Plans • .. • • • • • • •
• • • • • •
• • • • • • • •
• • • • • • • • • • • •
••• • • • • •
• .. . RE
• •• MAR 2 3 2012
.... .... •
.• ..
PROJECT INFORMATION • • • • • •. ••• • ' '•
- - ._ . -- .- --- - -...- - . - -- .....
--- ..._.._....._....... --- - - - - -- -- . . - .. _ .. • • ... _. - CITY OF TIGARD
OWNER JOHN SKYBERG CONTRACTOR ADVANCED ENERGYSE_PVICES BUII.DING VF ISION
9285 SW JULIA PLACE ' SE 82ND DRIVE
TIGARD, OR 97224 CLACKAMAS DR 97215 ••• • ••• • • •• ••
MAIN: 503-635-0117 • • •
CONTACT: JORDAN WEISMAN • • • • •
BUILDING SI =AMILY RESIDENTIAL PHONE: 503-407-8920 •
DATA
REVIEWE
ROOF SPECS ASPHALT COMPOSITE SHINGLE ROOF (SINGLE LAYER) CODE COMP LIAN C E
W: 2X4 TRUSSES DOUGLAS AR #2 24' C.C.
APPLICABLE 2u'G OREGON SOLAR INSTAL A "101 'ILT: 21 �ECREES
CODES SPECIALTY CODE AZIMJTL '40 P.230 DEGREES
POO: AREA ;PLAN VIEW). 2.925 S=
to
___..... - \
P ?RAC' AREA = 223 SF ARRAY IS c 28% OF ROOF ARe4 r t ATTACHMENTS SHALL BE SPACED NO
SYS "EM SOL APWORLC 255W GREATER THAN 24 INCHES ON CENTER
'2 X 255W m 3.06kW MODULE SCLARAORLD SL'NMODULE 255W IN ANY DIRECTION WHERE ARRAY IS
(1 ROW OF 5. 1 ROW OF 4, 1 ROW OF 3 MODULES: SPECS LOCATED WITHIN 3 FEET OF A ROOF
ENPHASE M215 INVERTERS 1 PER EACH MODULE (L; 6E' X (W) 39.5' X (H; 1 ,34' WEIGHT: 4 6.7' LBS • . • EDGE, HIP, EAVE OR RIDGE.
COMBINE: WEIGkT CF MODULES AND RACKING IS c • - \ OSISC 305.4.3 (0)
5'SF i
4 ,
• • ti
PROJECT NOTES I . . Area of ork \ ...._
1, 303.2- PV SYSTEMS AND SUPPORTING STRUCTURE j• ... PV arra
COMPLY W'[Th REQUIREMENTS OF OSSC CHAPTER 6 OR 7• ROOF STRUCTURE i5 CONVENTIONAL LIGHT FRAMED I-
THE ORS: AS APPLICABLE. WOOD CONSTRUCTION WITH 2X4 TRUSSES AT 24" O.C. ♦
• MAX. EXEMPT =ROM ALLOWABLE SPAN REQUIREMENTS ♦./' •"
2. 303,3- ALL PV MODULES TO BE UL 1703 LISTED, IN TABLE 305.4,1. ��� O ♦
3. 303.5- PV SYSTEM SHALL HAVE A FIRE
8. 304.9.5- DISCONNECTS) BOXES COMBINER BOXES OR . :' :.
THAN S TH I E ROOF ASSEMBLY REQUIRED BY OSSC GREATER GUTTERS SHALL NOT BE PLACED 1N ANY REQUIRED �.; �,� ♦ Al.
PATHWAY OR CUTOUT, \
SECTION 1505.1. `- �: ♦ ��
9. ROOF MATERIAL 1S ASPHALT COMPOSITE SHINGLE. ♦ ..- ♦ /
4. 303,6- ALL COMPONENTS OF THE PV SYSTEM SHALL BE ♦ .. ,
RATED FOR THEIR USE. 10. PER 305.4 ITEM 3: TOTAL SYSTEM WEIGHT SHALL NOT ��! ♦ .
