Notice of Issuance of Final Determination Concerning Multifunctional Machines, 8335-8339 [E8-2636]
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Federal Register / Vol. 73, No. 30 / Wednesday, February 13, 2008 / Notices
Guard, 2100 Second Street, SW.,
Washington, DC 20593–0001; by calling
202–372–1249; or by faxing 202–372–
1917. Send your application in written
form to the above street address. This
notice and the application form are
available on the Internet at https://
www.FishSafe.info.
FOR FURTHER INFORMATION CONTACT: Mr.
Mike Rosecrans, a Designated Federal
Officer (DFO) of the CFIVSAC by
telephone at 202–372–1245, fax 202–
372–1917, e-mail:
Michael.M.Rosecrans@uscg.mil.
SUPPLEMENTARY INFORMATION: The
CFIVSAC is an advisory committee
established in accordance with the
provisions of the Federal Advisory
Committee Act (FACA) 5 U.S.C. (Pub. L.
92–463). The Coast Guard chartered the
CFIVSAC to provide advice on issues
related to the safety of commercial
fishing industry vessels regulated under
Chapter 45 of Title 46, United States
Code, which includes uninspected
fishing vessels, fish processing vessels,
and fish tender vessels. (See 46 U.S.C.
4508.)
The CFIVSAC meets at least once a
year. It may also meet for other
extraordinary purposes. Its
subcommittees may gather throughout
the year to prepare for meetings or
develop proposals for the committee as
a whole to address specific problems.
We will consider applications for six
positions that expire or become vacant
in October 2008 in the following
categories: (a) Commercial Fishing
Industry (four positions); (b) Equipment
Manufacturer (one position); and (c)
General Public (one position).
The CFIVSAC consists of 17 members
as follows: (a) Ten members from the
commercial fishing industry who reflect
a regional and representational balance
and have experience in the operation of
vessels to which Chapter 45 of Title 46,
United States Code applies, or as a crew
member or processing line member on
an uninspected fish processing vessel;
(b) one member representing naval
architects or marine surveyors; (c) one
member representing manufacturers of
vessel equipment to which Chapter 45
applies; (d) one member representing
education or training professionals
related to fishing vessel, fish processing
vessel, or fish tender vessel safety, or
personnel qualifications; (e) one
member representing underwriters that
insure vessels to which Chapter 45
applies; and (f) three members
representing the general public
including, whenever possible, an
independent expert or consultant in
maritime safety and a member of a
national organization composed of
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persons representing owners of vessels
to which Chapter 45 applies and
persons representing the marine
insurance industry.
Each member serves a 3-year term.
Members may serve consecutive terms.
All members serve at their own expense
and receive no salary from the Federal
Government, although travel
reimbursement and per diem may be
provided.
In support of the policy of the Coast
Guard on gender and ethnic diversity,
qualified women and minorities are
encouraged to apply for membership.
If you are selected as a nonrepresentative member, or as a member
who represents the general public, you
will be appointed and serve as a Special
Government Employee (SGE) as defined
in section 202(a) of title 18, United
States Code. As candidates for
appointment as an SGE, applicants are
required to complete a Confidential
Financial Disclosure Report (OGE From
450). A completed OGE Form 450 is not
releasable to the public except under an
order issued by a Federal court or as
otherwise provided under the Privacy
Act (5 U.S.C. 552a). Only the Designated
Agency Ethics Official or the DAEO’s
designate may release a Confidential
Disclosure Report.
Dated: January 31, 2008.
J.G. Lantz,
Director of Commercial Regulations and
Standards.
[FR Doc. E8–2680 Filed 2–12–08; 8:45 am]
BILLING CODE 4910–15–P
8335
should request and receive written
assurances from the entity that it is
accredited or approved by the U.S.
Customs and Border Protection to
conduct the specific test or gauger
service requested. Alternatively,
inquires regarding the specific test or
gauger service this entity is accredited
or approved to pelform may be directed
to the U.S. Customs and Border
Protection by calling (202) 344–1060.
The inquiry may also be sent to
cbp.labhq@dhs.gov. Please reference the
Web site listed below for a complete
listing of CBP approved gaugers and
accredited laboratories.
DATES: The accreditation and approval
of SGS North America, Inc., as
commercial gauger and laboratory
became effective on May 2, 2007. The
next triennial inspection date will be
scheduled for May 2010.
FOR FURTHER INFORMATION CONTACT:
Commercial Gauger Laboratory Program
Manager, Laboratories and Scientific
Services, U.S. Customs and Border
Protection, 1300 Pennsylvania Avenue,
NW., Suite 1500N, Washington, DC
20229, 202–344–1060.
Dated: January 31, 2008.
Ira S. Reese,
Executive Director, Laboratories and
Scientific Services.
[FR Doc. E8–2632 Filed 2–12–08; 8:45 am]
BILLING CODE 9111–14–P
DEPARTMENT OF HOMELAND
SECURITY
Customs and Border Protection
DEPARTMENT OF HOMELAND
SECURITY
U.S. Customs and Border Protection
Accreditation and Approval of SGS
North America, Inc., as a Commercial
Gauger and Laboratory
U.S. Customs and Border
Protection, Department of Homeland
Security.
ACTION: Notice of accreditation and
approval of SGS North America, Inc., as
a commercial gauger and laboratory.
AGENCY:
SUMMARY: Notice is hereby given that,
pursuant to 19 CFR 151.12 and 19 CFR
151.13, SGS North America, Inc., 1201
W. 8th at Georgia Ave., Deer Park, TX
77536, has been approved to gauge and
accredited to test petroleum and
petroleum products, organic chemicals
and vegetable oils for customs purposes,
in accordance with the provisions of 19
CFR 151.12 and 19 CFR 151.13. Anyone
wishing to employ this entity to conduct
laboratory analyses and gauger services
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Notice of Issuance of Final
Determination Concerning
Multifunctional Machines
U.S. Customs and Border
Protection, Department of Homeland
Security.
ACTION: Notice of final determination.
AGENCY:
SUMMARY: This document provides
notice that the U.S. Customs and Border
Protection (CBP) has issued a final
determination concerning the country of
origin of certain multifunctional
machines which may be offered to the
United States Government under an
undesignated government procurement
contract. CBP has concluded that, based
upon the facts presented, certain goods
imported into Japan are substantially
transformed in Japan such that Japan is
the country of origin of the finished
multifunctional machines for
government procurement purposes.
