Press Alt + R to read the document text or Alt + P to download or print.
This document contains no pages.
15090080CITY OF CUPERTINO BUILDING PERMIT
BUILDING ADDRESS: 10850 E ESTATES DR
CONTRACTOR: REC SOLAR, INC.
PERMIT NO: 15090080
OWNER'S NAME: LYN M & ROSEANNE I HOFLAND
775 FIERO LN STE 200
DATE ISSUED: 09/14/2015
OWNER'S PHONE: 4085071914
SAN LUIS OBISPO, CA 93401
PHONE NO: (888)657-6527
@� LICENSED CONTRACTOR'S DECLARATION
JOB DESCRIPTION: RESIDENTIAL. ❑ COMMERCIAL ❑
' r_7S_Z�
INSTALL 15 FLUSH MOUNTED ROOF TOP PV MODULES (4.4
KW)
License Class � � �O Lic. # ( g
S kM f -'%'4 � — 9
Contractor Date
I hereby affirm that I am licensed under the provisions of Chapter 9
(commencing with Section 7000) of Division 3 of the Business & Professions
Code and that my license is in full force and effect.
Sq. Ft Floor Area:
Valuation: $9200
I hereby affirm under penalty of perjury one of the following two declarations:
i. I have and will maintain a Certificate of consent to self -insure for Worker's
APN Number: 36922005.00
Occupancy Type:'
Compensation, as provided for by Section 3700 of the Labor Code, for the
performance of the work fair which this permit is issued.
I have and will maintain Worker's Compensation Insurance, as provided for by
Section 3700 of the Labor Code, for the performance of the work for which this
permit is issued.
PERMIT EXPIRES IF WORK IS NOT STARTED
APPLICANT CERTIFICATION
WITHIN 180 DAYS OF PERMIT ISSUANCE OR
I certify that I have read this application and state that the above information is
180 DAYS FRO ST CALLED INSPECTION.
correct. I agree to comply with all city and county ordinances and state laws relating
to building construction, and Hereby authorize representatives of this city to enter
upon the above mentioned property for inspection purposes. (We) agree to save
Bate:
indemnify and keep harmless the City of Cupertino against liabilities, judgments,
costs, and expenses which in accrue against said City in consequence of the
granting of this permit. Additionally, the applicant understands and will comply with
all non -point source ulatiorjs er the Cupertino Municipal Cod�e, ection 9.18.
RE -ROOFS:
1
All roofs shall be inspected prior to any roofing material being installed. If a roof is
Sig ure Date p( I4 11 N,
installed without first obtaining an inspection, I agree to remove all new materials for
inspection.
Signature of Applicant: Date:
❑ OWNER -BUILDER DECLARATION
I hereby affirm that I am exempt from the Contractor's License Law for one of
ALL ROOF COVERINGS TO BE CLASS "A"' OR BETTER
the following two reasons: i
1. 1, as owner of the property, 4or my employees with wages as their sole
compensation, will do the Work, and the structure is not intended or offered for
HAZARDOUS MATERIALS DISCLOSURE
sale (Sec.7044, Business &!Professions Code)
1 have read the hazardous materials requirements under Chapter 6.95 of the
2 I, as owner of the property, 2m exclusively contracting with licensed contractors to
California Health & Safety Code, Sections 25505, 25533, and 25534. I will maintain
construct the project (Sec.7044, Business & Professions Code).
compliance with the Cupertino Municipal Code, Chapter 9.12 and the Health &
Safety Code, Section 25532(a) should I store or handle hazardous material.
I hereby affirm under penalty of perjury one of the following three declarations:
Additionally, should I use equipment or devices which emit hazardous air
r. I have and will maintain a Certificate of Consent to self -insure for Worker's
contaminants as defined by the Bay Area Air Quality Management District I will
Compensation, as providedfor by Section 3700 of the Labor Code, for the
maintain compliance with the Cupertino Municipal Code, Chapter 9.12 and the
Health & Safety Code, Sections 25505, 25533, and 25534.
performance of the work fot which this permit is issued.
2. I have and will maintain Worker's Compensation Insurance, as provided for by
Owner or autho dage
i
Section 3700 of the Labor Code, for the performance of the work for which this
Date: l
permit is issued.
3. 1 certify that in the performance of the work for which this permit is issued, I shall
CONSTRUCTION LENDING AGENCY
not employ any person in any manner so as to become subject to the Worker's
Compensation laws of California. If, after making this certificate of exemption, I
I hereby affirm that there is a construction lending agency for the performance of work's
become subject to the Worker's Compensation provisions of the Labor Code, I
for which this permit is issued (Sec. 3097, Civ C.)
Lender's Name
must forthwith comply with such provisions or this permit shall be deemed
revoked.
Lender's Address
APPLICANT CERTIFICATION
ARCHITECT'S DECLARATION
I certify that I have read this application and state that the above information is
I understand my plans shall be used as public records.
correct. I agree to comply with all city and county ordinances and state laws relating
to building construction, and hereby authorize representatives of this city to enter
Licensed Professional
upon the above mentioned property for inspection purposes. (We) agree to save
indemnify and keep harmless the City of Cupertino against liabilities, judgments,
costs, and expenses which may accrue against said City in consequence of the
granting of this permit. Additionally, the applicant understands and will comply with
all non -point source regulations per the Cupertino Municipal Code, Section 9.18.
Signature Date
CUPERTINO
ALTERNATIVE ENERGY PERMIT APPLICATION
COMMUNITY DEVELOPMENT DEPARTMENT • BUILDING DIVISION
10300 TORRE AVENUE • CUPERTINO, CA 95014-3255
(408) 777-3228 • FAX (408) 777-3333 • building(@cupertino.org /Sw [
AE
PROJECT ADDRESS to V J ✓ r �/T
GI
�� �J�'(PHHONE(
7APN # �� p�
1�
OWNERNAME I ,{JYxe 4/ E-MAIL
_IA qq Mlet I
STREET ADDRESS lL'`,!- �f�L� / /► ���,-C,STATz(��nn C^w(J��
J 7 V`
V 7 (, �a�/
CONTACT NAME �Q-1
GGA
PHONE
3 moo$
E-MAIL
STREET ADDRESS
CITY, STAT E�ZiP � � ,3 � FAX
❑ OWNER ❑ OWNER -BUILDER ❑ OWNERAGENT ❑ CONTRACTOR ❑ CONTRACTOR AGENT ❑ ARCHITECT ❑ ENGINEER ❑ DEVELOPER ❑ TENANT
CONTRACTOR NAMES� rw CENSE NUMBER I $�
LICENSE�T�YPF�
t
I
BUS. LIC tF
COMPANY NAME E-MAIL
. %,e a5
FAX
STREET ADDRESS /) i7 T ,/ \ CITY, STATE, ZIP V VNO •� V
ARCHITECVENGINEER NAME LICENSE NUMBER S A to Jv`'Q
PHONE
BUS. LIC #
COMPANY NAME
E-MAIL
FAX
STREET ADDRESS
CITY, STATE, ZIP
PHONE
USE OF ❑ SFID or Duplex [I Multi -Family
STRUCTURE: �COImmerclal
PROJECT IN WILDLAND
URBAN INTERFACE AREA ElYes ElNo
PROJECT IN
FLOOD ZONE ElYes El No
❑ SOLAR PANELS
❑ ELECTRIC VEHICLE CHARGING STATION
❑ SOLAR WATER HEATING
❑ OTHER:
FOR SOLAR PANELS: NUMBER OFPANELSIUNITS: 1 G5 KILOWATTS (COMMERCIAL ONLY): CJ.
TOTALVALUATION:4�'�`
DESCRIPTION OF WORK�/
fPfM fit
'tt
RECEI > JJ s a
W
By my signature below; I certify to each of the following: I am the property owner or authorized agent to act on t p wner's behalf. I have read this
application and the information I have providej is correct. I have read the Description of Work and verify it is accurate. I agree to comply with all applicable local
ordinances and state laws relating to buildin onstructi . ri resenta of Cupertino to enter the above-ide�Itified,property for inspection purposes.
Signature ofApplicant%Age . Date:�777
UPPLEMENTAL INFORMATION REQUIRED
;:"c.`
ryt"S.i
y C3
gY»,i-�;} 'v Wig' °tp NgIS§ c
S �Ai1�DASD
W;
PVApp_2011.docrevised 03/16/11
CITY OF CUPERTINO BUILDING PERMIT
BUILDING ADDRESS: 10850 E ESTATES DR CONTRACTOR: REC SOLAR, INC. PERMIT NO: 15090080
I OWNER'S NAME: LYN M & ROSEANNE I HOFLAND 1 775 FIERO LN STE 200 1 DATE ISSUED: 09/14/2015 1
OWNER'S PHONE: 4085071914 SAN LUIS OBISPO, CA 93401 1 PHONE NO: (888)657-6527
g LICENSED CONTRACTOR'S DECLARATION
License Class C Lie. #
Contra r Date
I her irm that I am licensed under the provisions of Chapter 9
(commencing with Section 7000) of Division 3 of the Business & Professions
Code and that my license is in full force and effect.
I hereby affirm under penalty of perjury one of the following two declarations:
. I have and will maintain a certificate of consent to self -insure for Worker's
Compensation, as provided for by Section 3700 of the Labor Code, for the
performance of the work for which this permit is issued.
2. 1 have and will maintain Worker's Compensation Insurance, as provided for by
Section 3700 of the Labor Code, for the performance of the work for which this
permit is issued.
APPLICANT CERTIFICATION
I certify that 1 have read this application and state that the above information is
correct. I agree to comply with all city and county ordinances and state laws relating
to building construction, and hereby authorize representatives of this city to enter
upon the above mentioned property for inspection purposes. (We) agree to save
indemnify and keep harmless the City of Cupertino against liabilities, judgments,
costs, and expenses which may accrue against said City in consequence of the
granting of this permit. Additionally, the applicant understands and will comply with
all non -point sou regulations the Cupertino Municipal Code Section 9.18.
Sign r Date
❑ OWNER -BUILDER DECLARATION
I hereby affirm that I am exempt from the Contractor's License Law for one of
the following two reasons:
t. I, as owner of the property, or my employees with wages as their sole
compensation, will do the work, and the structure is not intended or offered for
sale (Sec.7044, Business & Professions Code)
2. I, as owner of the property, am exclusively contracting with licensed contractors to
construct the project (Sec.7044, Business & Professions Code).
I hereby affirm under penalty of perjury one of the following three declarations:
t. I have and will maintain a Certificate of Consent to self -insure for Worker's
Compensation, as provided for by Section 3700 of the Labor Code, for the
performance of the work for which this permit is issued.
2 I have and will maintain Worker's Compensation Insurance, as provided for by
Section 3700 of the Labor Code, for the performance of the work for which this
permit is issued.
3 1 certify that in the performance of the work for which this permit is issued, I shall
not employ any person in any manner so as to become subject to the Worker's
Compensation laws of California. If, after making this certificate of exemption, I
become subject to the Worker's Compensation provisions of the Labor Code, I
must forthwith comply with such provisions or this permit shall be deemed
revoked.
APPLICANT CERTIFICATION
I certify that I have read this application and state that the above information is
correct. I agree to comply with all city and county ordinances and state laws relating
to building construction, and hereby authorize representatives of this city to enter
upon the above mentioned property for inspection purposes. (We) agree to save
indemnify and keep harmless the City of Cupertino against liabilities, judgments,
costs, and expenses which may accrue against said City in consequence of the
granting of this permit. Additionally, the applicant understands and will comply with
all non -point source regulations per the Cupertino Municipal Code, Section 9.18.
Date
JOB DESCRIPTION: RESIDENTIAL ❑ COMMERCIAL ❑
INSTALL 15 FLUSH MOUNTED ROOF TOP PV MODULES (4.4Kw)
REV # 1 - ADD 1 ADDITIONAL PANEL TO SCOPE OF WORK (FROM 15 TO 16
PANELS, SAME KW 4.4) - ISSUED 9/30/15
Sq. Ft Floor Area: I Valuation: $9200
APN Number: 36922005.00 1 Occupancy Type:
PERMIT EXPIRES IF WORK IS NOT STARTED
WITHIN 180 DAYS OF PERMIT ISSUANCE OR
RIP
- RE -ROOFS:
All roofs shall be inspected prior to any roofing material being installed. If a roof is
installed without first obtaining an inspection, I agree to remove all new materials for
inspection.
Signature of
Date:
ALL ROOF COVERINGS TO BE CLASS "A" OR BETTER
HAZARDOUS MATERIALS DISCLOSURE
I have read the hazardous materials requirements under Chapter 6.95 of the
California Health & Safety Code, Sections 25505, 25533, and 25534. I will maintain
compliance with the Cupertino Municipal Code, Chapter 9.I2 and the Health &
Safety Code, Section 25532(a) should I store or handle hazardous material.
Additionally, should I use equipment or devices which emit hazardous air
contaminants as defined by the Bay Area Air Quality Management District I will
maintain compliance with the Cupertino Municipal Code, Chapter 9.12 and the
Health & Safety Code, Sections 25505, 25533, and 25534.
15T 13 61 r s
CONSTRUCTION LENDING AGENCY
I hereby affirm that there is a construction lending agency for the performance of work's
for which this permit is issued (Sec. 3097, Civ C.)
Lender's Name
Lender's
ARCHITECT'S DECLARATION
I understand my plans shall be used as public records.
Licensed
CUPERTINO
ALTERNATIVE ENERGY PERMIT APPLIC
V44
COMMUNITY DEVELOPMENT DEPARTMENT • BUILDING DTVI
10300 TORRE AVENUE • CUPERTINO, CA 95014-3255 AE
(408) 777-3228 • FAX (408) 777-3333 • building ancupertino.org
PROJECT ADDRESS , 0
20
APN # 3I-
OWNERNAME Lvo`v'o
PHCQE-MAIL
1!�
STREET ADDRESS +h� •'�
CITY, STATE, ZIP a�J��, 1 FAX
CONTACT NAME�tQ PHONE 0pV
WV�L `7
E-MCA��D���I
STREET ADDRESS23�D
CITY, STATE, ZIP q C,
cot
FAX
Sam � "lrs l 3 (
❑ OWNER ❑ OWNER-BLILDER ❑ OWNER AGENT ❑ CONTRACTOR ❑ CONTRACTOR AGENT ❑ ARCHITECT ❑ ENGINEER ❑ DEVELOPER ❑ TENANT
„ C `K LIC ENSE NUMBER /y�j�7 j
CONTRACTORNAME G• ►^ VW
--T+C "v� PGF (J (,t (J�
LICENSE TYPF� , ` �
(-v1
BUS. LIC #
+i
COMPANY NAME
E-MAIL
FAX
STREET ADDRESS Z 3 d�J` 2a' %'gv ` /
CITY, STATE, ZIP \pI� ` (
l
PHONE
ARCHITECT/ENGINEER NAME
LICENSENUMBER
BUS. LIC #
COMPANY NAME
E-MAIL
FAX
STREET ADDRESS
CITY, STATE, ZIP
PHONE
USE OF ❑ SFD or Duplex ❑ Multi -Family
STRUCTURE: ❑ Commercial
PROJECT IN WILDLAND
URBAN INTERFACE AREA ❑ Yes ❑ No
PROJECT IN
FLOOD ZONE ❑ Yes ❑ NO
❑ SOLAR PANELS
❑ ELECTRIC VEHICLE CHARGING STATION
TO SOLAR WATER HEATING
❑ OTHER:
FOR SOLAR PANELS: NUMBER OF PANELS/UNITS: KILOWATTS(COMMERCIAL ONLY):
TOTAL VALUATION:
DESCRIPTION OF WORK(
e vu u. In O'\cA (:--A e Aof ►t L L {Pole^ �� -{'U �o
RECEIu j
By my signature below, Icertify to each of he following: I am the property owner or authorized agent to act on the perty o ave read this
application and the information I have p ded is correct. I have read the Description of Work and verify it is accurate. I agree to comply with all applicable local
ordinances and state laws relating to it ng construction. I authorize representatives of Cupertino to enter the above-i-iden fied pro rty for inspection purposes.
Signature ofApplic get Date: ( 736 f ( 6—
SUPPLEMENTA FO ION REQUIREDIhI=K;D2
aONE
0.N
% �{ �p�I t
�
NOM
PVApp_2011.doc revised 03/16/11
CITY OF CUPERTINO
FEE ESTIMATOR - BUILDING DIVISION
kaADDRESS:
10850 E ESTATES DR
DATE: 09/30/2015
REVIEWED BY: MELISSA
MISC ITEMS
APN: 369 22 005
BP#: 15090080
*VALUATION: Iso
*PERMIT TYPE: Building Permit
PLAN CHECK TYPE: Alteration / Repair
PRIMARY SFD or Duplex
USE:
0701hrs
PENTAMATION 1GENRES
PERMIT TYPE:
WORK
REV # 1 - ADD 1 ADDITIONAL PANEL TO SCOPE OF WORK FROM 15 TO 16 PANELS SAME KW
SCOPE
4.4) - ISSUED 9/30/15
ET
Z T
NnTF-- This ectimate does not include fees due to other Denartments (i.e. Planning. Puhlic Works. Fire. Sanitary Sewer District. School
Dictrirt_ oir ) Th~ fooc aro hacod an tho nroliminary infarmatinn availahlo and aro anly an o.ctimato_ Cnntart tho Dont far addn'1 info -
FEE ITEMS (Fee Resolution 11-053 Eff 7/1/13)
FEE
QTY/FEE
MISC ITEMS
Plan Check Fee: Hourly Only? 0 Yes (F) No
$0.00
1 hours Plan Check, Hourly
$143.00 ISTPLNCx
Suppl. PC Fee: Q Reg. () OT
0701hrs
$0.00
PME Plan Check:
$0.00
Permit Fee:
$0.00
Suppl. Insp. Feer Reg. Q OT
0.0
hrs
$0.00
PME Unit Fee:
$0.00
PME Permit Fee:
$0.00
E)
Work Without Permit? © Yes E) No
$0.00
Advanced Planning Fee
$0.00
Select a Non -Residential
Building or Structure
E)
Strong Motion Fee:
$0.00
Select an Administrative Item
Bldg Stds Commission Fee:
$0.00
177,SUBTOTALS:
$0.00
$143.00
TOTAL FEE:
$143.00
Revised: 07/02/2015
CITY OF CUPERTINO
I�lil FEE ESTIMATOR -BUILDING DIVISION
NOTE. This estimate does not include fees due to other Departments (f. e. Planning, Public Works, Fire, Sanitary Sewer District, School
Ilictrirt of.- i Thoc'o fooc tyro hacod nn tho nroliminary infnrmatinn availahlo and aro nnly an ectimata Cnntart tho Dent fnr addn'1 infn_
FEE ITEMS (Hee Resolution 11-053 Ef 7./1/13)
ADDRESS: 10850 E ESTATES DR
DATE: 09/14/2015
REVIEWED BY: MELISSA
APN: 369 22 005
BP#:
*VALUATION: 1$9,200
*PERMIT TYPE: Building Permit
PLAN CHECK TYPE: Alteration / Repair
PRIMARY SFD or Duplex
USE:
Suppl. PC Fee: Q Reg. 0 OT
PENTAMATION SOLAR -RES
PERMIT TYPE:
WORK
INSTALL 15 FLUSH MOUNTED ROOF TOP PV MODULES 4.4 k
SCOPE
NOTE. This estimate does not include fees due to other Departments (f. e. Planning, Public Works, Fire, Sanitary Sewer District, School
Ilictrirt of.- i Thoc'o fooc tyro hacod nn tho nroliminary infnrmatinn availahlo and aro nnly an ectimata Cnntart tho Dent fnr addn'1 infn_
FEE ITEMS (Hee Resolution 11-053 Ef 7./1/13)
FEE
QTY/FEE7
MISC ITEMS
Plan Check Fee:
$0.00
=#
$236.00
Alternative Energy System
IPNOTOVRES Photovoltaic System
Suppl. PC Fee: Q Reg. 0 OT
O.O
hrs
$0.00
PME Plan Check:
$0.00
Permit Fee:
$0.00
Suppl. Insp. Feer Reg. Q OT
0.0
1 hrs
$0.00
PME Unit Fee:
$0.00
PME Permit Fee:
$0.00
0
E)
Work Without Permit? 0 Yes (F) No
$0.00
Advanced Planning Fee:
$0.00
Select a Non -Residential
Building or Structure
E)
Strom,, Motion Fee: IBSEISMICR
$1.20
Select an Administrative Item
Bldg Stds Commission Fee: IBCBSC
$1.00
SUBTOTALS:
$2.20
$236.00
TOTAL FEE:
$238.20
Revised: 07/02/2015
i
E:
sere Sat
O
Mamtinghol4s
0.43309
Q--w—�--.+. 3s
13
w�tl+
etlf
,M
j
All measurements In Inches
I
Nomirial Power- P,,.(Wp) 265 270 275
Watt Class5orting-(W) 0/+5 0/+5 0/+5
0/+5
Nominal PowerVoltage-V w(Y) 31.1 31.2 31.4
3191',
Nominal Power Current -I,,,w(A)- 8.53 8.66 8.76
8.781]
Open CircultVoltage-V,M 38.3 38.6 38.8
39ai'
ShortClrcuitCurrent -I,(A) 9.21 929 9.40
944,'
Panel Efficiency(%) 16.1 16.4 16.7
17.0'
Analysed data demonstrates that 9M of panels produced have current and voltW tolerance of *3% from nominal valves
li
Values at standard test conditions $TC (airmass AM 15, irradiance 1000 W/ma, cell temperature 25*4
At low irradiance of 200 W/O (AM 1.5 and call temperature 25'C) at latest 94%of the STC panel eFficiencyrn'il heacU~d
I
r
i
Nominal Power -P.,, ft) 195 198 202
20SI:
f Nominal Power Vdtage-V,,,,(V) 28.75 2885 29.03
29.49'
Nominal Power Current- 1,,p (A), 6.77 687 6.95
Open CircuitVoltage-Va(1/) 35.25 3553 35.71
36.08
Short Circuit Current -I, (A) 7.32 798 7.47
750'
Nominal operating cell temperature NOCT (800 W/m', AM 15, wlndspeed 1 nVs, ambient temperature 2014
I
{ 10 year product warranty.
` SP•us 25 year thwar power output warranty
c LTJ (max. degression In performance of 0.7%p.a.).
j UL 1703. -Fire classification Type 2
EC 61215.1EC 61730;
EC 6D01(SaltMist-saaerltylaveb 1816)
REC is the largest European brand of solar panals, with more than 15 wdlion high-quality panels pnxkoced at)
manufacturing from polysilkonto wafers, cells,parcelsand turnkey solar solutions, REC strives to help meet
In partnership with a sales channel of distributors, installers, and EPCs. REC parcels are installed globally. Foi
j Elkemcompanywithheadquarters inNorwayandoperationatheadquarters in5ircgapore_RECIs1,,800empkryeO
of USD 680 million in 2014.
w�tl+
etlf
,M
REC
awe
j
k10 V
Pak
y
taw91ic!