5. 303.4- 304.8- PV LAYOUT SHALL NOT RESTRICT EXCEED 4,5 PSF. PV MODULES F R RACKING HO IN ♦,� •
EGRESS, LIGHT, VENTILATION, OR ROOF DRAINAGE DIRECTLY ATTACHED TO ROOF FRAMING AS SHOWN WN [N �`
REQUIREMENTS. CONNECTION DETAIL r2. ATTACHMENT SPACING WILL
6. 304,9,1 GENERAL PATHWAY REQUIREMENTS- BE 48" O.C. MAX, AND WHEN ATTACHMENT LOCATED
EXCEPTION 1: ON STRUCTURES WITH A PV ARRAY WITHIN 3' OF ROOF EDGE, HIP, EAVE, RIDGE SHALL BE C-
O
AREA OF 1,000 SF OR LESS INSTALLED ON A ROOF 24" O.C. MAX, J p
11. MAX MODULE HEIGHT < 18" OFF ROOF SURFACE. �J
WITH A SLOPE THAT EXCEEDS 2:12 AND WITH AN 12. SECTION 304.7- MECHANICAL EQUIPMENT S�
INTERSECTING ADJACENT ROOF AND WHERE_ NO CLEARANCES: NOT APPLICABLE, THERE IS NO
SECTION IS LARGER THAN 150 FEET MEASURED IN MECHANICAL EQUIPMENT WITHIN OR ADJACENT TO
LENGTH OR WIDTH. AREA OF WORK.
EXCEPTION IA: WHERE PV ARRAY DOES NOT EXCEED
25% AS MEASURED IN PLAN VIEW OF TOTAL ROOF
AREA OF A STRUCTURE A MINIMJM OF '_2"
UNOBSTRUCTED PATHWAY SHALL BE MAINTAINED
ALONG EACH SIDE OF ANY HORIZONTAL RIDGE.
NORTH
-E1D SITE PLAN
- ADVANCED ENERGY SERVICES DATE: MARCH 21, 2012 'PROJECT is: SKYBERG Scale: t" a 30' -0"
1 4755 SE 82ND DRIVE G :s' 30' 60'
- CLACKAMAS, OR 97015 SKYEERG RESIDENCE
9385 SW JULIA PLA
503-635-0117 CITY OF TIGARD YY
TIGARD, OR 97224 DWG. 1 OF 3 Approved 90
CCB# 180882
Conditionally Approved
For only the work as described in:
PERMIT NO. rid 1101 t• O 00Vb
See Letter to: Follow ( )'
Attach )'
COPY Job Address:
4 131 1 15 . SW V L AL. .
OFFICE By: G L-es Date 3.3
L�
.. • •
• • • • • • • • • • • • • •
•
.... • . • • • • . • .. • • • •. • • • • • • • • • • • • • • • • • • • •
. .. • • • •
• • • • • • • • •• • •
2X4 TfU55E5 "' ATTACHMENTS SHALL BE SPACED NO
` 12\ GREATER THAN 24 INCHES ON CENTER
_CS._ _ «. • . • . • .. • .� IN ANY DIRECTION WHERE ARRAY IS
• /1 EXIST ING IOF RIpo f— SKYLIGHT ; • ; • • • • • ' • ' -• •-• •
LOCATED WITHIN 3 FEET OF A ROOF
I i i ; • • :•• • • • • • • •
EDGE. HIP, EAVE OR RIDGE.
,
�• � -I- •
• • • • • 06180 305.4.3 (B)
.._. ' .w ' ...,. ' .... ' _.,..__ I
- - -- J
v.
CONNECTION
L. _ , ._, —+---1.4------- T¢ ROOF I
�.._ i . .�._. T RUSSBS, TYP.
h I •� I I I \ 25" \ 42" \ 2" \ 12\ I
A TTACHMENT /,
F AILS, TYp a I
ff. 1 e 42" I
'P —
— -- "'1� —' - -- /
1I 0 T 4 I
LOCATION OF NOTE: MICROINVERTERS BENEATH 7 F I 5 i
TSRF PHOTO, TYP. EACH MODULE _ I
T
REFER TO DRAWING 3 - _ -_ -,_ t •
FOR ROOF SECTION, TYP. 4-
f .
I I ( I
- - -- 4- 4- -q- 1
Area of ---Jr j _�_. 1
Work I r
I
-___ 1 - 1 _
_ I I
\ 3 0 `
1 I
L - - -- I
fV
L. / ...j N
0 1. ENLARGED ROOF PLAN
Seale: 1 /4' . 1'•0'
• ADVANCED ENERGY SERVICES DATE: MARCH 21, 2012 IPROIECT It: SKYBERG
14755 SE 82ND DRIVE
CLACKAMAS, OR 97015 SKYBERG RESIDENCE
503-635-0117 9355 SW JULIA PLACE
- IGARD. OR 97224
CCB# 180882
DWG. 2 OF 3
.