DATES: The final determination was
issued on January 4, 2008. A copy of the
final determination is attached. Any
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Federal Register / Vol. 73, No. 30 / Wednesday, February 13, 2008 / Notices
party-at-interest, as defined in 19 CFR
177.22(d), may seek judicial review of
this final determination within 30 days
of February 13, 2008.
FOR FURTHER INFORMATION CONTACT:
Gerry O’Brien, Valuation and Special
Programs Branch, Regulations and
Rulings, Office of International Trade
(202–572–8792).
SUPPLEMENTARY INFORMATION: Notice is
hereby given that on January 4, 2008,
pursuant to subpart B of part 177,
Customs Regulations (19 CFR part 177,
subpart B), CBP issued a final
determination concerning the country of
origin of certain multifunctional
machines which may be offered to the
United States Government under an
undesignated government procurement
contract. This final determination, in
HQ H018467, was issued at the request
of Panasonic Corporation of North
America under procedures set forth at
19 CFR part 177, subpart B, which
implements Title III of the Trade
Agreements Act of 1979, as amended
(19 U.S.C. 2511–18).
In the final determination, CBP
concluded that, based upon the facts
presented, certain goods imported into
Japan are substantially transformed in
Japan such that Japan is the country of
origin of the finished multifunctional
machines for government procurement
purposes.
Section 177.29, Customs Regulations
(19 CFR 177.29), provides that notice of
final determinations shall be published
in the Federal Register within 60 days
of the date the final determination is
issued. Section 177.30, CBP Regulations
(19 CFR 177.30), provides that any
party-at-interest, as defined in 19 CFR
177.22(d), may seek judicial review of a
final determination within 30 days of
publication of such determination in the
Federal Register.
Dated: January 4, 2008.
Sandra L. Bell,
Executive Director, Office of Regulations and
Rulings, Office of International Trade.
Attachment
HQ H018467
January 4, 2008,
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GOB
OT:RR:CTF:VS
H018467
Category: Marking
Madeline B. Kuflik, Esq.,
Assistant General Counsel,
Panasonic Corporation of North
America,
One Panasonic Way, 3B–6,
Secaucus, NJ 07094.
RE: U.S. Government Procurement; Title
III, Trade Agreements Act of 1979 (19
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U.S.C. 2511); Subpart B, Part 177, CBP
Regulations; Country of Origin of
Multifunctional Machines.
Dear Ms. Kuflik:
This is in response to your letter of
October 5, 2007, requesting a final
determination on behalf of Panasonic
Corporation of North America (‘‘PNA’’),
pursuant to subpart B of Part 177,
Customs and Border Protection (‘‘CBP’’)
Regulations (19 CFR 177.21 et seq.).
Under these regulations, which
implement Title III of the Trade
Agreements Act of 1979, as amended
(19 U.S.C. 2511 et seq.), CBP issues
country of origin advisory rulings and
final determinations as to whether an
article is or would be a product of a
designated country or instrumentality
for the purpose of granting waivers of
certain ‘‘Buy American’’ restrictions in
U.S. law or practice for products offered
for sale to the U.S. Government. In
response to our request, you provided
additional information with your
correspondence of November 7, 2007
and December 5, 2007.
This final determination concerns the
country of origin of certain color digital
multifunctional machines. We note that
PNA is a party-at-interest within the
meaning of 19 CFR 177.22(d)(1) and is
entitled to request this final
determination.
Facts
You describe the pertinent facts as
follows. The product at issue is a fullcolor digital multifunctional machine
which can scan, copy, and print. The
machine has the following functions: up
to 26 ppm color printing; 600 dpi × 600
dpi scanning resolution; 1200 dpi ×
1200 dpi printing resolution; high-speed
image editing; high speed image
compression; network function;
automatic duplex scanning; automatic
duplex printing; paper ejection; and
direct printing function from SD card
and PC card. The machine is sold under
model number DP–C354.
You state that the multifunctional
machine consists of the following units:
1. Automatic Document Feeder Unit—
takes several pages and feeds the paper
one page at a time into the scanner.
2. Scanner Unit—consists of CCD
board, lens, lamp, mirror, drive motor,
detection sensor, scanner controlling
board, image signal conversion board
and SD (secure digital) memory board.
3. Operation Panel Unit—consists of
tilt mechanism, 7.8 inch LCD, 23
operation buttons, 14 LED, five printing
boards, and backup battery.
4. Feed Unit—consists of feeding
roller, pick up roller, pick up solenoid,
paper detection sensor, paper passage
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sensor and electromagnetic timing
clutch.
5. Manual Paper Feed Unit—for use
with special paper; consists of feeding
roller, pick up roller, pick up solenoid,
paper detection sensor, paper passage
sensor and electromagnetic timing
clutch.
6. Lift-Up Motor Unit—consists of
driving motor, paper detection sensor
and pick-up sensor.
7. Automatic Document Transferring
Unit—feeds the printing paper to the
toner transferring unit; consists of
driving motor, cooling fan, paper
passage sensor, paper ejection roller,
transferring roller, switching solenoid,
electromagnetic clutch, jam-proof door
and pinch roller.
8. Induction Heating Fuser Unit—
fuses the toner on paper by the
induction heating method; consists of
induction heating coil, fusing belt,
heating roller, fusing roller and pressure
roller.
9. Induction Heating Power Supply
Unit—supplies power to the induction
fuser unit.
10. Transcription Unit—transcribes
the unit on the printing paper; consists
of bias roller and OPC (organic photo
conductor) drum unit.
11. OPC Drum Unit—this unit is
charged with electricity and the laser
beam sweeps across it to make the
electrostatic latent image; consists of
cleaning blade, cleaning roller and OPC
drum.
12. Developing Unit—transfers the
toner to the charged part of the OPC
drum; consists of concentration sensor,
magnet roller, developer, doctor blade
and screw.
13. Laser Scanning Unit—irradiates
the laser beam on the OPC drum to
make the surface potential; consists of
lens, mirrors, polygon motor and fan.
14. Motor Drive Board—controls the
driving of the motors.
15. Automatic Duplex Unit Board—
controls the paper detection sensor and
paper passage sensor.
16. High-Voltage Power Supply
Board—controls the high-voltage power
supply.
17. Low-Voltage Power Supply
Board—controls the low-voltage power
supply.
18. Main Drive Unit—controls the
transcription unit, OPC drum and
developing units.
19. Subassembly Units—there are five
different types of simple units which
consist of two to five parts.
