On November 7, INNOVER Laser officially released TOPCON laser SE direct doping equipment, helping the photovoltaic industry overcome the problem of laser boron doping. At present, the technical route of photovoltaic crystalline silicon battery is being upgraded from P-type PERC battery to N-type battery. Among them, the scale of expansion of TOPCON battery is expected to be the highest, and the photovoltaic industry is about to enter the era of TOPCON.
INNOVER TOPCON Laser SE Direct Doping Equipment
InnoLaser was founded in 2011 and will be listed on the Shenzhen Stock Exchange Growth Enterprise Market in 2021. The company is mainly engaged in the R&D, production and sales of lasers and embedded laser modules. Its products have entered the supply chain of global well-known enterprises such as Apple, Medtronic, and foreign well-known semiconductor equipment companies. Relying on the advantages of the ability of laser and other core components, Inno Laser has successfully developed the QuaPulseTM laser space-time modulation technology based on its earlier experience in the field of PERC batteries and the integrated solution capability of "light source+optics/operation control+process", and officially launched the customized laser and TOPCON laser SE direct doping equipment based on this technology.
It is reported that QuaPulseTM laser technology can achieve a more uniform process output effect through multi-dimensional accurate modulation, which is expected to help TOPCON battery significantly improve efficiency, with excellent cost performance. This action overcame the TOPCON laser direct doping process that has plagued the photovoltaic industry for many years, pushed down the cost of single GW cell chip, and effectively assisted the mass production of boron doping process in the photovoltaic industry.
Entering photovoltaic business
In the first three quarters of this year, the Company achieved revenue of 241 million yuan, a year-on-year decrease of 18.01%, and net profit attributable to the parent company of 22.9108 million yuan, a year-on-year decrease of 65.44%; In the third quarter, the revenue was 71.07 million yuan, a year-on-year decrease of 22.23%, and the net profit attributable to the parent company was -3.7123 million yuan, a year-on-year decrease of 114.37%. Under the influence of epidemic situation and downstream industry demand, the company's performance declined. Despite the decline in performance, the company continued to invest in R&D steadily and expanded in multiple application fields.
The official release of TOPCON laser SE direct doping equipment is a milestone in the company's photovoltaic business process, and also a successful practice in expanding new fields after the company successfully landed consumer electronics, 3D printing, traceable marking, high-value medical devices/interventional devices and other businesses.
InnoLaser has its own advantages in entering the photovoltaic industry. With laser as the core and embedded module as the tentacle, the company faces the global market and focuses on serving the two major fields of "industrial application" and "biomedical application". By helping customers solve the "pain points" in the industry, the company will gradually expand the incremental market.
On the one hand, in terms of core laser products, the company has the capability of full spectrum micro processing lasers, including DPSS Q-switched nanosecond lasers, ultrashort pulse lasers (picosecond, femtosecond), MOPA nanosecond/subnanosecond lasers, covering different wavebands from infrared to deep ultraviolet, and a variety of pulse widths from nanosecond to femtosecond. The field of ultra precision processing is expanding in emerging fields such as semiconductor, photovoltaic cell, printed circuit board, comprehensive screen/flexible screen, etc.
On the other hand, the company has excellent platform capability of "light source+optics/operation control+process". The photovoltaic industry pursues cost reduction and efficiency increase. The company can deeply understand the pain points of terminal demand and deeply analyze the interaction mechanism of light and materials, so as to customize, develop and optimize the combination of laser, optical system, motion control, vision system and other functional components under the R&D concept of "theory guided innovation" and "technology reuse", to achieve integrated solutions and serve the cutting-edge needs of leading customers in various industries.
Source:ofweek