•
, •. '
• •• •• •• • • • • •• • .
•
• • •• •• • • •
••• • • •• • • • • • • • •
- • • • • • •
•
• • ,•• • • • •
' • • • • • • • • •• • • .
• • • • • • • • • •
•
. • . • • • • •• .
• • • • • • •
• • Aloe •o •e• •••
SOLAR COLLECTOR ••• •S•'COLSE • •• ••
• MODULE (4.5 PSF, VAX.) • •DIMEIS :CA •
• • VA$Ii% •• •• • •
• • • ••
� .:,`��. �'E.' • �` 7_ ATTACHMENTS SHALL BE SPACED NO
1.1t fix; ...' ..e o' GREATER THAN 24 INCHES ON CENTER • •
' MODULE DIMENS:ON � I ti • % X4' " �� �' •r, , . IN ANY DIRECTION WHERE ARRAY IS
:o. MAX s1i,�� • ► - I ' LOCATED WITHIN 3 FEET OF A ROOF •
• ' ti .� . P • e EDGE, HIP, EAVE OR RIDGE.
SECTION A ` A
I �-�, 4,' x: . • * OSISC 306.4.3 (B)
SECTION A
�,, .
• n ' {4 i..rtie__'a�C0
,, R
CONNECT SOLAR MODULE TO �
•
RAILS WITH 1 CONNECTOR I ••••' 6t .. i 'VNk • P FOR FOR EACH 8, SQ FT. CE , •
_
LESS OF MODULE SURFACE 1 I' �{ OW ;
CORROSION RESISI74M I i • tiy •• I . • METAL RAIL ANCHOR \ ` • 'r�` Y �
RA
TO LNG ALTERNATE 8' M X O I ON ' I N 11 &. • •A � I •
FRAMING tB' MAX. ON \�t6 3
CENTER PER SECTION A-A
TYPICAL. PROVIDE A dS�•.�T..`.:�:YY!! -. I I I 3 yet.+- .
. . ■
NEW SOLAR MODULE MINIMUM OF 2 RAILS I I - I , 1.11.
PER MODULE
ARRAY AND ATTACHMENT I
SYSTEM TO EXISTING I I •
` 0O.• ROOF TRUSSES
r I ROOF FRAMING CEUrcy I
•
2. CONNECTION : . TI LECTOR •
Scale: NTS •
NOTE:
SYSTEM TO B_ INSTALLED PER
' - b,\lAi.4111. MANUFACTURER'S :NSTALLAT:ON MODULE
• ]NSTRUCTIONS
` .
MIN. 2 X 4 IONST OR TRUSS - \•' • . CONTINUOUS SUPPORT •
- EXISTING 2X4 CHORD 0 2' MAX. ON CENTER RAIL AND CONNECTION
TRUSS 24" O.C., TYF• \ POST BY RAIL
MANUFACTURER
.
1 2' X12' FLASHING AS REQUIRED TC SEAL ROOF iti/
1 1 • SECTIO INSTALLED DER MANUFACTURER'S ISSRUCT10N5 � '
Scale: NTS 5/16 HANGER BOLT
• QU:CKMCUNT PV COMPOSITION ROOF
MOUNT ALUMINUM BLOCKING AND L-FEET. .
•
' - 3. CONNECTION DETAIL
ADVANCED ENERGY SERVICES DATE: MARCH 21, 2012 !PROJECT #: SKYBERG Scale: NTS -
• 14755 SE 82ND DRIVE •
•
- - CLACKAMAS, OR 9701 5 • - SKYBERG RESIDENCE • -
503�635.O1 17 93E5 SW JUL, IA PLA -
IGARD, OR 97224 DWG. 3 OF 3
• CCB# 180882
•
A/6 rao !a - 0-c.519 5 y
q38-.5 s w Q7511'0, P/
City of Tigard RECEIVED
Building Division MAR 2 3 2012
13125 SW HaII Blvd, Tigard, OR 97223
Phone: 503.718.2439 Fax: 503.598.1960 CITY OF TIGARD
T I G A R D Inspection Line: 503.639.4175 BUILDING DIVISION
www.tigard - or.gov
2010 Oregon Solar Installation Specialty Code
Check List for Prescriptive Installation of Roof-Mounted
PhotoVoltaic Solar Panel System
Property Information
Installation Address: 9385 SW Julia Place
City: Tigard Zip: 97224
Owner's Name: Jon Skyberg Date: 3/23112
Contractor's Name: Willamette Crest Properties CCB #: 180882
Design Parameters of the Property /Structure
If "Yes ", does not
Is the installation qualify for the
Flood Hazard Y es
Located in a flood ❑ prescriptive path, follow
Area plain/flood way? ® N OSSC or ORSC for
design requirements.