REC
awe
The SnapNrack line of solar mounting
solutions is designed to reduce total
installation costs. The system's technical
innovations have been proven to drive
down costs and improve installation
quality on more than 3S0 MW of solar
installations.
Pitched :Roof Arrays Simplified
The SnapNrack Series 100 UL Roof Mount System
is an efficient, visually appealing, photovoltaic (PV)
module installation system. Series 100 UL is Listed
to the UL Standard 2703 for Bonding, meaning that
all system Components have been Certified by UL for
electrical continuity, eliminating the need for additional
grounding hardware. The System's components provide
an adequate bonding path which has eliminated the
need for grounding lugs and washers at each module,
and bonding jumpers between splices. The UL 2703
Listing ensures that SnapNrack partners can provide
the best in class installations in quality, safety, and
efficiency.
All bonding hardware is fully integrated into the
components
No grounding lugs required for modules
Rail splices bond rails together, no rail jumpers
required
Proprietary SnapNrack grounding lug snaps in the rail
channel, no drilling of rail or reaching for other tools
required (One Lug per individual row of modules)
Class A Fire Rating Type 1 and 2 modules
Patent Pending
Rc $y a
Ivcon0
h 4
lmple Steps:
1) Go Ch ons+
eerie
100 Configuration
Tod u
inapnrack.com)
and select
Y(? for f L 2
�' Liste
l
2) I 6tify ite
�,nditios
(Array Tilt, Building
HE Iht; R of
4e, Wind
and Snow Loads)
� I
3) *rr y. 4
I h ut
onlir
�I
4 Configuration
`generate
icall
a Bill of
MO Halsf
4) PI ;fie;,orler -,
� your
distributor, Purchase
m serial r
i;.
if§6e project
or order in bulk
fo: nailbvings
I
j
1 !
0
1
LASTED
�
Y MoOnting
system
4
703 1
I
! l'
Stainless Bolt with
Split -Lock Washer
SnapNrack Bonding
Adjustable End
Clamp Top
SnapNrack Bonding
Adjustable End
Clamp Bottom
_ SnapNrack Bonding
Adiglstable End Clamp r
stainless steel
Bolt with Split-
Lock Washer
Snap N
SpfIC2l1
i
tk Bonding
rt
�: SnapNrack Standard Rail
f.
�ISnapN ck
SnapNrack
BondingSplice
.
'Base
Mid Clamp
SnapNrack
SnapNrack
Bonding
Stainless Ha
are wit
Bonding
Rainless Channel Nut
OIt with
Channel Nut
Split -Lock w,
hers .r
�Split Lock
SnapNrack Bonding
SnapNrack
riding F:
Washer l
Mid Clamp
Standard Rd
'Splice "
SnapNrack
-Ground Lug 10-6 AWG
J Copper Wire
SnapNrack Ground Lug
Assembly
(ONE `REQUIRED PER ROW OF
MODULES)
III,' a
i
S apNrack Bonding Universal
End Clamp (UEC) Wave
,t , — UEC Pull Strap
{ I ZUEC wedge L Stainless Steel BoltJ
{{; with Flat Washer
i
SnapNrack Bonding
Universal End Clamp
SnapNrack
Bohding
Standoff f
Clamp—* � I
AssgmblY '' I
i
SnapNrack Serrated Stainless SnapNrack Sna ack Bdhcling
Rubber Steel Flange Nut Bonding Cho I Nut i -
Rain Collar Channel StaAess
Serrated Stainless Nut Flame Nutff
Steel Flange Bolt SnapNrack Stbinlet!
SnapNrack 92 Degree Flanged
Mill i finish L Foot B It
Standoff
Sri' pNra le
SnapNrack All 'Pure
Mill Finish L Foot
Standoff
Base (1 -Hole: SnapNrack SnapNrack Sna rac
Base Shiown) L Foot Meta Roo
Mill Finish FlashingBase psse Ii y
L Foot Base
�i
SnapNrack Bonding J SnapNrack Bonding
5 pNrac Me
Standoff AssemblyL Foot Base with Flashing R fa S with4 i '
.
In I Foc
SnapNrackS t UL Technicd Data Vilnnt Pending
Materials 6000 Series aluminum
• Stainless steel d
• Galvanized Steel and Aluminum Flashing I �„
Material Finish • Clear and black anodized aluminum
• Mill Finish on select components I
Installation • Quick and efficient mounting
• Adjustable hardware to ensure clean and I ''el finish
• All components bonded to ground with in11 I, rated,;bb ding fe tures
Calcs. & Certifications • Listed to UL Standard 2703 for Groundin ' ondfl i dire Classification
• Class A Fire Rating Type 1 and Type 2 Mod leS
• Stamped Structural Engineering Reports f' 1 all St. St's
Grounding SnapNrack Grounding Lug (One Lug per i ividu I rcd °af modules)
Warranty • 10 Year material and worksmanship (down, 'ad flail det ills at s6apnrack.com)
i
Snap rac
(877) 732-2860 www.Snal 'rac:c x
i
d Printed on recycled paper using say ba inks. II �
� 2015 by SnapNrack PV Mounting System. All ri f reser' d.
The new REC TwinPeak Series:
The combination of different technologies mf
polycristalline platform and optimizes long to
The REC TwinPeak Series is a brand new solar panel develop Ant that fe'?
high panel efficiency, i.e., higher watt classes. Based on a polys icon latfb
encompasses a numberof new and innovative technologies that surehe ,
mono p -type and n -type products on the market.
' LI.
What is the l2EC TwinPeak Series?
The REC TwinPeak Series is a new solar panel with an innovative
layoutand diff@rent cell technology that increases the power available
from a polysilioon cell up to 275 Wp. In combination, the technology
inherent in the new REC TwinPeak Series delivers an increase of 10 Wp
per panel compared to REC's current REC Peak Eenrgy Series panel.
The most obvious difference in the REC TwinPeak Series compared
to a standard solar panel is the cell design, The new panel is based
on standard sized cells of 156 x 156 mm that have been cut into two
equally sized pieces (156 x 78 mm), to give 120 half -cut cells.
The panel is then split into two'twin'sections of 60 cells each,
connected in series, in three strings. The two sections are then
connected in parallel in the center to give a panel of 120 cells (fig, 1).
This new design and layout is supplemented by a collection of other
enablers:
• PERC (Paesivated Emitter Rear Cell, also known as Backside
Passivation)
• Four bus bars
• Splitjunction box design
For which markets is the new panel suitable?
The higher powjer and efficiency afforded by the new panel means
customers will be able to boost their overall energy yield from the
same surface area; this makes the REC TwinPeak Series ideal for the
residential an0C&I markets where rooftop space is often limited.
The increase in power per m2 allows customers to generate the most
energy out of their installation reducing the balance of system costs
for installers and system owners and ensuring solar energy remains
cost-efficient.
Fig l: Front and rearview of the REC Twi iFteak Series solar panel, showing the twin section
design enabled by the half -cut cell layout, 4 bus bar cells and split jwction box on the rear
What a
es bio
As mentione 1
;hove, ihal
split into two"
' pieties
this, the curre t per cl is
current, com2
i'a redutiol
loss isgenerd
"prop to
power loss lrni
corn lets
a factor of fo'
(P1o55 R,
current).
h
IFE TOGETHER R C C
the power from a
I performance
itures iinnovative design with
rm, the REC TwinPeak Series
hel card compete strongly with
i
'-cut cells offer?
;'Cell is a standard cell that has been
roduce smaller cells (fig, 2). Through
'reducedbyhalf. With the reduction in
tower losls internal to the cell. Power
o thesquare of the current, therefore
TwinPeak Series panel is reduced by
there R is the resistance and I is the
F1g2AMf-cut 0W4nll#*4iy bi:
The reduced l` ` of p ir!' half -cut tells produces a higher fill
factor and hi tell ct resu � ng in better energy yields,
especially at t of l gh i dunce. panels with a higher fil I factor
have a lower les reels#a meaningireduced loss of current
internally int 'tell.
Additionally, Inew t
TwinPeakde1n re
a standard p. For
complete pa
strings. The
same condit
is at least SC
The improve
cut cells add
Fig3: Flowofat
internalresistar
.
Current splits U
flowaroundit
halves ofthepA
%
is zer
)ut of
due
M
ou4 �iinproves 1
cedt�diance
arra lif a stat
the' m is
lue,`¢'the bype
e R'8C TwinPee
the �eparate t
?ie «1reducti
r ` 4 Wp pe
REG tilapeakSeri
:ori iekiproduct
M
a performance of the
mditions compared to
and panel is installed in
aded, the power output of the
; diodes closing the internal
Series ensures that in the
n sections, the power output
n of resistance through half
vnel extra power output.
k The two twin sections reduce
i of energy when partially shaded.
Current rejoins
and flows out
of the panel
What advantages do four bus bars offer? The addition�l f the IARC l er enables increased capture of light
The use of four bus bars to a cell, as shown in figure 2, decreases the falling on tt1' (tell sllfac I (fCteasin the overall performance and
distance between them. This proximity means electrons have less efficiency. C teAol i46rks reflecting back into the body
far to travel to reach the ribbon, vastly improving the flow and the of the cell an. wavet4gths flightth t have passed through without
reliability performance of the panel. This reduced distance lowers generatingel irons. This mI6imizes the recombination of atoms atthe
the resistance in the cell, increasing current, in turn, this allows finger aluminum me Ilizatiokt laye reducingithe heat generated in the cell,
widthto be reduced, exposing more cell surface area to light and allowing it to!,
,. mo'l'e ontly, Through this, the cell will also be
generating more current, as well as keeping the fill factor high. The able to abso 'more Afrarle Iight(wavelengths of between1000 and
reduction in cell resistance seen through adding a fourth bus bar 1180 nm), incr. psing p odu 'dtt in lowlight conditions and improving
improves cell efficiency by over 0.2% per tell and adds 2 Wp per panel. overall ever eld (fig 5)
During the stringent qualification performed byREC, amajor A second w�l in wh";h P� G technology contributes to increased
improvement in the test performance of the four bus bar panels has yield is by the ` ssivaion >+p he back 6f the cell. This means that any
been seen, especially in the thermal cycling and mechnical load tests. electroll edniarth`Ottomofithecell are less likely tobelost
This is attributed to the lower cross section of the ribbon permitted by to the alunin meta�Mizati layer. IJ14ttracted by the mettalization,
the smaller size, which creates less stress on the cel l. they can rise 'ack thl bugh _.he cell structure, reaching the interface
between the a andemitt' ; tontribuitingto cell current (fig. 5).
What advantages does a split junction box offer? Fig 5: Acros oface:# t reflectwe propertiesofPERctechwlogy
A standard junction box is generally a single plastic housing which
contains three bypass diodes and connection options to enable the The rear of the cell i; passivated,
aneltobeconnectedtotherestofthes li
stem. The term's t unction Lightisr 'ned 4
p y P j preventing electrons formed at
r
box' describes ✓✓here these functions are split into three smaller boxes, back into body the back from being lost through
e i absorption in the alununum
one per internal string with one bypass diode each (fig l). of the c�' ; rnetalliz,3tinnlayer
The major advantage of this is to enable the new cell layout seen in the
REC TwinPeak Series. Use of the splitjunction box principle uses one
less cross -connector than a standard panel, which reduces internal
panel resistance and saves space. This extra space can then be used
to givea larger gap between cells, increasing internal reflection of
light onto the cell surface and subsequently increasing light capture. Diclectnc
PERC layer
Tests have also shown a reduction of between 15 and 20"C in heatsmall metal
build up behind'the three new boxes compared to the single box on " contact;
h
a standard panel Aluminum The cooler temperatures achieved help increase !,
panel reliability and produces a powergain of around 1 Wp per panel. metall¢atm
In the REC TwinPeak Series, the junction box will be in the center of
the panel and the cable lengths will be same as today The overall t of @Chnology to the output of the panels is
to add 4 Wp h ' er poM er at Standard Test Conditions.
What advantages does PERC technology offer?
s
ill t contlm6 benelli� from the technology in
Although PERC technology cannot be seen in the cells and makes no How wi I �
difference to thevisual appearance of the panel, it offers a major boost the new pd l?
to overall production. PERC technology is an additional step which Through the binaalion o these technologies into one new solar
REC has introduced to the cell production process. Based on a change panel, the R '; Twin ak "�Ories has'enabled a power increase of
in the design of the rear of the cell, a special dielectric PERC layer is around 10 W "er pa.'eh l r$ has been achieved through reducing
coated on the backside of the cell and the aluminum metallization resistance at! `th cel( nd(I alrel levelsexposure of more cell area to
layer, providing contact to the silicon wafer only through laser -made sunlight and i ieasin . the!.ount of light absorbed. Together, these
microscopic holes (fig. 4). technology et1 biers e., sure that the REC TwinPeak Series provides a
higher energy 'leld th-ough ,ut the day when compared to standard
Fig, 4: The simplified structure of a conventional solar cell (1) compared to a cell with panels, and a „Igher energ l 1eld, means a higher rate of return on a
PERC technology (r) solarinstallati `.
CONVENTIONAL CELL PERCCELL Furthermore,!„ increise inkbwerperlhltheRECTwinPeakSeries
wiU shift RE watt lass " oductiod upwards, helping customers
reduce overall 'alanc of $Y tern Cost sl compared to standard panels
Dielectric over the same 'rface real l� is of particular importance to the C&I
PERC layer and residents : arkefeg ll'($ and allows customers to generate as
small metal much energy of tI$ it in dation as possible, based on the cost -
contacts efectivepos: prodJed , 'the polys[icon platform. These benefits
are of course'! 3dditi ri to 's industry-leading product quality, the
fact that RECanel p oduc pn is 00% PID free, and the reliability of
a strong and �? `ablishod Eur; pean brand.
t
I
REC Solar Pte. Ltd. REC is a leading global provider of solar energysol6tl s. With norelt 0,
5years f experience, we offer sustainable, 5
20Tuas5outhAvenue 14 high performing products, services and investment ;For the! olar j try. To they with our partners, we create rN
rN
ga�e 637312 value by providing solutions that better meet the Y40 sgrowi lg erne . neel lilC is headquartered in Norway and 4
Tel: *6564959228 listed on the Oslo Stock Exchange (ticker: RECSOL).', r1,700 ril s ovorldwi6egenerated revenues of USD680 7b
million in 2014. I' w
I` z
www.recgroup.com
CSA
, Group
Certificate of C
Certificate: 2706862
Project: 70032330
Issued to: REC Solar PTE. LTD.
20 Tuas South Avenue 14
Singapore, Singapore 637312
Singapore .
The products lasted below are
Mark shown with adjacent inil
Canada and US or with adja
US only or without either and
a
C us
1107 l NiirKa
PRODUCTS
CLASS 531190 -POWER SUPPLIES - Photovoltaic Modules art ';Pa
Standards I
CLASS 5311 10 -POWER SUPPLIES -Photovoltaic Modules ark ;Pay
Photovoltaic Modules with maximum system voltage of 600 V do an ' Cl
Model series RECxxx (where xxx is the power output from 214 W t27(
US, PE-US(BLK), PE Q2 or PE Q3.
Model series RECxxx (where xxx is the power output from 230 W t 6C
US, PE-US(BLK), PE Q2 or PE Q3, followed by blank character, fol we
Model series RECxxx (where xxx is the power output from 250W to", 7p'
EVO(BLK), PE EVO Q2 or PE EVO Q3.
Model series RECxxx (where xxx is the power output from 250 W t!
Q2 or PE BLK2 Q3.
Photovoltaic Modules with maximum system voltage of 1000 V do d C
Model series RECxxx (where xxx is the power output from 285 W to + 15
PE72 Q2, or PE72 Q3.
IIf
Model series RECxxx (where xxx is the power output from 260 W tc� $0
,
DQD 507 Rev. 7012-0522 pw. i
o ear the CSA
C'! I tend 'US``. for
c r 'ITS' for
n-aata only.
a N�
'!I �
Andy Nguyaen
xti led to US
i
t 1
CP V�!class t{atmg:
I
), f�Rowed by PE, PE(BLK), PE-
lowed bey PE, 'PE(BLK) PE -
Foil Wed b}
followed t
Cj class
PE EVO, PE
PE BLK2, PE BLK2
PE72, PE(BLK)72,
TP, TPQ2 orTPQ3.
CSA
Group
Certificate: 2706862
Pr©iect: 70032330
Model series RECxxx (where xxx .is the power output from 260 W to 2 0
TP BLK Q2 or TP BLK Q3, TP BLK2 Q2 or TP BLK2 Q3.
Electrical Ratings:
!ntr=6- 260407
d: May 13, 2015
ivied by TP BLK, TP 3LK2,
i
Model
Open Circuit
Voltage at
STC, (Vdc)
Rated Voltage
at STC, (Vdc)
Rated Curr
at STC, (A
Short
C
ST
Circuit
nt at
' Adc
; Rated Maximum
Power At
STC, (Waits)
C 14PE series
36.2
28.2
7:6
C
;1
214
C 15PE series
3 .3
28.3
7.6215
STC,',
A, dc)
STC, (Wants)
C OPE
35.9
28.
7.71 -
�i
i
220
C 25 E series
36.2
29.2
7. 7 ._ C is
�:
225
C 30 E Series
36.4
29.2
7.98;
i
5.9. ��
230
C 35PE series
36.6
29.5
8.06 FF
A0
11
235
C 40PE serves
3
29.7
8.17
r
175
240
C 45PE Series
37.1
30.1
8.23 �� _F
;8180
245
C 50PE series
37.4
30.2
8.30
&
$
250
REC255PE series
37.6
30.5
8.42
95
255
REC2 0 E Series
37.8
30.7
8.50
9
01
260
REC265PE Series
38.1
30.9
8
Ji 908
265
REC270PE series
38:4
31.3
8.66
7l
8
270
Photovoltaic Modules with maximum system voltage of 1000 V do and; `lass fii'el class ra�ng:
Model series RECxxx (where xxx is the power output from 285 W to 31, W), i'ollo ' ed by PE, or PE(BLK),
followed by 72, maybe followed by Q2 or Q3.
Electrical Ratings:
Mode
Open Circuit
Rat-eTWoltage
Rated u
ShortQrcul
! Rated aximum
Voltage at
at STC, (V dc)
at STC, (A d ';
C
ntat
Power at
STC, (V dc)
STC,',
A, dc)
STC, (Wants)
RE 85 72
4 .9
35.4
8.0
1
6
; 285
series
REC290PE72
44.2
35-:6------8.17'
i
290
series
_
11
RE 295P 72
44.5
36.1
8,
i
295
series
I
RE 30 P
44.9
3 :4
-8. 33
!
707-
0series
series
RE 305P 72
45.1
36.6
8:42
8
S
305
series
REC310PE72
45.3
36.7
85.3
310
series
RE 315P 72
45.5
3
8..2
9.09;
315
series
1
DQD 507 Rev. 2012-05-22 Fage:2
AtOW
[�cI, i..
VSA
00, Groin; "
Certificate: 2706862
Project: 70032330
Model series RECxxx (where xxx is the power output from 260 W to 2, 01
Electrical Matings:
Moe
Open Circuit
Voltage at
STC, (V dc)
Rated Voltage
at STC, (V dc)
Rated Curret
at STC, (A c1
ho
CMZ
TC11
circuit
,int at
I(A dc) ?
Rated Maximum
Power at
STC, (Watt's)
REC260TP,series
37.3
30.6
8.51
R:
9102
260
REC265TP!series
37.7
30.9
8.59
'2I1
j 265
REC2 OTP series
38.
31.2
8.67
29
270
REC 5TP'series
38.3
31.5
8.748
275
REC2 OTP series
38.7
31.8
8.814.
+
2 0
Notes:
1. Rated electrical characteristics are within +/-10% of measured valued ' S
cm2 irradiance, AM 1.5 spectrum, and cell temperature of 2540.
2. Module Fire Performance: Type 1 (for Module Types: RECxxxPE s 'e
the power output from 214 W to 280 W), and Type 2 (for Module Type 'iRl
power output from 285 W to 315 W)
APPLICAB_LE REQUIREMENTS � j}
ULC/ORD- C 1703-01 - Flat -Plate Photovoltaic Modules and Panels::
UL 1703 -3rd Edition - Flat Plate Photovoltaic Modules and Panels
DQD 303 Rev. 2012-05-22
Page: 3
r
lr '
est Coiiditions 100 mW/
4d v+vvTU curiae —1—.
PP2 series, where xxx is .the
solare o ;.
SolarEdge Single Phase Invertefs
Q..
l
The b! choice for SolarEdge enabled systems
Int ed a fault protection (Type 1) for NEC 2011690.11 comp)ia�e
Su em ancy (98%)
SM41lgh and easy to install on provided bracket
Butt-in!mod a level monitoring
Inter4i con on through Ethernet or VAreless
Outd r and4ndoor installation
Fixed voltage! inverter, DC/AC conversion only
Pre-assembldd Safety Switch for faster Installation
optional - revenue grade data, ANSI 032.1
U - GERM,'r.N.Y - ITALY - FRP.NCE-J,,.PA ,' - CHI[NJ ^ --A USTP A I-lik T!'E i'!CTH 1jLM
wlAtvv,sol areCip,:-::.iis
For North America
'F-300l3P—U
/ St 380OA'•TS / OODA4
c)i_
.^'9S..iJULTUA CJ?
"'E76001 -US
SE10000A..US I SE11400A-U
z
5
*
h-
1�
Ay
M
k
{ti
}}
S
Sv
Q..
l
The b! choice for SolarEdge enabled systems
Int ed a fault protection (Type 1) for NEC 2011690.11 comp)ia�e
Su em ancy (98%)
SM41lgh and easy to install on provided bracket
Butt-in!mod a level monitoring
Inter4i con on through Ethernet or VAreless
Outd r and4ndoor installation
Fixed voltage! inverter, DC/AC conversion only
Pre-assembldd Safety Switch for faster Installation
optional - revenue grade data, ANSI 032.1
U - GERM,'r.N.Y - ITALY - FRP.NCE-J,,.PA ,' - CHI[NJ ^ --A USTP A I-lik T!'E i'!CTH 1jLM
wlAtvv,sol areCip,:-::.iis
®®�- Single Pease t
e
solar 5E3000A US I df38Q0At-�9S ISH
r
. ®'A I QkQ>
S'/
Sf76COA-US 1 St -30000A -US / S
40- US; ('
� U3
SE300OA•US = SE3800A-US . SE5000A-US "+ SEf9000A
i iE7 hSE
-US-SE11400A-US
OUTPUT
-
Nominal AC Power Output 3000 3800 # 5000 I 6000
a 5001 I ; 19980
10000
-. ..
