GENERATIONS. Sustainable through

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Sustainable through GENERATIONS IREX ENERGY JOINT STOCK COMPANY Add: Tel: Email: No 47, Le Van Thinh

8) 655 8093 info@irex.vn I Website: irex.vn Factory: No.

1 Sustainable through GENERATIONS IREX ENERGY JOINT STOCK COMPANY Add: Tel: No 47, Le Van Thinh Street, Quarter 5, Binh Trung Dong Ward, District, HCMC, Vietnam (+84.8) I Fax: (+84.8) info@irex.vn I Website: irex.vn Factory: No. 1A Street, Phu My 1 Industrial Zone, Tan Thanh District, Ba Ria - Vung Tau Province, Vietnam Tel: (+84.54) I Fax: (+84.54) Issued on May, 018

Prominent projects & Activities VIETNAM HANOI Paracel Islands (Hoang Sa) HO CHI MINH CITY Spratly Island (Truong Sa) Green One House United Nations Headquarters -

2 Prominent projects & Activities VIETNAM HANOI Paracel Islands (Hoang Sa) HO CHI MINH CITY Spratly Island (Truong Sa) Green One House United Nations Headquarters - Hanoi (Vietnam) Capacity: 110 kwp BINH DUONG POLITICAL ADMINISTRATION CENTER Capacity: 31. kwp (Phase 1) SOLAR FARM Khanh Son, Da Nang (in progress) Capacity: 4.4 MWp

01, 016 Over 50 islands in the Spratly Islands

3 01, 016 Over 50 islands in the Spratly Islands are now powered by IREX TAN CANG SONG THAN ICD JOINT STOCK COMPANY Capacity: kwp (Phase 1) MWp (Phase - In progress) IREX PARTICIPATED IN INTERSOLAR 014, 015, 016 IREX PARTICIPATED IN SOLAR POWER INTERNATIONAL (SPI) 017 3

4 4 #1 Vietnamese PV Manufacturer in VietNam

5 100% Vietnam made solar cells & modules 500 MW/year of production capacity Established in 01, IREX inherited the foundation from Viet Nam-based SolarBK the leading smart renewable energy corporation in Viet Nam with 40 years of research & development in renewable energy. IREX owned a self- manufacturing Photovoltaic (PV) factory, producing directly solar cells and solar panels under international quality standard that have pleased even the most demand difficult European and American clients. With automatic machineries and modern facilities, the production line has reached a capacity of 500 MW/year including 00 MW for solar cells and 300 MW for PV module. The solar cell production line is 100% automatic. IREX s PV module efficiency exceeds 19% in standard conditions, complied with IEC 6115, IEC 61730, UL 1703, IEC quality standard, issued by TUV Rheinland and UL, warranty 1 years for material, workmanship and 5 years for linear power output. We mainly exported our PV module to Europe, US, and deployed in many green buildings in Vietnam, as well as showcased in Singapore, The Netherlands, Turkey, Tunisia and Myanmar. International Certificates Manufacturing process aligned with international standards: IEC Crystalline silicon terrestrial PV modules - Design qualification and type approval IEC and - PV module safety qualification IEC 61701:011 - Salt mist corrosion testing of PV modules UL Standard for Flat - Plate Photovoltaic Modules and Panels Class A Spread of flame and Class C Burning brand according to UL 790 and fire performance type 1 according to UL 1703 CE Marking ISO 9001:015 - Quality Management System for manufacture and sales of PV Modules ID E49603 IEC 6115 IEC Management System ISO 9001:015 ID E ID ID

IREX S PRODUCTS FEATURES IREX provides highly-efficient and highly-trusted Products which will be easily installed and handled Solar Cell Poly 4BB, 5BB / PERC Poly 15 Wp Poly 30 Wp Wp Poly 70 Wp 75

6 IREX S PRODUCTS FEATURES IREX provides highly-efficient and highly-trusted Products which will be easily installed and handled Solar Cell Poly 4BB, 5BB / PERC Poly 15 Wp Poly 30 Wp Wp Poly 70 Wp 75 Wp 36P156: Wp 48P156: Wp 54P156: Wp 60P156: Wp 7P156: Wp 60P156-DG: Wp 7P156-DG: Wp Solar Cell Mono 4BB, 5BB / PERC Mono 80 Wp 7M15: Wp 36M156: Wp 48M156: Wp 54M156: Wp 60M156: Wp 7M156: Wp 60M156-DG: Wp 7M156-DG: Wp Cell Efficiency: IREX uses only A-grade solar cells with % conversion efficiency. PID Performance: Excellent anti-pid performance. Frame: Aluminum frame designed for heavy load up to 5400 Pa. Power: In Low light or high temperature conditions, outstanding power could be created. Material: Resistant against salt mist, ammonia, blowing sand, water and hail. Warranty: - Twelve years for product warranty. - Twenty-five years guaranteed peak power output limited. EFFICIENCY High Module Conversion Efficiencies 1 - years Material & workmanship 5 - years Linear power Output EASY & QUICK Easy Installation and Handling MECHANICAL LOAD Heavy snow load up to 5400 Pa Wind load up to 400 Pa 6

IR - M156-5BB - PERC MONOCRYSTALLINE SILICON SOLAR CELLS FEATURES PERFORMANCE High Cell-to-module ratio through precise cell conversion efficiency sorting, classified efficiency grade by both minimum

