Chase the light, Follow the trend, Accumulate the energy
Chase the light, Follow the trend, Accumulate the energy
SUSTAINABLE GREEN RENEWABLE ENERGY FOR THE WORLD
Jiangsu Soltrend New Energy Technology Co.,LTD.(hereinafterreferred to as "Soltrend") was established in 2023, it is an inteltigent manufacturing enterprise with R&D, manufacturing and sales of photovoltaic heterojunction (HyT)tandem solarcells andmodules as itsmainbusiness.As an allweather, all-application,lower-cost green energy solution providerin the gtobalcarbonneutrality,basedonHjT,abreakthroughplatform-level technology,Soltrend continues topromote the product transformation of the photovoltaicindustryandthecontinuousreductionof LcoE,creating continuousvalueforcustomers,andallowing theworld to enjoysustainable greenrenewable energy.
June 9, 2023
SOLTREND 10.8GW Heterojunction (HJT) Tandem solar cells and modules intelligent manufacturing project started.
The first phase of HJT cells equipment wasmoved in.
Aprl 26, 2024 The first phase of HJT components were off the assembly line.
March29, 2023 SOLTREND was established, headquartered in Lujiang County Helu Industrial New Town, Hefei City, Anhui Province.
August 18, 2023 The top of the steel structure of the PhaseI SOLTREND cells and modules plant is completed.
January 3o, 2024 The first phase of HJT cells were released, and the Hefei cellfactory was officially put into operation.
MILESTONE
Vision Let the world enjoy sustainable green renewable energy
Mission
To accelerate the realization of energy security and independence of China and mankind
Values Integrity, mindfulness, enhancement, dedication
SOLTREND TO THE WORLD
Soltrend has developed a global development strategy based on the expertise of its overseas-focused team,with the goal of influencing the global energy structure and continuing to advance thewell-being ofenergy,humans,and the planet.
WHY SOLTREND?
With Soltrend's strong technical capabilities and extensive industry experience, you can get....
Patented Technology
Industry-advanced technology empowerment
Efficient conversion Significantly reduced overall electricity costs
Low process temperature Safe and stable production environment
High stability
Smooth and safe operation of the equipment
Low degradation Increased module outputpower
Bifacial power Generation Significantly increase total power generation
TECHNOLOGICAL ADVANTAGE
TEAM
Soltrend has the industry's leading R&D team, dedicated tobreaking through technological boundaries and driving innovation.
Team with organizational system
Soltrend is composed of several senior photovoltaic leading figures who have been deeply involved in the new energy industry for more than 15 years.
Team CEO
Having successful historical experience in production management, operation, and global sales of 10Gw solar cells and modules.
R&D team
Having over 7 years of experience in HJT research and mass production processes, with a master's or doctoral degree accounting for Over 90%
Operations team
Having comprehensive operational management experience in early domestic HJT solar cell factories.
SMARTMANUFACTURING
With599 acres of intelligentphotovoltaicindustrialpark,Soltrend empowersgreenenergywithautomatedproductionandcontinuously promotes product iteration and renewal in the industry.
6 HJT cell production lines for 25.5%+ ultra-high efficiency in the first phase
Using AGV transfer, the entire automated process from wafer guiding, loading, production, unloading to transportation, sorting, and packaging is connected.
8 HJT 1GW mass production lines and 1 heterojunction 100Mw pilot line for CaTiO2 stacked cells in the second phase.
11.6 gw cels + GW modules
The first and second phases together have a planned annual capacity of 11.6Gw cells + 4GW modules.
ERPsystem MES system
A digital manufacturing system with SAP、ERP and single-piece tracking MES system.
PRODUCT
Soltrend has solved many technical and technological problems, providing efficieNt and reliable preducts to many industries.