20. System Control Board—This
board, which acts as the central control
system, has a central processing unit
(CPU) and 512 MB of memory. It
performs ‘‘image processing’’ which is
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the editing, color tuning, enlarging,
reducing and manipulating of the image
data to fit the image quality which is
designated by the user for the copy
output or the print output. Image data
is the data which is scanned by the
scanner. The user controls the
multifunctional printer by touching the
operational panel and sending the data
from the PC. The system control board
processes the data from the operation
panel and PC and sends the processed
command to the other boards that
control the function which meets the
user’s intention. The three other boards
which receive data from the system
control board are the scanner unit, the
operation panel unit and the engine
control board. The system control board
is the core part of this product. It
measures approximately 244 mm long
and 330 mm wide and it contains
approximately 2750 parts.
21. Engine Control Board—This board
controls the machinery parts that feed
the recording papers. The machinery
parts controlled by the engine control
board are the feed unit, manual paper
feed unit, lift up motor unit, automatic
document feeding unit and main drive
unit. The board also controls the units
that print the image to the recording
papers such as the induction heating
fuser unit, transcription unit, OPC drum
unit, developing unit and laser scanning
unit. This board is approximately 244
mm long and 187 mm wide and consists
of approximately 1610 parts.
In your submission of December 5,
2007, you state that ‘‘[t]he system
control board can be compared to the
brain of a human being as it is
responsible for coordinating all of the
activity of the machine and controlling
all of the following important functions
of the machine.’’ These functions
include: all image processing functions
(e.g., where the toner is to be applied
and the temperature of the toner);
enlargement and reduction functions;
all functions which are available from
the control panel (e.g., choices of
multiple copies, double-sided copies,
etc.); color image tuning (adding or
subtracting color); user interface control
(control panel and touch screen
operations); and ‘‘rastering’’ of the
printed data (the process of taking data
sent by a computer’s printer driver and
converting it so that it can be
understood by the engine control board
to put the image on paper).
In the same submission, you state that
‘‘[t]he engine control board can be
analogized to the nervous system of a
human being. It carries out the
commands of the brain, or in this case
the system control board.’’ The engine
control board controls the functions
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relating to the feed of paper, including
the paper feed units, the manual feed
units, the automatic document feeder
unit, the paper lift-up motors, and the
main drive unit motor. The engine
control board also controls the following
units with respect to the printing
process: the laser unit, which exposes
the photo-receptor to create the copy;
the photo-conductor unit; the transfer
belt units; the developing units, which
contain the toners which are applied to
the photo-conductors and transfer unit;
and the fixing unit, which makes the
toner permanent on the paper.
PNA’s request involves two
manufacturing scenarios. In the first
scenario, there are three countries in
which manufacturing occurs; in the
second scenario, there are two countries
in which manufacturing occurs.
First Scenario—Manufacturing in
China, the Philippines, and Japan
The following seven units are
manufactured in China from
components produced in various
countries: automatic document feeder
unit; scanner unit; operation panel unit;
feed unit; manual paper feed unit; lift
up motor unit; and subassembly units.
After these components are
manufactured in China, they are sent to
the factory in the Philippines.
The following eleven units are
manufactured in the Philippines from
components produced in various
countries: Automatic document
transferring unit; induction heating
fuser unit; induction heating power
supply unit; transcription unit;
developing unit; laser scanning unit;
main drive unit; motor drive board; high
voltage power supply board; low voltage
power supply board; and automatic
duplex unit board. The components
manufactured in China and those
manufactured in the Philippines are
assembled into one main body in the
Philippines. That body is sent to the
factory in Japan.
The following work is performed in
Japan. The OPC drum unit and the toner
reservoir are manufactured. The system
control board and the engine control
board, which are manufactured in
Japan, are mounted and inspected.
Approximately 1,600 electronic parts
and 500 electronic parts are mounted on
the back of the system control board and
the engine control board, respectively,
by three large mounting machines. The
boards are then inspected. At that point,
about 1,100 electronic parts and 1,000
electronic parts are mounted on the
front sides of the system control board
and the engine control board,
respectively. The boards are then
inspected again. Workers then mount 19
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parts on the system control board and
40 parts on the engine control board by
hand soldering. The boards are then
inspected again.
You state that the workers involved in
the mounting and soldering of the parts
should be highly skilled because the
parts are mounted densely in view of
the large number of parts and the fact
that each electronic part is
microminiaturized. After the mounting
process is completed, the boards are
inspected as to functionality by special
measurement equipment. This
inspection takes approximately 10 to 20
minutes per board.
At this point in the process, the OPC
drum unit, the toner reservoir, the
system control board and the engine
control board are incorporated into the
main body which was assembled in the
Philippines. The next step is the
installation of firmware into the system
control board and the engine control
board. You state that the firmware in the
system control board controls the user
interface, imaging, and memories; the
firmware in the engine control board
controls machinery. You state that the
firmware, which is developed in Japan,
is similar to the application software of
a personal computer.
The process concludes with the
inspection of the completed product
and adjustments to the concentration in
the toner, print position, print color,
and print quality. These adjustments are
necessary for accurate printing.
Second Scenario—Manufacturing in the
Philippines and Japan
The following 18 units are
manufactured in the Philippines from
components produced in various
countries: Automatic document feeder
unit; scanner unit; operation panel unit;
feed unit; manual paper feed unit; lift
up motor unit; subassembly units;
automatic document transferring unit;
induction heating fuser unit; induction
heating power supply unit; transcription
unit; developing unit; laser scanning
unit; main drive unit; motor drive
board; high voltage power supply board;
low voltage power supply board; and
automatic duplex unit board. These
components are assembled into one
main body in the Philippines. That body
is sent to the factory in Japan.
The manufacturing process in Japan
in this scenario is the same as the
process described in the first scenario.
The second scenario differs from the
first scenario in that no units are
manufactured in China in the second
scenario. The 18 units manufactured in
the Philippines in the second scenario
include the 11 units manufactured there
in the first scenario and the seven units
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manufactured in China in the first
scenario.
Issue
What is the country of origin of the
subject color digital multifunction
machines for the purpose of U.S.
Government procurement?
Law and Analysis
Pursuant to Subpart B of Part 177, 19
CFR 177.21 et seq., which implements
Title III of the Trade Agreements Act of
1979, as amended (19 U.S.C. 2511 et
seq.), CBP issues country of origin
advisory rulings and final
determinations as to whether an article
is or would be a product of a designated
country or instrumentality for the
purposes of granting waivers of certain
‘‘Buy American’’ restrictions in U.S. law
or practice for products offered for sale
to the U.S. Government.
