CSUN-S156-3BB-88. Monocrystalline Silicon Solar Cells. Features. Production and Quality Control. Color uniformity. Higher peel strength

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CSUN-S156-3BB-88 Monocrystalline Silicon Solar Cells Features Color uniformity Higher peel strength Tighter product performance distribution and 0.

1 CSUN-S156-3BB-88 Monocrystalline Silicon Solar Cells Features Color uniformity Higher peel strength Tighter product performance distribution and 0.1% efficiency step reduce the mismatch power loss during module assembly No pin mark Low reverse leakage current Production and Quality Control Standard cells calibrated by Fraunhofer ISE LID monitoring Peel strength control Reverse current screening C

2 CSUN-S156-3BB-88 No. Efficiency(%) Pmpp(W) Umpp(V) Impp(A) Uoc(V) Isc(A) FF(%) Mechanical Data and Design Format Thickness Front (-) Back (+) 156mm 156mm±0.5mm 200±20um 1.35mm bus bars (silver), blue anti-reflection coating (silicon nitride) 1.8mm wide soldering pads (silver), back surface field (aluminum) Standard Test Conditions(STC) Light intensity Spectrum Temperature Temperature Coefficients α (Isc) β (Voc) γ (Pmpp) 1000W/m² AM1.5G %/K -0.30%/K -0.40%/K IV Curve

3 CSUN-S156-3BB-88 (Dia210) Monocrystalline Silicon Solar Cells Features Color uniformity Higher peel strentgh Better power output in the same area Tighter product performance distribution and 0.1% efficiency step reduce the mismatch power loss during module assembly No pin mark Low reverse leakage current Production and Quality Control Standard cells calibrated by Fraunhofer ISE LID monitoring Peel strength control Reverse current screening C

4 CSUN-S156-3BB-88(Dia210) No. Efficiency(%) Pmpp(W) Umpp(V) Impp(A) Uoc(V) Isc(A) FF(%) Mechanical Data and Design Format Thickness Front (-) Back (+) 156mm 156mm±0.5mm 200±20um 1.35mm bus bars (silver), blue anti-reflecting coating (silicon nitride) 1.8mm wide soldering pads (silver) back surface field (aluminum) Standard Test Conditions(STC) Light intensity Spectrum Temperature Temperature Coefficients α (Isc) β (Voc) γ (Pmpp) 1000W/m² AM1.5G %/K -0.30%/K -0.40%/K IV Curve

5 CSUN-S156-3BB-S Monocrystalline Silicon Solar Cells Features Color uniformity Higher peel strength High efficiencies Tighter product performance distribution and 0.1% efficiency step reduce the mismatch power loss during module assembly Low reverse leakage current Production and Quality Control Standard cells calibrated by Fraunhofer ISE LID monitoring Peel strength control Reverse current screening C

6 CSUN-S156-3BB-S No. Efficiency(%) Pmpp(W) Umpp(V) Impp(A) Uoc(V) Isc(A) FF(%) Mechanical Data and Design Format Thickness Front (-) Back (+) 156mm 156mm±0.5mm 200±20um 1.35mm bus bars (silver), blue anti-reflecting coating (silicon nitride) 1.8mm wide soldering pads (silver) back surface field (aluminum) Standard Test Conditions(STC) Light intensity Spectrum Temperature Temperature Coefficients α (Isc) β (Voc) γ (Pmpp) 1000W/m² AM1.5G %/K -0.30%/K -0.40%/K IV Curve

7 CSUN-M156-5BB-91 Polycrystalline Silicon Solar Cells Features Color uniformity Higher peel strength High efficiencies Tighter product performance distribution and 0.1% efficiency step reduce the mismatch power loss during module assembly Low reverse leakage current Production and Quality Control Standard cells calibrated by Fraunhofer ISE LID monitoring Peel strength control Reverse current screening C

8 CSUN-M156-5BB-91 No. Efficiency(%) Pmpp(W) Umpp(V) Impp(A) Uoc(V) Isc(A) FF(%) Mechanical Data and Design Format Thickness Front (-) Back (+) 156mm 156mm±0.5mm 200±20um 0.8mm bus bars (silver), blue anti-reflecting coating (silicon nitride) 1.39mm wide soldering pads (silver) back surface field (aluminum) Standard Test Conditions(STC) Light intensity Spectrum Temperature Temperature Coefficients α (Isc) β (Voc) γ (Pmpp) 1000W/m² AM1.5G %/K -0.31%/K -0.41%/K IV Curve