High-efficiency n-type bifacial [HJT cells series
Higher conversion efficiency higher conversion efficiency : > 26%
Higher bifaciality Higher bifaciality: >93%
Lowtemperaturecoefficient Lower temperature coefficient:-0.26%/K
Lowcarbonemissions Lower energy consumption and carbon emissions
Lowdegradation No LID/PID
| Cellname | Bifacial HJTsiliconsolarcell |
| Model | N-type wafer, 18BB, (210.10±0.15) mm×(105.05±0.15) mm |
| Thickness | 110±20 μm |
| Frontside | 18 Busbar electrodes,blue TCO anti-reflection film |
| Backside (+ | 18Busbarelectrodes,blueTCOanti-reflectionfilm |
| Voltage Temperature Coefficient | -0.24%/K |
| CurrentTemperature Coefficient | 0.04%/K |
| Power Temperature Coefficient | -0.26%/K |
210-20BB
Mechanical Characteristics
| Cellname | Bifacial HJTsiliconsolarcell |
| Model | N-type wafer, 20BB, (210.10±0.15) mm×(105.05±0.15) mm |
| Thickness | 110±20 μm |
| Frontside | 20 Busbar electrodes, blue TCO anti-reflection film |
| Backside (+ | 20 Busbar electrodes, blue TCO anti-reflection film |
| Voltage Temperature Coefficient | -0.24%/K |
| CurrentTemperature Coefficient | 0.04%/K |
| Power Temperature Coefficient | -0.26%/K |
210-OBB
Mechanical Characteristics
| Cellname | BifacialHJTsiliconsolarcell |
| Model | N-typewafer,OBB, (210.10±0.15) mm×(105.05±0.15) mm |
| Thickness | 110±20 μm |
| Frontside | 24-columnswith solderjoints, without BusBarelectrodes blueTCOanti-reflectionfilm |
| Backside(+) | 24-columnswithsolderjoints,withoutBusBarelectrodes blueTCOanti-reflectionfilm |
| Voltage Temperature Coefficient | -0.24%/K |
| CurrentTemperature Coefficient | 0.04%/K |
| Power Temperature Coefficient | -0.26%/K |
High-efficiency n-type bifacial
HJT cells series
| Cellname | BifacialHJTsiliconsolarcell | |
| Model | N-type wafer, 18BB, (182.10±0.15) mmx (105.05±0.15) mm | |
| Thickness | 110±20μm | |
| Frontside(-) | 18Busbarelectrodes,blueTCOanti-reflectionfilm | |
| Backside(+) | 18Busbarelectrodes,blueTCO anti-reflectionfilm | |
| TemperatureParameters | ||
| VoltageTemperatureCoefficient | -0.24%/K | |
| CurrentTemperatureCoefficient | 0.04%/K | |
| PowerTemperatureCoefficient | -0.26%/K | |
| Cellname | BifacialHJTsiliconsolarcell | |
| Model | N-type wafer,OBB, (182.10±0.15)mmx(105.05±0.15) mm | |
| Thickness | 110±20μm | |
| Frontside(-) | 20-columnswith solderjoints,without BusBarelectrodes, blue TCO anti-reflection film | |
| Backside(+) | 20-columnswithsolderjoints,withoutBusBarelectrodes blueTcoanti-reflectionfilm | |
| TemperatureParameters | ||
| VoltageTemperatureCoefficient -0.24%/K | ||
| CurrentTemperatureCoefficient 0.04%/K -0.26%/K | ||
| PowerTemperatureCoefficient | ||
Module Type:96-210R (1762\*1134)
| Cell | HJT solar cell (182×105) |
| Numberofcells | 96pcs (6x8+6x8) |
| Dimensions | 1762×1134×30mm |
| Weight | 24kg |
| Front Glass | High transmittance, low iron, thermal tempered glass |
| BackGlass | Thermal tempered glass |
| Frame | Anodized aluminum alloy |
| JunctionBox | Ip68, 1500VDC, 3 bypass diodes |
| Cable | 4.0mm² (12AWG), IEC |
| Connector | Compatible with Mc4 |
| NMOT | 43°C±2°℃ |
| VoltageTemperatureCoefficient(β) | -0.24%/℃ |
| CurrentTemperatureCoefficient(α) | 0.04%/℃ |
| PowerTemperatureCoefficient | -0.26%/℃ |