Under the rule of origin set forth
under 19 U.S.C. 2518(4)(B):
rwilkins on PROD1PC63 with NOTICES
An article is a product of a country or
instrumentality only if (i) it is wholly the
growth, product, or manufacture of that
country or instrumentality, or (ii) in the case
of an article which consists in whole or in
part of materials from another country or
instrumentality, it has been substantially
transformed into a new and different article
of commerce with a name, character, or use
distinct from that of the article or articles
from which it was so transformed.
See also, 19 CFR 177.22(a).
In determining whether the
combining of parts or materials
constitutes a substantial transformation,
the determinative issue is the extent of
operations performed and whether the
parts lose their identity and become an
integral part of the new article. Belcrest
Linens v. United States, 573 F. Supp.
1149 (Ct. Int’l Trade 1983), aff’d, 741
F.2d 1368 (Fed. Cir. 1984). Assembly
operations that are minimal or simple,
as opposed to complex or meaningful,
will generally not result in a substantial
transformation. See, C.S.D. 80–111,
C.S.D. 85–25, C.S.D. 89–110, C.S.D. 89–
118, C.S.D. 90–51, and C.S.D. 90–97. If
the manufacturing or combining process
is a minor one which leaves the identity
of the article intact, a substantial
transformation has not occurred.
Uniroyal, Inc. v. United States, 3 CIT
220, 542 F. Supp. 1026 (1982), aff’d 702
F. 2d 1022 (Fed. Cir. 1983). In C.S.D.
85–25, 19 Cust. Bull. 844 (1985), CBP
held that for purposes of the
Generalized System of Preferences
(‘‘GSP’’), the assembly of a large number
of fabricated components onto a printed
circuit board in a process involving a
considerable amount of time and skill
resulted in a substantial transformation.
In that case, in excess of 50 discrete
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fabricated components (such as
resistors, capacitors, diodes, integrated
circuits, sockets, and connectors) were
assembled. Whether an operation is
complex and meaningful depends on
the nature of the operation, including
the number of components assembled,
number of different operations, time,
skill level required, attention to detail,
quality control, the value added to the
article, and the overall employment
generated by the manufacturing process.
In order to determine whether a
substantial transformation occurs when
components of various origins are
assembled into completed products,
CBP considers the totality of the
circumstances and makes such
determinations on a case-by-case basis.
The country of origin of the item’s
components, extent of the processing
that occurs within a country, and
whether such processing renders a
product with a new name, character,
and use are primary considerations in
such cases. Additionally, factors such as
the resources expended on product
design and development, extent and
nature of post-assembly inspection and
testing procedures, and worker skill
required during the actual
manufacturing process may be relevant
when determining whether a substantial
transformation has occurred. No one
factor is determinative.
In HQ 735315, dated April 10, 1995,
CBP stated:
We agree * * * that the assembly of the
various components into the optics module
shell, mainly the PWBs which are
manufactured in the U.S., constitutes a
substantial transformation. * * * [W]e find
that the manufacture of the PWBs and their
subsequent installation into the shells
constitutes a complex and meaningful
assembly pursuant to C.S.D. 85–25. Although
the imported shells consist of important
components, such as the sampling device,
furnace, light bulbs, and mirrors/optics, the
PWBs give the optics module the ability to
function and analyze * * *.
In HQ 561734, dated March 22, 2001,
CBP determined that certain
multifunctional machines (printer,
copier, and facsimile) assembled in
Japan were a product of Japan for
purposes of government procurement.
The machines were comprised of 227
parts (108 parts obtained from Japan, 92
from Thailand, three from China, and 24
from other countries) and eight
subassemblies, each of which was
assembled in Japan. It was further noted
that the scanner unit (one of the eight
subassemblies assembled in Japan) was
characterized as ‘‘the heart of the
machine.’’
In HQ 562936, dated March 17, 2004,
CBP found that a multifunctional
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machine (printer, copier, scanner,
facsimile) was a product of Japan for the
purpose of U.S. government
procurement. CBP noted that a
substantial portion of the machine’s
components and assemblies were of
Japanese origin. The requester had
described certain of these components
as the ‘‘most complex,’’ ‘‘key,’’ and
‘‘essential.’’ CBP recognized that, in
addition to the Japanese subassemblies,
certain critical Japanese-origin parts
were incorporated into the Chinese
subassemblies. CBP found that the
processing that occurred in Japan was
complex and meaningful, required the
assembly of a large number of
components, and resulted in a new and
distinct article of commerce that
possessed a new name, character, and
use.
Based upon the facts which you
present, we note that operations are
performed in three countries in the first
scenario and two countries in the
second scenario. In situations like these,
no one country imparts the dominant
portion of the work conducted.
Nonetheless, based upon the applicable
legal standard, we determine that, with
respect to each of the two scenarios, the
goods imported into Japan are
substantially transformed in Japan such
that Japan is the country of origin of the
multifunctional machines (model
number DP–C354) for government
procurement purposes. In making this
determination, we give substantial
weight to the fact that the system
control board, the engine control board,
and the firmware are manufactured in
Japan. Based upon the facts presented,
these components are of utmost
importance to the functionality of the
completed good. We also find that the
operations performed in Japan are
meaningful and relatively complex and
result in an article of commerce which
possesses a new name, character, and
use. Therefore, as Japan is the final
country of production and a substantial
amount of work is performed there, we
find that the country of origin in both
scenarios is Japan.
Holding
With respect to each of the two
scenarios, the goods imported into Japan
are substantially transformed in Japan
such that Japan is the country of origin
of the multifunctional machines (model
number DP–C354) for government
procurement purposes.
Notice of this final determination will
be given in the Federal Register, as
required by 19 CFR 177.29. Any partyat-interest other than the party which
requested this final determination may
request, pursuant to 19 CFR 177.31, that
E:\FR\FM\13FEN1.SGM
13FEN1
Federal Register / Vol. 73, No. 30 / Wednesday, February 13, 2008 / Notices
CBP reexamine the matter anew and
issue a new final determination.
Pursuant to 19 CFR 177.30, any partyat-interest may, within 30 days after
publication of the Federal Register
notice referenced above, seek judicial
review of this final determination before
the Court of International Trade.
Sincerely,
Sandra L. Bell,
Executive Director, Office of Regulations and
Rulings, Office of International Trade.
[FR Doc. E8–2636 Filed 2–12–08; 8:45 am]
BILLING CODE 9111–14–P
DEPARTMENT OF HOMELAND
SECURITY
Customs and Border Protection
Notice of Issuance of Final
Determination Concerning; Standard
and Rolled-Edge Ball Seals
U.S. Customs and Border
Protection, Department of Homeland
Security.