Wind Exposure Is the wind exposure ® Yes If "Yes ", qualifies for
"C" or less? El No the prescriptive path.
Installations on detached Is the Ground Snow
single /two - family Load 70 psf or less?
dwelling/single /two- If "Yes ", qualifies for
family townhomes ® Yes the prescriptive path.
and/or their accessory
Ground structures. ❑ No
Snow Load Is the Ground Snow
Installations on all Load 50 psf or less?
If "Yes ", qualifies for
structures other than El Yes the prescriptive path.
above ❑
No
1
I:Bui ld ing/ Forms /Photo Voltaic- Checkl ist.doex
Is the construction
Type of material wood and doe ® Yes If "Yes ", qualifies for
the construction qualify
Construction ❑ No the prescriptive path.
as "conventional light
frame" construction?
Is the spacing 24 inches
or less?
Pre- engineered trusses. ® Yes If "Yes ", qualifies for
the prescriptive path.
❑ No
Roof framing
members Is the spacing 24 inches
or less?
Nominal lumber. ❑ If "Yes ", qualifies for
Yes the prescriptive path.
❑ No
Is the combined weight ® Yes
of the PV modules and If "Yes ", qualifies for
racking less than or ❑ No the prescriptive path.
Solar equal to 4.5 psf?
installation Is the solar installation
layout in accordance Yes If "Yes", qualifies for
with Section 305.4(3) of ❑ No the prescriptive path.
the 2010 Oregon Solar
Code?
❑ Metal
Single layer If roofing material is
Roofing Check the type of ❑ of wood one of the three types
material roofing material shingle /shake checked, qualifies for
Max. "two layers the prescriptive path.
/ of composition
shingle.
Is the roof mounted ® Yes
•
• Connections of solar assembly
the solar assembly connected to roof No If "Yes ", qualifies for
to the roof framing or blocking ❑ the prescriptive path.
directly?
• 2
I:Bui lding/ Forms /Photo Voltaic- Checkl ist.docx
❑ Yes . _
If "Yes ", qualifies for
Is the gauge 26 or less? ❑ No the prescriptive path.
115 lbs for 60 inch
spacing or less?
If "Yes ", qualifies for
❑ Yes the prescriptive path.
❑ No
Minimum Uplift rating
of Clamps? 75 lbs for 48 inches
spacing or less?
If "Yes ", qualifies for
❑ Yes the prescriptive path.
❑ No
Attachment of
roof mounted If the spacing falls
Spacing of clamps? Minimum 24 inches within 24 inches and 60
solar systems p g p
directly to inche Maximum 60 inches inches, qualifies for the
standing seam prescriptive path.
metal panels Width of roofing If the width of the panel
is less than 18 inches,
panels? • 18 inches or less qualifies for the
inches prescriptive path.
•
Minimum #10 at 24
inches o /c?
Size and spacing of If "Yes ", qualifies for
fastener? El Yes the prescriptive path.
❑ No
Is the roof decking of
WSP min. t /2" thickness, ❑ Yes
decking connected to If "Yes ", qualifies for .
framing members ❑ No the prescriptive path.
w /min. 8d nails @
• 6"/12" o /c?
Is the height less than or
• Maximum 18 inches equal to 18 inches?
Height of the from the top of the If "Yes ", qualifies for
solar modules module to the roof ® Yes the prescriptive path.
surface. ❑ No
3
11Building /Forms/PhotoVoltaic- Checkl ist.docx
Submittal Documents required for Prescriptive Installations
Show the location of the PV system in relation to buildings, structures,
property lines, and, as applicable, flood hazard areas.
Site Plan Details must be clear and easy to read.
Minimum size of the plan is 8.5 x 11 inches.
