SILVANTIS ®
PHOTOVOLTAIC
MODULES
F-SERIES and R-SERIES
60-Cell High Wattage Modules
INSTALLATION GUIDE
F-SERIES and R-SERIES 60-Cell Installation Guide
1.0 Introduction
1.0 Introduction
2
1.1 Models Covered by Installation Guide 2
Thank you for choosing SunEdison’s Silvantis modules. This
guide provides information regarding the proper installation
and handling of Silvantis modules.
2.0 Safety 2.1 General Safety
2.2 Mechanical Safety
2.3 Electrical Safety
3
3
3
4
3.0 Mechanical Installation 3.1 Planning and Design 3.2 Module Mounting Options 3.3 Additional Mounting Methods 4
4
5
5
Silvantis modules consist of a series of electrically
interconnected monocrystalline solar cells that are sealed
within a laminated sheet of tempered, low glare antireflective coating (ARC) glass superstrate, and EVA back
sheet substrate. These laminates are secured inside an
aluminum frame to provide rigidness and a mounting
mechanism to affix to sub-structures.
4.0 Electrical Installation 8
4.1 Planning and Design 8
4.2 Module Wiring
8
4.3 Module Grounding 9
4.3 Option A: Metal Lug
9
4.3 Option B: Racking Manufacturer
Integrated Grounding Methods 10
4.3 Option C: Bolt Wire Assembly 10
4.3 Option D: Alternative Grounding 10
4.4 String Grounding 11
5.0 Maintenance
11
6.0 Disclaimer of Liability 12
7.0 Appendix
13
7.1 Module Illustrations
13
7.2 Physical Parameters
13
7.3 Pre-mounted Cables and Connectors 14
2
Please review all the sections that pertain to proper
installation of modules listed in this guide. The
instructions detailed in this guide must be followed
throughout the module’s lifetime deployment. If you need
additional information about the safe, proper use and
handling of SunEdison photovoltaic module products,
please contact SunEdison.
1.1 Models Covered by Installation Guide
Silvantis Monocrystalline Modules
Silvantis F-Series
F255CzC
F260CzC
F265CzC
F270CzC
F275CzC
F255KzC
F260KzC
F265KzC
F270KzC
F275KzC
Silvantis F-Series U.S. Tariff-Free
F255CzD
F260CzD
F265CzD
F270CzD
F275CzD
F255KzD
F260KzD
F265KzD
F270KzD
F275KzD
Silvantis R-Series
R270CzC
R275CzC
R280CzC
R285CzC
R290CzC
R270KzC
R275KzC
R280KzC
R285KzC
R290KzC
CzC = White back sheet; KzC = Black back sheet
CzD = White back sheet U.S. tariff-free;
KzD = Black back sheet U.S. tariff-free
z indicates manufacturing location: M = Malaysia, X = Mexico, K = Korea,
P = China, T = Taiwan
For product parameters and specifications see Section 7.0.
© 2015 SunEdison
2.0 Safety
Ensure to follow all safety guidelines stated below. Failure
to do so can cause severe injury, damages, or a void in
the module warranty.
2.1 General Safety
••To safely keep modules stored, they must remain
packaged on the provided pallets, and must not be
stacked more than two pallets high.
••Upon unpacking, only carry a module by its frame with
two or more people. Do not carry a module by the wires
or junction box.
••Ensure that frame weep holes are not obstructed by the
mechanical installation.
••Modules are intended for outdoor use.
••Do not submerge modules in water at any time.
••The front and back of each module is labeled with
a product bar code. Do not cover, remove or deface
labels as they are necessary for product identification.
••Troubleshooting should include planning, checking,
disconnecting, cause seeking, replacement and
record keeping.
••Do not allow unauthorized persons near the installation
site or module storage area.
••Do not wear rings, jewelry, watches or other metallic
items while working with photovoltaic modules.
2.2 Mechanical Safety
••Packaged modules must be stored indoors; in a dry and
ventilated area. Modules should never be stored in a
wet or outdoor environment.
••Once opened, continue to store modules in a dry and
ventilated room.
••Damage to the glass surface or its anti-reflective coating
will impact the power output and overall efficiency of
the system. Scratches, handling marks or any other
damage to the glass surface must be avoided.
••To avoid these and other performance prohibitive
issues, keep the front side of the module clean and free
of obstructions including covers, tape, adhesives, paint
and debris.