7 IR - M156-5BB - PERC MONOCRYSTALLINE SILICON SOLAR CELLS FEATURES PERFORMANCE High Cell-to-module ratio through precise cell conversion efficiency sorting, classified efficiency grade by both minimum power and current. Excellent electrical long-term stability and reliability by using of best raw materials and through strict quality inspection control. Low breakage rate by using high qualified and stable wafers. High quality homogeneous appearance by sorting into defined color classes. 100% screened for reverse current and shunt resistance. Excellent solderability through high quality conductive materials and regular monitor soldering properties. Current (A) TYPICAL CURRENT-VOLTAGE CURVE W 9 900W W W 00W 1 PRODUCTION AND QUALITY CONTROL Voltage (V) Regular calibration of test equipment using Fraunhofer ISE reference cell. Environmental friendly due to REACH-SVHC and RoHS compliances. CALCULATED TEMPERATURE COEFFICIENTS Professional on-site service and support for module certification. Regular light source AAA class calibration for stable conversion efficiency. Lowest LID by periodic monitoring and superior wafer incoming control. ELECTRICAL CHARACTERISTIC No. Efficiency (%) Pmpp (W) Umpp (V) Impp (A) Uoc (V) Isc (A) FF (%) Pmpp (mw) POWER TK(Pmpp)=( ± 0.7) mw/k TK(Pmpp)=( ± 0.016) %/K T( C) MECHANICAL DATA AND DESIGN Format Thickness Front (-) Back (+) mm mm ± 0.5 mm 00 ± 0µm 0.7 mm busbars (silver), dark blue/ blue/ sky blue, anti-reflecting coating (silicon nitride) mm wide soldering pads (silver) back surface field (aluminum) STANDARD TEST CONDITIONS (STC) TEMPERATURE COEFFICENTS Light intensity 1000 W/m α (Isc) %/K Spectrum AM1.5 β (Voc) %/K Temperature 5 C γ (Pmpp) %/K PACKING INFORMATION Container 0 GP 40 GP Pallets Per Container 14 8 Pieces per Container Drawing Only for Reference 7

IR - P156-5BB - PERC POLYCRYSTALLINE SILICON SOLAR CELLS FEATURES PERFORMANCE High Cell-to-module ratio through precise cell conversion efficiency sorting, classified efficiency grade by both minimum

Low breakage rate by using high qualified and stable wafers. High quality homogeneous appearance by sorting into defined color classes. 100% screened for reverse current and shunt resistance.

8 IR - P156-5BB - PERC POLYCRYSTALLINE SILICON SOLAR CELLS FEATURES PERFORMANCE High Cell-to-module ratio through precise cell conversion efficiency sorting, classified efficiency grade by both minimum power and current. Excellent electrical long-term stability and reliability by using of best raw materials and through strict quality inspection control. Low breakage rate by using high qualified and stable wafers. High quality homogeneous appearance by sorting into defined color classes. 100% screened for reverse current and shunt resistance. Excellent solderability through high quality conductive materials and regular monitor soldering properties. Current (A) TYPICAL CURRENT-VOLTAGE CURVE W 8 900W W W 00W 1 PRODUCTION AND QUALITY CONTROL Regular calibration of test equipment using Fraunhofer ISE reference cell. Environmental friendly due to REACH-SVHC and RoHS compliances Voltage (V) CALCULATED TEMPERATURE COEFFICIENTS Professional on-site service and support for module certification. Regular light source AAA class calibration for stable conversion efficiency POWER TK(Pmpp)=( ± 0.69) mw/k TK(Pmpp)=(-0.38 ± 0.015) %/K Lowest LID by periodic monitoring and superior wafer incoming control ELECTRICAL CHARACTERISTIC No. Efficiency (%) Pmpp (W) Umpp (V) Impp (A) Uoc (V) Isc (A) FF (%) Pmpp (mw) T( C) MECHANICAL DATA AND DESIGN Format Thickness Front (-) Back (+) mm mm ± 0.5 mm 00 ± 0µm 0.7 mm busbars (silver), dark blue/ blue/ sky blue, anti-reflecting coating (silicon nitride) mm wide soldering pads (silver) back surface field (aluminum) STANDARD TEST CONDITIONS (STC) TEMPERATURE COEFFICENTS Light intensity 1000 W/m α (Isc) +0.05%/K Spectrum AM1.5 β (Voc) -0.30%/K Temperature 5 C γ (Pmpp) -0.37%/K PACKING INFORMATION Container 0 GP 40 GP Pallets Per Container 14 8 Pieces per Container Drawing Only for Reference 8

IR - M156-4BB - PERC MONOCRYSTALLINE SILICON SOLAR CELLS FEATURES PERFORMANCE High Cell-to-module ratio through precise cell conversion efficiency sorting, classified efficiency grade by both minimum

