inert and non-toxic liquid cryogen formed by
chilling gaseous nitrogen to 77 Kelvin (-321 degrees F). In
many applications, such as power cables and transformers,
liquid nitrogen will be used to cool HTS wires and
components to achieve superconducting performance.
Low Temperature First discovered in 1911, low temperature superconductors,
Superconductor (LTS) which include many metals, exhibit superconducting
properties at a temperature of up to a maximum of 23K (-418
degrees F) and are usually cooled with liquid helium.
MVA or MW Measures of power. One million volt-amperes, or one mega
volt-amperes (MVA), is equivalent to one mega Watt (MW).
Multifilamentary Wire A wire consisting of many fine filaments of a high
temperature superconductor imbedded in a metal matrix. The
multifilamentary architecture makes HTS wires mechanically
robust.
SMES Superconducting Magnetic Energy Storage. A device based on
the principle that current in a superconducting coil can
store mega Watts of energy and deliver it instantly to
compensate for power dips or sags in a power grid.
Superconductor A material which is a perfect conductor of electricity;
i.e., no heat loss due to electrical resistance below a
critical temperature, T(c), a critical current density,
J(c), and a critical magnetic field, H(c). The specific
values for T(c), J(c) and H(c) are different for different
superconducting materials.
Tesla A unit of measure of magnetic field strength. The magnetic
field strength of iron is 2T.
Transformer A device that converts ac electric power from one voltage
and current level to another. Transmitting energy at higher
voltages is more efficient, but consumers need low voltage
power. Electricity experiences several voltage changes en
route to an end-user.
</TABLE>
G-2
<PAGE> 46
[INSIDE BACK COVER ART]
[picture of Mr. Muller (Nobel prize for HTS discovery), Mr. Malozemoff (CTO) and
Mr. Yurek (President and CEO) with rolls of HTS wire]
Alex Muller (center), winner of the 1986 Nobel Prize for the discovery of HTS
and one of many distinguished consultants to AMSC, with Chief Technical Officer,
Alex Malozemoff (left) and President and CTO Greg Yurek.
<PAGE> 47
LOGO
<PAGE> 48
PART II INFORMATION NOT REQUIRED IN PROSPECTUS
ITEM 14. OTHER EXPENSES OF ISSUANCE AND DISTRIBUTION.
<TABLE>
<S> <C>
SEC Registration Fee........................................ $ 17,291
NASD Filing Fee............................................. 6,361
Nasdaq National Market Fee.................................. 17,500
Blue Sky Fees and Expenses.................................. 10,000
Accounting Fees and Expenses................................ 50,000
Legal Fees.................................................. 100,000
Printing and Mailing Expenses............................... 65,000
Miscellaneous............................................... 33,848
========
Total............................................. $300,000
</TABLE>
- ---------------
* Estimated
ITEM 15. INDEMNIFICATION OF DIRECTORS AND OFFICERS.
Section 145 of the General Corporation Law of Delaware provides that a
corporation has the power to indemnify a director, officer, employee or agent of
the corporation and certain other persons serving at the request of the
corporation in related capacities against amounts paid and expenses incurred in
connection with an action or proceeding to which he is or is threatened to be
made a party by reason of such position, if such person shall have acted in good
faith and in a manner he reasonably believed to be in or not opposed to the best
interests of the corporation, and, in any criminal proceeding, if such person
had no reasonable cause to believe his conduct was unlawful; provided that, in
the case of actions brought by or in the right of the corporation, no
indemnification shall be made with respect to any matter as to which such person
shall have been adjudged to be liable to the corporation unless and only to the
extent that the adjudicating court determines that such indemnification is
proper under the circumstances.