ACTION: Notice of final determination.
rwilkins on PROD1PC63 with NOTICES
AGENCY:
SUMMARY: This document provides
notice that the Bureau of Customs and
Border Protection (CBP) has issued a
final determination concerning the
country of origin of two types of ball
seals to be offered to the United States
Government under an undesignated
government procurement contract.
Based on the facts presented, CBP has
concluded that the operations
performed in China do not result in a
substantial transformation of the U.S.
components. Therefore, the assembled
ball seals will not be considered to be
products of China.
DATES: The final determination was
issued on February 6, 2008. A copy of
the final determination is attached. Any
party-at-interest, as defined in 19 CFR
177.22(d), may seek judicial review of
this final determination within 30 days
of February 13, 2008.
FOR FURTHER INFORMATION CONTACT:
Holly Files, Valuation and Special
Programs Branch, Regulations and
Rulings, Office of International Trade
(202–572–8740).
SUPPLEMENTARY INFORMATION: Notice is
hereby given that on February 6, 2008,
pursuant to subpart B of part 177,
Customs Regulations (19 CFR part 177,
subpart B), CBP issued a final
determination concerning the country of
origin of two types of ball seals to be
offered to the United States Government
under an undesignated government
procurement contract. The CBP ruling
number is H021398. This final
VerDate Aug<31>2005
17:45 Feb 12, 2008
Jkt 214001
determination was issued at the request
of Brammall, Inc. d/b/a/
TydenBrammall (‘‘TydenBrammall’’)
under procedures set forth at 19 CFR
part 177, subpart B, which implements
Title III of the Trade Agreements Act of
1979, as amended (19 U.S.C. 2511–18).
The final determination concluded
that, based upon the facts presented, the
simple assembly in China of three major
U.S.-origin components with two minor
Chinese-origin components does not
result in a substantial transformation of
the U.S.-origin components. Therefore,
the assembled ball seals will not be
considered to be products of China for
purposes of U.S. Government
procurement.
Section 177.29, Customs Regulations
(19 CFR 177.29), provides that notice of
final determinations shall be published
in the Federal Register within 60 days
of the date the final determination is
issued. Section 177.30, CBP Regulations
(19 CFR 177.30), states that any partyat-interest, as defined in 19 CFR
177.22(d), may seek judicial review of a
final determination within 30 days of
publication of such determination in the
Federal Register.
Dated: February 6, 2008.
Myles B. Harmon,
Acting Executive Director, Office of
Regulations and Rulings, Office of
International Trade.
Attachment: HQ H021398
February 6, 2008
MAR–2–05 OT:RR:CTF:VS H021398 HEF
CATEGORY: Marking.
Ms. Linda M. Weinberg,
Barnes & Thornburg LLP, Suite 900, 750 17th
Street, NW., Washington, DC 20006.
RE: U.S. Government Procurement; Final
Determination; country of origin of ball
seals; substantial transformation; 19 CFR
Part 177.
Dear Ms. Weinberg: This is in response to
your letter dated December 21, 2007,
requesting a final determination on behalf of
Brammall, Inc. d/b/a TydenBrammall
(‘‘TydenBrammall’’), pursuant to subpart B of
Part 177, Customs and Border Protection
(‘‘CBP’’) Regulations (19 CFR 177.21 et seq.).
Under these regulations, which implement
Title III of the Trade Agreements Act of 1979,
as amended (19 U.S.C. 2511 et seq.), CBP
issues country of origin advisory rulings and
final determinations on whether an article is
or would be a product of a designated
country or instrumentality for the purpose of
granting waivers of certain ‘‘Buy American’’
restrictions in U.S. law or practice for
products offered for sale to the U.S.
Government.
This final determination concerns the
country of origin of certain ball seals. We
note that TydenBrammall is a party-atinterest within the meaning of 19 CFR
177.22(d)(1) and is entitled to request this
final determination. Samples of the ball seals,
at various stages of the manufacturing
PO 00000
Frm 00077
Fmt 4703
Sfmt 4703
8339
process, were also submitted with your
request. In preparing this final determination,
consideration was given to your
supplemental submission dated January 9,
2008.
Facts
The products subject to this final
determination are two types of ball seals
known as the ‘‘Tyden Standard Ball Seal’’
and the ‘‘Tyden Rolled-Edge Ball Seal.’’ The
ball seals are used to secure rail, container,
and truck cargo shipments. The ‘‘ball’’ of a
seal is comprised of metal top and bottom
caps. A metal strap runs through the center
of the ball and extends at length from the
bottom cap. The metal strap may have a
custom seal number embossed on it and/or
a printed bar code. A die cut notch at the end
of the metal strap is used to engage with two
interlocking D-shaped rings, located inside
the ball, to form a functional security lock.
The ball itself is slotted to provide visible
proof to the user that the seal is locked.
You advise that TydenBrammall uses
identical materials and components in the
manufacture of both the Tyden Standard Ball
Seal and the Tyden Rolled-Edge Ball Seal.
The manufacturing processes for the two
products are also identical, with the
exception that the Rolled-Edge Ball Seal
requires the additional step of having its
edges rolled under at the end of the U.S.
processing. The ball seals are assembled from
five components. You advise that the seals’
three major components are produced in the
United States from U.S. materials. The other
two components are sourced in China.
To produce the U.S.-origin components,
TydenBrammall purchases rolls of coiled
steel from a U.S. steel producer. You note
that highly trained operators and
maintenance die technicians load the steel
coils onto two computer-controlled presses
and dies at TydenBrammall’s U.S. facility.
The presses and dies are used to stamp the
strap, ball seal top cap, and ball seal bottom
cap from the coiled steel into specific sizes
and subject to precise tolerances. You assert
that the U.S.-origin components have no
other use other than as components of the
finished ball seals due to their specific
shapes, sizes, and tolerances.
Next, the three U.S.-origin components are
shipped to China for a simple assembly
process. You state that in China, unskilled
laborers manually assemble two Chineseorigin ‘‘D’’ shaped locking rings with the
U.S.-origin strap. After the rings are attached
to the strap, the top and bottom caps are
manually attached using a small hand press
that seals the caps together by slightly
bending the top cap around the bottom cap.