9 IR - M156-4BB - PERC MONOCRYSTALLINE SILICON SOLAR CELLS FEATURES PERFORMANCE High Cell-to-module ratio through precise cell conversion efficiency sorting, classified efficiency grade by both minimum power and current. Excellent electrical long-term stability and reliability by using of best raw materials and through strict quality inspection control. Low breakage rate by using high qualified and stable wafers. High quality homogeneous appearance by sorting into defined color classes. 100% screened for reverse current and shunt resistance. Excellent solderability through high quality conductive materials and regular monitor soldering properties. Current (A) TYPICAL CURRENT-VOLTAGE CURVE W 9 900W W W 00W 1 PRODUCTION AND QUALITY CONTROL Regular calibration of test equipment using Fraunhofer ISE reference cell. Voltage (V) Environmental friendly due to REACH-SVHC and RoHS compliances. CALCULATED TEMPERATURE COEFFICIENTS Professional on-site service and support for module certification. Regular light source AAA class calibration for stable conversion efficiency. Lowest LID by periodic monitoring and superior wafer incoming control. ELECTRICAL CHARACTERISTIC No. Efficiency (%) Pmpp (W) Umpp (V) Impp (A) Uoc (V) Isc (A) FF (%) Pmpp (mw) POWER TK(Pmpp)=( ± 0.7) mw/k TK(Pmpp)=( ± 0.016) %/K T( C) MECHANICAL DATA AND DESIGN Format Thickness Front (-) Back (+) mm mm ± 0.5 mm 00 ± 0µm 1.1 mm busbars (silver), dark blue/ blue/ sky blue, anti-reflecting coating (silicon nitride).1 mm wide soldering pads (silver) back surface field (aluminum) STANDARD TEST CONDITIONS (STC) TEMPERATURE COEFFICENTS Light intensity 1000 W/m α (Isc) %/K Spectrum AM1.5 β (Voc) %/K Temperature 5 C γ (Pmpp) %/K PACKING INFORMATION Container 0 GP 40 GP Pallets Per Container 14 8 Pieces per Container Drawing Only for Reference 9

10 IR - P156-4BB - PERC POLYCRYSTALLINE SILICON SOLAR CELLS FEATURES PERFORMANCE High Cell-to-module ratio through precise cell conversion efficiency sorting, classified efficiency grade by both minimum power and current. Excellent electrical long-term stability and reliability by using of best raw materials and through strict quality inspection control. Low breakage rate by using high qualified and stable wafers. High quality homogeneous appearance by sorting into defined color classes. 100% screened for reverse current and shunt resistance. Excellent solderability through high quality conductive materials and regular monitor soldering properties. Current (A) TYPICAL CURRENT-VOLTAGE CURVE W 9 900W W W 00W 1 PRODUCTION AND QUALITY CONTROL Regular calibration of test equipment using Fraunhofer ISE reference cell. Environmental friendly due to REACH-SVHC and RoHS compliances Voltage (V) CALCULATED TEMPERATURE COEFFICIENTS Professional on-site service and support for module certification. Regular light source AAA class calibration for stable conversion efficiency POWER TK(Pmpp)=( ± 0.71) mw/k TK(Pmpp)=( ± 0.016) %/K Lowest LID by periodic monitoring and superior wafer incoming control ELECTRICAL CHARACTERISTIC No. Efficiency (%) Pmpp (W) Umpp (V) Impp (A) Uoc (V) Isc (A) FF (%) Pmpp (mw) T( C) MECHANICAL DATA AND DESIGN Format Thickness Front (-) Back (+) mm mm ± 0.5 mm 00 ± 0µm 1.1 mm busbars (silver), dark blue/ blue/ sky blue, anti-reflecting coating (silicon nitride).1 mm wide soldering pads (silver) back surface field (aluminum) STANDARD TEST CONDITIONS (STC) TEMPERATURE COEFFICENTS Light intensity 1000 W/m α (Isc) +0.05%/K Spectrum AM1.5 β (Voc) -0.30%/K Temperature 5 C γ (Pmpp) -0.37%/K PACKING INFORMATION Container 0 GP 40 GP Pallets Per Container 14 8 Pieces per Container Drawing Only for Reference 10

IR - M156-5BB MONOCRYSTALLINE SILICON SOLAR CELLS FEATURES PERFORMANCE High Cell-to-module ratio through precise cell conversion efficiency sorting, classified efficiency grade by both minimum power

11 IR - M156-5BB MONOCRYSTALLINE SILICON SOLAR CELLS FEATURES PERFORMANCE High Cell-to-module ratio through precise cell conversion efficiency sorting, classified efficiency grade by both minimum power and current. Excellent electrical long-term stability and reliability by using of best raw materials and through strict quality inspection control. Low breakage rate by using high qualified and stable wafers. High quality homogeneous appearance by sorting into defined color classes. 100% screened for reverse current and shunt resistance. Excellent solderability through high quality conductive materials and regular monitor soldering properties. Current (A) TYPICAL CURRENT-VOLTAGE CURVE W 8 900W W W 00W 1 PRODUCTION AND QUALITY CONTROL Regular calibration of test equipment using Fraunhofer ISE reference cell. Environmental friendly due to REACH-SVHC and RoHS compliances Voltage (V) CALCULATED TEMPERATURE COEFFICIENTS Professional on-site service and support for module certification. Regular light source AAA class calibration for stable conversion efficiency. Lowest LID by periodic monitoring and superior wafer incoming control POWER TK(Pmpp)=( ± 0.65) mw/k TK(Pmpp)=( ± 0.015) %/K ELECTRICAL CHARACTERISTIC No. Efficiency (%) Pmpp (W) Umpp (V) Impp (A) Uoc (V) Isc (A) FF (%) Pmpp (mw) T( C) MECHANICAL DATA AND DESIGN Format Thickness Front (-) Back (+) mm mm ± 0.5 mm 00 ± 0µm 0.8 mm busbars (silver), dark blue/ blue/ sky blue, anti-reflecting coating (silicon nitride) 1.3 mm wide soldering pads (silver) back surface field (aluminum) STANDARD TEST CONDITIONS (STC) TEMPERATURE COEFFICENTS Light intensity 1000 W/m α (Isc) +0.05%/K Spectrum AM1.5 β (Voc) -0.33%/K Temperature 5 C γ (Pmpp) -0.4%/K PACKING INFORMATION Container 0 GP 40 GP Pallets Per Container 14 8 Pieces per Container Drawing Only for Reference 11