9 CSUN-M156-3BB-96 Polycrystalline Silicon Solar Cells Features Color uniformity Higher peel strength Tighter product performance distribution and 0.1% efficiency step reduce the mismatch power loss during module assembly Good module reliability Excellent PID-free performance Low reverse leakage current Production and Quality Control Standard cells calibrated by Fraunhofer ISE LID monitoring Peel strength control Reverse current screening C

10 CSUN-M156-3BB-96 No. Efficiency(%) Pmpp(W) Umpp(V) Impp(A) Uoc(V) Isc(A) FF(%) Mechanical Data and Design Format Thickness Front (-) Back (+) 156mm 156mm±0.5mm 200±20um 1.4mm bus bars (silver), blue anti-reflecting coating (silicon nitride) 1.8mm wide soldering pads (silver) back surface field (aluminum) Standard Test Conditions(STC) Light intensity Spectrum Temperature Temperature Coefficients α (Isc) β (Voc) γ (Pmpp) 1000W/m² AM1.5G %/K -0.31%/K -0.41%/K IV Curve

11 CSUN-M156-3BB Polycrystalline Silicon Solar Cells Features Excellent anti-pid performance 0.1% efficiency step reduces the mismatch power loss during module assembly. Outstanding power output in low light or high temperature conditions Low breakage ratio Color uniformity Production and Quality Control Standard cells calibrated by Fraunhofer ISE LID monitoring Peel strength control Reverse current screening C

12 CSUN-M156-3BB No. Efficiency(%) Pmpp(W) Umpp(V) Impp(A) Uoc(V) Isc(A) FF(%) Mechanical Data and Design Format Thickness Front (-) Back (+) 156mm 156mm±0.5mm 200±20um 1.5mm bus bars (silver), blue anti-reflection coating (silicon nitride) 2.8mm wide soldering pads (silver), back surface field (aluminum) Standard Test Conditions(STC) Light intensity Spectrum Temperature Temperature Coefficients α (Isc) β (Voc) γ (Pmpp) 1000W/m² AM1.5G %/K -0.31%/K -0.41%/K IV Curve

13 CSUN-S156-5BB Monocrystalline Silicon Solar Cells Features World class mono efficiency of 19.4% Unique 5-busbar design reduces micro-crack risk Excellent PID-free performance Tighter product performance distribution and 0.1% efficiency step reduce the mismatch power loss during module assembly Outstanding power output in low light or high temperature conditions Low breakage ratio Color uniformity Production and Quality Control Standard cells calibrated by Fraunhofer ISE LID monitoring Peel strength control Reverse current screening C

14 CSUN-S156-5BB No. Efficiency(%) Pmpp(W) Umpp(V) Impp(A) Uoc(V) Isc(A) FF(%) Mechanical Data and Design Format Thickness Front (-) Back (+) 156mm 156mm±0.5mm 200±20um 0.8mm bus bars (silver), blue anti-reflection coating (silicon nitride) 1.93mm wide soldering pads (silver), back surface field (aluminum) Standard Test Conditions(STC) Light intensity Spectrum Temperature Temperature Coefficients α (Isc) β (Voc) γ (Pmpp) 1000W/m² AM1.5G %/K -0.30%/K -0.40%/K IV Curve

CSUN-M156-5BB Polycrystalline Silicon Solar Cells Features World class multi efficiency of 17.8% Unique 5-busbar design reduces micro-crack risk Excellent anti-pid performance 0.

15 CSUN-M156-5BB Polycrystalline Silicon Solar Cells Features World class multi efficiency of 17.8% Unique 5-busbar design reduces micro-crack risk Excellent anti-pid performance 0.1% efficiency step reduces the mismatch power loss during module assembly. Outstanding power output in low light or high temperature conditions Low breakage ratio Color uniformity Production and Quality Control Standard cells calibrated by Fraunhofer ISE LID monitoring Peel strength control Reverse current screening C

16 CSUN-M156-5BB No. Efficiency(%) Pmpp(W) Umpp(V) Impp(A) Uoc(V) Isc(A) FF(%) Mechanical Data and Design Format Thickness Front (-) Back (+) 156mm 156mm±0.5mm 200±20um 0.8mm bus bars (silver), blue anti-reflection coating (silicon nitride) 1.93mm wide soldering pads (silver), back surface field (aluminum) Standard Test Conditions(STC) Light intensity Spectrum Temperature Temperature Coefficients α (Isc) β (Voc) γ (Pmpp) 1000W/m² AM1.5G %/K -0.31%/K -0.41%/K IV Curve