••All modules are manufactured with a sealed junction
box, pre-attached cables and locking connectors. These
components should not be modified or tampered with
in any way. If connectors are not hooked up right away,
SunEdison recommends attaching protective caps to
prevent damage to the connectors.
••Do not install or handle the modules or their
components when they are wet or during periods
of high wind.
••Do not attempt to disassemble, repair or open
any part of the module; including the junction box
or sub-components.
••Do not install or handle broken modules. If a module
is broken, or the back sheet is torn, contact with the
surface or frame can cause an electrical shock.
••Do not place or drop objects on the modules, including
other modules.
••Do not twist the module frame.
••Do not stand, step, walk or jump on the module.
••Do not mark the modules with sharp instruments.
••Do not leave a module unsupported or unsecured.
••Do not modify the module in any way, which includes
the frame, glass, eva, etc.
••Photovoltaic modules produce DC electrical energy
from light. When illuminated, each module can have
a DC potential of greater than 45 V and should be
handled with care.
WARNING: Precautions should be taken to avoid damage to the glass surface when unpacking, handling or
storing the modules since any damage to the glass surface may impact the power output of the modules.
© 2015 SunEdison
3
F-SERIES and R-SERIES 60-Cell Installation Guide
2.3 Electrical Safety
3.0 Mechanical Installation
The following safety guidelines and best practices should
be followed at all times:
3.1 Planning and Design
••All installations must be performed in compliance
with all applicable regional and local electrical codes
or other applicable national and international electrical
standards.
••Use only insulated tools during installation,
troubleshooting and maintenance of the modules.
••Wear suitable protection to prevent direct contact with
module’s electrical output and mechanical sharp edges.
••Cover the front of the modules with an opaque material
to stop production of electricity when installing or
working with a module or wiring.
••Always use a wire management system that keeps
wires and cables out of direct contact with edged
surfaces, which could cut or damage the insulation. Do
not allow wires to rest on the ground or roof surface.
••Modules connected in a series should not be
disconnected under illumination. Disconnecting modules
under illumination may cause electrical arcing, which
may result in burns, fires or other injuries and damages.
••Before installation, check to ensure the sub-structure
will accommodate expected system loads. This
includes and is not limited to roof, foundations,
mechanical structure and mechanical connections.
••All Silvantis solar modules have a module fire
resistance rating of Class C. According to the UL1703
test protocol, revised in 2014, all Silvantis solar
modules also have a module fire resistance rating of
Class A for spread of flame, and fire performance of
either Type 1 or Type 2 classification as specified on
the module label. Per UL, the fire rating of this module
is valid only when mounted in the manner specified in
the mechanical mounting instructions. The system fire
rating is determined by the module, rack and roofing
materials. SunEdison recommends not mixing module
fire performance type within a system.
••Consider the following factors during system design,
which will influence performance:
a.SunEdison solar modules produce the most
power when they are pointed directly at the
sun, and should be tilted for optimum system
performance.
b.Proximity to obstructions have the potential to
shade or damage the modules (examples below):
• walls
• buildings
• trees
• groundcover
• snow cover
• dust and debris
c.Designs should allow adequate airflow across
the back of the module because elevated
temperatures will decrease energy yield.
d.Allow a minimum spacing of 10 mm between
modules for thermal expansion.
e.It is recommended that you mount the modules
at least 5 degrees from the horizontal.
••Do not artificially concentrate sunlight on a module.
4
© 2015 SunEdison
3.2 Module Mounting Options
3.3 Additional Mounting Methods
For clamp or bolt mounting locations, please refer to the
table on pages 6-7.
Use of the PanelClaw system (Part Number 500000501)
is recommended with SunEdison Solar PV modules.
Structures manufactured by PanelClaw Inc. use a special
clamp, or "claw" designed to attach to the flange of the
module at all four corners, on the two short frame ends.
For proper placement, attach a claw over the module
frame flange at each of the four designated locations and
tighten the screw so that the claws are flush with the
long and short ends of the module flange (see Figure 1).
This mounting method has been tested to a maximum
rating of 50 psf in the negative and positive direction.
Refer to the mounting configurations on pages 6-7, as
well as the PanelClaw installation guide for information on
the installation of the clamps.
••Each module should be mounted using four bolts
through the mounting holes on the rear side of the
module, or with four clamps over the front side within
the region specified as shown in the mounting diagram
below.
••Depending on the desired load capability of the array,
modules may be mounted either perpendicular or
parallel to the structure rails. Clamps can be mounted
anywhere inside of the safe mounting range for each
case illustrated in the table on pages 6-7.