ARTICLE V of the Registrant's By-laws provides that a director of officer
of the Registrant (a) shall be indemnified by the Registrant against all
expenses (including attorneys' fees), judgments, fines and amounts paid in
settlement actually and reasonably incurred in connection with any litigation or
other legal proceeding (other than an action by or in the right of the
Registrant) brought against him by virtue of his position as a director or
officer of the Registrant if he acted in good faith and in a manner he
reasonably believed to be in or not opposed to the best interests of the
Registrant, and, with respect to any criminal action or proceeding, had no
reasonable cause to believe his conduct was unlawful and (b) shall be
indemnified by the Registrant against expenses (including attorneys' fees)
incurred in connection with the defense or settlement of any action or suit by
or in the right of the Registrant by virtue of his position as a director or
officer of the Registrant if he acted in good faith and in a manner he
reasonably believed to be in or not opposed to the best interests of the
Registrant, except that no indemnification shall be made with respect to any
such matter as to which such director or officer shall have been adjudged to be
liable to the Registrant, unless and only to the extent that a court determines
upon application that, despite the adjudication of liability but in view of all
the circumstances of the case, such person is fairly and reasonably entitled to
indemnity for such expenses as the court deems proper. Notwithstanding the
foregoing, to the extent that a director or officer has been successful, on the
merits or otherwise, he shall be indemnified against expenses (including
attorneys' fees) actually and reasonably incurred by him in connection
therewith. Expenses incurred in defending a civil or criminal action, suit or
proceeding may be paid by the Registrant upon receipt of an undertaking by the
director or officer to repay such amount if the Registrant ultimately determines
that he is not entitled to indemnification.
Indemnification shall be made by the Registrant upon a determination that
the applicable standard of conduct required for indemnification has been met and
that indemnification of a director or officer is proper. Such determination
shall be made (a) by the Board of Directors by a majority vote of a quorum
consisting of directors who were not parties to the action, or (b) if such a
quorum is not obtainable, or if a quorum of
II-1
<PAGE> 49
disinterested directors so directs, by independent legal counsel in a written
opinion, or (c) by the stockholders of the Registrant.
Article V of the By-laws of the Registrant further provides that the
indemnification provided therein is not exclusive, and provides that to the
extent the Delaware General Corporation Law is amended or supplemented, Article
V shall be amended automatically and construed so as to permit indemnification
and advancement of expenses to the fullest extent permitted by such law.
Article EIGHTH of the Registrant's Certificate of Incorporation provides
that no director of the Registrant shall be personally liable to the Registrant
or its stockholders for monetary damages for breach of fiduciary duty as a
director, provided, that a director shall remain liable (i) for any breach of
such director's duty of loyalty to the Registrant or its stockholders, (ii) for
acts or omissions not in good faith or which involve intention misconduct or a
knowing violation of law, (iii) for participation in a Board of Directors'
action authorizing an unlawful dividend or unlawful stock purchase or redemption
under Section 174 of the Delaware General Corporation Law, or (iv) for any
transaction from which such director derived an improper personal benefit.
The Underwriting Agreement filed as Exhibit 1.1 to this Registration
Statement provides for the indemnification by the Underwriter of directors and
certain officers of the Registrant against certain liabilities.
The Registrant has a directors and officers liability insurance policy
covering certain liabilities that may be incurred by its directors and officers.
Certain of the Registrant's directors are indemnified against certain
liabilities that may incur in their capacities as directors by the investment
funds with which they are affiliated.
ITEM 16. EXHIBITS.
<TABLE>
<C> <C> <S>
*1.1 -- Form of Underwriting Agreement
4.1(1) -- Restated Certificate of Incorporation of the Company
4.2(2) -- By-laws of the Company, as amended to date
5.1 -- Opinion of Hale and Dorr LLP
23.1 -- Consent of Coopers & Lybrand L.L.P.
23.2 -- Consent of Ernst & Young LLP
23.3 -- Consent of Smith & Gesteland, LLP
23.4 -- Consent of Hale and Dorr LLP (included in Exhibit 5.1)
24.1 -- Power of Attorney (appears on page II-4)
</TABLE>
- ---------------
(1) Incorporated by reference to Exhibits to the Registrant's Annual Report on
Form 10-K, filed with the Commission on June 29, 1992.