208V11400 VA
i
. ; . , , ..: .....
5"0208V '
1
' {
Max. AC Power Output ( 3300 4150 € 6000
• J'9.J1J ��'tM� i
.!. , .
! 350 r
i I5. M ` AY".lw✓
I 12000 VA
2407 �
AC Output Voltage Min. -Nom. -Max.
?
Ii ✓ - !j
183 - 208 - 229 Vacf.?
AC Output Voltage Min. -Nom: Max.ut
! ✓ ` ✓ ✓ ✓
✓
! ✓ i
211 - 240 - 264 Wc
AC Frequency Min: Nom: Max.11!; 59.3-60-
6 0.5 ((with HI
5?t95)
f Hz
24 @ 209V)
Max. Continuous Output Current i 12.5 16 I 25
71 @ 240V i
'.
j e 48 @'2
'. n, 42 @
2 I :
69V
47.5 A
249V
GFDi Threshold
I!
; ii.
A
Utility Monitorrn Island'rng Protection, Country Configurable Thresholds yes+
+
Yes
k
INPUT
r,
Maximum DC Power (STC) ' 4050 3100 6750 8100 �s
j 13
153.50 W
Transformer -less, Ungrounded 'los
Max. Input Voltage !
.
TVdc
Nom. DC Input Voltage t 325 @ 2080 J
•;
2 f i :
Vdc
16.5 208V t
Max. Input Currental 9.5 ;
33
h `I Adc
i I, (
ON
5
15-5 @ 2400 .
. 412
40V
Max. Input Short Circuit Current { 45
j e i
Ade
Reverse -Polarity protection f Yes
j
Ground -Faun isolation Detection 600ko
Maximum Inverter Efficiency ; 97.7 i 98.2 98-3 ' 98.3110
98 9fi
CEC Weighted Efficiency 97.5 9$ 5 @ 2081/ 97 5 i
98 @ 2400
jt
�'„ 5 I 97 @
973 41240V
97.5 %
Nighttime Power Consumption <2,5
; I
<4 W
ADDITIONAL FEATURES
Supported Communication Interfaces RS485, RSP32,
Revenue Grade Data, ANSI 012.1
Rapid Shutdown - NEC 2014 690.12 j Functionality enabled when
sht' 'is -
STANDARD COMPLIANCE
Safety ( UL1741, ilLlfi996,
r i
Grid Connection Standards IEEEIS.
Emissions FCC part -0
1 `6 t `
INSTALLATION SPECIFICATIONS -
AC output conduit size / AWG range 3/4" minimum / 16-6 AWG
3/4
rrliriamarm / �3 AWG
DC input conduit she / 4 of strings / J13/4'
AWG range i 3/4" minimum / 1-2 strings'/ 16-6 AWC14
Barnum / 1-2 sWnp
6 AWG
Dimensions with Safety Switch 1
j
x125x11i.S/ irt/
305x125x7,2/77Sx3lS%184,
(HxWxD)
,
(
+75 x 315 x 2bil rmrt
Weight with Safety Switch 51.2/23.2 ` 543/244,
;
88.4 / 40.1 Ib / kg
Cooling Natural convection
'; .aaMA {{l Fans
(user �j
Noise j < 25 I
t 111
'
5ii dlidl
Min: Max. Operating Temperature 1
i -13to+1401-25to+W(40
'F/'C
Range
! 1
Protection Rating NEMA
i
� �
� ra otlter w�+�! setMrl� please mm� soa,t:axe suppnvt. , j
MAhW%erCWatWLn*WAy be ttShtft Inverter WW Alit Its kVAVrtent to UWYALt6
i ,
i
t4rdeveow gro& ovedw0ft St9owA VSWW&V2 Vbr MOW
M
PWW srutdoonr tit P SE1000••!tWS1.
w-i0version W ibor7NOW 1
i
Hill d
P
PV Po er optimization at the module -level
Up to % mire energy
Superb ee�ftft (99.5%)
— M- all pes of module mismatch tosses, from manufacturing tole
raw
— Flexihl syste design for maximum space utilization
— Fast lnlsWlati�n with a single bolt
— Next generation maintenance with module -level monitoring
— Module -level voltage shutdown for installer and firefighter safety
GEs AAN'; 'T,.,[Y !_K`J%Cr' IAPANI C,D;,:..,
solar =@"
W
SolarEdge Power Optimizer
A
Module Add -On F®r North America
300 P320 Y P400 J P405
...........
U
fa e
PV Po er optimization at the module -level
Up to % mire energy
Superb ee�ftft (99.5%)
— M- all pes of module mismatch tosses, from manufacturing tole
raw
— Flexihl syste design for maximum space utilization
— Fast lnlsWlati�n with a single bolt
— Next generation maintenance with module -level monitoring
— Module -level voltage shutdown for installer and firefighter safety
GEs AAN'; 'T,.,[Y !_K`J%Cr' IAPANI C,D;,:..,
solar® SolarEdge POW
=s All
ij
Module Add -On for'n AnLic
130f; f
P300 P320 P405
If" 60 -cell modules)
I,NPUT_
Rated Input DC'Powerf") 300 320 405 W
Absolute Maximum Input Voltage
48
(Voc at lowest temperature) 125 Vdc
MPPT Operating Range 8-48 12.5-105 Vdc
Maximum Short CiTCUit Current (1sc) 10 10 Adc
Maximum DC Input Current 12.5 13.75 .12.5 A&
Maximum Efficiency,
Weighted Efficiency.
%
Overvoltage Q�,qqry
016TiCT DURING OPERATION (POWER OPTIMIZER CONNECTED TO OPERATING HEAR RTE
.AR
Maximum Outpot Current 15! if
Arlt
Maximum Output Voltage 60
: , i6GE INVERTER OFF) 85 Vdc
OUTPUT DURING STANDBY (POWER OPTIMIZER DISCONNECTED FROM SOLAKIE1 E1 R SO
N1
Safety Output Voltage per Power
Optimizer Vdc_
STANDARD COMPLIANCE
EMC Fccparl:15 class B'11EC51 21 N
jA
Safety IEC62.109-1 (dass, I Lj
RoH$
INSTALLATION SPECIFICATIO.NS.
Maximum Allowed System Voltage
Compatible inverters
All SolarEdge Suxle Phase:are
Dimensions (W% L x H)
228x 152x27.5/
X
Fi
5 x S.97 x 1.08
5
Weight (Including cables)
770/1.7
93
Input Connector
MC4 Cow
I
Output Wire Type I Connector
Dwme Insu6tet I
c
ON
Output Wire Length
0-95/3.0
Operating Temperature Range
AO -+$5
t.18
Protection Rating
ilial N,E
Relative Humidity
?V SYSTEM DESIGN USING
A SOLAREDGE INVERTERO
SINGLE PHASE THREE PHA
211111111
minimum String Length i
(Power Optimizers)
Maximum String Length
25
jPower Optimizers) 25
Maximum Power per String
5250 6W
Parallel Strings of Different Lengths
or Orientations Yes
kk is" aWwed to 1W M Wfth F3WINW/M/M In one
ZA
-2/
Vdc
L28 x lu x 48
5 x 5.97 x 1.89 MM/in
930 /� 2.05 gr/lb
PHASE 4WV
U7W
rte / ft
'C/'F
W
r
Gk EER*
LU
dti
J;
lr
d'
w
-i
�z
ate+
cc
6 z
W
-
OOC
a,
-
0 <
o U
FS
W
IL>Lj
yQ
O
WW
Y
O
O
1� F
J O
y PO
GLJ
�
o
~
N
IU�F
NGOJ
�
9�c
O
JZ
ppY
��l S��J3tl
u[
wQ
dNO
W Q 1�
U
Jw
NUJ
{L
O
J
C3 A6 "�
dW
y NJ
w
r
W
La
OQ K �NWZ
Q
p
NO
J
IE F=
LLI _j
A 1
Z
~ a N
�
Z
V/
Q
= oo.o>
PJ
1-10-1 4 �5�
KN
J
W
Jx6
_ V1N,�.,y
C1',,6F Jia" N
Aslf
T�
O
Q'Wa�7>L)
O
j
J,aK O.J.JVO
Fi
FN�JNRIyO
t,
Q
WKd1O .J..
N R� I 1
`
r
F V) = F W Of
o r? W x 1�
W
Z I cuX I F 1 0
0
Z
W
a
z
a
F
z
~
W
d
0Y
W Q ~
NQ
W
N 7Url
N
CI
X J
'"CL
we
t
y
Q
Z
NW
U
M,
dF
�a
a
FONa
2 oc
CL
�1p�~ 7JS
FOW
Oc FW
qW.+
>
...
y
�OC
JW
WJW
Z O N
J Oc
\
pp p
N S
J N
O o
1`a�
F
W.
J OEOZU3
Z4~Z'
np5v
W
Q 1-
Uy
\
1qW�ZZq
y0=
y�jyW
.J
N 1n
QNNW
OC7QJ
W W
E ~
W W
22
a a
u u
F Y
(7 l7
UOZ.�
OCap
a
WQ YF
�ZJz ZWz
Z F
NO `" J
ca
ofGc
ffi
;I CL
baa
Q
W
O yr N4
CL
�Q
U U
F&I
-J_ _
ZZ
O
W
J$
�{ WWW
<
A
Y
a
�
W
ap cl
Q��CL
��
KW
IJj
W
9
-aZZ
Q 1-
2N
Q
Q
og
Q
yOW,)y
OA
oocc
a
QN
t
N
W
oc
;j
a
N
AiN
soMot,intinholes �
0.16*08 .—l-', 55
701
10yrarproAxtwarraiirty.
25 year lkwair power output warranty Op F5
j
UL 17M - Fire classification Type 2 (max. degression in performance of 0.7%p aL)
EC 61215. IEC 6173Q
Ec 6rm (sait Mist -wvityivvets 1 &6)
REC Is the largest European brand of solar panels, with more than 15 w9flon high-quality panels produced aif &We
manufacturing from polysilicon to wafers, cells. panels and torrdwy solar solutions. REC strives to help meet I I
I i hr'
In partnership with a sales channel of distributors, installers, and EPCs. REC panels are installed Oribe�llyl in
Elkem companywith headquarters in Norwayand operatloriat headquarters inSingapore.RECOAWOemi ivoildw
of USD 680 million in 2014.
ry"
:1
do
teiif
rna)"
bre
DVI
Pit,
Paj
511
REC
WWWWEQUP=n
All measurements In fiches
E L E C T R A L 0 41 TA "'R' F I
NomkWPower-P,,P(Wp)
REC26STP
265
REC270TP
270
REC2757P R, E
275
C 2
2801,';
Watt Class Sorting -(W)
0/+5
0/+5
0/+5
0/+5I.
NomkW Power Voltar-V,,, M
31.1
312
31A
31.10!
Nominal Power Current-I,,(A)
8.53
8.66
BL76
EL78:i!
OpenCIrcultVohW-V,(V)
3113
39.6
3118
392'i
SMrtCkcuitCurrerrt-I,(A)
921
9.29
9A0
9.44,
PanelEfficiency(%)
16.1
16.4
16.7
MY
Analysed data demonstrates that 991% of panels produced have current and voltage tolerance of t3% from rraweial Values.
Values at Standard test contittions Sit (airmass AM I.S. irradiance 1000 W/rnl, cog temperature 2SQ
At low irradiance of 200 WftrO (AM 1.$ and call temperature 25T) at least 94% of the STC panel efficiencymill beadieved
Nominail Power -Plop
REC2C,5TP
195
REC2710TP
198
RFC271STP R F
202
'r7 c3 P
20511,;
Nominal Power Voltage -V,,^
28.75
28.85
29.03
29.49�;
Nomina(Power Current- I,, (A)
6.77
6.87
6.95
&W:I!
Open Circuit Voltage -&M
35.25
35.53
35.71
361181
Short Circuit Cun evit - Is, (A)
7.32
738
7.47
736:
Norninal operating call ten*wature NOCT (900 W/ral, AM 15. whWspeed I nils, amblent tonpa ature 20*4
10yrarproAxtwarraiirty.
25 year lkwair power output warranty Op F5
j
UL 17M - Fire classification Type 2 (max. degression in performance of 0.7%p aL)
EC 61215. IEC 6173Q
Ec 6rm (sait Mist -wvityivvets 1 &6)
REC Is the largest European brand of solar panels, with more than 15 w9flon high-quality panels produced aif &We
manufacturing from polysilicon to wafers, cells. panels and torrdwy solar solutions. REC strives to help meet I I
I i hr'
In partnership with a sales channel of distributors, installers, and EPCs. REC panels are installed Oribe�llyl in
Elkem companywith headquarters in Norwayand operatloriat headquarters inSingapore.RECOAWOemi ivoildw
of USD 680 million in 2014.
ry"
:1
do
teiif
rna)"
bre
DVI
Pit,
Paj
511
REC
WWWWEQUP=n
The SnapNrack line of solar mounting
solutions is designed to reduce total
installation costs. The system's technical
innovations have been proven to drive
down costs and improve installation
quality on more than 350 MW of solar
installations.
Pitched Roof Arrays Simplified
The SnapNrack Series 100 UL Roof Mount System
is an efficient, visually appealing, photovoltaic (PV)
module installation system. Series 100 UL is Listed
to the UL Standard 2703 for Bonding, meaning that
all system components have been Certified by UL for
electrical continuity, eliminating the need for additional
grounding hardware. The System's components provide
an adequate bonding path which has eliminated the
need for grounding lugs and washers at each module,
and bonding jumpers between splices. The UL 2703
Listing ensures that SnapNrack partners can provide
the best in class installations in quality, safety, and
efficiency.
All bonding hardware is fully integrated into the
components
No grounding lugs required for modules
Rail splices bond rails together, no rail jumpers
required
Proprietary SnapNrack grounding lug snaps in the rail
channel, no drilling of rail or reaching for other tools
required (One Lug per individual row of modules)
Class A Fire Rating Type 1 and 2 modules
Patent Pending
IM'IM
System
n:
I
1
.fl
R04 1jh
4
SlImple Steps:
1) Go' the or0i4,5erie
100 Configuration
T66 nf ur(
96apnr
k com) and select
Y ;-for t! L
'Liste
2) Ic Citify ite
6ditios:(Array
Tilt, Building
He ht, R; of
' e, Wi
'd and Snow Loads)
3) a
err
onfir
iei Configuration
Tq
and ut
icall
�enerate a Bill of
Ma
trials 4
4) P'
ce`or .er
ii your
distributor. Purchase
mI Aerial
&r ifagle
p
ject or order in bulk
foi
t"dditi na
wings
f'
i
IM'IM
System
Stainless Steel SnapNrack Standard Rail
Stainless Bolt with Bolt with Split- Snac ; ck Bonding P
Split Lock Washer Lock Washer Splice I Sert
SnapNrack Bonding 'SnapNck
Adjustable End SnapNrack Splrce
Clamp Top Bonding Base s
Mid Clamp n SnapNrack
SnapNrack Bonding
SnapNrack Bonding
Adjustable End ° ;Stainless Channel Nut
Bonding Olt with
Clamp Bottom Stainless Ha are witli
Channel Nut Split -Lock W hers Split Lock
_ SnapNrack Bonding washer
Adjustable End Clamp SnapNrack Bonding SnapNrack hding �& {
Mid Clamp Standard R6i Splice ;i SnapNrack
Ground Lg 10-6 AWG
Copper Wire
SnapNrack Ground Lug
Assembly
(ONE REQUIRED PER ROW OF
MODULES)
I
S�apNrack Bonding Universal
d Clamp (UEC) Wave
UEC Pull Strap
SnapNrack
Bonding
Standoff
Clamp
Assenhbly
SnapNrack Serrated Stainless SnapNrack
Rubber Steel Flange Nut Bonding
Rain Collar Channel
Serrated Stainless Nut
Steel Flange Bolt SnapNrack
SnapNrack 92 Degree
Mill Finish L Foot
Standoff
SnapNrack
Mill Finish
Standoff
Base (1-14ole SnapNrack SnapNrack
Base ShoWn) L Foot
Mill Finish
L Foot Base Flashing
.SnapNrack Bonding SnapNrack Bonding
Standoff Assembly L Foot Base with Flashing
harvel Nut
Stai
Flar
F
E
S
A
iL
If
UEC Wedge L Stainless Steel Bolt
with Flat Washer
SnalpNrack Bonding
Universal End Clamp
Materials
• 6000 Series aluminum
• Stainless steel
fGfi
• Galvanized Steel and Aluminum Flashing
Material Finish
• Clear and black anodized aluminum
• Mill Finish on select components
Installation
• Quick and efficient mounting r 1
•Adjustable hardware to ensure clean and I'Pei fink J
l
• All components bonded to ground with in,l' `gratqo bo ;ding features
Calcs. & Certifications
• Listed to UL Standard 2703 for Groundin §ondfI'g a'i
Fre Classification
• Class A Fire Rating Type 1 and Type 2 Mai les
• Stamped Structural Engineering Reports f' F all 5� S
"
Grounding
• SnapNrack Grounding Lug (One Lug per i It ividu6l r©
bf modules)
Warranty
• 10 Year material and worksmanship (down ad ful d6 ils at sr
apnrack.com)
Snap raic i i:
(877) 732-2860 www.Snap 0CI Cr
8 Panted on recycled paper using soy be,L_ inks
2015 by SnapNrack PV Mounting System. All ni F� resew d.
The new REC TwinPeak Series:
The combination of different technologies m
polycristalline platform and optimizes longtf
The REC TwinPeak Series is a brand new solar panel develop ; nit t
high panel efficiency, i.e., higher watt classes. Based on a poly icon
encompasses a number of new and innovative technologies that pure
mono p -type and n -type products on the market.
What is the REC TwinPeak Series?
The REC TwinPeak Series is a new solar panel with an innovative
layout and different cell technology that increases the power available
from a polysilicon cell up to 275 Wp. In combination, the technology
inherent in the now REC TwinPeak Series delivers an increase of 10 Wp
per panel compared to REC's current REC Peak Eenrgy Series panel.
The most obvious difference in the REC TwinPeak Series compared
to a standard solar panel is the cell design. The new panel is based
on standard sized cells of 156 x 156 mm that have been cut into two
equally sized pieces (156 x 78 mm), to give 120 half -cut cells.
The panel is then split into two'twin' sections of 60 cells each,
connected in series, in three strings. The two sections arethen
connected in pariallel in the center to give a panel of 120 cells (fig.l).
This new design and layout is supplemented by a collection of other
enablers:
• PERC (Passivated Emitter Rear Cell, also known as Backside
Passivatiori)
• Four bus bars
• Splitjunction box design
For which markets is the new panel suitable?
The higher power and efficiency afforded by the new panel means
customers will be able to boost their overall energy yield from the
same surface area; this makes the REC TwinPeak Series ideal for the
residential and C&I markets where rooftop space is often limited.
The increase in power per m2 allows customers to generate the most
energy out of their installation reducingthe balance of system costs
for installers and system owners and ensuring solar energy remains
cost-efficient.
Figl: Frond and rear view of the REC TwinPeak Series solar panel showingthe twin section
design enabled by the half -cut cell layout, 4 bus bar cells and splttpaiction box on the rear
What ach
As mentior
split into tr
this, the cu
current, col
loss is gen(
power loss
a factor of
current).
Fig 2- Ahalf-cut
per
'ING � IEE TOG�ER R C C
ze;l 'the power from a
ahol performance
3t feI
atures ;innovative design with
lat rlyi, thii REC TwinPeak Series
he jnel car, Compete strongly with
to I, =cut ce offer?
Ft �f �ls
calf; , cell is a standard cell that has been
est 'roducesinailer cells (fig.2). Through
i al ;reduced{l{by half. With the reduction in
ion!i power IosS internal to the cell. Power
tion p the sgdare of the current, therefore
et
e C Twine k Series panel is reduced by
R. here R i�the resistance and 1 is the
4b�iati
I,
The reduced I " of er irji half-cutells produces a higher fill
factor and hi
cell OW06 des resul 'ng in better energy yields,
especially at t "es of 00h irc. Wdiance. Panels with a higher fil i factor
have a lower hies reAstan o meaning1reduced loss of current
internally in t
cell. i" I
Additionally �new layout proves the performance of the
TwinPeak des
, In rel! uceilil 'adianceonditions compared to
a standard pa
1. For aril `f lif a standard panel is installed in
portrait orie
'oh aril til tbom isshaded, the power output of the
complete pari
:iszero due the bypass diodes closing the internal
strings. The i
but of the RI. winPealC Series ensures that in the
same conditio
, due tb tho eparate tv in sections, the power output
isatleast5
fig. 3).
The improve
hts made irilreduction of resistance through half
cut cells add a
overal 4 Wp panel extra power output.
Fg3:Ftowof
intern alresistan
•n akSe The two twinisectionisreduce
densuu conici producti nofenergywhenpartially shoded.
i the
. Current splitsl
flowaronaidttii'
i halves of the p$
p
Current rejoins
and flaws out
of the panel
What advantages do four bus bars offer? The additiori''i 'f theRC, er enables increased capture of light
The use of four bus bars to a cell, as shown in figure 2, decreases the falling on th tell s ace h0easin the overall performance and
distance between them. This proximity means electrons have less efficiency. , tecllG�ol Ijyorks by reflecting back into the body
far to travel to reach the ribbon, vastly improving the flow and the of the cell art. waveleOgths light thathave passed through without
reliability performance of the panel. This reduced distance lowers generating e(, rons.This m itnizesth6recombination ofatomsatthe
the resistance in the cell, increasing current; in turn, this allows finger aluminum me Ilizaticlh laye reducingi'the heat generated in the cell,
width to be reduced, exposing more cell surface area to fight and allowing It to; mate elntly, Thlrough this, the cell will also be
generating more current, as well as keepingthe fill factor high. The able toabso !morel rare (light (wa4elengthsofbetween1000and
reduction in cell resistance seen through adding a fourth bus bar 1180 nm), inti acing podu; (on in low Ilight conditions and improving
improves cell efficiency by over 0.2% per cell and adds 2 Wp per panel. overall ener eld (fid 5j j .
During the stringent qualification performed by REC, a major A second w4 'in whl"h P - technology contributes to increased
improvement in the test performance of the four bus bar panels has yield is by the ." ssiva ion b kre back of the cell. This means that any
been seen, especially in the thermal cycling and mechnical load tests. electronsge ednrth ttomofthecell are less likely tobelost
This is attributed to the lower cross section of the ribbon permitted by to the alumin metallizatl i layer. U attracted by the mettalizaiion,
the smaller size, which creates less stress on the cell. they can rise, ack through he cell structure, reaching the interface
between the a and'*mitt ii, contribL*ing to cell current (fig 5).