••If using bolts, use a bolt stack no smaller than ¼"-20
or M6, with two flat washers and a locking washer as
shown in Appendix 7.1.
Figure 1: Illustrations of the Panel Claw
••To ensure an adequate clamping area, all clamps must
be able to clamp within the range specified in the table
on pages 6-7. All fasteners used to fix the modules with
clamps should be no smaller than ¼”-20 or M6.
••To provide adequate fixing or clamping force, torque the
fasteners to the manufacturers torque specifications.
••For all cases, the area of the supporting structure in
contact with rear side of the module must comply with
the dimensions specified in Appendix 7.2.
••All other structural dimensions, such as clamp and
rail thickness, should be sized appropriately for the
intended site load.
© 2015 SunEdison
5
F-SERIES and R-SERIES 60-Cell Installation Guide
MOUNTING CONFIGURATIONS
LOAD PARAMETERS
CLAMP MOUNT
LOCATIONS
BOLT MOUNT
LOCATIONS
RAIL MOUNT
(PORTRAIT & LANDSCAPE)
Structural rails running
perpendicular to the length of the
module should be fixed via bolts
or clamps at the mounting holes
between each long side frame.
PORTRAIT
B
A
Maximum
Rear Load:
Clamp mount
allowable range
2400 Pa (50 psf)
Maximum
Front Load:
5400 Pa (113 psf)
LANDSCAPE
REAR VIEW
FRONT VIEW
Maximum
Rear Load:
D
2400 Pa (50 psf)
Clamp mount
allowable range
CLAMP MOUNT ONLY
Maximum
Front Load:
FRONT VIEW
5400 Pa (113 psf)
END MOUNT
F
PORTRAIT
Structural rails running parallel to
the length of the module should
be fixed ONLY via bolts at the
mounting holes or clamps within
the allowable clamp range on
each long side frame.
Maximum
Rear Load:
Clamp mount
allowable range
2400 Pa (50 psf)
CLAMP MOUNT ONLY
Maximum
Front Load:
2400 Pa (50 psf)
LANDSCAPE
E
FRONT VIEW
Maximum
Rear Load:
H
5400 Pa (113 psf)
Maximum
Front Load:
5400 Pa (113 psf)
Module Color Code:
G
Clamp mount
allowable range
REAR VIEW
Mounting Hole Location
FRONT VIEW
Module Rail
Clamp Mount Range
Clamp mount allowable range: A: 0 – 382 mm B: 0 – 207 mm C: 0 – 248 mm
D: 0 – 124 mm E: 0 – 248 mm F: 0 – 50 mm
G: 0 – 382mm H: 0 – 50 mm
6
© 2015 SunEdison
C
MOUNTING CONFIGURATIONS
CLAMP MOUNT
LOCATIONS
BOLT MOUNT
LOCATIONS
LOAD PARAMETERS
This mounting configuration
is specific to flat rooftops.
Mounting should only be
done via clamps. The alpine
configuration (not shown) is also
allowed.
LANDSCAPE
CORNER MOUNT
Maximum
Rear Load:
2400 Pa (50 psf)
Maximum
Front Load:
FRONT VIEW
CORNER MOUNT WITH
CENTER MOUNTS
Attach module clamps at four
corners and at center of module.
Applicable to S:Flex East-West
and Alpine mounting system;
refer to S:Flex installation
manual.
Maximum
Rear Load:
Clamp mount
allowable range
Clamp mount
allowable range
FRONT VIEW
FRONT VIEW
S:Flex East-West
Alpine Configuration
2400 Pa (50 psf)
Maximum
Front Load:
5400 Pa (113 psf)
CASE 1
Maximum
Rear Load:
Clamp mount
allowable range
2400 Pa (50 psf)
Maximum
Front Load:
2400 Pa (50 psf)
FRONT VIEW
Maximum
Rear Load:
CASE 2
FULL LENGTH CLAMPING
(CASES 1&2)
When clamping the module
full width across the ends
it is unsupported along the
unclamped edge.
LANDSCAPE S:FLEX
2400 Pa (50 psf)
Clamp mount
allowable range
2400 Pa (50 psf)
Maximum
Front Load:
2400 Pa (50 psf)
Module Color Code:
FRONT VIEW
Module Rail
© 2015 SunEdison
S:Flex Snow Sheet
Clamp Mount Range
7
F-SERIES and R-SERIES 60-Cell Installation Guide
4.0 Electrical Installation
4.2 Module Wiring
4.1 Planning and Design
All modules are manufactured with a sealed junction
box, pre-attached cables and locking connectors. These
components should not be modified or tampered with
in any way.