(2) Incorporated by reference to Exhibits to the Registrant's Registration
Statement on Form S-1 (File No. 33-43647).
* To be filed by amendment.
ITEM 17. UNDERTAKINGS.
(1) The undersigned Registrant hereby undertakes that, for purposes of
determining any liability under the Securities Act of 1933, each filing of the
Registrant's annual report pursuant to section'13(a) or section'15(d) of the
Securities Exchange Act of 1934 that is incorporated by reference in this
Registrant Statement shall be deemed to be a new registration statement relating
to the securities offered herein, and the offering of such securities at that
time shall be deemed to be the initial bona fide offering thereof.
(2) Insofar as indemnification for liabilities arising under the
Securities Act of 1933 may be permitted to directors, officers and controlling
persons of the Registrant pursuant to the foregoing provisions or otherwise, the
Registrant has been advised that in the opinion of the Securities and Exchange
Commission
II-2
<PAGE> 50
such indemnification is against public policy as expressed in the Act and is,
therefore, unenforceable. In the event that a claim for indemnification against
such liabilities (other than the payment by the Registrant of expenses incurred
or paid by a director, officer or controlling person of the Registrant in the
successful defense of any action, suit or proceeding) is asserted by such
director, officer or controlling person in connection with the securities being
registered, the Registrant will, unless in the opinion of its counsel the matter
has been settled by controlling precedent, submit to a court of appropriate
jurisdiction the question whether such indemnification by it is against public
policy as expressed in the Act and will be governed by the final adjudication of
such issue.
(3) The undersigned Registrant hereby undertakes that for purposes of
determining any liability under the Securities Act of 1933, the information
omitted from the form of prospectus filed as part of this registration statement
in reliance upon Rule 430A and contained in a form of prospectus filed by the
Registrant pursuant to Rule 424(b)(1) or (4), or 497(h) under the Securities Act
of 1933 shall be deemed to be part of this registration statement as of the time
it was declared effective.
(4) The undersigned Registrant hereby undertakes that for the purpose of
determining any liability under the Securities Act of 1933, each post-effective
amendment that contains a form of prospectus shall be deemed to be a new
registration statement relating to the securities offered therein, and the
offering of such securities at that time shall be deemed to be the initial bona
fide offering thereof.
II-3
<PAGE> 51
SIGNATURES
Pursuant to the requirements of the Securities Act of 1933, the Registrant
certifies that it has reasonable grounds to believe that it meets all of the
requirements for filing on Form S-3 and has duly caused this Registration
Statement to be signed on its behalf by the undersigned, thereunto duly
authorized, in the City of Westborough, Commonwealth of Massachusetts, on the
24th day of March, 1998.
AMERICAN SUPERCONDUCTOR CORPORATION
By: /s/ GREGORY J. YUREK
------------------------------------
GREGORY J. YUREK
CHAIRMAN OF THE BOARD, PRESIDENT
AND CHIEF EXECUTIVE OFFICER
POWER OF ATTORNEY
We, the undersigned officers and directors of American Superconductor
Corporation, hereby severally constitute Gregory J. Yurek, Stanley Piekos and
Patrick J. Rondeau, and each of them singly, our true and lawful attorneys with
full power to them, and each of them singly, to sign for us and in our names in
the capacity indicated below, any and all pre- or post-effective amendments to
this Registration Statement, any subsequent registration statement for the same
offering which may be filed under Rule 462(b) under the Securities Act (a "Rule
462(b) Registration Statement") and any or all pre- or post-effective amendments
thereto, and generally to do all such things in our names and behalf in our
capacities as officers and directors to enable American Superconductor
Corporation to comply with the provisions of the Securities Act of 1933, as
amended, and all requirements of the Securities and Exchange Commission, hereby
ratifying and confirming our signatures as they may be signed by our said
attorneys, or any of them, to said Registration Statement and any and all
amendments thereto.
Witness our hands and common seal on the date set forth below.
Pursuant to the requirements of the Securities Act of 1933, this
Registration Statement has been signed by the following persons in the
capacities indicated as of the 24th day of March, 1998.