| OperatingTemperatureRange | -40℃-85℃ |
| MaximumSystemVoltage | 1500VDC |
| MaximumFuseRatedCurrent | 30A |
| LimitedReverseCurrent | 30A |
| Fire Rating | CLASS C(IEC61730) |
| ApplicationLevel | Class A |
Module Type:132-210 (2384\*1303)
| Cell | HJT solar cell(210x105) |
| Numberofcells | 132pcs (6×11+6×11) |
| Dimensions | 2384×1303×33mm |
| Weight | 38.5kg |
| FrontGlass | High transmittance, low iron, thermal tempered glass |
| BackGlass | Thermal tempered glass |
| Frame | Anodized aluminum alloy |
| JunctionBox | Ip68, 1500VDC, 3 bypass diodes |
| Cable | 4.0mm2 (12AWG), IEC |
| Connector | Compatible with Mc4 |
| NMOT | 43°℃±2℃ |
| VoltageTemperatureCoefficient(β) | -0.24%/℃ |
| CurrentTemperatureCoefficient(a) | 0.04%/℃ |
| PowerTemperatureCoefficient | -0.26%/℃ |
| OperatingTemperatureRange | -40°℃-85°℃ |
| MaximumSystemVoltage | 1500VDC |
| MaximumFuseRatedCurrent | 30A |
| LimitedReverseCurrent | 30A |
| Fire Rating | CLASSC(IEC61730) |
| ApplicationLevel | Class A |
WHAT CAN SOLTREND DO?
Provide all-weather, all-scene, and lower-cost greenenergy solutions to the whole world, all industries.
To make buildings greener
In residential buildings, heterojunction tandem cells and modules of SOLTREND can provide electricity as a sustainable energy source, achieve self-sufficient energy supply, and save electricity costs.
INDUSTRY APPLICATION
To make businesses more energy efficient
In the publicdomain,Soltrend offers a cost-effective solution for green energy in industrial and commercial facilities, schools, office buildings, and other buildings. It reduces thecostofelectricitywhile enhancing the sustainability of enterprises and improving their social responsibility.
Factory
School
To make energy more balanced
Incomplexterrainenvironments,theuseofSOLTREND heterojunction tandem cells and modules with high stability and adaptability can provide reliable energy support for residents in remote areas, field operations, and marine energy utilization, to balance energy distribution.
BUILD A GREEN WORLD
Soltrend is dedicated to renewable energy manufacturing to boost global efforts in achieving carbon neutrality by2050.
Annual production capacity:
Energy consumption (electricity) per year:
6.6 Hundred million about 660 million standard pieces
1.44 Hundred million about 144 million kWh
Co2 emissions per year:
The emissionreduction ofthe whole life cycle of the product applied to the terminal per year
11.2 ten housand about 112,000 tons.
The input-output ratio of carbon dioxide:
1260 Hundred million degrees Renewable energy generation capacity of approximately 126 billion kwh/year
150 times more than 150 times
9828 Tenthousand tons Co2 emission reduction per year: about 98.28 million tons.
Total employment available:
1400 people about 1,400 people
LOW-CARBON FUTURE
Contribute values to the PV industry and entire society, strive to create a zero-carbon green energy world tirelessly!
The future technology roadmap planning of Soltr
Module power: 730w Cell efficiency: 25.5% Thin and lightweight Low indium and silver
Modulepower:870w Cell efficiency: 30% Tandem Solar cell technology
2024 S2>2025 S3 >2026 D1—>2027 D1
THE FUTURE LOOKS PROMISING