The assembled ball seals are then returned
to TydenBrammall’s U.S. facility where they
are stored until ordered by specific endcustomers. When a customer places an order,
assembled seals are removed from storage
and placed on a machine that die cuts a
notch into the ‘‘male’’ end of the strap. You
explain that the notch, like the teeth on a
key, makes the seal a functional security
lock. You also advise that prior to the die
cutting of the notch, the seal is not
functional. The same machine used to die cut
the notch also embosses and/or inkjet prints
E:\FR\FM\13FEN1.SGM
13FEN1
]]>Agencies
[Federal Register Volume 73, Number 30 (Wednesday, February 13, 2008)]
[Notices]
[Pages 8335-8339]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: E8-2636]
-----------------------------------------------------------------------
DEPARTMENT OF HOMELAND SECURITY
Customs and Border Protection
Notice of Issuance of Final Determination Concerning
Multifunctional Machines
AGENCY: U.S. Customs and Border Protection, Department of Homeland
Security.
ACTION: Notice of final determination.
-----------------------------------------------------------------------
SUMMARY: This document provides notice that the U.S. Customs and Border
Protection (CBP) has issued a final determination concerning the
country of origin of certain multifunctional machines which may be
offered to the United States Government under an undesignated
government procurement contract. CBP has concluded that, based upon the
facts presented, certain goods imported into Japan are substantially
transformed in Japan such that Japan is the country of origin of the
finished multifunctional machines for government procurement purposes.
DATES: The final determination was issued on January 4, 2008. A copy of
the final determination is attached. Any
[[Page 8336]]
party-at-interest, as defined in 19 CFR 177.22(d), may seek judicial
review of this final determination within 30 days of February 13, 2008.
FOR FURTHER INFORMATION CONTACT: Gerry O'Brien, Valuation and Special
Programs Branch, Regulations and Rulings, Office of International Trade
(202-572-8792).
SUPPLEMENTARY INFORMATION: Notice is hereby given that on January 4,
2008, pursuant to subpart B of part 177, Customs Regulations (19 CFR
part 177, subpart B), CBP issued a final determination concerning the
country of origin of certain multifunctional machines which may be
offered to the United States Government under an undesignated
government procurement contract. This final determination, in HQ
H018467, was issued at the request of Panasonic Corporation of North
America under procedures set forth at 19 CFR part 177, subpart B, which
implements Title III of the Trade Agreements Act of 1979, as amended
(19 U.S.C. 2511-18).
In the final determination, CBP concluded that, based upon the
facts presented, certain goods imported into Japan are substantially
transformed in Japan such that Japan is the country of origin of the
finished multifunctional machines for government procurement purposes.
Section 177.29, Customs Regulations (19 CFR 177.29), provides that
notice of final determinations shall be published in the Federal
Register within 60 days of the date the final determination is issued.
Section 177.30, CBP Regulations (19 CFR 177.30), provides that any
party-at-interest, as defined in 19 CFR 177.22(d), may seek judicial
review of a final determination within 30 days of publication of such
determination in the Federal Register.
Dated: January 4, 2008.
Sandra L. Bell,
Executive Director, Office of Regulations and Rulings, Office of
International Trade.
Attachment
HQ H018467
January 4, 2008,
MAR-2-05 OT:RR:CTF:VS H018467 GOB
Category: Marking
Madeline B. Kuflik, Esq.,
Assistant General Counsel,
Panasonic Corporation of North America,
One Panasonic Way, 3B-6,
Secaucus, NJ 07094.
RE: U.S. Government Procurement; Title III, Trade Agreements Act of
1979 (19 U.S.C. 2511); Subpart B, Part 177, CBP Regulations; Country of
Origin of Multifunctional Machines.
Dear Ms. Kuflik:
This is in response to your letter of October 5, 2007, requesting a
final determination on behalf of Panasonic Corporation of North America
(``PNA''), pursuant to subpart B of Part 177, Customs and Border
Protection (``CBP'') Regulations (19 CFR 177.21 et seq.). Under these
regulations, which implement Title III of the Trade Agreements Act of
1979, as amended (19 U.S.C. 2511 et seq.), CBP issues country of origin
advisory rulings and final determinations as to whether an article is
or would be a product of a designated country or instrumentality for
the purpose of granting waivers of certain ``Buy American''
restrictions in U.S. law or practice for products offered for sale to
the U.S. Government. In response to our request, you provided
additional information with your correspondence of November 7, 2007 and
December 5, 2007.
This final determination concerns the country of origin of certain
color digital multifunctional machines. We note that PNA is a party-at-
interest within the meaning of 19 CFR 177.22(d)(1) and is entitled to
request this final determination.
Facts
You describe the pertinent facts as follows. The product at issue
is a full-color digital multifunctional machine which can scan, copy,
and print. The machine has the following functions: up to 26 ppm color
printing; 600 dpi x 600 dpi scanning resolution; 1200 dpi x 1200 dpi
printing resolution; high-speed image editing; high speed image
compression; network function; automatic duplex scanning; automatic
duplex printing; paper ejection; and direct printing function from SD
card and PC card. The machine is sold under model number DP-C354.
You state that the multifunctional machine consists of the
following units:
1. Automatic Document Feeder Unit--takes several pages and feeds
the paper one page at a time into the scanner.
2. Scanner Unit--consists of CCD board, lens, lamp, mirror, drive
motor, detection sensor, scanner controlling board, image signal
conversion board and SD (secure digital) memory board.
3. Operation Panel Unit--consists of tilt mechanism, 7.8 inch LCD,
23 operation buttons, 14 LED, five printing boards, and backup battery.
4. Feed Unit--consists of feeding roller, pick up roller, pick up
solenoid, paper detection sensor, paper passage sensor and
electromagnetic timing clutch.
5. Manual Paper Feed Unit--for use with special paper; consists of
feeding roller, pick up roller, pick up solenoid, paper detection
sensor, paper passage sensor and electromagnetic timing clutch.
6. Lift-Up Motor Unit--consists of driving motor, paper detection
sensor and pick-up sensor.
7. Automatic Document Transferring Unit--feeds the printing paper
to the toner transferring unit; consists of driving motor, cooling fan,
paper passage sensor, paper ejection roller, transferring roller,
switching solenoid, electromagnetic clutch, jam-proof door and pinch
roller.
8. Induction Heating Fuser Unit--fuses the toner on paper by the
induction heating method; consists of induction heating coil, fusing
belt, heating roller, fusing roller and pressure roller.
9. Induction Heating Power Supply Unit--supplies power to the
induction fuser unit.
10. Transcription Unit--transcribes the unit on the printing paper;
consists of bias roller and OPC (organic photo conductor) drum unit.
11. OPC Drum Unit--this unit is charged with electricity and the
laser beam sweeps across it to make the electrostatic latent image;
consists of cleaning blade, cleaning roller and OPC drum.