What advantages does a s llt'unction box offer? '
g P 1 Figs:Aaos ofacq�l thpteftect(v2•propert9esofPERetecnnology
A standard junction box is generally a single plastic housingwhich
contains three by
panel to be connected to the rest of the system. The terpass diodes and connection options to enable the
Li htisr "ned j The rearofthe celllspassivafed,
m'splitjunction g preventing electrons formed at
box' describes where these functions ares lit into threesmaller un
ller boxes, back to " body the back from being lost through
P of the cell
ti �
one per internal string, with one bypass diode each (fig, 1). l; absor pUon in the aluminum
metallization layer
The major advantage of this is to enable the new cell layout seen in the
REC TwinPeak Series. Use of the splitjunction box principle uses one
less cross -connector than a standard panel, which reduces internal
panel resistance and saves space. This extra space can then be used
to give a larger gap between cells, increasing internal reflection of
light onto the cell surface and subsequently increasing light capture. Dielectr¢
PEPC Iayei
Tests have also shown a reduction of between 15 and 20°C in heat Smali rnet,a
build up behind the three new boxes compared to the single box on contacts
a standard panel. The cooler temperatures achieved help increase Aluminum z
metallization,
panel reliability and produces a power gain of around 1 Wp per panel. i I
In the REC TwinPeak Series, the junction box will be in the center of i
the panel and the cable lengths will be same as today.t of1
The overall ER b'Chnology to the output of the panels is
to add 4 Wp hl . er poiiOer at andard Ttest Conditions.
Il, I
What advantages does PERC technology offer? How will t consl
Although PERC technology cannot be seen in the cells and makes no mil ibenefit from the technology in
difference to the visual appearance of the panel, it offers a major boost the new pa (?
to overall produiction. PERC technology is an additional step which Through the binafion b '.'these technologies into one new solar
REC has introduced to the cell production process. Based on a change panel, the R Twinak Owles has enabled a power increase of
in the design of the rear of the cell, a special dielectric PERC layer is around 10 W er pa el. l5' has been achieved through reducing
coated on the backside of the cell and the aluminum metallization resistance at th cel , ndi el levels exposure of more cell area to
layer, providing contact to the silicon wafer only through laser -made sunlight and i ' 'reasinthei ount of light absorbed. Together, these
microscopic holes (fig. 4). technology eli tilers ensure at the R C TwinPeak Series provides a
higher energy ield th oui ut the da when compared to standard
Fig. 4: The simplified structure of a conventional solar cell 0) compared to a cell wilth panels, and ai her energy fleld, mea s a higher rate of return on a
PERC technology (r)solar installati
CONVENTIONAL CELL PERC CELL Furthermore incre�lselih per irl of the REC TwinPeak Series
will shift RE watt 0as5 i thtctior� upwards, helping customers
reduce eg
overall 'alanc�'!of sy e'rn cost compared to standard panels
much rf
Dieover the cam acerea i'$sofprticularimportance tothe C&I
PERC layerarke iii and allows customers to generate as
lectric and resideni
=:---Small metal of their inn Illation a5 possible, based on the cost -
Contacts effectivepos', provided,#1epolysliconplatform. These benefits
are of course,( iadditit to C's Indus ry leading product quality, the
fact that REC' anel podut on
is 10
PID free, and the reliabilityof
a strong and e ablishe Etir 0Ieanbra d.
li � Ir
E
REC Solar Pte. LtcL REC is a leading global provider of solar energysotuti s.Wtth' oret n115yedrsofExperiente,weoffersustainable,
20 Tuas South Avenue 14 high performing products, services and investment ,for the polar I try. Tog ther with our partners, we create rN
Singapore 637312 value by providing solutions that better meet the sgrow ei needs. RPC is headquartered in Norway and 4
Singapore
Tel: *6564959228 listed on the Oslo Stock Exchange (ticker: RECSOL),I rV011 meld ` b worl,witle,eneratel revenues of USD680 cb
million in2014. w
ry Z
www.recgroup.com
MA
Grog
Certificate of C I
Certificate: 2706862
Project: 70032330
Issued to: REC Solar PTE. LTD.
20 Tuas South Avenue 14
Singapore, Singapore 637312
Singapore
The products listed below are ell l
Mark shown with adjacent indicall":
i
Canada and US or with adVlacen
US only or without either indic
IS I
us
Hance
:Contract: 260407
May 13, 2015
igar the CSA
jfinaIUSrfor
r 'QTS' for
na4a only.
PRODUCTS
CLASS 531190 - POWER SUPPLIES - Photovoltaic Modules an"'J�'Tan
fied
US
Standards
CLASS 5311.10 -POWER SUPPLIES -Photovoltaic Modules an 40an&.�S
Photovoltaic Modules with maximum system voltage of 600 Vdc an Class C
4
class rating:
Model series RECxxx (where xxx is the power output from 214 W t VO W), f(flowed
by
PE, PE(BLK), PE -
US, PE-US(BLK), PE Q2 or PE Q3.
fjj
Model series RECxxx (where xxx is the power output from 230 W t 60 fil
lowed
PE, PE(BLK) PE-
US,.PF,US(BLK), PE Q2 or PE Q3, followed by blank character, fbi, wed �by kO.
th
Model series RECxxx (where xxx is e power output from 250W to ��Ow% f0
to 4
iwed by
?E EVO, PE
EVO(BLK), PE EVO Q2 or PE EVO Q3.
Model series RECxxx (where xxx is the power output from 250 W to i7O f, b
lowed b�
PE BLK2, PE BLK2
Q2 or PE BLK2 Q3.
Photovoltaic Modules with maximum system voltage of 1000 V de l Cl4 6 1
class
�rating:
Model series RECxxx (where xxx is the power output from 285 W t6 15 W fb
h
�
dwed b�
PE72, PE(BLK)72,
PE72 Q2, or PE72 Q3. J
Model series RECxxx (where xxx is the power output from 260 W i6 90 f6bwed
b�
TP, TPQ2 or TPQ_3 ).
DQD 507 Rev. 2012-0522 Page: 1
A W -k
CSA
GrOU0,
Certificate: 2706862
Project: 70032330
Model series RECxxx (where xxxis the power output from 260 W to I
TP BLK Q2 or TP BLK Q33, TP BLK2 Q2 or TP BLK2 Q3.
Electrical Ratings:
attcacO 260407
May 13, 2015
-d byK2,
+P BLK TP BL
Model
Open Circuit
Voltage at
STC, (Vdc)
Rated Voltage
at, STC, (Vdc)
Rated Curr
at STC, (A�
ortIcircuit
ortl,,
C
ircuit ;
nt at
`(Adc) I
Rated Maximum
Power At
STC, (Watts)
REC214PE series
36.2
28.2
7.6
'nt at
1
o�i
214
REC215PE series
36.3
28.3
7.6
STC, (Watts)
REC285PE72
43.9
21
REC220PE series
35.9
28.6
7.71220
series
l$126
REC225PE series
36.2
29.2
7.87-
44.2
35.6
109
225
RE-C23OPE -series 1
36.4
29.2
7.98
5
230
REC2 5PE s 6ries
36.6
29.5
8.06
8
8,10
4166
235
REC240PE s tiries
36. 9-
29-.7
8.17
OJ5
740
RE-C245PE sines
37.1
707-1
8.23
0
00-
0
245
REC25OPE series
37.4
30.2
8.30
REC305PE72
45.1
250
IREC255PE series 1
37.6
30.5
8.42
71:
255
REC26OPE s6ries
37.8
30.7
8.50
4 5. 3
36.7
8.53
260
REC265PE series
38.1
30.9
8.58
8
265
REC270PE sFries
38.4
3 L3
8.
8.62
8
270
Photovoltaic Modules with maximum system voltage of 1000 V dc and' lauss fire,: class rating:
Model series RECxxx (where xxx is the power output from 285 W to 3 W), jo11b Ved by OE, or PE(BLK).,
followed by 72, maybe followed by Q.2 or Q3.
Electrical Ratings:
Model
open Circuit
Rated Voltage
�a
Rated Cu ilk
ortIcircuit
I Rated Ma-ximum
Voltage at
at STC, (V dc)
at STC, (A d:�
Cli,
'nt at
Power at
STC, (V dc)
-T5-.4
TdI,
�A, d C)
STC, (Watts)
REC285PE72
43.9
8.06
8
1 285
series
REC290PE72
44.2
35.6
8.17
8
5
290
series
REC295PE72
44.5
3 )6.1
8
8,10
2
series
REC30OPE77--44.9
316A
8
0
00-
series
REC305PE72
45.1
36.6
8,42
305
series
REC31 OPE72
4 5. 3
36.7
8.53
310
series
REC315PEU
45.5
36.8
8.62
31
series
---------------------
DQD 507 Rev. 2012-05-22 fte: 2
¢¢ kki
V CSA
`
Grow
is
i
Certificate: 2706862 Niter " Matra: 260407
Project: 70032330
Dati 16iiiiii,j May 13, 2015
ff {
Model series' RECxxx (where xxx is the power output from 260 W to 2 'b W),folled by TP, TPQ2 or TPQ3.
r
Electrical Ratings: it
Model .
Open ircuit
Voltage at
STC, (V dc)
Rated Voltage
at STC, (V dc)
Rated Cu
at STC, (A d
$hofj , ircuit
C Ent at
STC (A dc)
Rated Maxiinum
Power at
STC, (Watts)
REC260TP series
37.3
30.6
8.51
;91;12
260
REC265TP series
3 7. 7
30.9
8.59L
; . 21 I
265
REC270TP'series
38.0
31.2
8.67
9'29
270
REC275TP series
38.3
31.5
8.74
k J a8
275
REC280TP series
38.7
31.8
8.81
;4
2 0
Notes:
0
1. Rated electrical characteristics are within +/-10% of measured values
cm2 irradiance, AM 1.5 spectrum, and cell temperature of 25°C.
2. Module Fite Performance: Type 1 (for Module Types: RECxxxPE sed
the power output from 214 W to 280 W), and Type 2 (for Module Type;
power output from 285 W to 315 W)
APIPLICABLE REQMEMENTS
ULC/ORD- C1703-01 - Flat -Plate Photovoltaic Modules and Panelsli,l
UL 1703 -3rd Edition - Flat Plate Photovoltaic Modules and Pane15
DQD 507 Rev. 20] 2-05-22 Page: 3
fr
Est Conditions 100 mW/
1
ies, where xxx is
where xxx is .the
The b, st choice for SolarEdge enabled systems
AW d a fault protection (Type 1) for NEC 2011 M-11 compliance
— Supe effl cy (98%)
— Smalfll hturtght and easy to install on provided bracket
— Bulit mod level monitoring
— Inten conr*ction through Ethernet or Wireless
— Outd4or and irdoor installation
— Fixed V�oltage 4nverter, DC/AC conversion only
— Pre-as6embled Safety Switch for faster Installation
— Optional — revenue grade data, ANSI 012.1
LF,,`. -- GERKCi ,,NY -- ITALY - FRANCE -1:'1PAV - CHINA- AUST'RALIA - THF N
-A? redg. Z.us
solar =@:.
SolarEdge Single Phase
Inverters
For North America
-'E3000P.,-US / SF3800A-JJS l SE5000A-U'-,;
PSE6000A -U'
.>EMDP -L)S I SE1 000DA-US SE1 1400A -US
Ul
Rgg
jl,
A", "
J
V
. . . . . . . . . . . . .
. ... .
tl
...
The b, st choice for SolarEdge enabled systems
AW d a fault protection (Type 1) for NEC 2011 M-11 compliance
— Supe effl cy (98%)
— Smalfll hturtght and easy to install on provided bracket
— Bulit mod level monitoring
— Inten conr*ction through Ethernet or Wireless
— Outd4or and irdoor installation
— Fixed V�oltage 4nverter, DC/AC conversion only
— Pre-as6embled Safety Switch for faster Installation
— Optional — revenue grade data, ANSI 012.1
LF,,`. -- GERKCi ,,NY -- ITALY - FRANCE -1:'1PAV - CHINA- AUST'RALIA - THF N
-A? redg. Z.us
a r.="Single Phase nr es
s o SE300DA US / SE3800A US / So OA-
SE760®A-US i SE10000A-US / S T 4,00
,l
SE3000A-US ? SE3300A-US SESOW-US ! 5E8004#, ! 3E7
OUTPUT Y
Nominal AC Power Output 300D 38W 5000
Max. AC Power Output ............. � .. . 3300 41W s4oa 2 'I 1
5450 �240V
AC Output Vohage Min: Nom:Max pi _ 1
183 - 208 - 229 Vat - ✓ 1
f
AC Output Voltage Min. Nom: Max.,' ;
211- 240 - 264 VaC {
AC frequency Min; Nom -Max.111 59.3 - 60.60.5 (wide HI CM 5
q 24 @ 208V'
Max Continuous Output Current 12,5 16 21 @ 240V 25:2
i
GFDI Threshold ; 1
Utility Monitoring, Islanding Protection, Country Configurable Thresholds Yes'
INPUT I
Maximum DC Pow�erjSTC) ( 4050 1 5100 6750 8100 j1 j
Transformer -less, Ongrounded ! Wis ..'
Max. Input Voltage `s '
Nom. DC Input Voltage 1 325 @ 2015V /; 01z
I 16.5 @ 209V l
Max. Input Currenti'i 9.5 L3 i 18 I +
155 @ 240V
Max. Input Short Circuit Current ? 45
Reverse -Polarity Protection Yes'
Ground-Fwtt lsolation Detection 600kx
Maximum Inverters Efficiency ji 97.7 98.2 98.3 ° 983 f
73 @ 200V
CEC Weighted Efficiency 97.5 g 98 @ 240V 5
l <25 s
Ni�eree Power Consumption I;
ADDITIONAL FEi1ATURES
Supported Communication Interfaces RS485, RS232,
Revenue Grade Data, ANSI C12.1 f
Rapid Shutdown —NEC 2014 690.12 j Functionality enabled where W.—Ild
STANDARD COMPLIANCE y- -
Safety - UL174 01.109%
Grid Connection Stlandards
Emissions FCC part`5 } $
INSTALLATION SPECIFICATIONS } X
AC output conduit size / AWG range 3/4" minimum/ 16-6 AV46
DC input conduit size / 4 of strings / I
AWG range i 3/4' minimum J 1-2 strings`/ 16 G A !
DimerWms with Spfety Switch ! 305 x 125 x 7.2 / 775 x 315 z 184
fHxWxD)
Weight with Safety Switch
51.2/23.2 i 54.7/24, r j.
Cooling
Natural Convention
Noise
<25
Operating Temperature ,
-13 to+140/-25to+60(-4i N
Range
r
Protection Rating
NEMA
wsautltvn�aiaisstfbwt�Srmntsa3obrEd�esup0�
; � 1's. .
�Ahi�hercWl�t Solace tlley ht uwct�enrerterwtp Mit )ss i,pnt tiarertEo eet wY�ess�ed E',
�Rermq�e�ai! Gnosis WN: S WVA-1� trop 766 frHerterSEi6YfWFU't�2NMQj.
Hapw a+,�aor■ tt PjN:5El0D0-V5D-S1.
E
� -IO Mershon ytt Sl�000�MiISOOOWNU4 {rau 76aow
). �
W
No� America
/ 90f�A- S /
S1 t
��sE -us � sE114aoA-us
Pim 1 11.400 i VA
SO P 095(1 12000 VA
7 3) Hz
!� 1 48 @ *V 47.5 A
{a 1 ; 41 @ 240V
A
i 1 Yes. _
135110 715350 W
Vdc
Vdc
33,@ Zj8V
:30.51124OV 34.5 Adc
h _ Adc
go
S I 97 .@ 2ftV
t 975 41240V .S 9K
<4 W
:lz
3%4 ,rrlfnimum / 8-3 AWG
3/4' i "+bmum / 1-2 strings /
1.4-b AWG
); x12.5xI S/ in/
775x315x260 mm
Js)! .88A 40.1 lb/kg
Pu a
auser re -)
Ig r
d8A
I .F/'C
EN
r�
;tai.
1: i Its.
ii
S o a rm�97..��
SolarEdIge Power Optimizer
PV Po er o4wmization at the module -level
49
Module Add -On
For
North America
effic*Icy (99.5%)
- Mitiga all tomes of module mismatch losses, from manufacturing tole
- Fledl systero design for maximum space utilization
'300 P320
P40()
j P405
A "A
— Module -level 4oftage shutdown for installer and firefighter safety
l
F"
ff
gg"
A,
PV Po er o4wmization at the module -level
49
Llp to % menergy
effic*Icy (99.5%)
- Mitiga all tomes of module mismatch losses, from manufacturing tole
- Fledl systero design for maximum space utilization
-Fast initallation wish a single bolt
A "A
— Module -level 4oftage shutdown for installer and firefighter safety
I Y 4t;,
PV Po er o4wmization at the module -level
Llp to % menergy
effic*Icy (99.5%)
- Mitiga all tomes of module mismatch losses, from manufacturing tole
- Fledl systero design for maximum space utilization
-Fast initallation wish a single bolt
- Next generation maintenance with module -level monitoring
— Module -level 4oftage shutdown for installer and firefighter safety
I Y 4t;,
L�
Solar ®®®® S®larEdga Fo rd ` ` r
Module Add -On for ho�o erf�
— P300 P320 P405
It- M04WIRIff (for'6D-cOf A3odufol lAO ICY 2S( i E at t �l7
odwo
INPUT
Rated Input DC Poweel) 300 320 ! i' 405 W
Absolute Maximum Input Voltage48
(Yoc at lowest temperature) s ' 125 Vdc
NIPPT Operating Range 8-48
1.2.5 -11% Vdc
4' 1 :
Maxirnvm Short Circuit Current {lsc) 10 lA j 1 t , 10 Arlt
;
Maximum DC Input Current 12.5 i 23.75 a ! 1 !" 12.5 Adc
Maximum EIficlency 99 9i
Weighted Effivency 48 k i; %
0mrvoltage Cat"
ory lI
OUTPUT D17R1lVG OPERATION (POWER OPTIMIZER CONNECTED TO OPERATING * _ RTE
Maximum Output Current � � 1l -Adc
Maximum Outpot Voltage 60 E 85 V&
OUTPUT DURING STANDBY (POWER OPTIMIZER DISCONNECTED FROM SOLA fi _l li'RSO, HEDGE INVERTER OFF)
safety Output Vdttage per Power
Vdci
it
3TANDARD COMPLIANCE
EMC Fcc Part15 Class Bq; IE051
Safety IECb2'�9-1(cbss,,t )r Ll i
RoHS {
!NSTALLATION $PECIFICATIONS
Maximum Allowed System Voltage lootI 9' Vdc
Compatible inverters j All .SolarEdge Wigle F"Ime-ar'I Th rs
128x152x27.5/ i �; x 3 12$x152x48/
Dimensions (W x' L x H) r, mamma J in
l 5x5.97xA.tiB 5x5. is!x597x1t39
Weight (including cables) 770/1.7 � � � � � 9 2- ; (� i 9.30 2.4 5
gr/ lb
Input Connector mucom
Output Wire Typal / Connector Double Insu6w f � t
Output Wire Length @ 95 / 3.4) � , l { 2 / 3 m J ft
Operating Temperature Range -40 -+85 + !;
Proteztian Rating / NE
Relative Humidity
PV SYSTEM DESIGN USING
SINGLE PHASE THREE PHA TH RE E PHASE 480V
A SOLAREDGE INVERTER10
Minimum String Length $ - j 18
(Power Optimizers)
Maximum String Length 25 ` i
(Pourer Optimizers) ! "j
Maximum Power per String 3250 z , i? 12750 y,p
Parallel Strings of Different Lengths
or Orientations yes
&O it is not Awwd tD wdol iM06 ash P3WA aWjKWjFM In one 9 ft
i
pp_
O?
W
�arpiSER*
'�6
7
J
2Py
>
ui
O
r2
FJtl
ZK
O WZ
W
O
W Y-
O
0
a� O
HW
O
d>W
JOY
Q
J
-F-O
F
Zo O
m
N
d W
O
1
O
J q
(tjp
N
W In -j
x
l S1037A
9�P
aZ'c
W Q
a O
W Q 1�
1g1
O
Jy
NI�J
"'
{L
W ya1
O Q Cj
IL Y
Vj
t7 J
J
F' N J
93 Ntj
d
W
LLI
W �M'=j
��
54 A J.Y.$
r
Y Y W
N
o>
oP
P
J
V) nY
r
{L
~ NN OJ
J Kh-V194
PO9 WN N
J\
I.J
O
-jzm
Z
0 a�y7�l1J>jua
v
J
J UYp
W
N N y 0
O:083&4)6
wW
Q
N WOC 1Z I I
H V\1 Z�W ix
o � W x I�
Z I nix I F 1 0
W
Q
Z
W
a
q
c
Y W
d
0 0C �'-
M
J
N W
{J
2
Q
N�
V)
U
x+!!
ie
I
w:N
Ky
O N
Z
I-
W
W
It a
I. -W
Y
O
�' IL
O N
o~c
a
'
aNnJ,.
Yi�OC
OC a
J
W >
IA
N
J
is.
ZOp
W „W„
>
O N
—tqOpl
'Wow
q U
-Z.inO
J
U
®
14C W.-.-
J N>
V) Ln
1►�i
offnQJ
F
�
W W
d d
V V
f f
YYzY
c
of
G
NOOC
K
p AL
.Y.. O>
app
N RRZQQZSS
� S
QU
OV
U
I- N
Q
OSI -
J !n
w
k
=Z
Y
ZWW
€
Nt
5;x
IJ
~�ON
>
S�3
vat
I
1►
> M
KW
I!I,j,�11
6^~2
W�
~
ce
;
Ell
U
Z
NN
Y
of
8110
� Us
Q
IWC.
`g
JZ
NWWU�
W �+
O:
a
N=
J J
N
Z
y `;,
d
N
Al
we
CITY OF CUPERTINO BUILDING PERMIT INSPECTION CARD
BUILDING ADDRESS: 10850 E ESTATES DR
CONTRACTOR: REC SOLAR, INC.
PERMIT NO: 15090080
OWNER'S NAME: LYN M & ROSEANNE 1 HOFLAND
775 FIERO LN STE 200
DATE ISSUED: 09/14/2015
OWNER'S PHONE: 4085071914
SAN LUIS OBISPO, CA 93401
PHONE NO: (888)657-6527
INSi O DAIWK70R
JOB DESCRIPTION: RESIDENTIAL ❑ COMMERCIAL ❑
FOUNDATION/P[ERS/H.D. S.