Attach a simple structural plan showing the roof framing (rafter size, type, and
spacing) and PV module system racking attachment.
System must be shown in sufficient detail and clarity to assess whether it
Structural Plan meets the prescriptive construction requirements as listed earlier above in the
matrix.
Minimum size of the plan is 8.5 x 11 inches.
PV Modules •
Manufacturer: SolarWorld
Model Number: SW 255 Mono
Listing Agency: UL1703
•
4
11Bu i Iding/ Forms /PhotoVoltaic- Checklist.docx
•
•
EQUIPMENT SCHEDULE / NOTES:
NEC PV LABELING REQUIREMENTS (1)PVARRAY, 12 SOLARWORLD 255W MODULES
(2) EACH PANEL CONNECTED TO ONE M215 ENPHASE MICRO
3.06 K PV SYSTEM AC DISCONNECECTS & INVERTER (690.54): INVERTER. 12 INVERTERS MAKE UP ONE BRANCH CIRCUIT.
(3) 6 AWG BARE COPPER EQUIPMENT GROUNDING CONDUCTOR
PV Array -12, 255 -Watt Solarworid PV Panels SOURCES: SOLAR SYSTEM AND UTI�TYGRID. TWO (4)30AACDscow /15A2 -Pol Breaker on roof
(5) UTILITY GRADE METER TO MEASURE PV OUTPUT
MAXIMUM AC VOLTAGE 240 Vac (6) GRID INTERCONNECTION BY 15A TWO POLE BREAKER
- - I - - .- MAXIMUM AC CURRENT 0.9 Aadinvoner (7) 150A MAIN SERVICE PANEL WITH 150A MAIN BREAKER Ell (8) GROUNDING ELECTRODE CONDUCTOR CONNECTED TO
EXISTING BUILDING GROUNDING ELECTRODE.
I .� AC CIRCUIT BREAKER (690.64) NOTES:
WARNING: CIRCUIT BREAKER IS ENERGIZED FROM
- THE SUM OF THE RATINGS OF BREAKERS FEEDING ANY PANEL
(2) TWO SOURCES - SOLAR SYSTEM AND UTILITY GRID. MUST NOT EXCEED 120% OF THE RATING OF THE PANEL BUS BARS
(NEC) 690.64)
MAIN SERVICE PANEL
( 11,.., 10 awg USE-2/RHW-2 AC POINT OF CONNECTION
/_ Sunlight Resistant Wire plus SOLAR ELECTRIC SYSTEM •
Ono # 6 AWG Bare Copper Equipment Ground AC OUTPUT CURRENT: 10.8A
NOMINAL AC VOLTAGE:240V AC Voltage Drop Calculation
1.Internal Voltage drop within cabling: 12 micro inverters=.41 %
WARNING 2. Voltage drop from branch circuit to dedicated OCPD:N /A
INVERTER OUTPUT CONNECTION 3. Voltage drop from OCPD to Main Service Panel
DO NOT RELOCATE THIS OVERCURRENT DEVICE %Vdrop= (0.9A'12)'(2 *40ft)
(4) 15A 2 -Pole AC Disco on Roof = (864'(.00124ohms/ft))/240V
THIS PANEL IS FED BY TWO SOURCES OF POWER = 0.0045'100
1- UTILITY 2 -PV INVERTER =0.45% AC Voltage Drop
Roof Top TOTAL AC VOLTAGE DROP: 0.41% +0.45 % =0.86%
Ground METER
Approximate distance from CUSTOMER OWNED SOLAR GENERATOR OUTPUT PROJECT: 9385 SW Julia Place
roof top array to Main Electric Panel is 40 feet. Tigard, OR 97224
3f4' EMT outdoors with 3.06 KW SOLAR PV SYSTEM
two # 10 awg
THWN- 2conductors #10awg, 150A Main Panel Solar Contractor
- THWN - Neutral, and #6 awg 3/4" EMT from AC Disco Meter Advanced Energy Services
Equipment GND conductor to Main Electric Panel. 120/240 Val
from array AC Disco to output meter Distance less than 10'. three -wire. single -phase
located next to main service panel.