<TABLE>
<CAPTION>
SIGNATURE TITLE
--------- -----
<C> <S>
/s/ GREGORY J. YUREK Chairman of the Board, President and Chief
- --------------------------------------------------- Executive Officer (principal executive officer)
GREGORY J. YUREK
/s/ STANLEY PIEKOS Vice President, Corporate Development and
- --------------------------------------------------- Finance, Chief Financial Officer, Treasurer and
STANLEY PIEKOS Secretary (principal financial and accounting
officer)
/s/ ALBERT J. BACIOCCO, JR. Director
- ---------------------------------------------------
ALBERT J. BACIOCCO, JR.
/s/ FRANK BORMAN Director
- ---------------------------------------------------
FRANK BORMAN
/s/ PETER O. CRISP Director
- ---------------------------------------------------
PETER O. CRISP
/s/ RICHARD DROUIN Director
- ---------------------------------------------------
RICHARD DROUIN
</TABLE>
II-4
<PAGE> 52
<TABLE>
<CAPTION>
SIGNATURE TITLE
--------- -----
<C> <S>
/s/ GERARD MENJON Director
- ---------------------------------------------------
GERARD MENJON
/s/ ANDREW G.C. SAGE, II Director
- ---------------------------------------------------
ANDREW G.C. SAGE, II
/s/ JOHN B. VANDER SANDE Director
- ---------------------------------------------------
JOHN B. VANDER SANDE
</TABLE>
II-5
<PAGE> 1
HALE AND DORR LLP
Counsellors at Law
60 State Street, Boston, Massachusetts 02109
617-526-6000 * Fax 617-526-5000
March 24, 1998
American Superconductor Corporation
Two Technology Drive
Westborough, MA 01581
Re: Registration Statement on Form S-3
Ladies and Gentlemen:
This opinion is furnished to you in connection with a Registration Statement
on Form S-3 (the "Registration Statement") filed with the Securities and
Exchange Commission (the "Commission") under the Securities Act of 1933, as
amended (the "Securities Act"), for the registration of an aggregate of
4,025,000 shares of Common Stock, $0.01 par value per share (the "Shares"), of
American Superconductor Corporation, a Delaware corporation (the "Company"), of
which (i) up to 3,554,171 Shares (including 525,000 Shares issuable upon
exercise of an over-allotment option granted by the Company) will be issued and
sold by the Company and (ii) the remaining 470,879 Shares will be sold by
certain stockholders of the Company (the "Selling Stockholders").
The Shares are to be sold by the Company and the Selling Stockholders
pursuant to an underwriting agreement (the "Underwriting Agreement") to be
entered into by and among the Company, the Selling Stockholders and Morgan
Stanley & Co. Incorporated and NationsBanc Montgomery Securities LLC, as
representatives of the several underwriters named in the Underwriting
Agreement, the form of which has been filed as Exhibit 1.1 to the Registration
Statement.
We are acting as counsel for the Company in connection with the sale by the
Company and the Selling Stockholders of the Shares. We have examined signed
copies of the Registration Statement as filed with the Commission. We have also
examined and relied upon a draft of the Underwriting Agreement, minutes of
meetings of the stockholders and the Board of Directors of the Company as
provided to us by the Company, stock record books of the Company as provided to
us by the Company, the Restated Certificate of Incorporation and By-Laws of the
Company, as amended to date, and such other documents as we have deemed
necessary for purposes of rendering the opinions hereinafter set forth.
Washington, DC Boston, MA London, UK*
- --------------------------------------------------------------------------------
HALE AND DORR LLP INCLUDES PROFESSIONAL CORPORATIONS
*BROBECK HALE AND DORR, INTERNATIONAL (AN INDEPENDENT JOINT VENTURE LAW FIRM)
<PAGE> 2
American Superconductor Corporation
March 24, 1998
Page 2
In our examination of the foregoing documents, we have assumed the
genuineness of all signatures, the authenticity of all documents submitted to
us as originals, the conformity to original documents of all documents
submitted to us as copies, the authenticity of the originals of such latter
documents and the legal competence of all signatories to such documents.