INSTALL 15 FLUSH MOUNTED ROOF TOP PV MODULES (4.4
W)
LIFER GROUND
PAD/SET BACK -CERT
GARAGE SLABS/PREGUNITE
POt1Ii'No GOitii RET VE HAS BEEN SIGNED
UNDERGROUND/SLAB
UNDERGROUND PLUMBING
UNDERGROUND ELECTRICAL
DO 50T POUR Loo "' NTIL ROVE HAS BEEN SIGNED
UNDERFLOOR PLUMBING
UNDERFLOOR MECHANICAL
WILDLAND URBAN INTERFACE FIRE AREA
UNDERFLOOR ELECTRICAL
ERN
UNDERFLOOR FRAMING VENTS
TO ARRANGE INSPECTION
Call 777-3228 between 7:30 am and 3:30 pm Monday through Friday, at least 24 hours
UNDERFLOOR INSULATION
PLACR!4O WWZWM� ILIBOVE HAS BEEN SIGI
PLA�CENOSiJIFL00 'i IL `BOVEHASBEENSGNEb
before required inspection. Job address and Permit Numbers are needed when
ROOF SHEATHING
requesting an inspection.
ROUGH PLUMBING
CUPERTINO SANITARY DISTRICT
Closed circuit video inspection of property line cleanout, point of connection
TUBS & SHOWER PAN
ROUGH MECHANICAL
and street lateral required prior to passing FINAL CITY PLUMBING
INSPECTION. Call the District (408-253-7071) for an appointment.
ROUGH ELECTRICAL/POOL BOND
FRAMING/STAIRS/E. EGRESS
NO BUILDING FINALS INSPECTIONS UNTIL ALL REQUIRED
BUSINESS LICENSES ARE OBTAINED
INSULATION/VENTILATION
COVER 1Y0 W U AB HAS BEEN SIGNED
PERMIT EXPIRES IF WORK IS NOT STARTED WITHIN 180 DAYS OF PERMIT
EXTERIOR SHEARMOLD DOWN
ISSUANCE OR 180 DAYS FROM LAST CALLED INSPECTION.
INTERIOR SHEAR/HOLD DOWN
IMPORTANT
SHEETROCK/SHEETROCK SHEAR
When a permit has expired, a charge totaling one-half the fees to obtain a new permit
EXTERIOR LATH/W-SCREED
must be paid in order to reactivate the permit. If a permit has been expired for more
than one year, a charge totaling the full fees to obtain a new permit must be paid
INTERIOR LATH
to reactivate the permit.
NoTAPIt OR -sT NT1 ABOVEHAS BEEN SIGNED
SCRATCH COAT
NOTES:
SEWER/WATER
T-BAR/MECH/ELECT ABOVE CEIL
FIN " S
ELECTRIC METER RELEASE
SPECIAL INSPECTIONS Inspector: Date:
GAS TEST/METER RELEASE
ROOF INSPECTIONS
GRADE - PUBLIC WORKS
PRE -INSPECTION: Inspector: Date:
FIRE -CALL (408) 378-4010
TEAR -OFF: Inspector: Date:
PLANNING (408) 777-3308
PLYWOOD: Inspector: Date:
SANITARY (408) 253-7071
BATTENS: Inspector: Date:
ELECTTRICAL
IN PROGRESS: Inspector: Date
MECHANICAL
FINAL: Inspector: Date:
PLUMBING
HANDICAP
NOTE: OSHA APPROVED ACCESS TO ROOF SHALL BE PROVIDED FOR INSPECTION.
ENERGY
* OCCUPANCY OF BUILDING NOT PERMITTED UNTIL BUILDING FINAL IS SIGNED BY
INSPECTOR
BUILDING
CERTIFICATE OF OCCUPANCY
k
yyfn
k
ENERGIZING LIFE TOGETHERm",
RE C
0
"k, 11
k'
a
. . ........
W',
.. .... .
11A
k1w,
�,YT,
9 a
i b""n yd1
v�
141i,
JOHN
MR,
�
AM2 k 92 :K 3
��. 4k
S ,\ h, Y.F
kv"r\q
Or
s
ti
4�
L
x P z
y,x a�\�r '� .fie x ��•AV '� ", Fav ar M"�-'ad�" r
v' RON vvr�
CONTENTS
TABLE OF FIGURES
2
INTRODUCTION
3
HOW TO USE THIS MANUAL
3
YOUR RESPONSIBILITY AS AN INSTALLER
3
SUPPORT
3
LIABILITY DISCLAIMER
3
ELECTRICAL INSTALLATION
4
ELECTRICAL REQUIREMENTS
4
1) SYSTEM REQUIREMENTS
4
II) CONNECTION
4
III) STRING CONFIGURATION
4
IV) WIRING LAYOUT
4
V) JUNCTION BOX, CONNECTORS AND MATERIALS
4
VI) CABLE MANAGEMENT
4
VII) ELECTRICAL RATINGS
4
SAFETY MEASURES
4
1) SAFETY IN THE WORKING AREA
4
II) PREVENTING CURRENT GENERATION
4
II) SPECIFIC HAZARDS OF DC ELECTRICITY
4
IV) SAFETY REQUIREMENTS
4
MECHANICAL INSTALLATION
5
FIREGUIDELINES
5
ORIENTATION
5
ENVIRONMENTAL FACTORS
5
PANEL HANDLING
5
MOUNTING THE PANELS
6
PANEL INSTALLATION
6
1) RAIL SPECIFICATIONS
6
II) CLAMP SPECIFICATION
6
III) MOUNTING HOLES
7
IV) SLIDE -IN SYSTEMS
7
V) DRAINAGE HOLES
7
VI) LONG SIDE MOUNTING USING CLAMPS
8
VII) SHORT SIDE MOUNTING USING CLAMPS
8
VIII) GROUNDING
8
MAINTENANCE
9
CLEANING INSTRUCTIONS
9
SYSTEM INSPECTION
9
RECYCLING
9
PANEL INFORMATION
10
TECHNICAL INFORMATION
10
DOCUMENT HISTORY
11
TABLE OF FIGURES
Number
Title
Page
Number
Title
Page
Fig. l
Panel mounting options
6
Fig, 7
Drainage holes
7
Fig. 2
Rail specifications
6
Fig. 8
Long side mounting
8
Fig. 3
Clamp specifications
6
Fig. 9
Short side mounting
8
Fig. 4
Panels secured at four points
6
Fig. 10
Recommended grounding
9
Fig. 5
Mounting holes
7
Fig. l l
Minimum bend radius
10
Fig. 6
Mounting using mounting holes
7
Fig. 12
Panel dimensions
10
Fig. 13
Frame cross-section and dimensions
10
Caution: Only qualified personnel should perform work on photovoltaic systems such as installation, commissioning,
At maintenance and repairs. Be sure to follow the safety instructions for all system components. Ensure relevant local codes
amand regulations for health and safety and accident prevention are observed.
P,77,, ,,__`, 1,A,uW -uu7c'
E" e-c3is PFS i iEt> �)&B
INTRODUCTION
Thank you,for choosing REC photovoltaic panels. REC TwinPeak solar panels are ideal for delivering long-lasting and reliable power output. The panels
have been created through intelligent design and are manufactured to the highest quality and environmental standards. With correct installation and
maintenance, REC TwinPeak panels will provide clean, renewable energy for many years.
Please read this entire manual carefully. It contains critical information on safety, as well as detailed instructions for installation, operation and
maintenance of this panel. Failure to followthe procedures contained within will invalidate the warranty. Review all instructions and safety notes
before working on the system. Failure to do so may lead to injury or damage to property.
HOW TO USE THIS MANUAL
This installation manualdescribes the procedures for mounting all REC TwinPeak solar panels in a photovoltaic array (certified according to the UL
1703 standard), including REC TwinPeak panels with a black backsheet and/or a black frame, from hereon all referred to as REC TwinPeak panels. The
drawings within refer to;all frame, backsheet and cell color types and are meant to be a generic representation of the instructions detailed in the text
regardless of the color depicted. The installed panel is only considered to be in compliance with UL 1703, only when mounted in the manner specified
by these mounting instructions below. Note that any panel without a frame (laminate) is not considered to comply with the requirements of UL 1703
unless mechanically installed with hardware that has been tested and evaluated with the panel under this standard or by a field inspection certifying
that the installed panel Complies with the requirements of UL 1703.
Review the entire manual before installing the panels and ensure you are working from the latest version. Throughout the manual, you will see the
icons below which highlight important information or notes:
Indicates potential for damage to the array or property or personal safety.
Indicates important notes on best practice to help with the Installation or to avoid potential damage to the panels, array or property.
For further information on installation procedures, please call your distributor or contact your local REC Solar office. Details available at www.
recgroup.com.
YOUR RESPONSIBILITY AS AN INSTALLER
Installers are responsible for the safe and effective installation and operation of the photovoltaic system and for adhering to all local and national
standards and regulations. Prior to installation, check all applicable regulations and permits concerning solar systems and ensure all local directives
are observed.
• Ensure the REC TwinPeak panels are in a suitable condition for use and appropriate forthe particular installation and environment
• Use only parts that convene to the specifications set out in this manual
• Ensure a safe installation of all aspects of the electrical array
All equipment should be properly maintained and inspected prior to use.
SUPPORT
Do not attempt to instal when you are unsure of the procedure or suitability. For questions or guidance with your installation, please call your
distributor or contact your REC sales office, which can be found at: www.recgroup.com/en/contacts.
LIABILITY DISCLAIMER
REC SOLAR PTE. LTD. accepts no liability for the usability and functionality of its photovoltaic panels if the instructions in this guide are not followed.
Since compliance with this guide and the conditions and methods of installation, operation, use and maintenance of the panels are not checked or
monitored by REC SOLAR PTE. LTD., REC SOLAR PTE. LTD. accepts no liability for damage arising from improper application or incorrect installation,
use, operation or maintenance. This does not apply to damages due to a panel fault, in cases of loss of life, bodily injury or damage to health or in the
event of a grossly negligent breach of obligations on the part of REC SOLAR PTE. LTD. and/or in the event of an intentional or grossly negligent breach
of obligations by a legal representative or vicarious agent.
RE_Twirf FakSw a,Im:roaa n.r Mary-'JLUOi
ELECTRICAL INSTALLATION
ELECTRICAL REQUIREMENTS
i) System Requirements
REC TwinPeak panels are only for use where they meet the specific technical requirements of the complete system. Ensure other components do not
cause mechanical or electrical damage to the panels.
ii) Connection
If panels are connected in series, they should have the same amp rating. If panels are connected in parallel, they should have the same voltage rating.
iii) String configuration
When usingstring configuration, plan and execute it accordingto inverter manufacturer's instructions. The number of panels connected to an inverter
should be within the inverter voltage limits and operating range. Do not exceed the total system voltage permitted by the manufacturer, nor under any
circumstance exceed the maximum system voltage of 1000 V. The maximum reverse current is 15 A and the maximum series fuse rating is 15 A.
iv) Wiring layout
To minimize voltage surges (e.g. indirect lightning strikes), cables of the same string should be bundled together so loops are as small as possible.
String configurations must be checked before commissioning. If open circuit voltage (Von) and short circuit current (ISS) deviate from specification,
this may indicate a configuration fault. Correct DC polarity should be observed at all times.
v) Junction box, connectors and materials
The paneljunction box is rated IP67, the connectors are rated IP67 only when correctly connected. All connectors and cables must be secure and
tight as well as electrically and mechanically sound. UV -resistant cables and connectors approved for outside use must be used. Conductor gauge
must ensure DC power losses (voltage drop) are kept to a minimum (< 1%). Observe all local regulations when selecting cables. For field connections,
use minimum 12 AWG (4 mm2) or copper wires insulated for a maximum operating temperature of 90°C.
vi) Cable Management
Cables must be secured using UV -resistant cable ties or other sun(ight-resistant device. Loose and unsecured cables should be protected from
damage (e.g. mechanical, abrasion, sharp objects, animals). As far as possible, avoid exposing cables to direct sunlight and permanent tension.
AtREC prohibits any modification to the panel, including the cutting of cables in order to change the connector type or the opening of the
junction box unless explicitly authorized by REC. Doing so will invalidate the warranty.
vii) Electrical Ratings
Under normal conditions, a photovoltaic panel is likely to experience conditions that produce more current and/or voltage than reported at STC. The
requirements of the National Electric Code (NEC) in Article 690 must be followed to address these increased outputs. In installations not under the
requirements of the NEC, the values of ISC and Von marked on the panels must be multiplied by a factor of 1.25 when determining component voltage
ratings, conductor ampacities, overcurrent device ratings and size of controls connected to the PV output.
SAFETY MEASURES
Wiring installation shall be in accordance with the NEC (or CSA C22.1, Safety Standard for Electrical Installations, Canadian Electrical Code, Part 1
where applicable). All relevant electrical installation codes and regulations should be observed for regulations on working at heights and fall protection.
i) Safety in the working area
Installation of REC TwinPeak panels may involve working on a roof. Ensure all local regulations regarding working at heights are followed. Before
beginning work on a photovoltaic system, ensure all working surfaces are structurally sound and capable of bearing the weight of employees and
required equipment. Remember to isolate the system from the grid before carrying out any maintenance or repair work.
ii) Preventing current generation
Solar panels automatically generate current (electricity) when exposed to light. To prevent this, shield the system with a non -transparent cover during
installation, maintenance or repair work.
ii) Specific hazards of DC electricity
Solar panels generate direct current (DC). Once current is flowing, breaking or opening a connection (e.g. removing a DC cable from the inverter) can
cause an electrical arc. Unlike low voltage AC wiring, DC arcs are not self -extinguishing. They are potentially lethal burn and fire hazards, capable of
high temperatures that can destroy contacts and connectors:
• Follow panel and inverter manufacturers' installation, handling and operating instructions
• Remove/open the inverter AC fuse/circuit breaker before disconnecting from the public grid.
• Switch off or disconnect the inverter and wait for the time specified by the manufacturer before commencing work. High-voltage components
need sufficient time to discharge.
iv) Safety requirements
The voltage produced by a single panel and panels connected in series (voltages added together) or in parallel (currents added together) can be
dangerous. Although the fully insulated plug contacts on the panel's output cables provide touch -safe protection, the following points must be
observed during handling to avoid the risk of sparking, fire hazards, burns and lethal electric shocks.
• Exercise extreme caution when wiring panels and look out for damaged or dirty cables etc.
• Never insert metallic or other conductive objects into plugs or sockets.
• Ensure that all electrical connections are completely dry before assembly.
• Keep all materials, tools and working conditions dry and tidy.
• Use appropriate safety equipment e.g. nonslip footwear, insulated gloves and insulated tools.
• Solar panels produce current when exposed to sunlight. Do not connect the system to the inverter during solar exposure.
q r. xnP= . Sv-In:rdllatmn Minai-UU ',
Pry R,e I IE4X-05-6
NIECHANICAL INSTALLATION
FIRE GIJIDELINES
REC TwinPeak panels have a Class C, Type 2 Fire classification. The fire rating of this panel is only valid when mounted in the manner specified in these
mechanical mounting instructions. Utilize the following fire safety guidelines when installing REC TwinPeak panels:
• Check with local authorities for fire safety guidelines and requirements for any building or structure onto which the panels wilt be installed.
• The system design should ensure that it can be easily accessed in the event of a building fire.
• Check with local authorities for applicable regulations concerning setbacks or other placement restrictions that may apply for roof -mounted
arrays.
• The use of DC ground fault interrupters is recommended. This may also be required by local and national codes.
• All electrical appliances are a fire risk. The panel should therefore be mounted over a fire retardant roof covering rated forthe application and
a suitable distance,of 4 in (100 mm) between the panel and the mounting surface, allowingfree circulation of air beneath the panels, should be
respected at all times.
ORIENTATION
To maximize system output, panels should be installed at the optimum orientation and tilt angle. The specifics of this depend on location and can be
calculated by a qualified system designer. A lower angle of panel installation increases the requirement for regular cleaning.
The optimal mounting position of panels results in the sun's rays falling perpendicular (i.e. at 90°) to the surface. All panels in a string should, wherever
possible, have the same orientation and tilt to ensure the system does not underperform due to mismatched outputs.
At The panels must not be exposed to artificially concentrated sunlight.
ENVIRONMENTAL FACTORS
REC TwinPeak panels are designed to provide decades of durable and stable output. Ambient operating temperatures should be between -40 and
185°F (-40 and +85°C).
The panels are not suitable for installation in potentially hazardous locations nor should they be installed in the following locations:
• Near sources of flammable gases or vapors
• Near open flames.
• Underwater or in water features.
• Where exposed to sulfur e.g. near sulfur springs or volcanoes.
• Where the panels may be exposed to harmful chemicals.
AtEnsure panels are not exposed to direct contact with salt water/spray and avoid installation in areas subject to high salt mist content e.g.
coastal areas.
PANEL HANDLING
To avoid damage to the solar cells and other components, all solar panels should be handled with care. All warnings and instructions on the packaging
should be observed. Follow these guidelines when unpacking, transporting or storing the panels:
• Record the serial numbers prior to installation and note the information in the system documentation.
• Carry the panels using both hands and avoid using the junction box as a grip.
• Do not allow the panels to sag or bow under their own weight when being carried.
• Do not subject the panels to loads or stresses e.g., leaning or placing heavy objects on them.
• Do not stand on the panels or cause impact through dropping them.
• Keep all electrical contacts clean and dry.
• Store panels in a dry and properly ventilated room.
• Do not apply force to the backsheet.
• Avoid using sharp or pointed objects if panels require marking.
• Never apply paints, adhesives or detergents to the back of the laminate.
• Do not use any solar panel that is damaged or been tampered with.
• Never attempt to disassemble the panels.
At If the panel front glass is broken or laminate back sheet is damaged, it can expose personnel to hazardous voltages.
RP TwmFe kSer-In,I Marual-i_ILIA)?
I vc M,li F;-4 NE -05-09-6
MOUNTING THE PANELS
REC TwinPeak solar panels are designed for capturing solar radiation and are not suitable for installation as overhead or vertical glazing. The panels
are considered to be in compliance with UL 1703, only when the panel is mounted according to the the mounting instructions specified below. The
RECjunction box on the back of the panel is protected to IP67 and hence panels can be mounted in any orientation.
PANEL INSTALLATION
i) Rail specifications
REC TwinPeak panels are typically installed on a rail -based mounting system. There are different methods of installing an REC TwinPeak panel, each
decribed below, depending on the design load of the array. The rails can run under the frame or parallel to the frame, directly under the clampingzones
(fig la & :l b). Ensure the mounting structure is able to withstand anticipated wind and snow loads.
Fig. 1: Panel mounting options:
(a) rails parallel to the long side
(b) rails parallel to the short side
Ensure a minimum distance of 4 in (100 mm) between the uppermost part of the roof and the lowest part of the panel to ensure sufficient
airflow beneath the panels, aiding cooling and boosting performance.
The clamps should be fastened to C or H channel rails (fig. 2).
• Thickness of walls for mechanical connections: min. 0.156 in (4.0 mm)
• Thickness of walls exposed to buckling load: min. 0.08 in (2.0 mm)
• Moment of Inertia for profile area about X -X: min array mounting diagram 0.4 in4(19.2 cm4)
Fig. 2: Rail specification
Walls for mechanical
connectors
Walls exposed to
buckling load
The overlap between support rail and the outer edge of the panel frame must be a minimum of 1/64 in (6 mm).
ii) Clamp Specification
REC TwinPeak panels have been evaluated by UL for mounting using C -channel -rails in combination with end and mid clamps, 5/16 in (8 mm) ASTM
F593C stainless steel screw and rail nuts. Alternatively clamps with the below ratings and dimensions can be used to secure the panel to the
mounting structure (fig. 3):
• Minimum yield strength of 2089 ton/ftz (200 Mpa)
• Minimum tensile strength of 2610 ton/ft' (250 Mpa), e.g. 6005 T5 alloy.
• Minimum grip length of 1.75 in (44.45 mm)
• Minimum grip depth of 0.29 in (5 mm)
• Minimum thickness of load carrying walls of 0.156 in (4 mm)
• Screw connection - 5/16 in (8 rnm) stainless steel bolt, 5/16 in split washer (8 mm), nut
.3: Clam pspecil--ti—
gth
5 in
0 Walls exposed to load
Grip depth 0.2 in min 0.1.56 in Grip depth min 0.2 in
length
1.75 in
At Each panel must be securely fixed to the mounting structure at a minimum of four points (fig.4).
Rai C -CS`, R,, I IE -0C-09-6
FigA Panels secured at four points.
vi) Long side mounting using clamps
Mounting utilizing clamps on the two long sides of the panel have been found to be in compliance with UL 1703 requirements for a maximum design
load of 75 2 lbs/ft2 (3600 Pa) (fig. 8).
• Clamps must be secured between a distance of 8.2 in to 16.4 in (208 mm -416 mm) from the corner of the panel (measured from the mid -point)
to the clamp edge.
• Tightening torque must be tightened to 9 ft -lbs (12 Nm).
• The distance between the end clamp and the end of the rail must be minimum 1 in (25 mm).
Fig. B:Longsi-'^^^ ^+^^
Fig. 9: Short side ^ ^ ^+ ^^
vii) Short side mounting using clamps
Mounting utilizing clamps on the two short sides of the panel have been found to be in compliance with UL 1703 requirements for a maximum design
load of 33.4 lbs/ft2 (1600 Pa) (fig. 9).
• Fix the panels so that the lower short side of the frame is supported by the mounting structure (to reduce risk of damages due to sliding snow load).
• Clamps must be secured between a distance of 4.9 and 9.8 inches (125 - 250 mm) from the panel corner to the clamp edge.
• Tighteningtorque must be tightened to 16 ft -lbs (21.7 Nm).
• The minimum distance between the end clamp and the end of the rail is 1 in (25 mm).
• Mechanical load must not exceed 33.4 lbs/ft (1600 Pa).
• The overlap between support rail and frame must be a minimum of 1/4 in (6 mm).
AtIn areas of snow build-up, panels can be subjected to forces in excess of the stated limit even when snow depth does not appear extreme,
causing damage to the framework. If the installation is likely to be affected, further suitable panel support is recommended on the lower
row of panels.
Ensure the drainage holes are not covered by the mounting structure.
iii) Mounting holes
Mounting utilizing the four elongated holes (0.26 x 0.43 in (6.6 x 11 mm)) on the underside of the panel frame (at a distance of 17.72 in (450 mm) from
the midpoint of the long side) have been found to comply with UL 1703 requirements for a maximum design load of 75.2 Ibs/ft2 (3600 Pa) (fig. 5).