IR - P156-5BB POLYCRYSTALLINE SILICON SOLAR CELLS FEATURES PERFORMANCE High Cell-to-module ratio through precise cell conversion efficiency sorting, classified efficiency grade by both minimum power

12 IR - P156-5BB POLYCRYSTALLINE SILICON SOLAR CELLS FEATURES PERFORMANCE High Cell-to-module ratio through precise cell conversion efficiency sorting, classified efficiency grade by both minimum power and current. Excellent electrical long-term stability and reliability by using of best raw materials and through strict quality inspection control. Low breakage rate by using high qualified and stable wafers. High quality homogeneous appearance by sorting into defined color classes. 100% screened for reverse current and shunt resistance. Excellent solderability through high quality conductive materials and regular monitor soldering properties. Current (A) TYPICAL CURRENT-VOLTAGE CURVE W 8 900W W W 00W 1 PRODUCTION AND QUALITY CONTROL Regular calibration of test equipment using Fraunhofer ISE reference cell. Environmental friendly due to REACH-SVHC and RoHS compliances Voltage (V) CALCULATED TEMPERATURE COEFFICIENTS Professional on-site service and support for module certification. Regular light source AAA class calibration for stable conversion efficiency POWER TK(Pmpp)=( ± 0.69) mw/k TK(Pmpp)=(-0.38 ± 0.015) %/K Lowest LID by periodic monitoring and superior wafer incoming control ELECTRICAL CHARACTERISTIC No. Efficiency (%) Pmpp (W) Umpp (V) Impp (A) Uoc (V) Isc (A) FF (%) Pmpp (mw) T( C) MECHANICAL DATA AND DESIGN Format Thickness Front (-) Back (+) mm mm ± 0.5 mm 00 ± 0µm 0.7 mm busbars (silver), dark blue/ blue/ sky blue, anti-reflecting coating (silicon nitride) mm wide soldering pads (silver) back surface field (aluminum) STANDARD TEST CONDITIONS (STC) TEMPERATURE COEFFICENTS Light intensity 1000 W/m α (Isc) +0.05%/K Spectrum AM1.5 β (Voc) -0.31%/K Temperature 5 C γ (Pmpp) -0.38%/K PACKING INFORMATION Container 0 GP 40 GP Pallets Per Container 14 8 Pieces per Container Drawing Only for Reference 1

13 IR - M156-4BB MONOCRYSTALLINE SILICON SOLAR CELLS FEATURES PERFORMANCE High Cell-to-module ratio through precise cell conversion efficiency sorting, classified efficiency grade by both minimum power and current. Excellent electrical long-term stability and reliability by using of best raw materials and through strict quality inspection control. Low breakage rate by using high qualified and stable wafers. High quality homogeneous appearance by sorting into defined color classes. 100% screened for reverse current and shunt resistance. Excellent solderability through high quality conductive materials and regular monitor soldering properties. Current (A) TYPICAL CURRENT-VOLTAGE CURVE W 8 900W W W 00W 1 PRODUCTION AND QUALITY CONTROL Regular calibration of test equipment using Fraunhofer ISE reference cell. Environmental friendly due to REACH-SVHC and RoHS compliances Voltage (V) CALCULATED TEMPERATURE COEFFICIENTS Professional on-site service and support for module certification. Regular light source AAA class calibration for stable conversion efficiency. Lowest LID by periodic monitoring and superior wafer incoming control POWER TK(Pmpp)=( ± 0.65) mw/k TK(Pmpp)=( ± 0.015) %/K ELECTRICAL CHARACTERISTIC No. Efficiency (%) Pmpp (W) Umpp (V) Impp (A) Uoc (V) Isc (A) FF (%) Pmpp (mw) T( C) MECHANICAL DATA AND DESIGN Format Thickness Front (-) Back (+) mm mm ± 0.5 mm 00 ± 0µm 1.1 mm busbars (silver), dark blue/ blue/ sky blue, anti-reflecting coating (silicon nitride).1 mm wide soldering pads (silver) back surface field (aluminum) STANDARD TEST CONDITIONS (STC) TEMPERATURE COEFFICENTS Light intensity 1000 W/m α (Isc) +0.05%/K Spectrum AM1.5 β (Voc) -0.33%/K Temperature 5 C γ (Pmpp) -0.4%/K PACKING INFORMATION Container 0 GP 40 GP Pallets Per Container 14 8 Pieces per Container Drawing Only for Reference 13

IR - P156-4BB POLYCRYSTALLINE SILICON SOLAR CELLS FEATURES PERFORMANCE High Cell-to-module ratio through precise cell conversion efficiency sorting, classified efficiency grade by both minimum power

