Features

• Module power up to 730 W Module efficiency up to 23.5 %.

• Up to 90% Power Bifaciality, more power from the back side.

• No B-O LID, excellent anti-LeTID & anti-PID performance. Low power degradation, high energy yield.

• Leading temperature coefficient (Pmax): -0.24%/°C, increases energy yield in hot climate.

• Better shading tolerance.

Standard

• Tested up to ice ball of 35 mm diameter according to IEC 61215 standard.

• Minimizes micro-crack impacts.

• Heavy snow load up to 5400 Pa, enhanced wind load up to 2400 Pa*.

Engineering drawing（mm）

CS7-66HB-710/ I-V gurves

Electrical date/STC*

Electrical date/NMOT*

Electrical date

Mechanical charactheristics

Temperature characteristics

What is a bifacial N-type heterojunction cell module？

N-type Heterojunction Battery Technology：

The N-type Heterojunction Battery (abbreviated as N-HJ or HJT) is a special battery technology. It forms a heterojunction structure by depositing a layer of amorphous silicon film on an N-type silicon wafer. This structure endows the battery with the following advantages:

• High Conversion Efficiency: The N-type Heterojunction Battery has a relatively high photoelectric conversion efficiency. Laboratory records show that it can reach over 26%.

• Low Temperature Coefficient: This type of battery is less sensitive to temperature and can maintain a relatively high power generation efficiency even in a high-temperature environment.

• Good Response to Low Light: The N-type Heterojunction Battery still performs excellently under low-light conditions and is suitable for use under various lighting conditions.

• Low Power Attenuation: Due to the design of the battery structure, the N-type Heterojunction Battery has a low power attenuation rate, ensuring its long-term and stable working performance.

• Long Lifespan: The N-type Heterojunction Battery has a relatively long working lifespan, reducing the risk of power attenuation.