When mounting using mounting holes, the frame and panel edge must be supported by two transverse rails (fig. 1), of aluminium or galvanized steel
to avoid galvanic corrosion and be appropriate for the local environment. These must be held in position by bolts and flange nuts according to the
specifications below. If bought in a kit, do not use the washers and bottom mounted clips provided if they do not match the specifications below:
Part Name I Material Specification
Bolt ASTM F593 (stainless steel) 1/4"x20-5/8"
Flange Nut ASTM F594 (stainless steel) 1/4"x 20
AtInstall the above parts as shown in fig. 6. Consult the Unirac Code Compliant Installation Manual for further details where necessary. For
areas where discrepancy may exist, this installation manual shall take precedence.
At When using mounting holes, fixings must be fastened to 9 R -lbs (12 Nm) of torque and Installation must be according to fig. 6.
Fig. 5: Mountingholes
Fig. 6
Mounting holes
Mounting using
mounting holes
-iE-G31; F-fV[�,Ei0.46
Observe the following procedures when using mounting holes (fig. 5):
Additional electrical bonding to Earth is required for the support structure (see page 12).
All four mounting holes in the frame must be used (for long or short -sided mounting orientation).
Fixings must be tightened to 9 ft -lbs (12 Nm) using a torque wrench.
The warranty will be voided if additional holes are made in the frame. All fixing and fastening materials should be corrosion resistant.
iv) Slide -in Systems
REC TwinPeak panels have not been certified by UL for use with slide -in type mounting systems. If you have any questions regarding a mounting
system and its suitability for REC TwinPeak panels, please contact your local office for technical support.
v) Drainage holes
There are eight drainage holes, 0.47 x 0.30 in (12 x 7.5 mm) in the panels frame, each spaced 2.2 in (55 mm) from the corner of the panel frame (fig. 5).
This allows water caused by rain or snow melt to exit the frame easily and minimizes the damage caused by freezing and thawing. Ensure these holes
are not covered by any part of the mounting structure.
Fig. 7: Drainage holes
viii) Grounding
Fig. 10: Recommended grounding
Star washer
Grounding
cable
A panel with exposed conductive parts is considered to be in compliance with UL 1703 only when it is electrically grounded in accordance with the
instructions presented below and the requirements of the National Electrical Code. Grounding is achieved through securement to the panel frame of
the following UL Listed grounding Clips/ Lugs in combination with the REC TwinPeak panel(s).
• Suitable grounding lugs must be used: Listed (KDER) ILSCO, GBL-4DBT (tin plated) (E34440).
• Grounding cable size should be between 4-14 AWG (2.1 mm2-21.2mm2).
• Attach grounds to the grounding holes in the panel frames.
• Fix lugto the frame usinga star washer (#10) and locknut(#10), ensuring a conductive connection (fig. 10). Tighten accordingto manufacturer's
instructions.
Where common grounding hardware (nuts, bolts, star washers, split -ring lock washers, flat washers and the like) are used to attach a
listed grounding/bonding device, the attachment must be made in conformance with the grounding device manufacturer's instructions.
Grounding lug dimensions and wire fastening torque for Cross section [AWG] Type Torque [In -lbs]
GBL-4DBT
4-6 Stranded 35
8 Stranded 25
10-14 Stranded/Solid 2.8
To avoid galvanic corrosion, stainless steel fastening materials are preferred, however galvanized or hot dipped zinc plated fasteners are
equally suitable.
P,-
CONNECTIONS AND CONNECTORS
In order to, ensure durable and safe connections between panels and BOS equipment, the fol lowing instructions must be followed in order to protect
the electrical connections from the elements. More detailed information is given in the Guide to Best Practice - Connections and Connectors which
can be found via the REC website Download Center (www.recgroup.com/downloads).
CONNECTORS
Connectors must be securelyjoined to each other according to the manufacturer's instructions. REC explicitly excludes the cutting of cables and
replacement of connectors. If this causes an issue for a particular site, contact REC via www.recgroup.com for further advice
The use of any chemicals or lubricants on the connectors or contacts must be carried out in line with the connector manufacturer's instructions
PROTECTING THE CABLES
• To prevent stress on the junction box casing, ensure the cable exits the junction box in a straight line before any bend in the cable.
• The cables on REC Twin Peak panels have a minimum bending radius of 30 mm to avoid damage to the insulation (Fig. 9)
• Ensure cables do not hang loose where they may be damaged through friction or stress, e.g., caused by wind or grazing animals
• Shield connectors from falling or droppingwater by locatingthem directly beneath a panel
• Cables must be firmly secured to the structure, without overtightening, as this can deform the cable insulation
c 2.4 in >
Fig. 11: Minimum bend radius of 1.2 in (30 mm)
N
7
SECURING CABLES AND CONNECTORS
• When securing the connector, place it away from the mounting structure with sufficient air circulation all around. This allows the connector to dry
effectively and avoids the risk of damage or degradation of the connection
• Good practice is to secure the cable either side of the connectors, ensuring no stress is exerted on the connector casing or cable entry
At To enable correct tooling and drying of the connectors, do not add extra protection to the connector, e.g., heat shrink, grease or tape
MAINTENANCE
CLEANING INSTRUCTIONS
REC TwinPeak panels have been designed foreasy maintenance. Normal rainfall will naturally clean the panels if installed at a sufficient angle. The
need for cleaningwill vary dependent on location, rainfall, pollution and angle of installation - the lower the angle of installation, the more cleaningwill
be required. To optimize,electrical output it is recommended to clean the panels when dirt can be seen on the glass surface.
Cleaning of the panel should be carried out in the early morning when the panels are cool to avoid thermal shock.
If dirt remains on the panel, it may cause cell shading which wil l reduce power output or even cause further damage. To clean either the front or rear of
the panels, use only deionized water at ambient temperature and a sponge, microfiber cloth or a soft brush to wipe away the dirt (rainwater, tap water
or diluted alcohol may also be used as a secondary solution). For further cleaning mild, biological and biodegradable washing-up liquid maybe used.
When cleaning the panel; take care not to scratch the surface or introduce foreign elements that may cause damage. Ensure water used is free
from grit and physical contaminants that may damage the panel. Always rinse the panel with plenty of water. If soiling remains, repeat the cleaning
process. If stains require more effort to be removed, Iso -propyl alcohol of a concentration less than 10%. Acid or Alkali detergent may not be used
At Use of high pressure hoses or cleaners is not permitted as these may damage the panel, laminate or cells.
Using a rubber squeegee, wipe the panel surface from the top downwards motion to remove any residual water from the panel glass. Panels can be
left to dry in the air or wiped dry with a chamois. Avoid putting pressure on the panel surface when drying.
For more information on cleaning REC panels, consult the Cleaning Information Sheet available to download from the online REC Instal ler Portal www.
recgroup.com/insta hers.
SYSTEM INSPECTION
The system should be inspected regularly to ensure that:
• Fasteners are secure, tight and free from corrosion.
• Electrical connections are secure, tight, clean, and free of corrosion.
• The mechanical integrity of the cables is intact.
• Bonding points to ground are tight, secure and free from corrosion (which could break the continuity between the panels and ground).
RECYCLING
REC has made every effort to ensure panel packaging is kept to a minimum. The paper and cardboard packaging can be recycled and the protective
wrapping and panel separating blocks are also recyclable in many areas. Please recycle according to local guidelines and regulations.
PETwi,PeaMSFv is;lnsra. n,,r M-v,l-liU703 9
F�+E-O,b .f NESS -0° 5
PANEL INFORMATION
TECHNICAL INFORMATION
Fig.12: Panel dimensions (in)
65.5+0.1
X1.1 35.4
oow
00
Mountingholes c o
0.43 t0.8 - ^
' 6 c
1
35
E
15.05
M'F v 47
1
I�
Dimensions: 65.55 x39.02 x 1.5 in Cell type:
Area: 17.76 ft2
Weight: 39.6 lbs Glass:
Backsheet:
Frame:
Junction box:
Operational Temperature: -40...+185°F (-40... +85°C)
Maximum System Voltage: 1000V
Design Load: 75.21bs/ft2 (3600 Pa)* Connectors:
33.4 lbs/ft2 (1600 Pa)* Origin:
"Dependenton mountingmethod as described above
Max Series Fuse Rating: 15 A
Max Reverse Current: 15 A
0.47-
1.5
Ll 1.24
0.07
1.1
Fig. 13: Frame cross-section and
dimensions (in)
120 REC HC multi -crystalline
6 strings of 20 cells (6" x 3")
1/8" mm solar glass with
anti -reflective surface treatment
Double layer highly resistant polyester
Anodized aluminum (silver/black)**
3 -part with bypass diodes
IP67 rated
4 mm2 solar cable, 35" + 47"
Multi -Contact MC4(4mm2)
Made in Singapore
*`Dependentonprod ucttype chosen
Nominal Power- PMPP (WP)
265
270
275
Watt Class Sorting- (W)
0/+5
0/+5
0/+5
Nominal Power Voltage - VMPP(V)
30.9
31.2
31.5
Nominal Power Current- IMpp (A)
8.59
8.67
8.70
Open Circuit Voltage - Vor (V)
37.3
38.0
38.3
Short Circuit Current- Isc (A)
9.21
9.29
9.38
Panel Efficiency (%)
16.1
16.4
16.7
The electrical characteristics are within +/-10 percent of the indicated values of Ise, Von and PMp, under
standard test conditions (STC).
Values at STC (airmass AM 1.5, irradiance 1000 W/m', cell temperature 25°C (77°F)).
At low irradiance of 200 W/m2 (AM 1.5 and cell temperature 25"C) at least 94% of the STC panel
efficiency will be achieved
`followed by TP, TP(BLK), TP ECO.
10 R=:T..rP�al.�,.n�D�ctallahoMaixar U_'IG',
Rv iE-OF9-nH$
DOCUMENTHISTORY
Date Revision Number Reason
01.2010
A
First release
12.2014
A.2
Update to Electrical data @ STC (275 Wp IMPP)
12.2014
A.3
Update to Electrical data @ STC (addition of 260 & 280 Wp), revision of low light behavior data in
Electrical Data
03.2015
B
Updated to include information on panel variants
0 RCC
REC PULAR PTETD
0 6
ASSOUTF-AVENUE14
�PJGAPORE 63731
SINGAPORE
lel. 6564959228
M6 post@ ecgroup.coni
tirovw r eCgrouo Com
solar =@@
SolarEdge Power Optimizer
Module Add -On For North America
P300 % P320 ,/ P400 / P405
M
M
USA - GERMANY - ITALY - FRANCE - JAPAN - CHINA - ISRAEL - AUSTRALIA
www. _so I a! t,dt.� . u
so I a r" • • z SolarEdge Power Optimizer
Module Add -On for North America
P300 ;` P320 / P400 / P405
1 P300 P320 P400 P405
(for 60 -cell modules) I (for high-power (for 72 & 96 -cell (for thin film
60 -cell modules) I modules) modules)
INPUT
EMC !
Rated Input DC Power(1l
...
300 320
.......
! 405 j
....!........4 .......... .. .............. ..............
W
Absolute Maximum Input Voltage
4880
125 !
Vdc
(Vocatlowesttemperature)...................................................................�..,.........
.....................
.....
J...... ....... ...... ...... .... .... .....
... .
1000
8.- 48........................1..
80 12.5 105
8 I....... -
.................
Vdc
-........
Maximum Short Circuit Current (Isc) I
...............
10 11
I 10 E
......,........ ..
Adc
.........
Maximum DC Input Current
p ...........................
12.5 13,75 ................,....................................,.........
12.5 ..........
Adc.
Maximum Efficiency !
.............................................................................................
99.5 r
��.....
Wei hted Efficient
MC4 Com alible,................................,......
98.8
Overvoltage Category
Output W I re Length ..... ......... ....,.
0.95/3.0 ....... . .............1. , ....... 1 2 / 3.9
OUTPUT DURING OPERATION (POWER
OPTIMIZER CONNECTED TO OPERATING SOLAREDGE INVERTER) —��
: 40 - +85 / -40 - +185
Maximum Output Current
Protection Rating .........................
15 II
Adci
Maximum Output Voltage I
60
85 k
Vdc
OUTPUT DURING STANDBY (POWER OPTIMIZER DISCONNECTED FROM SOLAREDGE INVERTER OR SOLAREDGE INVERTER OFF)
Safety Output Voltage per Power
Vdc
STANDARD COMPLIANCE
EMC !
FCC Part15 Class B, IEC61000-6-2, IEC61000-6-3
.......................................................................................................
Safety i
IEC62109.1 (class II safety), UL1741
RoHS I
Yes
INSTALLATION SPECIFICATIONS
Maximum Allowed System Voltage
1000
d
Compatible inverters l
ers.........
All SolarEdge Single Phase and Three Phase inverters
Dimensions (W x L x H)
128x152x27.5/ 128x152x35/
128x152x48/
mm/in
...................................................................................
5x5.97x1.08 5x 5.97x137
5x5:97x1.89
Weight (including cables)_ ............770./
1.71.......930 / 2A5..... ) 930 / 2.05
� gr / Ib
Input Connector I .....................................................P.............,........
MC4 Com alible,................................,......
Outp .. ut Wlre Type/Connect
., .or
Double Insulated; MC4 Compatible
Output W I re Length ..... ......... ....,.
0.95/3.0 ....... . .............1. , ....... 1 2 / 3.9
m / ft
Operating Temperature Range
: 40 - +85 / -40 - +185
C / `F
Protection Rating .........................
IP68/ NEMA6P ...
.......... ...'o ...... ..... .......... .....
.......-......
Relative Humidity
....................
--ilio...............
................. .......,,..,.........,.................,....................,...
...
M Rated STC power of the module. Module of up to +5% power tolerance allowed.
......
.
PV SYSTEM DESIGN USING SINGLE PHASE THREE PHASE 208V THREE PHASE 480V
A SOLAREDGE INVERTERIzi
Minimum String Length 8
(Power Optimizers)
Maximum String Length 25
(Power Optimizers
Maximum Power per String 5250
Parallel Strings of Different Lengths
or Orientations
.................... .......... .
hl It is not allowed to mix P405 with P300/P400/P600/P700 in one string.
solar-.. :.
i
SolarEdge Single Phase Inverters
For North America
SE3000A-US1 SE3800A-US / SE5000A-US / SE6000A-US
SE7600A-US / SE10000A-US / SE11400A-US
USA GERMANY -ITALY -FRANCE -JAPAN -CHINA -AUSTRALIA -THE NETHERLANDS -ISRAEL w , oki reclig �,,. u *
060"0' m", 111,
0.
and easy til insult On pwol 'dici bracket
- Boat in 0&I
vel monitoring
— Interne nne
n through Ethernet or Wireless
—4tdo' airI4 in
Out 0
or installation
— Fi�ed vo t g i
R rter, OVAC conversion only
— p 'bled, afety Switch for faster installation
— Option reve ue grade data, ANSI 012.1
USA GERMANY -ITALY -FRANCE -JAPAN -CHINA -AUSTRALIA -THE NETHERLANDS -ISRAEL w , oki reclig �,,. u *
solar=@@ Single Phase Inverters for North America
SE3000A-US SE3800A-US/SE5000A-USI/SE600CA-US
SE7600A-US ' SE10000A-US / SE11400A-US
SE3000A-US I SE380OA-US I SESOOOA-US I SE61MA-US I SE760OA-US 7fE100004-US SE11400A US
Nominal AC Power Output
.................
3000
.............
3800
5000 6000 I 7600
1000)80 @ 240V
9..,,.,C°@. i ..,......,..,.
11400 VA
i.......,.,
......................................
DC input conduit size / # of strings /
i 5400 @ 208V i
1C800 @ 208V
Max. AC Power Output
3300
�,.,
4150
6000 8350
5450,�,240V.1........
1(1950@240V..,....,....,.....1.,
� I
12000 I VA
AC Output Voltage Min. -Nom. -Max!'!
25x..2/775x315x184.`..
30.5 x 12.5 x 10.5 / in /
183 208 229 �c ...............
................�......,.....,..,.....✓
......
....... .......,..,... ............
✓.
1,....,.......�........,.,......'....,_
. .
AC Output Voltage Min: Nom.-Max..'i.
✓
✓
✓ ✓ j ✓
✓
✓
211- 240 - 264 Vac
I1
.......59.3
............
AC Frequency Min..Nom: Max.('I
..............................
1
............ ................ .....(..,........,..., ,....
59.3 - 60 60.5 (with HI country settin 5760 60.5)
..........
k Hz
Max Continuous Output Current
f
I 12.5 I
16
24 @ 208V f
32
I 48 @ 208V I
i I
f
41 5 A
........... .......... ...,......,.......
,......, .
21.E 240V 25
42 240V
GFDI Threshold1
A
Utility Monitoring, Islanding Protection,
Country Configurable Thresholds Yes
Yes
INPUT
—
Maximum DC Power (STC)
..........................
. 4050
5100
6750 j 8100 10250
l 13500
15350 --- W
Transformer -less, Ungrounded
.............
...,.,..... ......,.......
Yes
............................-...,..,.,............,.......,,.,
,.......,.....,
..........
Max. Input Voltage ....................
�. .
500 ..
......... ....,.......,....i.,.Vdc...
e ................
..............
......9.5. ..{.,....13,.,...
@ 208 0
350 @ 240V..,......�,........,......,
.....,....,....
.Vdc...
tl
Max. Input Currents
p
8/
@ I 23
33 @ 208V
345 ! Adc
....................................
.........
.16.5 240V5 ................x..30.5,
` "
Max. Input Short Circuit Current
45
Adc
Reverse Polarity Protection
I
Yes
Ground -Fault Isolation Detection
600kn Sensitivity
i
Maximum Inverter Efficiency
97.7
98:2
98;3 ! 98.3 98
98
%
............:...
1
..,..;....
97.5 @ 2D8V
'..,....98.
97 @ 208V
CEC Weighted Efficiency
97.5
98
97.5 1 97.5
98.E 240V..1...
i 97.51
97.5
...........................
Nighttime Power Consumption
....... ........I..........
,...i..
< 2.5
,240V..'........,....,...�,.........
< 4
W
ADDITIONAL FEATURES
Supported Communication Interfaces
RS485, RS232, Ethernet, ZigBee (optional)
I
Revenue Grade Data, ANSI C12.1
I
Optional("
.................
Rapid Shutdown — NEC 2014 690.12
.............. ..............
.................. ..........,,................... ....... ..
Functionality enabled when SolarEdge rapid shutdown kit is installed("I
..........., ........
STANDARD COMPLIANCE
Safety
UL1741, UL16998, UL1998, CSA 22.2
Grid Connection Standards
.s.i................................
.............. ..............
IEEE1547
............-„..........
,................ ......,,......,
j
Emissions
�
FCC Dart15 class B
1
INSTALLATION SPECIFICATIONS
AC output conduit size /AWG range
3/4” minimum / 16-6 AWG
3/4" minimum / 8-3 AWG j
......................................
DC input conduit size / # of strings /
...............
I
............................................................
3/4' minimum / 1-2 strings / 16-6 AWG
......... ....... ........
3/4" minimum/ 1-2 strings /
g
I..
..... ................ ............................................14:6
AWG ...
Dimensions with Safety Switch
25x..2/775x315x184.`..
30.5 x 12.5 x 10.5 / in /
...... ..........
......
775x.315 x,2N......... i.,-mn?,,.
Wei& ht with Safety Switch ...,..,.....1..,.......51:2./23:2
......... .................54.7/24:?...........,..................88.:4
40:1...........,i.
Ib./,kg .
Cooling
Natural
convection
Natural Convection and internal Fans (user replaceable)
fan (user
i. replaceable).. ,
Noise < 25. 1 � 50
....................................... ,.,..
Min. -Max. Operating Temperature
-13 to +140 J -25 to +60 (-40 to +60 version available1s1)
Range
Protection Rating � . NEMA 3R
n For other regional settings please contact SolarEdge support.
A higher current source may be used; the inverter will limit its input current to the values stated.
(r) Revenue grade inverter P/N: SEx omA-USOOONNR2 (for 760OW imerter:SE760OA-US002NNR2).
(°t Rapid shutdown kit P/N: SE1000-RSD-Sl.
tst -00 version P/N: SExxocA-US(=N NIM (for 7600W inverter.SE7600A-US002NNIM).
} dBA
DocuSign Envelope ID: A6510B18-A41C-49B2-9E98-2A3A46A9B63D
SMOKE / CARBON MONOXIDE ALARMS
OWNER CERTIFICATE OF COMPLIANCE
COMMUNITY DEVELOPMENT DEPARTMENT • BUILDING DMSION
10300 TORRE AVENUE • CUPERTINO, CA 95014-3265
(408) T"-3228 • FAX (405) 777-3333
FF11 LE
rL-
Addrm # of a,_alad..- m} i..!•.!t! 1/ o} s
F!F..RAIIT CANNOT BE FINALED AND COMPLETED UNTIL THIS CERTIFICATE
HAS BEEN SjGNKD AND RETURNED TO THE BUILDING DIVISION
PURPOSE
This affidavit is * self -certification for the installation of all required Smoke and Carbon Monoxide Alarms for
compliance with 2013 CRC Section 8314, 2013 CBC Sections 420.6 and 907.2.11.2 where no interior access for
irtspectiom are *quired.
GENERAL INFORMATION
Existing family and multi -fly dwellings shall be proved with eke Alarms and Carbon
Monoxide alae. When the valuation of additions, alterations, or repairs to existing dwelling units exceeds
$1000.00, CRC Soction 8314 and CDC Sections 907.2.11.5 and 420.6 require that Smoke Alarms and/or Carbon
Monoxide Alarrits be installed in tate following locations:
AREA
SMOKE ALARM
CO ALARM
Outsi4e of each separate sleeping area in the immediate vicinity of the
bed�m s
X
X
Orr every level of a dymllft unit hicludiffig basements
X
X
Within each room
X
Carbon Monoxide alarms are not required in dwellings which do not contain fuel -burning appliances and that
do not have an attached garage. Carlon monoxide alarms combined with smoke alarms shall comply with
CBC Section 4206 and shall be approved by the Office of the Stater Fire Marshal.
Power Supply: I>re dwelling units with no commercial power supply, alarm(s) may be solely battery operated.
In existing dwe*g units, alarms are permitted to be solely battery operated where repairs or alterations do
not result in the immoval of wall and ceiling finL*%es or there is no access by means of attic, basement or crawl
space. Refer to CRC Section R314 and CBC Sections 907.2.11.4 and 420.6.2. An electrW permit is required for
alarms which must be connected to the building wiring.