14 IR - P156-4BB POLYCRYSTALLINE SILICON SOLAR CELLS FEATURES PERFORMANCE High Cell-to-module ratio through precise cell conversion efficiency sorting, classified efficiency grade by both minimum power and current. Excellent electrical long-term stability and reliability by using of best raw materials and through strict quality inspection control. Low breakage rate by using high qualified and stable wafers. High quality homogeneous appearance by sorting into defined color classes. 100% screened for reverse current and shunt resistance. Excellent solderability through high quality conductive materials and regular monitor soldering properties. Current (A) TYPICAL CURRENT-VOLTAGE CURVE W 8 900W W W 00W 1 PRODUCTION AND QUALITY CONTROL Regular calibration of test equipment using Fraunhofer ISE reference cell. Voltage (V) Environmental friendly due to REACH-SVHC and RoHS compliances. CALCULATED TEMPERATURE COEFFICIENTS Professional on-site service and support for module certification. Regular light source AAA class calibration for stable conversion efficiency. Lowest LID by periodic monitoring and superior wafer incoming control POWER TK(Pmpp)=( ± 0.69) mw/k TK(Pmpp)=(-0.38 ± 0.015) %/K ELECTRICAL CHARACTERISTIC No. Efficiency (%) Pmpp (W) Umpp (V) Impp (A) Uoc (V) Isc (A) FF (%) Pmpp (mw) T( C) MECHANICAL DATA AND DESIGN Format Thickness Front (-) Back (+) mm mm ± 0.5 mm 00 ± 0µm 1.1 mm busbars (silver), dark blue/ blue/ sky blue, anti-reflecting coating (silicon nitride).1 mm wide soldering pads (silver) back surface field (aluminum) 7.70 STANDARD TEST CONDITIONS (STC) TEMPERATURE COEFFICENTS Light intensity 1000 W/m α (Isc) +0.05%/K Spectrum AM1.5 β (Voc) -0.31%/K Temperature 5 C γ (Pmpp) -0.38%/K PACKING INFORMATION Container 0 GP 40 GP Pallets Per Container 14 8 Pieces per Container Drawing Only for Reference 14

156 SERIES 1 x 156 POLYCRYSTALLINE SOLAR MODULE: 15 W PERFORMANCE 1 3 4 5 Solar glass EVA film PV cell EVA film Multi-layer film Current (A) 1.5 1. 0.9 0.6 0.3 Electrical Performance at 5 C, AM1.

15 156 SERIES 1 x 156 POLYCRYSTALLINE SOLAR MODULE: 15 W PERFORMANCE Solar glass EVA film PV cell EVA film Multi-layer film Current (A) Electrical Performance at 5 C, AM W/m 900 W/m 800 W/m Rate to STC Value (%) Temperature Dependence of Isc, Voc & Pm at 1000 W/m, AM1.5 Isc Voc Pmmp Tem. Coeff.of Isc = %/ o C Tem. Coeff.of Voc = -0.9%/ o C Tem. Coeff.of Pmmp = %/ o C Voltage (V) Temperature ( C) STRUCTURE C C A-A 3: Label Cable Cable B B B-B 3:1 Connector 6 4-Ø9 Mounting Slot 76 A A 50 C-C 3:1 ELECTRICAL CHARACTERISTICS STC IR015PC6-6 ELECTRICAL CHARACTERISTICS NOCT IR015PC6-6 Maximum Power (Pmax) 15 W Power Tolerance 0 ~ 3% Module Efficiency 1.1% Maximum Power Current (lmp) 1.18 A Maximum Power Voltage (Vmp) 1.7 V Short Circuit Current (lsc) 1.5 A Open Circuit Voltage (Voc) V Values at Standard Test Conditions (STC: Air Mass AM 1.5, Irradiance 1000 W/m, Cell Temperature 5 O C) Maximum Power (Pmax) W Maximum Power Current (lmp) 0.94 A Maximum Power Voltage (Vmp) V Short Circuit Current (lsc) 1.00 A Open Circuit Voltage (Voc) 14.6 V Values at Nominal Operating Cell Temperature (NOCT: Wind speed 1 m/s, Irradiance 800 W/m, Cell Temperature 45 O C, Ambient Temperature 0 O C) MECHANICAL CHARACTERISTICS Cell Type 1 x mm Polycrystalline, 6 (x13) pcs in series Solar Glass High Transmission, Low lron, Tempered Glass Frame Anodized Aluminum Alloy type T5 Junction Box Rated current 1 A, IP 67, TUV & UL Dimension 6 x 6 x mm Output Cable 4 mm (EU)/1 AWG (US), 900 mm Weight. kg Installation hole Location See Drawing Above PACKING INFORMATION Container Pallets per Container Pieces per Container 0 GP GP HQ WORKING CONDITIONS Operating Temperature Maximum System Voltage Maximum Series Fuse Rating NOCT Application Class - 40 O C to + 85 O C 600 VDC 1 A 45 ± Class C 15

156 SERIES 34 x 156 POLYCRYSTALLINE SOLAR MODULE: 30 W PERFORMANCE 1 3 4 5 Solar glass EVA film PV cell EVA film Multi-layer film Current (A).4.1 1.8 1.5 1. 0.9 0.6 0.