We assume that the appropriate action will be taken, prior to the offer
and sale of the Shares in accordance with the Underwriting Agreement, to
register and qualify the Shares for sale under all applicable state securities
or "blue sky" laws.
We express no opinion herein as to the laws of any state or jurisdiction
other than the state laws of the Commonwealth of Massachusetts, the Delaware
General Corporation Law statute and the federal laws of the United States of
America.
Based upon and subject to the foregoing, we are of the opinion that (i)
the Shares to be issued and sold by the Company have been duly authorized for
issuance and, when such Shares are issued and paid for in accordance with the
terms and conditions of the Underwriting Agreement, such Shares will be validly
issued, fully paid and nonassessable and (ii) the Shares to be sold by the
Selling Stockholders have been duly authorized and are validly issued, fully
paid and nonassessable.
It is understood that this opinion is to be used only in connection with
the offer and sale of the Shares while the Registration Statement is in effect.
Please note that we are opining only as to the matters expressly set forth
herein, and no opinion should be inferred as to any other matters.
We hereby consent to the filing of this opinion with the Commission as an
exhibit to the Registration Statement in accordance with the requirements of
Item 601(b)(5) of Regulation S-K under the Securities Act and to the use of our
name therein and in the related Prospectus under the caption "Legal Matters."
In giving such consent, we do not hereby admit that we are in the category of
persons whose consent is required under Section 7 of the Securities Act or the
rules and regulations of the Commission.
Very truly yours,
/s/ HALE AND DORR LLP
<PAGE> 1
EXHIBIT 23.1
CONSENT OF INDEPENDENT ACCOUNTANTS
We consent to the incorporation by reference in this registration statement
of American Superconductor Corporation on Form S-3 of our report dated May 9,
1997, on our audits of the consolidated financial statements of American
Superconductor Corporation as of March 31, 1997 and 1996, and for the years
ended March 31, 1997, 1996 and 1995, which report is included in the Company's
Annual Report on Form 10-K for the year ended March 31, 1997, and of our report
dated August 18, 1997, on our examination of the combination of the historical
consolidated financial statements of American Superconductor Corporation and
Superconductivity, Inc. after restatement for the pooling of interests as
described in Note 1 to the consolidated financial statements, which report is
included in the Company's Current Report on Form 8-K dated September 5, 1997. We
also consent to the reference to our firm under the caption "Experts."
COOPERS & LYBRAND L.L.P.
Boston, Massachusetts
March 23, 1998
<PAGE> 1
EXHIBIT 23.2
CONSENT OF INDEPENDENT ACCOUNTANTS
We consent to the reference to our firm under the caption "Experts" in the
Registration Statement on Form S-3 and related prospectus of American
Superconductor Corporation and to the incorporation by reference therein of our
report dated February 29, 1996, with respect to the financial statements of
Superconductivity, Inc. for the years ended December 31, 1995 and 1994 and for
the period from March 22, 1988 (Inception) to December 31, 1995 included in the
Current Report on Form 8-K dated September 5, 1997 and Form 8-K/A dated June 23,
1997 filed by American Superconductor Corporation with the Securities and
Exchange Commission.
/s/ Ernst & Young LLP
March 23, 1998
Milwaukee, Wisconsin
<PAGE> 1
EXHIBIT 23.3
CONSENT OF INDEPENDENT ACCOUNTANTS
We consent to the incorporation by reference in the Registration Statement
on Form S-3 and related prospectus of American Superconductor Corporation of our
report dated February 7, 1997, on our audit of the financial statements of
Superconductivity, Inc., as of December 31, 1996, and for the year then ended,
which report is included in the Current Report of Form 8-K and Form 8-K/A filed
by American Superconductor Corporation with the Securities and Exchange
Commission.
Madison, Wisconsin /s/ Smith & Gesteland, LLP
March 23, 1998 SMITH & GESTELAND, LLP