12. Developing Unit--transfers the toner to the charged part of the
OPC drum; consists of concentration sensor, magnet roller, developer,
doctor blade and screw.
13. Laser Scanning Unit--irradiates the laser beam on the OPC drum
to make the surface potential; consists of lens, mirrors, polygon motor
and fan.
14. Motor Drive Board--controls the driving of the motors.
15. Automatic Duplex Unit Board--controls the paper detection
sensor and paper passage sensor.
16. High-Voltage Power Supply Board--controls the high-voltage
power supply.
17. Low-Voltage Power Supply Board--controls the low-voltage power
supply.
18. Main Drive Unit--controls the transcription unit, OPC drum and
developing units.
19. Subassembly Units--there are five different types of simple
units which consist of two to five parts.
20. System Control Board--This board, which acts as the central
control system, has a central processing unit (CPU) and 512 MB of
memory. It performs ``image processing'' which is
[[Page 8337]]
the editing, color tuning, enlarging, reducing and manipulating of the
image data to fit the image quality which is designated by the user for
the copy output or the print output. Image data is the data which is
scanned by the scanner. The user controls the multifunctional printer
by touching the operational panel and sending the data from the PC. The
system control board processes the data from the operation panel and PC
and sends the processed command to the other boards that control the
function which meets the user's intention. The three other boards which
receive data from the system control board are the scanner unit, the
operation panel unit and the engine control board. The system control
board is the core part of this product. It measures approximately 244
mm long and 330 mm wide and it contains approximately 2750 parts.
21. Engine Control Board--This board controls the machinery parts
that feed the recording papers. The machinery parts controlled by the
engine control board are the feed unit, manual paper feed unit, lift up
motor unit, automatic document feeding unit and main drive unit. The
board also controls the units that print the image to the recording
papers such as the induction heating fuser unit, transcription unit,
OPC drum unit, developing unit and laser scanning unit. This board is
approximately 244 mm long and 187 mm wide and consists of approximately
1610 parts.
In your submission of December 5, 2007, you state that ``[t]he
system control board can be compared to the brain of a human being as
it is responsible for coordinating all of the activity of the machine
and controlling all of the following important functions of the
machine.'' These functions include: all image processing functions
(e.g., where the toner is to be applied and the temperature of the
toner); enlargement and reduction functions; all functions which are
available from the control panel (e.g., choices of multiple copies,
double-sided copies, etc.); color image tuning (adding or subtracting
color); user interface control (control panel and touch screen
operations); and ``rastering'' of the printed data (the process of
taking data sent by a computer's printer driver and converting it so
that it can be understood by the engine control board to put the image
on paper).
In the same submission, you state that ``[t]he engine control board
can be analogized to the nervous system of a human being. It carries
out the commands of the brain, or in this case the system control
board.'' The engine control board controls the functions relating to
the feed of paper, including the paper feed units, the manual feed
units, the automatic document feeder unit, the paper lift-up motors,
and the main drive unit motor. The engine control board also controls
the following units with respect to the printing process: the laser
unit, which exposes the photo-receptor to create the copy; the photo-
conductor unit; the transfer belt units; the developing units, which
contain the toners which are applied to the photo-conductors and
transfer unit; and the fixing unit, which makes the toner permanent on
the paper.
PNA's request involves two manufacturing scenarios. In the first
scenario, there are three countries in which manufacturing occurs; in
the second scenario, there are two countries in which manufacturing
occurs.
First Scenario--Manufacturing in China, the Philippines, and Japan
The following seven units are manufactured in China from components
produced in various countries: automatic document feeder unit; scanner
unit; operation panel unit; feed unit; manual paper feed unit; lift up
motor unit; and subassembly units. After these components are
manufactured in China, they are sent to the factory in the Philippines.
The following eleven units are manufactured in the Philippines from
components produced in various countries: Automatic document
transferring unit; induction heating fuser unit; induction heating
power supply unit; transcription unit; developing unit; laser scanning
unit; main drive unit; motor drive board; high voltage power supply
board; low voltage power supply board; and automatic duplex unit board.
The components manufactured in China and those manufactured in the
Philippines are assembled into one main body in the Philippines. That
body is sent to the factory in Japan.
The following work is performed in Japan. The OPC drum unit and the
toner reservoir are manufactured. The system control board and the
engine control board, which are manufactured in Japan, are mounted and
inspected. Approximately 1,600 electronic parts and 500 electronic
parts are mounted on the back of the system control board and the
engine control board, respectively, by three large mounting machines.
The boards are then inspected. At that point, about 1,100 electronic
parts and 1,000 electronic parts are mounted on the front sides of the
system control board and the engine control board, respectively. The
boards are then inspected again. Workers then mount 19 parts on the
system control board and 40 parts on the engine control board by hand
soldering. The boards are then inspected again.
You state that the workers involved in the mounting and soldering
of the parts should be highly skilled because the parts are mounted
densely in view of the large number of parts and the fact that each
electronic part is microminiaturized. After the mounting process is
completed, the boards are inspected as to functionality by special
measurement equipment. This inspection takes approximately 10 to 20
minutes per board.
At this point in the process, the OPC drum unit, the toner
reservoir, the system control board and the engine control board are
incorporated into the main body which was assembled in the Philippines.
The next step is the installation of firmware into the system control
board and the engine control board. You state that the firmware in the
system control board controls the user interface, imaging, and
memories; the firmware in the engine control board controls machinery.
You state that the firmware, which is developed in Japan, is similar to
the application software of a personal computer.
The process concludes with the inspection of the completed product
and adjustments to the concentration in the toner, print position,
print color, and print quality. These adjustments are necessary for
accurate printing.
Second Scenario--Manufacturing in the Philippines and Japan
The following 18 units are manufactured in the Philippines from
components produced in various countries: Automatic document feeder
unit; scanner unit; operation panel unit; feed unit; manual paper feed
unit; lift up motor unit; subassembly units; automatic document
transferring unit; induction heating fuser unit; induction heating
power supply unit; transcription unit; developing unit; laser scanning
unit; main drive unit; motor drive board; high voltage power supply
board; low voltage power supply board; and automatic duplex unit board.
These components are assembled into one main body in the Philippines.
That body is sent to the factory in Japan.
The manufacturing process in Japan in this scenario is the same as
the process described in the first scenario.
The second scenario differs from the first scenario in that no
units are manufactured in China in the second scenario. The 18 units
manufactured in the Philippines in the second scenario include the 11
units manufactured there in the first scenario and the seven units
[[Page 8338]]
manufactured in China in the first scenario.