16 156 SERIES 34 x 156 POLYCRYSTALLINE SOLAR MODULE: 30 W PERFORMANCE Solar glass EVA film PV cell EVA film Multi-layer film Current (A) Electrical Performance at 5 C, AM W/m 900 W/m 800 W/m Rate to STC Value (%) Temperature Dependence of Isc, Voc & Pm at 1000 W/m, AM1.5 Isc Voc Pmmp Tem. Coeff.of Isc = %/ o C Tem. Coeff.of Voc = -0.9%/ o C Tem. Coeff.of Pmmp = %/ o C Voltage (V) Temperature ( C) STRUCTURE C A-A 3:1 C Connector Label A A B-B 3:1 545 B B 4-Ø9 Mounting Slot C-C 3:1 ELECTRICAL CHARACTERISTICS STC IR030PC4-36 Maximum Power (Pmax) 30 W Power Tolerance 0 ~ 3% Module Efficiency 11.% Maximum Power Current (lmp) 1.96 A Maximum Power Voltage (Vmp) 15.3 V Short Circuit Current (lsc).08 A Open Circuit Voltage (Voc) V Values at Standard Test Conditions (STC: Air Mass AM 1.5, Irradiance 1000 W/m, Cell Temperature 5 O C) ELECTRICAL CHARACTERISTICS NOCT IR030PC4-36 Maximum Power (Pmax) 1.60 W Maximum Power Current (lmp) 1.55 A Maximum Power Voltage (Vmp) V Short Circuit Current (lsc) 1.66 A Open Circuit Voltage (Voc) V Values at Nominal Operating Cell Temperature (NOCT: Wind speed 1 m/s, Irradiance 800 W/m, Cell Temperature 45 O C, Ambient Temperature 0 O C) MECHANICAL CHARACTERISTICS Cell Type Solar Glass Frame Junction Box Dimension Output Cable Weight Installation hole Location 34 x mm Polycrystalline, 36 (3x1) pcs in series High Transmission, Low lron, Tempered Glass Anodized Aluminum Alloy type T5 Rated current 1 A, IP 67, TUV & UL 490 x 545 x mm 4 mm (EU)/1 AWG (US), 900 mm 4.0 kg See Drawing Above PACKING INFORMATION Container Pallets per Container Pieces per Container 0 GP GP HQ WORKING CONDITIONS Operating Temperature Maximum System Voltage Maximum Series Fuse Rating NOCT Application Class - 40 O C to + 85 O C 600 VDC 1 A 45 ± Class C 16

17 156 SERIES 34 x 156 POLYCRYSTALLINE SOLAR MODULE: W PERFORMANCE Solar glass EVA film PV cell EVA film Multi-layer film Current (A) Electrical Performance at 5 C, AM W/m 900 W/m 800 W/m Rate to STC Value (%) Temperature Dependence of Isc, Voc & Pm at 1000 W/m, AM1.5 Isc Voc Pmmp Tem. Coeff.of Isc = %/ o C Tem. Coeff.of Voc = -0.9%/ o C Tem. Coeff.of Pmmp = %/ o C Voltage (V) Temperature ( C) STRUCTURE C A-A 3: Label C Connector A A B-B 3:1 50 B 4-Ø9 Mounting Slot C-C 3:1 545 B 58 ELECTRICAL CHARACTERISTICS STC IR0PC4-36 Maximum Power (Pmax) W Power Tolerance 0 ~ 3% Module Efficiency 13.1% Maximum Power Current (lmp).07 A Maximum Power Voltage (Vmp) 16.9 V Short Circuit Current (lsc).19 A Open Circuit Voltage (Voc) 0.87 V Values at Standard Test Conditions (STC: Air Mass AM 1.5, Irradiance 1000 W/m, Cell Temperature 5 O C) ELECTRICAL CHARACTERISTICS NOCT IR0PC4-36 Maximum Power (Pmax) 5.50 W Maximum Power Current (lmp) 1.63 A Maximum Power Voltage (Vmp) V Short Circuit Current (lsc) 1.74 A Open Circuit Voltage (Voc) V Values at Nominal Operating Cell Temperature (NOCT: Wind speed 1 m/s, Irradiance 800 W/m, Cell Temperature 45 O C, Ambient Temperature 0 O C) MECHANICAL CHARACTERISTICS Cell Type Solar Glass Frame Junction Box Dimension Output Cable Weight Installation hole Location 34 x mm Polycrystalline, 36 (3x1) pcs in series High Transmission, Low lron, Tempered Glass Anodized Aluminum Alloy type T5 Rated current 1 A, IP 67, TUV & UL 490 x 545 x mm 4 mm (EU)/1 AWG (US), 900 mm 4.0 kg See Drawing Above PACKING INFORMATION Container Pallets per Container Pieces per Container 0 GP GP HQ WORKING CONDITIONS Operating Temperature Maximum System Voltage Maximum Series Fuse Rating NOCT Application Class - 40 O C to + 85 O C 600 VDC 1 A 45 ± Class C 17

156 SERIES 78 x 156 POLYCRYSTALLINE SOLAR MODULE: 70 W 1 3 4 5 Solar glass EVA film PV cell EVA film Multi-layer film PERFORMANCE Current (A) Electrical Performance at 5 C, AM1.5 4.8 1000 W/m 4.

18 156 SERIES 78 x 156 POLYCRYSTALLINE SOLAR MODULE: 70 W Solar glass EVA film PV cell EVA film Multi-layer film PERFORMANCE Current (A) Electrical Performance at 5 C, AM W/m W/m W/m Rate to STC Value (%) Temperature Dependence of Isc, Voc & Pm at 1000 W/m, AM1.5 Isc Voc Pmmp Tem. Coeff.of Isc = %/ o C Tem. Coeff.of Voc = -0.9%/ o C Tem. Coeff.of Pmmp = %/ o C Voltage (V) STRUCTURE C Temperature ( C) Junction box A-A 3:1 C Connector Ø4 Grounding Hole Label B B B-B 3:1 4 - Ø9 Mounting Slot A 50 C-C 3:1 68 A 678 ELECTRICAL CHARACTERISTICS STC IR070PC-36 ELECTRICAL CHARACTERISTICS NOCT IR070PC-36 Maximum Power (Pmax) 70 W Power Tolerance 0 ~ 3% Module Efficiency 13.% Maximum Power Current (lmp) 3.88 A Maximum Power Voltage (Vmp) V Short Circuit Current (lsc) 4.0 A Open Circuit Voltage (Voc).0 V Values at Standard Test Conditions (STC: Air Mass AM 1.5, Irradiance 1000 W/m, Cell Temperature 5 O C) Maximum Power (Pmax) W Maximum Power Current (lmp) 3.07 A Maximum Power Voltage (Vmp) 16.6 V Short Circuit Current (lsc) 3.36 A Open Circuit Voltage (Voc) 0.65 V Values at Nominal Operating Cell Temperature (NOCT: Wind speed 1 m/s, Irradiance 800 W/m, Cell Temperature 45 O C, Ambient Temperature 0 O C) MECHANICAL CHARACTERISTICS Cell Type Solar Glass Frame Junction Box Dimension Output Cable Weight Installation hole Location PACKING INFORMATION Container Pallets per Container Pieces per Container 0 GP x mm Polycrystalline, 36 (4x9) pcs in series High Transmission, Low lron, Tempered Glass Anodized Aluminum Alloy type T5 Rated current 1 A, IP 67, TUV & UL 780 x 678 x mm 4 mm (EU)/1 AWG (US), 900 mm 7.0 kg See Drawing Above WORKING CONDITIONS 40 GP 40 HQ Operating Temperature Maximum System Voltage Maximum Series Fuse Rating NOCT Application Class - 40 O C to + 85 O C 600 VDC 1 A 45 ± Class C 18

