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May 24, 2016 is a boiling day
for PV companies around the world.
On the first day of SNEC, all companies took out the treasures at the bottom of the box
.
As a leading monocrystalline module manufacturer, on the morning of May 24, LEYE PV released its new Hi-MO1, which is a low-attenuation and high-efficiency monocrystalline module
that contributes additional value to customers without increasing costs by virtue of its own strength and the Changjing technology support of its parent company LONGi.
The initial light decay (LID) of Hi-MO1 is more than 50% lower than that of ordinary monocrystalline modules, that is, the LID does not exceed 1.
5%, which can be controlled within 1% in good cases, while the conversion efficiency of the full area of the module is as high as 18.
35%, and the power of the 60 type reaches 300W
.
The birth of Hi-MO1 means that Leye PV has taken another big step
on the road to parity of high-end modules.
Zhong Baoshen, executive director of Leye Photovoltaics, pointed out: Looking back at the history of the development of the global photovoltaic industry, the conversion efficiency of monocrystalline cells has increased from 4.
5% in 1954 to more than 20% today, and in 1985, the price of monocrystalline cells was 10 US dollars / watt; Today, 31 years later, the price is only about
3% of the original price.
The efficient products and the development of industrialized scale have truly promoted the popularization
of photovoltaics.
Unlike other crystalline silicon technology, single crystal has a perfect lattice arrangement, its metal impurity content is extremely low, with the natural advantage of power generation performance, Europe, Japan, the United States, China, the earliest photovoltaic power plants are almost monocrystalline, monocrystalline power station has withstood the historical test of more than 30 years, and the average annual attenuation of some power stations is only about
four thousandths 。 On the other hand, P-type single crystal due to boron-oxygen complex, the first 2-3 months of photodecay phenomenon, in the next 9-10 months gradually recovered, although the first year and long-term power generation of monocrystalline has advantages compared with similar crystalline silicon, but the initial light decay phenomenon does not make the monocrystalline power generation performance play to the fullest
.
Chen Hong, deputy general manager of Leye Photovoltaic, said that Leye PV organized a large number of R&D resources to study how to reduce the initial attenuation of modules, and its parent company LONGi Co.
, Ltd.
has also invested heavily in this direction, such as making a major breakthrough
in monocrystalline oxygen control.
After continuous technical breakthroughs, Leye Solar finally found a way to reduce the initial light decay, and most importantly, found the perfect combination of increasing module power and reducing the initial light decay, which is the root of the birth of Hi-MO1
.
Compared with multicrystalline modules and conventional monocrystalline modules, Hi-MO1 has a smoother attenuation curve and a higher
25-year power stability value.
In terms of module power, Hi-MO1 maintains a far leading position compared to multicrystalline modules and conventional monocrystalline modules
.
At present, the pilot line of Leye PV has produced Hi-MO1 products with 300W specifications, with a mass production specification of 290W, and can achieve mass production
of 300W specifications by the first half of 2017.
Shi Limin, deputy secretary-general of the New Energy Chamber of Commerce of the All-China Federation of Industry and Commerce, pointed out in his speech that the photovoltaic industry is facing supply-side structural reform, the essence of which is to effectively play the decisive role of the market in resource allocation, and photovoltaic will eventually get out of the dilemma of subsidy dependence, and promote the improvement of technical level through market pull
.
In the past year, more and more photovoltaic products have reached the national "leader" requirements, and a virtuous circle of market development to technological innovation and then driving the market in turn is forming
.
May 24, 2016 is a boiling day
for PV companies around the world.
On the first day of SNEC, all companies took out the treasures at the bottom of the box
.
As a leading monocrystalline module manufacturer, on the morning of May 24, LEYE PV released its new Hi-MO1, which is a low-attenuation and high-efficiency monocrystalline module
that contributes additional value to customers without increasing costs by virtue of its own strength and the Changjing technology support of its parent company LONGi.
The initial light decay (LID) of Hi-MO1 is more than 50% lower than that of ordinary monocrystalline modules, that is, the LID does not exceed 1.
5%, which can be controlled within 1% in good cases, while the conversion efficiency of the full area of the module is as high as 18.
35%, and the power of the 60 type reaches 300W
.
The birth of Hi-MO1 means that Leye PV has taken another big step
on the road to parity of high-end modules.
Zhong Baoshen, executive director of Leye Photovoltaics, pointed out: Looking back at the history of the development of the global photovoltaic industry, the conversion efficiency of monocrystalline cells has increased from 4.
5% in 1954 to more than 20% today, and in 1985, the price of monocrystalline cells was 10 US dollars / watt; Today, 31 years later, the price is only about
3% of the original price.
The efficient products and the development of industrialized scale have truly promoted the popularization
of photovoltaics.
Unlike other crystalline silicon technology, single crystal has a perfect lattice arrangement, its metal impurity content is extremely low, with the natural advantage of power generation performance, Europe, Japan, the United States, China, the earliest photovoltaic power plants are almost monocrystalline, monocrystalline power station has withstood the historical test of more than 30 years, and the average annual attenuation of some power stations is only about
four thousandths 。 On the other hand, P-type single crystal due to boron-oxygen complex, the first 2-3 months of photodecay phenomenon, in the next 9-10 months gradually recovered, although the first year and long-term power generation of monocrystalline has advantages compared with similar crystalline silicon, but the initial light decay phenomenon does not make the monocrystalline power generation performance play to the fullest
.
Chen Hong, deputy general manager of Leye Photovoltaic, said that Leye PV organized a large number of R&D resources to study how to reduce the initial attenuation of modules, and its parent company LONGi Co.
, Ltd.
has also invested heavily in this direction, such as making a major breakthrough
in monocrystalline oxygen control.
After continuous technical breakthroughs, Leye Solar finally found a way to reduce the initial light decay, and most importantly, found the perfect combination of increasing module power and reducing the initial light decay, which is the root of the birth of Hi-MO1
.
Compared with multicrystalline modules and conventional monocrystalline modules, Hi-MO1 has a smoother attenuation curve and a higher
25-year power stability value.
In terms of module power, Hi-MO1 maintains a far leading position compared to multicrystalline modules and conventional monocrystalline modules
.
At present, the pilot line of Leye PV has produced Hi-MO1 products with 300W specifications, with a mass production specification of 290W, and can achieve mass production
of 300W specifications by the first half of 2017.
Shi Limin, deputy secretary-general of the New Energy Chamber of Commerce of the All-China Federation of Industry and Commerce, pointed out in his speech that the photovoltaic industry is facing supply-side structural reform, the essence of which is to effectively play the decisive role of the market in resource allocation, and photovoltaic will eventually get out of the dilemma of subsidy dependence, and promote the improvement of technical level through market pull
.
In the past year, more and more photovoltaic products have reached the national "leader" requirements, and a virtuous circle of market development to technological innovation and then driving the market in turn is forming
.