-
/ PV O (7) -
Output
Meter 190A Mon
` 13maker TITLE:
_� Single Line Diagram, Grid Tied Solar PV System
Utility (8)
(6) DATE: 2/27/12 I DRAWN BY: Jordan Weisman
(( r \ -.1 PROJECT /Customer Name:
` . 1 5A Two Pole I G rounding Drawing #: 0001 John Skyberg Residence
Backfeed Breaker Electrode I REVISION HISTORY I DATE I NOTES
REVISION: 00 1 2/27/12
#6 bare copper I I I
I I I
.
A
I _
I I
t
o
� --.---- I i I
807 Q1IWI V
P_
•
SunmoduIe%TM
SW 255 mono / Version 2.0 and 2.5 Frame
World -class quality + ,°». e0 1)
Fully- automated production lines and seamless monitoring of the process 4 A • Qualified, IEC 61215
and material ensure the quality that the company sets as its benchmark for 3 L.....1, 'Safety tested, V
.i man, E IEC 6173o D V E
its sites worldwide. Periodic Inspection
• 005505
SolarWorld Plus - Sorting ISO 9001
Plus- Sorting guarantees highest system efficiency. SolarWorld only delivers C E El ISO 14001 e us
modules that have greater than or equal to the nameplate rated power. Certified Intenek
25 years linear performance guarantee and extension of product warranty
to 10 years
SolarWorld guarantees a maximum performance depression of 0.7% p.a. in C 13 US LISTED
the course of 25 years, a significant added value compared to the two -phase °'°m'°°d. ®°°""'"°'°' Made In USA
warranties common in the industry. In addition, SolarWorld is offering a
product warranty, which has been extended to 10 years.' JI
9n accordance with the applicable SolarWorld Limited Warranty at purchase. /I 1 Ji/fi
www.solarworld.com /warranty UU
SOLARWORLD
www.solarworld.com We turn sunlight into power.
•
■
Su ii rrio d uIe SW- 02- 5015U501 -2012 US
.
• SW 255 mono / Version 2.0 and 2.5 Frame
PERFORMANCE UNDER STANDARD TEST CONDITIONS (STC)' PERFORMANCE AT 800 W /m NOCT, AM 1.5
SW 255 SW 255
Maximum power P, 255 Wp Maximum power P ,, , 184.1 Wp
Open circuit voltage V., 37.8 V Open circuit voltage V. 34.0 V
Maximum power point voltage Vmca 31.4 V Maximum power point voltage V,, 28.3 V
Short circuit current I,, 8.66 A Short circuit current I 6.99 A
Maximum power point current Imw 8.15 A Maximum power point current I ,,,1,,P 6.52 A
'STC:1000W /m', 25'C. AM 15 Minor reduction in efficiency under partial load conditions at 25'C: at 200W /m', 95%
( +/ -3 %) of the STC efficiency (1000 W /m is achieved.
THERMAL CHARACTERISTICS COMPONENT MATERIALS
NOCT 46 °C Cells per module 60
TC I. 0.004 %/K Cell type Mono crystalline
TC v« -0.30 %/K Cell dimensions 6.14 in x 6.14 in (156 mm x 156 mm)
TC P r . -0.45%/K Front tempered glass (EN 12150)
Operating temperature -40 °C to 85 °C Frame Clear anodized aluminum
IWarfves for SolarWortd Sunmodule Plus SW 255 mono Weight 46.7 lbs (21.2 kg)
at 25'C cell temperature
10 SYSTEM INTEGRATION PARAMETERS
9
a
3 7 – .11130 Wes, Maximum system voltage SC II 1000 V
6 _aro wire Max. system voltage USA NEC 600 V
S _ --sod w/m' Maximum reverse current 16 A
• — KO v+7m' Number of bypass diodes 3
3 — 200 w 7 "'' UL Maximum Test Load" 45 psf (2.1 kN /m=)
2 --1oowJm' IEC Maximum Snow Test Load" 113 psf (5.4kN /m
t
0 # — Please apply the appropriate factors of safety according to the test standard and local
0 10 20 30 40 building code requirements when designing a PV system.
module volttp M
ADDITIONAL DATA
ixa 37.44 (951)
Power tolerance - 0Wp ... +5Wp
\ �� SolarWorld Plus -Sorting" P F�n z Pm,.