156 SERIES 78 x 156 POLYCRYSTALLINE SOLAR MODULE: 75 W 1 3 4 5 Solar glass EVA film PV cell EVA film Multi-layer film PERFORMANCE Electrical Performance at 5 C, AM1.5 4.8 Current (A) 1000 W/m 4.

19 156 SERIES 78 x 156 POLYCRYSTALLINE SOLAR MODULE: 75 W Solar glass EVA film PV cell EVA film Multi-layer film PERFORMANCE Electrical Performance at 5 C, AM Current (A) 1000 W/m W/m W/m Rate to STC Value (%) Temperature Dependence of Isc, Voc & Pm at 1000 W/m, AM1.5 Isc Voc Pmmp Tem. Coeff.of Isc = %/ o C Tem. Coeff.of Voc = -0.9%/ o C Tem. Coeff.of Pmmp = %/ o C Voltage (V) STRUCTURE Temperature ( C) C Junction box A-A 3:1 C Connector Ø4 Grounding Hole Label B B B-B 6:1 4 - Ø9 Mounting Slot A 50 C-C 3: A Drawing Only for Reference ELECTRICAL CHARACTERISTICS STC IR075PC-36 ELECTRICAL CHARACTERISTICS NOCT IR075PC-36 Maximum Power (Pmax) 75 W Power Tolerance 0 ~ 3% Module Efficiency 14.% Maximum Power Current (lmp) 4.13 A Maximum Power Voltage (Vmp) V Short Circuit Current (lsc) 4.36 A Open Circuit Voltage (Voc).6 V Values at Standard Test Conditions (STC: Air Mass AM 1.5, Irradiance 1000 W/m, Cell Temperature 5 o C) Maximum Power (Pmax) W Maximum Power Current (lmp) 3.4 A Maximum Power Voltage (Vmp) V Short Circuit Current (lsc) 3.46 A Open Circuit Voltage (Voc) 1.00 V Values at Nominal Operating Cell Temperature (NOCT: Wind Speed 1m/s, Irradiance 800 W/m, Cell Temperature 45 O C, Ambient Temperature 0 O C) MECHANICAL CHARACTERISTICS Cell Type Solar glass Frame Junction Box Dimension Output Cable Weight Installation hole Location 78 x mm Polycrystalline, 36 (4x9) pcs in series High Transmission, Low lron, Tempered Glass Anodized Aluminum Alloy type T5 Rated current 1 A, IP 67, TUV & UL 780 x 678 x mm 4 mm (EU)/1 AWG (US), 900 mm 7.0 kg See Drawing Above PACKING INFORMATION Container Pallets per Container Pieces per Container 0 GP GP HQ WORKING CONDITIONS Operating Temperature Maximum System Voltage Maximum Series Fuse Rating NOCT Application Class - 40 O C to + 85 O C 600 VDC 1 A 45 ± Class C 19

0 156 SERIES 78 x 156 MONOCRYSTALLINE SOLAR MODULE: 80 W PERFORMANCE 1 3 4 5 Solar glass EVA film PV cell EVA film Multi-layer film Current (A) Electrical Performance at 5 C, AM1.5 4.8 1000 W/m 4. 3.6 900 W/m 800 W/m 3.