Note: Installers shall ensure that the polarized locking
connectors are from the same supplier. Do not mix
polarized interlocking connectors from different
manufacturers—including connections at the inverter,
combiner boxes and modules. Doing so will void the
warranty. Refer to the corresponding data sheet for
connector types.
••Ensure connectors are clean and dry before
establishing connection.
••Ensure that all wire, fusing and disconnects are
appropriately sized for the system design according
to national, regional, and local codes.
••Electrical characteristics are within plus or minus 5% of
rated values for Isc, Voc, Impp and Vmp. Pmax ranges
between 0 W to +5 W at standard test conditions
(STC). However, modules will operate under conditions
that may be significantly different than STC. SunEdison
suggests multiplying specified ratings by a minimum of
1.25 or more when designing the system and balance
of system components. Refer to local codes before
planning and designing the system.
••Determine the maximum number of modules that may
be connected in series using the following formula:
••The module includes wires and polarized locking
connectors from the junction box on the back of the
module. Field replacement of connectors or cables
must be avoided and will void the product warranty.
Polarized locking connectors of the same type, make
and manufacturer are required for all series string
wiring. The maximum operating temperature of the
wires and connectors should not exceed 85 C.
••Always wire modules so that proper polarity is
maintained. Avoid placing excessive tension on
the cables.
••There is no limit to the maximum number of series
strings that can be combined in parallel. However,
when doing so, each string must include overcurrent
protection with a maximum rating of 15 A. SunEdison
recommends the use of DC rated fuses or overcurrent
protection devices with the appropriate maximum
voltage rating.
••Do not connect modules of three or more strings
directly to a parallel bus.
••The cross-sectional area of cable and the connector
type must be selected to align with the overall system
design, and should include the maximum short
circuit current of the system, maximum operating
temperatures and cable run lengths.
••For field connections, use at a minimum #12 AWG/4
mm2 wires insulated for a minimum of 85 C. Use copper
wire only.
Ns = Vmaxs/Vocm
Where:
Ns equals the maximum modules in series.
Vmaxs equals the maximum system voltage and
is either 600 V or 1000 V for installations that are
subject to UL certification for the module and with
having approval from the local AHJ.
Vocm equals the module open circuit voltage at
coldest conditions for the site (refer to local codes).
WARNING: Installers should adhere to all applicable local, regional, and national codes and regulations when designing
and constructing the photovoltaic system.
Note: In colder climates, it may be necessary to further reduce the maximum number of modules in a series by using
Vocm at the minimum expected operating temperature.
8
© 2015 SunEdison
4.3 Module Grounding
Metric set
Module frames and structures grounding must be
compliant with all national and local regulations.
- Stainless Steel Bolt M4
SunEdison recommends grounding all module frames
and associated structures in order to maintain a zerovoltage potential between the electrically conductive
equipment and the earth in all scenarios.
- Stainless Steel Flat Washer M4
- Stainless Steel Nut M4
See below for approved grounding methods:
••Lug Method: A copper, stainless steel, or tin plated
grounding lug that is rated for outdoor use and uses
no smaller than a #12 wire is acceptable. The use of a
copper split bolt connector is authorized for use as well.
••Alternative Methods: Other code compliant frame
grounding methods that are certified to UL 1703/2703
standards are acceptable.
••The frame has predrilled holes marked with a grounding
sign as illustrated in Figure 2. These holes should be
used exclusively for grounding. Do not drill additional
holes or modify existing holes in the frame.
- Stainless Steel Spring Washer M4
- Stainless Steel Lock-Toothed Washer M4
- Stainless Steel Slotted Washer M4
English set
- Stainless Steel Bolt #8-32
- Stainless Steel Nut #8-32
- Stainless Steel Flat Washer #8-32
- Stainless Steel Spring Washer #8-32
- Stainless Steel Lock-Toothed Washer #8-32
- Stainless Steel Slotted Washer #8-32
Step 1: Place the grounding lug over the grounding hole
on the exterior of the module frame.
Step 2: Place a star washer directly between the bottom
of the grounding lug and the exterior surface of
the frame.
Figure 2: Image of the grounding holes
Step 3: Place a bolt through the lug, star washer and
frame grounding hole.