1 Box IP65
11.33 (288) Connector MC4
Module efficiency 15.21 %
T Fire rating (UL 790) Class C
41.30 (1050) Ob (153) Ob (153
Version
2.5 frame
65.94 (1675) — bottom
mounting m n
holes q
H
•
, d l 134 (34) 1
• �!.■ • - , (1531
■■■ VERSION 2.0 FRAME VERSION FRAME
i x 4 • Compatible with Top -Down° • Compatible with both °Top -Down"
� � y 20 (107), mounting methods and °Bottom° mounting methods
- tir Grounding Locations: • Grounding Locations:
1 —�
1.22 (31) 39 (1001) 1 4 corners of the frame - 4 corners of the frame
4 locations along the length of the
module in the extended flanges
1) Sunmodules dedicated for the United States and Canada are tested to UL 1703 Standard and listed by a third party laboratory. The laboratory may vary by product and region. Check with
your SolarWorld representative to confirm which laboratory has a listing for the product.
2) Measuring tolerance Is used conjunctions with the SolarWorld Limited Warranty. SolarWorld AG reserves the right to make specification changes without notice.
3) The output Identified by SolarWorld (P Is always higher than the nominal output (P of the module. PFlash Is the power rating flashed at a SolarWorld manufacturing facility.
4) All units provided are Imperial. SI units provided in parentheses.
ti'
M215- MICROINVERTER [e l enphase
J E N E R G Y
J 4 Y
r J `
.1
enphase
E N E R G Y
I �
J
- Maximum energy production
The Enphase Energy Microinverter PRODUCTIVE - Resilient to dust, debris and shading
- Performance monitoring per module
System improves energy harvest,
increases reliability, and dramatically - System availability greater
simplifies design, installation and RELIABLE than 99.8%
- No single point of system failure
management of solar power systems.
The Enphase System includes the -Quick and simple design, installation
SMART and management
microinverter, the Envoy Communications - 24/7 monitoring and analysis
Gateway, and Enlighten, Enphase's
monitoring and analysis software. SAFE - Low voltage DC
- Reduced fire risk
®
C US
enphase.com
M215 MICROINVERTER TECHNICAL DATA
Input Data (DC) M215- 60- 2LL- S22/S23 and M215- 60- 2LL- S22- NA /S23 -NA (Ontario)
• Recommended input power (STC) 190 - 260W
Maximum input DC voltage 45V
Peak power tracking voltage 22V - 36V
Operating range 16V - 36V
Min. /Max. start voltage 22V/45V
Max. DC short circuit current 15A
Max. input current 10.5A
Output Data (AC) @208 Vac @240 Vac
Maximum output power 215W 215W
Nominal output current 1.0A (arms at nominal duration) 0.9A (arms at nominal duration)
Nominal voltage /range 208V/183 -229V 240V/211 -264V
Extended voltage /range 208V/179 -232V 240V/206 -26W
Nominal frequency /range 60.0/59.3-60.5 Hz 60.0/59.3 -60.5 Hz
Extended frequency range 60.0 /59.2 -60.6 Hz 60.0/59.2 -60.6 Hz
Power Factor >0.95 >0.95
Maximum units per 20A branch circuit 25 (three phase) 17 (single phase)
Maximum output fault current 1.05 Arms, over 3 cycles; 25.2 Apeak, 1.74ms duration
Efficiency
CEC weighted efficiency 96.0%
Peak inverter efficiency 96.3%
Static MPPT efficiency (weighted, reference EN50530) 99.6%
Dynamic MPPT efficiency (fast irradiation changes, reference EN50530) 99.3%
Night time power consumption 46mW
Mechanical Data
Ambient temperature range -40°C to + 65 °C
Operating temperature range (internal) -40 °C to + 85 °C
Dimensions (WxHxD) • 17.3 cm x 16.4 cm x 2.5 cm (6.8" x 6.45" x 1.01*
Weight 1.6 kg (3.5 Ibs)
Cooling Natural convection - No fans
Enclosure environmental rating Outdoor - NEMA 6 * without mounting bracket
Features
Compatibility Pairs with most 60 -cell PV modules
Communication Power line
Warranty 25 -year limited warranty
Monitoring Free lifetime monitoring via Enlighten software
Compliance UL1741/IEEE1547, FCC Part 15 Class B
CAN /CSA -C22.2 NO. 0-M91, 0.4 -04, and 107.1 -01
Enphase Energy, Inc.
201 1st Street
. Petaluma, CA 94952
Phone: 877-797-4743
Fax: 707 - 763 -0784
info @enphaseenergy.com
http: / /www.enphase.com 142 -00010 Rev'03