As owner of the above -referenced property, I hereby certify that the alarm(s) r+efereatced above hasAuve been
installed irL accordance with the manufacturer's instructions and in compliance with the California Building
and California Raidentiul Codes. The awes have been tested and are operatimal, as of the date signed
below.
I haw rruid ID 00 fila renege arer!9MftW Of this Ofta et
A"WS) Dmu84n.e by: 10/20/2015
JJA..,..
9o423370cB0041c_.
Smoke and COfiwm.dac PeWsed 03/18/14
3:42 P
DocuSign Envelope ID: A6510B18-A41C-49B2-9E98-2A3A46A9B63D
CUPERTINO
WATER -CONSERVING PLUMBING FIXTURES
OWNER CERTIFICATE OF COMPLIANCE
COMMUNITY DEVELOPMENT DEPARTMENT • W&DING OW SIGN
10300 TORRE AVENUE • CUPERTINO, CA 9W14-3235
(408) 7774728 • FAX (408) 777-3333
.., • ��K � a W -A -A" "-. . - - 0
FILE
OR
1. Is your real propety a registered historical site?
❑ Yes Civil Code Sections 1101.1 through 1101.8 do not apply, Skip the rest of the form and sign bottom of form.
❑ No Go to Question 2.
2. Does your teO property have a licensed pkna w certifft that, due to the age or configuration of the prop" or its
plurnbing, i mlallatioen of vat- vin pluimbing fixtures is not technically feasible?
O Yes Ci*il Code Sections 1101.1 through 1101.8 do not apply.
❑ ;The licensed plume er's =tfication Iran been provided to the Building Division.
Sk� the rest of dee form sad sign bottom of form.
Cl No Go to Question 3.
3. is water servi4c pairsanm ly disemnected for your budding?
O Yes Chit! Code Sections 1101.1 through 1101.8 do not apply. Skip the rest of the form and sign bottom of form.
❑ No Go 4o Question 4.
4. Is yew real prty buik and available for on or occupancy on or before January 1,19!4?
❑ No Mylreai property is bunk and available for use or occupancy aft January 1, 1994.
Crnl Code Sections 1101.1 through 1101.8 do riot apply. Skip the rest of dw form and sign bottom of form.
❑ Yes Mylraal property is built and availsb c for use or occupancy an or January 1. 1994.
Clv$ Code Sections 1101.1 trgh 1101.8 apply. Check one of the three following statements and sign
bo*m of form..
S. Plow check of the k&wkw
O My pntrpeet* is a s ftie-„ fy rvhWetat real property. See Civil Code Seem 1101.4.
On and atter January 1, 2014, building ahieratiom or imnpmvements shaft require all eon -compliant plumbing fixtures
to be mplaco with watmconnserving phmlj reg fixhm ftm*xw the buil. On or before January 1, 2017, all non.
compham olumbing fixoAu shall be replaced with water -conserving ping fixtures (regardless of wither
property ur+rgves alterations or iamrovtments).
❑ My propertXr is a mula)ramily re i*ntW real property. See Civil Code Section 1101.5.
On and a January 1, 2014, specified building alterations or W4voveme nts shall require non- compliant
plumbing fittures to be replaced with w3serr-cxnrrservit►g plumbing fixtures.
On or beta* January 1, 2019, all non-conViiant plumbing fixtures shall be replaced with water -
conserving plumbing fixtures throughout the building (regardless of w{hetberproperty undergoes alterations or
❑ My property is a commmkd real property. See Civil Code Section 1101.5.
On and oft January 1. 2014. spesdified building alterations or i nnprovements Ball require run- compliant
plumbing ftltures to be replaced with water -conserving pkw bkg fixtures.
On or befaft January 1, 2019, all nen-compliant plumbing fixtures scall be replaced with water- conserving
plumbing tirttuares throughout the building (regardless of whether property undergoes foes akeratices or improvements).
L as des come r ownar'a agast of this p opart oattitjr under penalty of perjury that non-compliant p fixtures will be
replaced prior op dale gwitlied above wAh wwier-c�ag plumbing lbttusu m acrdance with Civil Code Sections 1101.1
thao* 1101.8, ilea current California Plumbing Code and California Groan Builtl'rt Sts Ww& Code, and mm» dwturer's
inollatim reqWroments, said flat the war "osserwing plumbing fixtures comply with the requirements ea indicated in the
table on flee °°"i8"""� �'
130,
Owner or OYw iAq*Ws k": Dots:
Upon empieling aad OrAwg this CMOWNWreturn it to the Building Division in order to final your buiGMing permit.
50407 2015.dw m4sed M2015
PM PT
O�O
O,
GINEER*
ui
a _
W
�Z
Z
C3 lk13
b
FS
,aiW
f4
O
pp�
Z
O
�F
yzA
WN�7
Q
s1
�J
it
JQN
a
X
P3
Vl J
Y
bre
=51
31! *
O
LJ
aw
LL
0
W
N J
a W
C
m�aWZ
WF
Yl
F K W
>
Z
J
z o�o
Lj
P
y ,O r, I.-
r
LL
83 ce V) $ y
J
r1
�Jza" (L
_
J 1� -j
H
;coyco" M�
Q
F Y`1 O W 11 K J
rQ
W=l
C, I w S I F 10
Z
W
CL
Q
Z =
Q Z
� w
J z
of
a
r
2
N
H
"-
U
O
X J
Q
of
Q -
W
d
z�
ioa
r
ON„Jw
Q
K
l�
.Z+p ~
J S
OW
0 t
qW .
JWy
z
a'
W
W - JW
Z
O
O
4
DOC
ti
DO
WWOZ
Q 0
U�>Z
Q
J
®
4 Li
LLJ
r!
W
JN^
INNwcc
OC=IJ
W
Z
a
W
S
u
F
u u
f
l7
l7
pp gi
oWt
cc
YF
JZ Qz
2
0
W
NZ
(2
w
Q
of
yWZj
~. p
=2
14 y¢ 1494
_ L)oll
y
a F
L)
ZZ
�
G y
J
W
Q FIn
t
O
�
Z
ZZa>J
¢
O61
L
3�Y
Y iii
�W
FN
a
�'r
QNQ
aa
aSOaC
of
2
Lii
Q
G
as
ILLJ
o�
014
y2
ty'7Z
QZ
Zg�N
N1�(W,,)
< K
of
Z
J Jb
N
Q
y
H
a
14
4RfLl
z
Otu <
I.- = 0 u,
pg uj D
CL to M < UJ
p r
z :1. z
M L :5 Qw (D LLJ I
w
W
w 41 w
0 C; LW 0-
G0, �V'
uj
JLL, z
0
LL,
(1) 1 w
w
< T a: w <
a. c IL (L CL of 0 cr,
L I I
w F
F -
F -
z
z co W
> �Z- co �e
J 10 Q Z a) b
,Z, �Z= F- U Lu U ui
w z M:
-
> w IL
z <
W F-
I (L -
< 0
F- 0
U) F- (n w a
C) EL z w 0
E't < w x 0 i / (.)
U) w w 0 a_
Z Cn
w Lx < tr
LL Of
w 0
O
Z F
ow
-W z
Xw
w X to z
uj
z
m w cr
uo z z x u
0 w < WCL Fi
tr 0) 0
M W, W P =) C)
<. g E dz :3 55 (.) 0 0 CD M
z w LLI F- z
LU F F w PRZO 0 C) < CO 0)
W > �SZ 2 < 0, 0 <
I <
F- w ww U. M R 0 LL, z z Q
Z CL 601-- z z m 00 a. -02�www�-� LL
z w 0 z z ui 2 D� 0 R LL o < 0 5w
z 11 0
§� z z a.
LL, 0 w LL, o 8 w < < < C) W �2 CL (L uj
R w LU w (0
w z z 0 z P woz 0 z g z
O 6 0 T)
> Z L 0 2 w
z 0 w
Z w R 6
LLI w 0 w z 0 0 0 m
co 0) (n 0 0 < cl 0 U) (L
0 L) (D (L
zim < F-
< o
LU LL, �!M FO FQl FTI FT Il P- M R M
I Is 1 <
z
0 z
(1) <
w w oR
UQ ui
U ("),I z
LU
.0
CL
Z
'yoULU X
- w cr �Z-
NCLOJ2885 wlzw
=Mzm
t=869S-ZZ2 cw-�w
�: Lu 0 Q
>-�Q,SE98 6s=,
�—�z �3ww) t"t
M3:=,w- 'L
� — (i) Lu — 33
NBW
< (n m Z3
L, F
cn
O
z D UWj 0 Z Zo F- X
§8DP,-,<Z<O<Z C<" 0F .0
W2 >W RF -
0
w
w gm� 2, 02 F-
.u,-,w'T229w E19
OF-- zz LL6 z8w
Z 0 () Z 020
W(o
0 OWWWOD -i UMM
8 8 7
W 2L4w2w,.o,<mm<
F- F- 8nn= 208g
. L) 00W L)z
M�MMMOUWM4
IrILWU(Lam- Q�L<6-
... . . . . . . .
v0l
O "AN
F-�
LU
U E"
W
,
t
OFF
(01
U)
00 z
O 0 CLL)j —0 , R wl�l 11 -,,
F-
U, (L
A"
%
0 L4
LU
fA
2 (1) , W
w_j z 0 N""""",
ti Uf 7E
IL
O U'l V
LU
COO)
CL
<
w<
'o
< 0
NIN\14
bi
cn
ao
z
IL
<
ul
of
F
or
0*
0� E Z
!02`
. I
R
i 'o
Uj
Z Ld
-
F-
N N
ca
C3
<
z
if z � oL
U) Wo
Z) �? L)
a
w
2
En
§6
'tie,
CL
<
w<
CL z
Q
2
a m
W
w
fn W
Lij
U
IIyy��
W F d C D
�r
1 L
c
\\
w
°0
rn
❑ W V
,Lj
pz,
4
cc
� J
F
M
z
C7
�g�mppw n
W a tt�
GL
O
Z©
aCL
us
k- wN''�
vs o_ �Qpwcbw.,
wgW �o
c
�,
w
m o
ter, ,.r
�g�p
wows
�sw
�'
w z
W
a
-10-1 I�aUco Md-
_
t% � "*'
\
ext a`"
O ow
w°?
z §
h
�J
uXOzC� o
0W D QZ_O
��
T
vis
a
nzm�
J�U
�I
W
off,
v� x
W V1
a
of O
iW
W
Q
re N'5���
4J
U€
O
d
❑
❑
vJ:
w
d
W 6)
m
W
N V
(
w a�
�o
C, 14J
w
T G
O O
tl
L
Ll I
W
U'
L'iZ
w w
Op
Z
O
Z
O QCL
1L
N N
2
d
O O
LL
x (JJ
r r
°JZ
0 O
a
O O
w- O
H w
g
U
o
a
W
gW
a v
N
In
X XJ
N N
I�
o
U
m
m a
t)
❑
U~ W
U` W U'
gW =
p a
, O
g ,
N
u2
W
W
z
N
S
o
a a
p
o
Y
--
y~j
p
a
J G
J
W
m
Ir
....
z
W
LL
0
W 4
N
TT
�
W
>O >O
N
yd
f-
O
-._...
_. I
N
W
IL D
OO
O O
r
O
cr a
a a
Z
U)Oa
0i
LU <LL
x
c�
O O
�:
cu -
y( o
W W
O
O
C4 (7
z z
U)
m
..........
❑ D
z z
WWZD
W w
a a
z
o
aCL
Xao
a
J J
N.
3 g
2
f
W W
4
11
w
a
C7
z_ z
Z
bo
�-
z
0
,-
W
O
__
a- O
a a
w
w
Of
O O
y
N
C M
NN N
N
F N ®
F-N
N
0 o
Q 4
0 a Q
w
O a 4
M
z
D
Of
Z
Lu
2LU
09ME
z Ui Lu Z¢
P: Y LL 2 J
< 0 U) LZLI
to w z
x C> w <
Lu — m !�� w D
-
x
U,
OZ
m
z
OF
ui
i -
I �
Z z
D2
CLU
in C §
<
U) 0
F-
LLJ
00
ui LLJ
Lu,-- 0 z
Lu 0
2 L) M It
oo 9
LL
Iz 0
Go
z O uj
AM
w
w
>
Lu
LU
z
c
w .
<
a � a',
0-
li
U
0
Zw C)
2. -W
Cf
v
0
>0
w z Q CO �
It
CL
agoomo
C)
10
C; 5o
cl�z 7:
w0 Lj 10
Lu
<
<w6w
im
m
G-
z z
Lu
W
<
0
LQ--
Ll
Q�
co
0
<
9
z w 0
(n >
Fn
0
W,
w
w
(D
Cf)
0
w
0
IL
C)U
a
LL)
3:
�2
t��
of
z
En
>
LU
=9 ZZ
'W
I -1 0-01
.0
�W-
.w A ag,
0
0..
z
ziANtij2 Ci
O
WS w
wt11
S.0�yrc
,
w
aZ
a
z
w
z
w w MO
-z-
z
cr 0
w
LU
w
<
d OR
Lu
0ui
0
g,
U) 2 L. 0
;o
u0i o S
Z
LLJ
> _j
V` Lij
E
E
�Ozz
< KZZ
Kzoo
CL
Z Z
<
2 0
<
0
M:
(o Z
F <
>
1
M
z
D
Of
Z
Lu
2LU
09ME
z Ui Lu Z¢
P: Y LL 2 J
< 0 U) LZLI
to w z
x C> w <
Lu — m !�� w D
-
x
U,
OZ
m
z
OF
ui
i -
I �
Z z
D2
CLU
in C §
<
U) 0
F-
LLJ
00
ui LLJ
Lu,-- 0 z
Lu 0
2 L) M It
oo 9
LL
Iz 0
Go
z O uj
AM
w
w
>
Lu
Z
z
(D
LU
F z
U
0
>0
LU
agoomo
<
<w6w
CL
m
LWUO
0
0
0
U)
w
0
w
F
F-
0
F- w
w
F-
w
U)
U) 0
0
w
0
Z
<
Lij
Q
:j
Lu
u-,
CO
20L�
CL
z
C;
zUJ
1 z
F—
T LLJ
0
10
WX
Wz
Z C LU
LLI Cr
cry
;ivi
") z (z)
LLJ
<
() MIR
0
-F
Lij
Q
z
zUJ
1 z
F—
<
-F
_3 0
uj U-)
P-", fy-
u
mm
D u-
<
D
UJ
0 U')
F-4
u
ui
ZOz
U., I.-
0
< Z 2
0
U.10",
0
z E, ZV)
0
0 u
ui
U-)
V)
z
Z8
uj
w
0 <
F-4
0
U-
0
w
z
wm
w
(n
0
N
Cir
Uw
O
ra
oz
z<r
OZ Z
F- p0N
< > >
0
01
z
Bill
Z
0
10
jK Do
>
a �Z-,ZZ2
0 -0
-z
z
8
Z�
_5zz-
w-W.H�uf
w j 0-
's
K
MIA
0,_
-a
I
m�
OL
jq5O. >
11
2_2_
' F
OV
I §
z
ZO,
-
z 1.
0 I
0
0 na
I >,>X>x
4 �%
I
,<O
2 2 �j
< r
0
2
< Z
0
C.,
c
SZO
Z 0
t 0
D
w
We
zZ
w
0w 2
z
< 10qF
U'Z
'VJgz
z
z
0
Z
0
Z'
<z zo
z
z
0
Q
<
Z-
E 'z
wz OW
W-. S
0
6 9 0- < 0, Dz
no.
20
i'�:
0
0 m 2
0
UZ w <,,
no M
z
z
5 i
(mj z
==2 w
Z'
K.,
z �:O
O
Ln
!3 LT Ow 0,
MIS 4 is <�R
z
22-�
0)00
e),I.go
0<0� 0
z
•
z
z
UZw
H2Z-
2
U86'p— pS
UZ
O
z ai U
00
0
W w
LU
as
--
2
ui
OX0
0 1� 0
50
TT
.50
<—
w
C�
CL
z
Q
F-
LLJ
LLJ
<
LU
0 �
z -9
ClY
cS
W
�L:
w
LU
Cl,
0
F-
<
Z
ct -TT)
0
0
U.
0
ul
>
0
0
wcr
LU
eo
W-<
d
LL
CL
a.
<
Lu
uj
'D
O
0 Lu
F-
4
2
w
w
uj
>
a.
>
0-
CL
<
A t
z
Lu
m
<
a.
0 1
0
at::
z
ci
(n
w
(n
00
LU
w
> z
U)
�4
Uzi <Jai
U)
D
Z
z
0
9
w
1
0
w
0
0
M
�o w uj
w 0 w >
0 a-
z
ui
<
0
U)
0
w
(L
Qj
cl�
2
0
Z
0
w ul
w >
1
(r
0
0
0
0
<
-L L<)
I
CWL
M
CJO
0
0 F\
a.
w
�z Fw
w z
0
LLJ
yV w
W (,)
< V)
LU
z
Cc) zw
D w
w
LL
z
Z3 z 0 w
Z
w cr — W
< c
Of 0 w iL 2
1
U
z
0:
in
in
w 0
uj
LU
0. a-,
w
W
L <Z F-
0
w
I-
0
w
0
Z < n o
w WgLWO
w
0 , <a W<ww
L�- z
Z
W
w
w L)
w
o
2 w
w
�- w z
z
CY
W
2 w
2 ( OZ:
�), 0
< <
ozg�
cr 0 CE - oa
lw
ww
z z
<
z F -
S <
uj
0 L,
(0
Zw
En
w <
OW
<
Z
a-
6
cr L
Z 0
w 0
Wwo 0
0
co
�z
W
w
(n
>
U) IL
w
(n 0
-W
> F 0
KKO <
0
0
0
C-)
M:
(D
IL
<
H
L_uj
F9 FQ-
I FIN 0
11 R I
F-41
R LIF]
02-a-,
MOS-Og"'
< < 0 �Z�<MIzng.
w
g"", .
I >
a- a- a.
>
uj
<
<
2
N
U
0
(n
0
z
Z
D
w
C
url <
0
N
to
z
W
i6B Cg
w
Lod T, 8
D
0 O
0
ca
0
w n
ug,
Of
0
W,
�mz
N 0- 0 -,:iOr�
wz
W.
w
it
:8
0
Z w
12L
OU
w o
C
5
-DO
ID: O,=" W -W
0
w<
W50
'L 5
0
I- wIll -,, �8- S--,
�T-
Ezi -Z �
wo 5=
LL,
- I —
C,
—
?:,O—ww-Z<("<z
:ca
ui
U'2COD ,Om<
w W>1-
UM<) om =w:
Up w
a'
0
0
'S
H.�2HM'o
"."..W,020z-
:0) L4
z --3
..g
Z
(L
U) K z
L) 0 Z
V) 000�-,Qmw
J 0
00 W
0 0 0
<
0 x I
w
U>UR o2w2Rroa-m
L) -: u U) a-
LL RO 0 JF -
,8,SDWRI
0 <
Z
ui
0
�c =:w OOOWOZOW2.
<
UYZ<61
(�
0-�Xwo>gou
WEL02K
. . . . . .
. . . .
� Jt!
,�
0
0
AU
ao
w
in
L. 5
IL
00
w
Y,
<
L)
w
O w
w
W.
0
0 WE
no
In
z
LW)
LL
aj
2
W
Lu
WD
U) zo
0
0,� x z
(n Q w
0
co 02
Q�
o Loll
w
(A
>
CL
W
D
F-
L
19
of SO 4
w <
0
Z
w
Z
LU
w
0 (D - -, ,
<
x
NW
ov
w z
c-5)
:D 0
<
X z Z =
�- 2
(i (o
w
M=W�wow
O z WC)
z
L,
w
,
U) z w 0 N
cn x
LU
m
w LU
>
CD
19
of SO 4
w <
0
Z
w
Z
LU
z
UJ
W
LU
a ¢ m
(W)
F-0
w
Z
'o w O z
W CL (D
W
0 f)
65 0 w <
LU Z C)
Wco
yO
cli
>
z
60
Of 6 LU U)
52
5
c
-
2 �
0
a.
A LU
ci
ull
af
WOWK
w
Lu
0. m
DOWN U) CL
M Lu
z w
LL,
<
0
z IL
0 v
(1) M
w
W,
Lu
> (D
0❑ z
C.)
m
Lij tn
w <1L
zwo
IL
0
C,
isms
z
< b
w V El
0
< <Z
Er
zo �D
2
Ll I I
W
CD
Lzlj
oz
w w
0
0
z
I z m
0
CL
C/)
Tsw
Z
LL <
LL
n
to
z
R 0
<
Z I
0 0
w
W
Mw
M Lu
< N x x
ul
-
0 ,
P:
CL
<
0W
w
w @
W
Z d
W
0.
K o
CL
0
W
<
W CL
CL
cr
�:
iv
w
ie t 10)
LLJ LLI
W F--
0
m
<
Z
z
LL
mT+
w
W:5 0 0
mw 0 0
N
CL
4F1
TT
<w
W
OD2 2
0 0 , �: �:
4—�—
cr CL < -C
U) ZZ
m
LU <
CL
u)
< t~i() <
WOZ
2:
0 0
U)
w w
0
0 z
z z
W j,
(L IL
w w
Z w w
W (D Z
O� z <
w (n
Q 0 0
< 0 0
�
w w
m m
U) U)
W w
7
w 0 0
CL
Z
U) U)
a- IL
uiw0
0
Of 0 0
03
I?
N Q
m9
N
M
<
a CL <
<
is
w
U
� � o
LLI
W awl
W
U) MD-
qx
>a
N
bz Z
0)
oc 0
Z
W
U
S m �n C)
c o
� O `v w ��
Um
O
U
W Co
C/) o
LL
C]
U
0
W_
LU
W
w
N
a z g
� a
N OLLI
U ssa' u)LLJ
W
a (D W
LJ tnN a
= it w
00 w
032�o Le
Ij ujd in qJo
NwZ,0V a
o���
M:+ I
a
� N
(n <
w_ O
C}
Om
J �
Z
Ly
W
Iof
W
W j Z
0
Q N_
wo'S
�o
0MO
Owe
(n (n M
M
d
x
Ow
I z
Z O
Oh
v�
z z
Z)2
U
U-
0
U q
0-6
O U
ww
Z
Z
00
q U
CO
O0
O m N j
tC�4o
N M N
LLI
U O N
LLJ LUz
wpu~i0
momw
O 0 0
(nN VO
LL
O
FZ0 W
l�
-'' T 1 T
F
J Ur J Q
O
QJ
LL
Q W X
aw LL
W ~ w w
dYOmm
tL Z
N m 0 m `Z"
c
z
> Q q
O
N C M
u
W
F
z�
LU
z
z
O �
w
U
2 w
mac'
r
Z WE
2
M
Z
F2YLL
F'Q,
wgq o
(XXAQz
W-m W
W d
d
x
Ow
I z
Z O
Oh
v�
z z
Z)2
U
U-
0
U q
0-6
O U
ww
Z
Z
00
q U
CO
O0
O m N j
tC�4o
N M N
LLI
U O N
LLJ LUz
wpu~i0
momw
O 0 0
(nN VO
LL
O
FZ0 W
l�
-'' T 1 T
F
J Ur J Q
O
QJ
LL
Q W X
aw LL
W ~ w w
dYOmm
tL Z
N m 0 m `Z"
c
`ter
N >
N O
> Q q
O
N C M
u
W
F
z
z
5
w
U
r
Z WE
d
U
w
o
F U
o�
n°
cr
w
L
a
r
a
U
C,
m�
ung
U
w00 wZ �.