Issue
What is the country of origin of the subject color digital
multifunction machines for the purpose of U.S. Government procurement?
Law and Analysis
Pursuant to Subpart B of Part 177, 19 CFR 177.21 et seq., which
implements Title III of the Trade Agreements Act of 1979, as amended
(19 U.S.C. 2511 et seq.), CBP issues country of origin advisory rulings
and final determinations as to whether an article is or would be a
product of a designated country or instrumentality for the purposes of
granting waivers of certain ``Buy American'' restrictions in U.S. law
or practice for products offered for sale to the U.S. Government.
Under the rule of origin set forth under 19 U.S.C. 2518(4)(B):
An article is a product of a country or instrumentality only if
(i) it is wholly the growth, product, or manufacture of that country
or instrumentality, or (ii) in the case of an article which consists
in whole or in part of materials from another country or
instrumentality, it has been substantially transformed into a new
and different article of commerce with a name, character, or use
distinct from that of the article or articles from which it was so
transformed.
See also, 19 CFR 177.22(a).
In determining whether the combining of parts or materials
constitutes a substantial transformation, the determinative issue is
the extent of operations performed and whether the parts lose their
identity and become an integral part of the new article. Belcrest
Linens v. United States, 573 F. Supp. 1149 (Ct. Int'l Trade 1983),
aff'd, 741 F.2d 1368 (Fed. Cir. 1984). Assembly operations that are
minimal or simple, as opposed to complex or meaningful, will generally
not result in a substantial transformation. See, C.S.D. 80-111, C.S.D.
85-25, C.S.D. 89-110, C.S.D. 89-118, C.S.D. 90-51, and C.S.D. 90-97. If
the manufacturing or combining process is a minor one which leaves the
identity of the article intact, a substantial transformation has not
occurred. Uniroyal, Inc. v. United States, 3 CIT 220, 542 F. Supp. 1026
(1982), aff'd 702 F. 2d 1022 (Fed. Cir. 1983). In C.S.D. 85-25, 19
Cust. Bull. 844 (1985), CBP held that for purposes of the Generalized
System of Preferences (``GSP''), the assembly of a large number of
fabricated components onto a printed circuit board in a process
involving a considerable amount of time and skill resulted in a
substantial transformation. In that case, in excess of 50 discrete
fabricated components (such as resistors, capacitors, diodes,
integrated circuits, sockets, and connectors) were assembled. Whether
an operation is complex and meaningful depends on the nature of the
operation, including the number of components assembled, number of
different operations, time, skill level required, attention to detail,
quality control, the value added to the article, and the overall
employment generated by the manufacturing process.
In order to determine whether a substantial transformation occurs
when components of various origins are assembled into completed
products, CBP considers the totality of the circumstances and makes
such determinations on a case-by-case basis. The country of origin of
the item's components, extent of the processing that occurs within a
country, and whether such processing renders a product with a new name,
character, and use are primary considerations in such cases.
Additionally, factors such as the resources expended on product design
and development, extent and nature of post-assembly inspection and
testing procedures, and worker skill required during the actual
manufacturing process may be relevant when determining whether a
substantial transformation has occurred. No one factor is
determinative.
In HQ 735315, dated April 10, 1995, CBP stated:
We agree * * * that the assembly of the various components into
the optics module shell, mainly the PWBs which are manufactured in
the U.S., constitutes a substantial transformation. * * * [W]e find
that the manufacture of the PWBs and their subsequent installation
into the shells constitutes a complex and meaningful assembly
pursuant to C.S.D. 85-25. Although the imported shells consist of
important components, such as the sampling device, furnace, light
bulbs, and mirrors/optics, the PWBs give the optics module the
ability to function and analyze * * *.
In HQ 561734, dated March 22, 2001, CBP determined that certain
multifunctional machines (printer, copier, and facsimile) assembled in
Japan were a product of Japan for purposes of government procurement.
The machines were comprised of 227 parts (108 parts obtained from
Japan, 92 from Thailand, three from China, and 24 from other countries)
and eight subassemblies, each of which was assembled in Japan. It was
further noted that the scanner unit (one of the eight subassemblies
assembled in Japan) was characterized as ``the heart of the machine.''
In HQ 562936, dated March 17, 2004, CBP found that a
multifunctional machine (printer, copier, scanner, facsimile) was a
product of Japan for the purpose of U.S. government procurement. CBP
noted that a substantial portion of the machine's components and
assemblies were of Japanese origin. The requester had described certain
of these components as the ``most complex,'' ``key,'' and
``essential.'' CBP recognized that, in addition to the Japanese
subassemblies, certain critical Japanese-origin parts were incorporated
into the Chinese subassemblies. CBP found that the processing that
occurred in Japan was complex and meaningful, required the assembly of
a large number of components, and resulted in a new and distinct
article of commerce that possessed a new name, character, and use.
Based upon the facts which you present, we note that operations are
performed in three countries in the first scenario and two countries in
the second scenario. In situations like these, no one country imparts
the dominant portion of the work conducted. Nonetheless, based upon the
applicable legal standard, we determine that, with respect to each of
the two scenarios, the goods imported into Japan are substantially
transformed in Japan such that Japan is the country of origin of the
multifunctional machines (model number DP-C354) for government
procurement purposes. In making this determination, we give substantial
weight to the fact that the system control board, the engine control
board, and the firmware are manufactured in Japan. Based upon the facts
presented, these components are of utmost importance to the
functionality of the completed good. We also find that the operations
performed in Japan are meaningful and relatively complex and result in
an article of commerce which possesses a new name, character, and use.
Therefore, as Japan is the final country of production and a
substantial amount of work is performed there, we find that the country
of origin in both scenarios is Japan.
Holding
With respect to each of the two scenarios, the goods imported into
Japan are substantially transformed in Japan such that Japan is the
country of origin of the multifunctional machines (model number DP-
C354) for government procurement purposes.
Notice of this final determination will be given in the Federal
Register, as required by 19 CFR 177.29. Any party-at-interest other
than the party which requested this final determination may request,
pursuant to 19 CFR 177.31, that
[[Page 8339]]
CBP reexamine the matter anew and issue a new final determination.
Pursuant to 19 CFR 177.30, any party-at-interest may, within 30 days
after publication of the Federal Register notice referenced above, seek
judicial review of this final determination before the Court of
International Trade.
Sincerely,
Sandra L. Bell,
Executive Director, Office of Regulations and Rulings, Office of
International Trade.
[FR Doc. E8-2636 Filed 2-12-08; 8:45 am]
BILLING CODE 9111-14-P