Step 4: Secure the lug to the frame using a flat washer,
split washer and nut.
Step 5: Torque the bolt stack to approximately 1.5–2.3
N·m (1.1–1.7 ft·lbs) to ensure the star washer
penetrates the anodized frame.
Figure 3: Option A Grounding Lug Assembly
4.3 Option A: Metal Lug
SunEdison recommends copper or tin plated grounding
lugs rated for outdoor use and used with a #12 or
larger wire. The use of a copper split bolt connector is
authorized for well.
Attach the grounding lug to the frame by referring to
Figure 3 and the following steps:
Use stainless steel metric or English sets only. Please
refer to the following list for the minimum hardware
requirements for each set.
© 2015 SunEdison
9
F-SERIES and R-SERIES 60-Cell Installation Guide
4.3 Option B: Racking Manufacturer
Integrated Grounding Methods
4.3 Option C: Bolt Wire Assembly1
Integrated grounding methods must be appropriately
certified to UL standards and must be in accordance
with the specified instructions of the respective
manufacturer. SunEdison modules can be grounded
by bonding modules to a grounded racking system.
SunEdison recommends using its internally developed
integrated grounding clip, PN: 720256 with its piloted
bolt, PN: 720230. The grounding clip utilizes a 304
stainless steel KEP nut to make the ground connection,
and the geomet finished bolt carries the current to the
grounded structure. The torque specification for the bolt
and clip is 14.9 N·m (11 ft·lbs).
Step 1: Attach grounding lug at one of the designated
aforementioned grounding hole locations. Using
only stainless steel hardware, insert a stainless
steel bolt first through the stainless steel cup
washer, and then through the grounding hole.
Step 2: Loosely add a stainless steel backing nut and
a toothed lock washer to the bolt.
Step 3: Bend the EGC into an Omega (Ω) shape to tightly
fit between the partially installed bolt head
and cup washer. The EGC will be exclusively in
contact with the steel.
Step 4: Tighten the bolt to approximately 4 N·m (35 in·lbs)
of torque. The toothed washer must penetrate
the coated aluminum.
Figure 4: Option B Grounding Lug Assembly
Step 5: Route the correctly sized ECG wire without
bringing the wire into contact with the module
frame.
Figure 5: Option C Bolt Wire Assembly
Mounting Rail Here
If the clip is not available, SunEdison also recommends
using the BURNDY WEEBs integrated rack grounding,
part numbers WEEB-ADC, WEEB-ADR, WEEB-WMR1 and
WEEB-WMR2. These devices are made of 304 stainless
steel that properly ground the modules with specialized
teeth that penetrate both module and structure. Should
you choose a rack integrated method that is not approved
by UL please contact SunEdison before proceeding to
determine compatibility.
10
4.3 Option D: Alternative Grounding
To use other code compliant frame grounding methods
that are UL certified contact SunEdison for approval.
1
If the omega configuration is not possible and a full loop is required, please
add another cup washer between the screw head and the copper wire loop.
© 2015 SunEdison
5.0 Maintenance
4.4 String Grounding
Silvantis F-series modules come in two types, PID-free
and PID-resistant. PID-free panels have a “PID-free”
designation on the nameplate label (Figure 6a) as
well as a “P” on the right side of the bar code label
(Figure 6b). String grounding requirements for the two
types of modules are:
••PID-free modules do not require string grounding
and are fully compatible with floating ground
transformerless and micro-inverters, as well as with
galvanically isolated inverters.
••PID-resistant modules: For string voltages greater
than 100 V PID-resistant modules must be used with
galvanically isolated inverters with the negative end
of the string held at ground potential. Floating ground
transformerless string inverters may not be used with
PID-resistant modules. PID-resistant modules are fully
compatible with microinverters where string voltage
is less than 100 V, in which case string grounding is
not required.
Figure 6: PID-free module designations
(a)
Check the modules for any damages to the glass
surfaces and frames on a regular basis. Routinely
inspect all modules for safe electrical connections,
sound mechanical connections, and for any shading or
corrosion issues. If dirt or debris becomes built-up clean
the glass using only a soft cloth, with a mild, non-abrasive
detergent and water. SunEdison recommends using mild
cleaning liquids; a neutral pH in the range of 6.0 to 8.0
is recommended. Chemicals with pH less than 6.0 or
greater than 8.0 should be avoided as it may damage the
glass surface and/or the anti-reflective coating. Please
consult with the system designer to determine the
best cleaning and inspection schedule based on local
environmental conditions.