�x WIr
Fo
�N
W Z
Ir
W
U
2N
O cSn
H
Q�$
H h h
=�0V h
0O
w to
x..
(}q co (}q
z Z W
A E QAE O
[
z
y
L
0
z
Z
NrW
2 Ci
W
¢�
i�
U K
O
nNC
�F
�-.. t
Z"
w
0
F
J
O
0 w
Z Q
Ia
co Z
rq
J �
00
Za
Z w
W Y
a
Q
UJ
J O >
W
QUd
Zai
0U not
N O O
F w q
0 . .
Of N N
CL z0-
0
0 1 _
O U Z Z
z w
O m x x
r r
O 4 Q Q
o m m
N
z
x
J z
w W x
F Z Z
o O H
W z Z 0
Z
Q
O
N zN
W
S 'S
0
F a x x
O q
� 0 0
v N
> >
O O
J N w LU
w
LO Z oz0 0
W O
S U
U w w
rn - -
� v v
M M
O
z
0 7k N M
LL ZZ.
go, z
N'
f`� ✓I 8Zowz,.
j � 3o�mW
w 3
4a f ) Z �W2E.
ya o�
Eoozz
C zf'z z i:..
lzo oo
o«°Oo
f z.. .
W
r
V w CW7 WW
C7
Q F
U O > L r
r a
D
z z
a z'a xdd"
O 2
>y > > Q
V
F F
LU
a c9 W W
F ti J 4 KIf
aaIf
QN J; U
F-
< w >
S O W, U
U Z LLI,
uj
O U O; F
0 m z (L00
a
O
U w 2m
c Ir O �..," ro
0
�Y
OL
a Lij
W d
a a
H
Z
J
U
N
i
iz
Z
0
3
Y
z
a
az
K
W
H
`ter
N >
N O
> Q q
O
N C M
u
W
F
z
z
C
w
r
Z WE
'LLD,
LU
U
O
F U
W
Z Z
U
C,
U
¢ ¢ r
w W
w w 0
U
w 00
O cSn
H
F H
H h h
N
rl) o>]
(}q co (}q
1
0
mprc
5�d
512 ? o
N
Nz
w�
Or
w
UZ
za
w�
�O
3m
QU.{A
Km
NQ
ewe
8O:
OF�
0
wOU
O�w
Qju,a
w
O rr¢ X
ZJ2
JQO
¢NV
0m5
www
QUNm
r�WO
OZQ�
JyUQ
u N
y
p
w
UOr
=wa UZ
Z
O
w
Ix
oVZwrcO0'
Z
z
�Q
p`8E='
o
am?�wo ~mzwSN
¢a O
c.
a
ul v
V/
.
0yacii
wWi5
v
Z
Z
w
�
<
z
Q V0.
aw❑Nc7ma
z
O
z
zy
ix (V
❑ �-
p
rc
°
c0
UO W Q B'''UJ Q
Z a U a
wKa�
OJ
0.
�OJm
S�Ioz
Q�zz
F0 �Np
l0
r
c
aoWV
i
u.
moi'
R
�g�Z zm U
S�waG
a
Soot
d
a v
0* �
2awx �. z z
w
HmLL�Q
¢i
m
Uqq
c~i
O Z
r-z,�a W� ->
w€
4
w
UO
�'
0 f"
T O a W co
J U
O
SLL
W
Q
G7 O
p
Cal 3
U a 0
O
tn
a
N
Nz
w�
Or
w
UZ
za
w�
�O
3m
QU.{A
Km
NQ
ewe
8O:
OF�
0
wOU
O�w
Qju,a
w
O rr¢ X
ZJ2
JQO
¢NV
0m5
www
QUNm
r�WO
OZQ�
JyUQ
u N
y
p
w
UOr
=wa UZ
Z
O
w
Ix
oVZwrcO0'
Z
z
�Q
p`8E='
o
am?�wo ~mzwSN
¢a O
mmFrcU
pw�ZOw�
gxSrV m
V/
.
0yacii
wWi5
v
Z
Z
w
~
(n
V
W
H
Q V0.
aw❑Nc7ma
z
O
z
zy
S?
p
2WWw
wKa�
OJ
0.
�OJm
S�Ioz
Q�zz
F0 �Np
FZUz
OOOU_go3�*
JNV
Oa
aoWV
WEU
S�waG
a
Soot
—
HmLL�Q
UJ
UO
H
O
UO
�
M
Lu
�ODH�
CC00u
}
J
J
J
H
>
L
d
I..
CL
N
Nz
w�
Or
w
UZ
za
w�
�O
3m
QU.{A
Km
NQ
ewe
8O:
OF�
0
wOU
O�w
Qju,a
w
O rr¢ X
ZJ2
JQO
¢NV
0m5
www
QUNm
r�WO
OZQ�
JyUQ
I
oz
w o
y n
p
w
UOr
=wa UZ
Z
O
w
Ix
oVZwrcO0'
Z
z
�Q
p`8E='
o
am?�wo ~mzwSN
¢a O
mmFrcU
pw�ZOw�
gxSrV m
.
0yacii
wWi5
w
o�
'
LLm��
zr<oxzW
OWQN�OWrV
Q V0.
aw❑Nc7ma
WwUs
d�rOQwpS..
zy
S?
0
2WWw
wKa�
OJ
0.
�OJm
S�Ioz
Q�zz
F0 �Np
FZUz
OOOU_go3�*
JNV
Oa
WEU
S�waG
a
Soot
I
O
oz
w o
y n
UOr
=wa UZ
Z
O
k 5z
Z
z
o
am?�wo ~mzwSN
¢a O
Q2wz('JZ
Q �O
U
�
pw�ZOw�
gxSrV m
K 4Qr�pON�go
wo
�oa5-O��m
�cw��wZwo
o�
z^
zr<oxzW
OWQN�OWrV
a�rNNrNm
Omo
WU
w
rrU
d�rOQwpS..
0
-NNW
OJ OpOSQKFz�NO
8
QZW
S°a
pouoo
S�Ioz
W
Ioa
O
O
Z
O
a pw
Q N Z N
Z
z
Q2wz('JZ
Q �O
U
�
?
YCxwN
W. 0.
v
z^
�UmO� Q�w
y�0
zn
0
-NNW
d_2
QZW
o:
pouoo
Ui
w
~J
gZU
oo-,
y0
JNV
Oa
+=
UJ
WEU
Sia
S«
El
O
z
0
J
W
Q
g
0
V
z
O
QWw
z z LU
W o z
U U
qOz
W Y
W�
Um
N
ON ? • x0
Z m n
O ONSTR W
Oz 0 r.
O U F: wo
xwn' 6w
O w
JOU 50
Sza S�a
yn
zo�mz
zow wwz^
pNrg=
1LL
g20v�
Z
Z I --
I z
LLJ > Lu (1) <
>
W - C) IS:
, 0 0 uj uli)l
D z > LU
F K9
0 Z
0 LU LU EL -
Lu > LU
z CO w C)
Z
LU
U,
Z °J Lu <- D
LL,
0 L) U- CL 2
0
Z L
o CL LU Z LU
'u, L
ujz D w
< W
3, Z, W,
ELi L �—< w
W c
L LL,
cr
—,z �0- RD I ch
L., 8WN
LU 6) �—'m 0
LLI co w z z
F- 0 �--
> z< Ei
LLJ Fr wz W -
a. I , <
z F- CL F- IW ZW m ) 2' Om OW LU 2 L, C
z w w W Lu 0 z F- Cr
0 Q o ir R 10 Z�,.� 510.
uj LU LLJ❑ ui ��- w 0 z LU
ui z z 0 uj m < <<< u5w��KSM z 0 aCL C�
Z > ji
2 < D < �U-j zz - z z
> K 0 co �:
0 fr L) cr 0 <
z Ir Cb z 0 W Lu 0 E5 7 LU 0
LU LU < D > D LU > �- LI) 0 0 �- =
U) CL U) 0 990 < C.) i� (o
< U) W
LU < 00— lg�mm Q� m 0. F- >3 Eli i <
-u, F -D FW FT [l FRO F -M 71 ' ' 7 Z—zo
V)
LLI
0
z
LU
z
LU
0
1) 0 z
Z U) <
Z) LU
z <
cq
0 LO I? F--
(1)8
R8 LU Z
RIO
Ula-''....
U)
co zo S ❑
lz
< a- 0L5 w
.
Tmz
,5 3L-: 0. S. Z. ❑gipp
Lu z
UP
a' Z) W�- L�� co �W- OLL, 0 5
Fj) WN
fy X
P
SW w 5
3:=, wwal,-
F-- <
L) l< < < z
CL < L'L, 0 P 'o <
m t ! L�L-1 V -j Z> I-- a) ') L-3 po V, o
8z 'HT12.12PO -J,w
0 D
uj
(0 ;z z 6 6 z 68"
10 < 11 UM
<�0500,�U.w
0 wwoo—
WZ 82gwwwo::,—OQam
< cr OM<
Ld D cr R, <
0 000 z
0 x w ,
� mo> 0 0 cl
a. CL
< U LL, (D m 9 <
. . . . . . . . . .
I
❑
LU
0
O x
(n
E 5
12 0
<
OLU
I
0
0 LU
5
ILI
E
�,5
(,) Z
�- 0
z
w
LU
C/)
<
D
0
cai
wLLJ
<
zN
m.0
E5
Jn
>
6i
ULU
'n
W
L uiti
0
0
LU
uj
z
r
1
w
u
0
Fo 0 Lu
L L, z �- 6
w
m
X
cr-
0
LU
'0
E U)
LU 0 LL,
;F
ZZ
z
it
F- uj
0
I?
>
It
6 9
= Lu
Ozow
F- Z v CL
(05- M =)
0
I C9
I x
N
ow
z
V5 T
Lu
i --
Lu
w
w
(D
a.
CL
CL
z
(,R
LU U)
m
LU
Z
Z I --
I z
LLJ > Lu (1) <
>
W - C) IS:
, 0 0 uj uli)l
D z > LU
F K9
0 Z
0 LU LU EL -
Lu > LU
z CO w C)
Z
LU
U,
Z °J Lu <- D
LL,
0 L) U- CL 2
0
Z L
o CL LU Z LU
'u, L
ujz D w
< W
3, Z, W,
ELi L �—< w
W c
L LL,
cr
—,z �0- RD I ch
L., 8WN
LU 6) �—'m 0
LLI co w z z
F- 0 �--
> z< Ei
LLJ Fr wz W -
a. I , <
z F- CL F- IW ZW m ) 2' Om OW LU 2 L, C
z w w W Lu 0 z F- Cr
0 Q o ir R 10 Z�,.� 510.
uj LU LLJ❑ ui ��- w 0 z LU
ui z z 0 uj m < <<< u5w��KSM z 0 aCL C�
Z > ji
2 < D < �U-j zz - z z
> K 0 co �:
0 fr L) cr 0 <
z Ir Cb z 0 W Lu 0 E5 7 LU 0
LU LU < D > D LU > �- LI) 0 0 �- =
U) CL U) 0 990 < C.) i� (o
< U) W
LU < 00— lg�mm Q� m 0. F- >3 Eli i <
-u, F -D FW FT [l FRO F -M 71 ' ' 7 Z—zo
V)
LLI
0
z
LU
z
LU
0
1) 0 z
Z U) <
Z) LU
z <
cq
0 LO I? F--
(1)8
R8 LU Z
RIO
Ula-''....
U)
co zo S ❑
lz
< a- 0L5 w
.
Tmz
,5 3L-: 0. S. Z. ❑gipp
Lu z
UP
a' Z) W�- L�� co �W- OLL, 0 5
Fj) WN
fy X
P
SW w 5
3:=, wwal,-
F-- <
L) l< < < z
CL < L'L, 0 P 'o <
m t ! L�L-1 V -j Z> I-- a) ') L-3 po V, o
8z 'HT12.12PO -J,w
0 D
uj
(0 ;z z 6 6 z 68"
10 < 11 UM
<�0500,�U.w
0 wwoo—
WZ 82gwwwo::,—OQam
< cr OM<
Ld D cr R, <
0 000 z
0 x w ,
� mo> 0 0 cl
a. CL
< U LL, (D m 9 <
. . . . . . . . . .
0
O
❑
LU
0
O x
(n
E 5
12 0
<
OLU
-za
0
0 LU
5
ILI
E
�,5
z
cr-
<
N
U)
ul
Y z
U, 0 LLI
li—o
zN
m.0
E5
Jn
>
2 E
0
O
❑
LU
O x
(n
L)
<
OLU
0
0 LU
cid o (o
00
LU
z
0-
Op <
<
N
U)
ul
Y z
U, 0 LLI
li—o
z
>- 0
(n 9�0-
E5
Li
U)
>
C, a
<0
16m
\
Ull
<
a\
2 <
c
2
)\}(
LU
ED
&
>
zw
of
�2
T cn C5
0
G
w
ujow
z T
10
0�
w
w
z
N
*t
C 0 ED �6
<
�Lu
F-
Lli
}\\\
0V)
w
I
I co
<
Of
LU
m
to
>
Lij
x
a.
I
w w
w
w
z z
rl"
W
S 7
:r
-
CL CL
Lu
UJ
o
CL <
C)
LU
2
0 0
0
R,
U
W
W q IWL
F-
X
L)
av)
0
0 LU
Z
CL
0f
D)
of
D
Z
W 6i
z
m
< <
LU Z F- 0
<
m
't
CL
>-
>
L7
6i x
w
w
uj
N
Sa
ao
D 0
z M
<
CL
Fn
LU
LJ W
O�m
JO
a,
I
M
M: 0
9
w
0 F-
WCL
0 C?
L'i
Z z
L"
a
0
C, z U,
x
LD
F-
w
<
Lij
(D
0 0
z
0
7:
cr
w
Q�
M:
cr
Q)
a.
0
0
cn j
CD
Z
tr
LU
>
0
U) Z Z
m
QQQQ Z
U)
ED b
02
P
NN
W
0
0 ui
W z
� 0
ON
0
cc
0
Z_
0 0
<
U)
g
N
w
2
<
zo
Ux gZ
F -
w3;
2 UJ
N
0 0
x
6
Z
c? 8
U)
x x x
N " N
g E 0-
6 z
x
bo
C L 0 0
ir Cl,
1 co
w
LL
crcc w
M o
N
W
Kw 2
0
'Z
w
I w Wa
(3
�O
m
2
<
< < <
Of T w
F
m -N
O
z
x
LL
0
0�
w
2
0 0
LU
0 0
Eo
2
w
m
O� D
0 0
IIF-
X CL
4 < <
Z<
LL
W
F-
>- >-
<
(D
0 0
v
w
F- F-
(1) (1)
x -;;r b
N A
=
W w w
0
z z
+r+
N
N
TT
0 0
z z z
w w
L z
Li
2
w w ui
w w w
U) U) (n
F-
0 0
0 0 LL
4- 4—
F-
ui LIJ
U) U) s
I
w w
w
w
z z
rl"
S 7
:r
-
CL CL
Lu
(02) Z) Z<
0
(r
2
0 0
0
R,
U
W
W q IWL
< CL
X 0
It
< <
0
CL
1-
N
W
z
r W
Ir
ayi d of
3:o J O U U
U > - F
> a
ul N d CL d -
z ? ? O
O 2 2
> > Q
N OM M 01
y
U_ F
~W W
N W
O
U O U
aw> O :r
= a w tr
U
J O U O F
VJ Z CL a
U W X 'O
2 � CL
O 2 17n:
W
'S >
> >,
0
K
0
N
W
a
w
fn
�
QQQ
SY
--
a z
�
w
�
F
G
N_
rn
�v �w
a
O
w O m
O O
LLJ
m
W
U a O
av>S'W O
w
a J 'n N
2
aIL
=W S`-
U
U1=
Z O
w
m
J ^
0oNa-
o
a
Q J
q
W W
u�"ym
g
O Z N CL 7' N
uU, calm
go
W
o a
Q
W
W
U g
U
jT �? U xO
U J U
W S
W
W
}
U
O
CL
(]
E +
N
a
CL
a
a
U
Q
X�
Z
OW
mz
� LL
W
zo
rY N6 OU
0 H
m00
w Za n
Z C.
of
U
as
zz
rcwO oa o
az y�
w
W Of
50
0
0
sN Wo'
Z
Z W W
( J
¢
w'SW
Ud
r >
0-6
W
�a
w > z
❑ ~
V
(
�w
z
1<1 ZZ
ara
�S
o0
W
M
g og
�� » a
a
U
W
` [
W
O
m
}
mad}
Z
Z\��
O Q
0
= N 0
°z..
U)
? [11Q
pOm N
Y CO
0 0
z
cc Z
ww
a
z 0
�a/��5�1
�Qgu.
w
ZW
N N N
w
U
o OzaQ
M
Oz 1-0
x
a ?<YUW.
?a
S�J
W
in
rC woualn
W
Moz
W Oa
z O
4 LxS.Vmw
zod W
¢_
<Lu
uai=aa
ff((
C�
>Y pQm
au�omz
a}
N
O
m O m
}
yy cn
J
Z)
1-
N
W
z
r W
Ir
ayi d of
3:o J O U U
U > - F
> a
ul N d CL d -
z ? ? O
O 2 2
> > Q
N OM M 01
y
U_ F
~W W
N W
O
U O U
aw> O :r
= a w tr
U
J O U O F
VJ Z CL a
U W X 'O
2 � CL
O 2 17n:
W
'S >
> >,
4 Q
K
0
N
W
QQQ
SY
Z
z
aw
z
G
N_
rn
\\\ d R
w O m
O O
LLJ
m
W
a
(1JO,U
aIL
v
U1=
Z O
w
m
J ^
au nz zx',
m O W F �' h 0:
W z
a
Q J
q
W W
u�"ym
g
O Z N CL 7' N
C'_J §
lLL
W
o a
Q
W
W
U g
U
jT �? U xO
U J U
W S
W
W
}
U
CL
(]
N
N
a
CL
U
Z
Sm �O Zy�j
a0a
� LL
W
rY N6 OU
m00
w Za n
Z C.
iN
as
rcwO oa o
az y�
sN Wo'
Z
¢
O
o00
W
�a
(�
z
Ogmw�..
3,�
V
16gog3
ara
00
W
g og
�� » a
a
` [
a
w 6,00
Z
Z\��
ff
°z..
U)
1-
N
W
z
r W
Ir
ayi d of
3:o J O U U
U > - F
> a
ul N d CL d -
z ? ? O
O 2 2
> > Q
N OM M 01
y
U_ F
~W W
N W
O
U O U
aw> O :r
= a w tr
U
J O U O F
VJ Z CL a
U W X 'O
2 � CL
O 2 17n:
W
'S >
> >,
4 Q
K
W
W
Z
z
aw
z
G
W W
O
N
U
OJ
q
W
W
U
v
U1=
Z O
w
Z
t=
U
Q J
q
W W
W Q
W
O
v
o
o a
0
W
W
J
W
W
W
W d
?
N
N
w N
s
0
z
z
1
0
2
1; z N
oi� H
'M
z
z
00 -,g
—Z
W zo
--
>
-1
- ,
.0
0
0
z
�mz
rc
0�
ig
=
'n
WW
�c�ffi
i
OzH
z
ui
z
z
Z. 0'
HHU.
z1--1
luz) '10
<
ui
Q
z N.
-
W zo
--
>
-1
- ,
Isom
V)
ui
•
HHU.
z1--1
LU
<
WE
Q
z N.
-
L?
(D=MZ
Lu z C)
It !S < o
2
Z) 0
z
(L
<
zm
0 �2
Q s
a
z-
>
CL
CE, - I I ,
, >
z
0
<
0„ 0„
z--1.1
.,
>, M -m
> >
:��
2.
w.
-of Ol ZZ zw.:,
(i
3-
z
( D
V5 I
<x
Ld
<
Lu
-j
< W
C) E
Z) ��- o
()
a
I m
0
Z5
0
:,�l
V)
LU
X
<
Q-
W zo
--
>
-1
- ,
Isom
V)
ui
•
HHU.
z1--1
LU
Z
z N.
-
(D=MZ
z
S2
Z.
zm
0 �2
Q s
a
z-
10
1wN
0YUM
CE, - I I ,
, >
z
0
<
0„ 0„
z--1.1
.,
>, M -m
> >
:��
2.
w.
-F
z
Z.
z 10
GO
-j
0re
u)
0
10.
.0.
!RT5=o=$�Oaz
ULu
z
58a
Z)
U-
w U')
Do
00
V. E.:
Z) <
U0 ".2 0.
e.) IP
OXM
0
nziz 420
izz
z
xnz
0-
I lz
UNO
� R
I
i z
wz R11-
I
O,w
a
Zz.
I
0-
Ur) LuQ
LU M -CzU
0
-11i
C, 12
<
110
CL
D
7F1
Z
I .
woohum
Z
z zz mu,
6
U-)
U, 0, z
Qz Sp
w
-Z
IW ry
o
o
0
Lu
Z Y
L)
LLJ
z
LU
uj
?>>
J
<
0 Q
a
w
LU
z
o
x
wLL
cn
W0
LLJ
W zo
--
>
-1
- ,
Isom
z
ui
•
HHU.
Z
z N.
-
z
2n
Z.
zm
0 �2
Q s
a
z-
10
1wN
0YUM
CE, - I I ,
, >
z
.9
0„ 0„
z--1.1
.,
>, M -m
> >
:��
2.
w.
F.z
z
Z.
z 10
GO
C, lw
P CL i- C.
0
0 0
0
10.
.0.
!RT5=o=$�Oaz
z
58a
0
Do
00
V. E.:
E
U0 ".2 0.
e.) IP
OXM
nziz 420
izz
z
xnz
0-
I lz
UNO
� R
I
i z
wz R11-
I
O,w
a
Zz.
I
LU M -CzU
0
C, 12
¢a >
W
w in,
XT
I .
woohum
Z