20 0 156 SERIES 78 x 156 MONOCRYSTALLINE SOLAR MODULE: 80 W PERFORMANCE Solar glass EVA film PV cell EVA film Multi-layer film Current (A) Electrical Performance at 5 C, AM W/m W/m 800 W/m Rate to STC Value (%) Temperature Dependence of Isc, Voc & Pm at 1000 W/m, AM1.5 Isc Voc Pmmp Tem. Coeff.of Isc = %/ o C Tem. Coeff.of Voc = %/ o C Tem. Coeff.of Pmmp = -0.43%/ o C Voltage (V) STRUCTURE Temperature ( C) C C A-A 3:1 Label ±0.5 86±0.5 Cable Cable B-B 3:1 4 - Ø9 Mounting Slot Connector A A 50 C-C 3:1 B 66 B 618±0.5 63±0.5 ELECTRICAL CHARACTERISTICS STC IR080MC-36 Maximum Power (Pmax) 80 W Power Tolerance 0 ~ 3% Module Efficiency 13.% Maximum Power Current (lmp) 4. A Maximum Power Voltage (Vmp) V Short Circuit Current (lsc) 4.60 A Open Circuit Voltage (Voc).80 V Values at Standard Test Conditions (STC: Air Mass AM 1.5, Irradiance 1000 W/m, Cell Temperature 5 O C) ELECTRICAL CHARACTERISTICS NOCT Maximum Power (Pmax) Maximum Power Current (lmp) Maximum Power Voltage (Vmp) Short Circuit Current (lsc) Open Circuit Voltage (Voc) Values at Nominal Operating Cell Temperature IR080MC W 3.44 A V 3.68 A 1.0 V (NOCT: Wind speed 1 m/s, Irradiance 800 W/m, Cell Temperature 45 O C, Ambient Temperature 0 O C) MECHANICAL CHARACTERISTICS Cell Type Solar Glass Frame Junction Box Dimension Output Cable Weight Installation hole Location 78 x mm Monocrystalline, 36 (4x9) pcs in series High Transmission, Low lron, Tempered Glass Anodized Aluminum Alloy type T5 Rated current 1 A, IP 67, TUV & UL 780 x 66 x mm 4 mm (EU)/1 AWG (US), 900 mm 7.0 kg See Drawing Above PACKING INFORMATION Container Pallets per Container Pieces per Container 0 GP GP HQ WORKING CONDITIONS Operating Temperature Maximum System Voltage Maximum Series Fuse Rating NOCT Application Class - 40 O C to + 85 O C 600 VDC 1 A 45 ± Class C

21 15 SERIES MONOCRYSTALLINE SOLAR MODULE: 180 W, 185 W, 190 W, 195 W, 00 W, 05 W, 10 W, 15 W, 0 W Solar glass EVA film PV cell EVA film Multi-layer film PERFORMANCE Current (A) Electrical Performance at 5 C, AM W/m 900 W/m W/m.4 1. Rate to STC Value (%) Temperature Dependence of Isc, Voc & Pm at 1000 W/m, AM1.5 Isc Voc Pmmp Tem. Coeff.of Isc = %/ o C Tem. Coeff.of Voc = %/ o C Tem. Coeff.of Pmmp = -0.43%/ o C Voltage (V) STRUCTURE Label 8-Ø9 Mounting Slot -Ø4 Grounding Hole Cable Cable C Junction box C Temperature ( C) A-A 6:1 B-B 6:1 Connector B B 55 A C-C 6: A Drawing Only for Reference ELECTRICAL CHARACTERISTICS STC IR180M-7 IR185M-7 IR190M-7 IR195M-7 IR00M-7 IR05M-7 IR10M-7 IR15M-7 IR0M-7 Maximum Power (Pmax) Power Tolerance Module Efficiency Maximum Power Current (lmp) Maximum Power Voltage (Vmp) Short Circuit Current (lsc) Open Circuit Voltage (Voc) 180 W 0 ~ 3% 14.1% 5.08 A.44 V 5.41 A V 185 W 0 ~ 3% 14.5% 5.1 A.53 V 5.54 A V 190 W 0 ~ 3% 14.9% 5.34 A.59 V 5.68 A V 195 W 0 ~ 3% 15.3% 5.41 A V 5.75 A V 00 W 0 ~ 3% 15.7% 5.5 A 36.4 V 5.90 A 45.0 V Values at Standard Test Conditions (STC: Air Mass AM 1.5, Irradiance 1000 W/m, Cell Temperature 5 o C) 05 W 0 ~ 3% 16.1% 5.6 A V 5.97 A V 10 W 0 ~ 3% 16.5% 5.68 A V 6.04 A V 15 W 0 ~ 3% 16.9% 5.78 A 37.1 V 6.11 A V 0 W 0 ~ 3% 17.% 5.86 A V 6. A V ELECTRICAL CHARACTERISTICS NOCT IR180M-7 IR185M-7 IR190M-7 IR195M-7 IR00M-7 IR05M-7 IR10M-7 IR15M-7 IR0M-7 Maximum Power (Pmax) Maximum Power Current (lmp) Maximum Power Voltage (Vmp) Short Circuit Current (lsc) Open Circuit Voltage (Voc) W 4.01 A 3.68 V 4.33 A 41.0 V 1.05 W 4.1 A 3.77 V 4.43 A V W 4. A 3.94 V 4.54 A V 14. W 4.7 A 33.6 V 4.60 A V W 4.36 A V 4.7 A 4.04 V W 4.47 A V 4.78 A 4. V W 4.49 A V 4.83 A 4.50 V Values at Nominal Operating Cell Temperature (NOCT: Wind Speed 1 m/s, Irradiance 800 W/m, Ambient Temperature 0 O C) W 4.58 A 34.9 V 4.89 A 4.7 V W 4.65 A V 4.96 A V MECHANICAL CHARACTERISTICS Cell Type Solar glass Frame Junction Box Dimension Output Cable Weight Installation hole Location PACKING INFORMATION Container Pallets per Container Pieces per Container 0 GP x 15 mm Monocrystalline, 7 (6x1) pcs in series High Transmission, Low lron, Tempered Glass with Anti Relecting Coating Anodized Aluminum Alloy type T5 Rated current 15 A, IP 67, TUV & UL 1580 x 808 x mm 4 mm (EU)/1 AWG (US), 900 mm 14 Kg See Drawing Above 40 GP HQ WORKING CONDITIONS Operating Temperature Maximum System Voltage Maximum Series Fuse Rating NOCT Application Class - 40 O C to + 85 O C 1500 VDC (IEC) / 1500 VDC (UL) 0 A (IEC) / 0 A (UL) 45 ± Class A 1

22 WORKING CONDITIONS

23 WORKING CONDITIONS