Do not power wash, use harsh cleaning materials or
coarse objects such as scouring powder, steel wool,
scrapers, blades or other sharp instruments to clean the
module. Use of any such methods and materials will void
the product warranty. Do not wash modules with water
that is more than 20 C cooler than the surface of the
module. Doing so can cause the glass to crack.
WARNING: Use caution when cleaning the back surface
of the module to avoid scratching the substrate materials.
(b)
© 2015 SunEdison
11
F-SERIES and R-SERIES 60-Cell Installation Guide
6.0 Disclaimer of Liability
International Product Certifications:
Certification
The information in this manual is based on SunEdison’s
knowledge and experience and is believed to be accurate.
However, the information in this manual (without
exception) including recommendations and specifications
does not constitute a warranty, expressed or implied.
SunEdison reserves the right to change the manual, the
module, or specifications without prior notice.
••IEC 61215 certified by TÜV SÜD
••IEC 61730 certified by TÜV SÜD
to ensure electrical safety
••UL 1703 listed by CSA for US
and Canada
Environmental
AB8 (−50 C to +40 C)
The product warranty will be voided if:
Module Fire
Performance
Type 1 or Type 2 available1
••Handling and installation does not conform to
SunEdison’s written installation instructions.
Fire Resistance
Rating
Class C
••The product has been modified in a manner not
previously authorized by SunEdison in writing.
1
••The product is installed in an environment for which it
was not designed.
IEC 61215, IEC 61730, CE, UL 1703 and Safety Class II
certifications ensure that SunEdison solar products operate
safely and comply with applicable national and global
electrical, performance, reliability and fire safety codes.
SunEdison will not be held liable for special, indirect,
consequential, contingent or incidental damages related
to or arising from the installation or use of the product by
purchaser under any circumstances.
Refer to design package and module label for specific Fire Performance Type.
SunEdison modules are certified by:
SunEdison assumes no responsibility for any product
application or use that is beyond SunEdison’s direct
control. SunEdison does not accept responsibility
and expressly disclaims liability for loss, damage, or
expense arising out of or in any way connected to such
installation, operation or maintenance of the product.
12
© 2015 SunEdison
7.0 Appendix
7.1 Module Illustrations
7.2 Physical Parameters
Dimension
mm
inch
Module Dimensions
Bolt Stack Details
Dimension
mm
inch
Mounting Hole Spacing
A
990
39.0
E
950
37.4
B
1,658
65.3
F
994
39.1
C
50
2.0
D
30
1.18
Cable Length
L
1,000
39.4
Dimension tolerance range for:
A ±3 mm, B ±3 mm and C ±0.3 mm
Module Weight
19 kg
Frame Material
Black Anodized Aluminum
Tempered ARC
Glass Thickness
3.2 mm
Connector Types
Amphenol Helios H4 (–38, –39)
Bizlink S418 (–34)
© 2015 SunEdison
13
F-SERIES and R-SERIES 60-Cell Installation Guide
7.3 Pre-mounted Cables and Connectors
Mounting Configuration
Type
Cross Section
Maximum Current
Maximum System Voltage
Temperature Rating
Qualification
14
Pre-mounted Cables
TUV – PV1-F & UL – PV wire
4.0 mm²
16 A
1000 VDC / UL 1000 V
− 40 C to +90 C
TUV 2PFG & UL PV wire
© 2015 SunEdison
Pre-mounted Connectors
locking polarized connectors
4 mm diameter
25 A
1000 VDC / UL 1000 V
− 40 C to +85 C
EN 50521 & UL for PV system
SunEdison Delivers Solar
Solutions Around the World
Australia
Brazil
Bulgaria
Canada
Chile
China
France
Germany
Greece
India
Indonesia
Israel
Italy
Japan
Jordan
Malaysia
Mexico
South Africa
South Korea
Spain
Taiwan
Turkey
U.A.E
United Kingdom
U.S.A.
www.sunedison.com
600 Clipper Drive Belmont, CA 94002
Phone: 866-786-3347 or 650-453-5600
©2015 SunEdison Products Singapore Pte. Ltd.; A SunEdison Company. All rights reserved. SunEdison and the SunEdison logo are registered trademarks or trademarks of SunEdison
Products Singapore Pte. Ltd. and/or its affiliates in the United States and certain other countries. All other trademarks mentioned in this document are the property of their respective
LWI-19376 TF_F_R60_Vega_45_GD_50mm_v6 06.2015
owners.