2024 China Photovoltaic Power Generation Technology Industry 14th Five-Year Strategic Planning and Investment Direction Research Report

2024-2030 China Photovoltaic Power Generation Technology Industry 14th Five-Year Strategic Planning and Investment Direction Research Report

[Publisher]: Zhongying Xinhe Research Network

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Chapter 1 Analysis of the development status of photovoltaic power generation technology in China from 2021 to 2023

1.1 Policy environment for photovoltaic power generation technology in mainland China

1.1.1 Policies related to photovoltaic power generation technology

1.1.2 Photovoltaic power generation technical standard system

1.1.3 Photovoltaic power generation technology policy planning

1.2 Development of photovoltaic power generation technology in mainland China from 2021 to 2023

1.2.1 Basic principles of photovoltaic power generation technology

1.2.2 Photovoltaic power generation technology roadmap

1.2.3 Development history of photovoltaic power generation technology

1.2.4 Iterative process of photovoltaic power generation technology

1.2.5 Review of the development of photovoltaic power generation technology

1.2.6 Overview of the development of photovoltaic power generation technology

1.2.7 Progress in the development of photovoltaic power generation technology

1.2.8 Layout of photovoltaic power generation technology enterprises

1.2.9 Investment in scientific research of photovoltaic power generation technology

1.2.10 Inventory of photovoltaic power generation technology changes

1.3 Analysis of the development of smart PV in mainland China from 2021 to 2023

1.3.1 Smart PV policy support

1.3.2 Development status of smart photovoltaics

1.3.3 Photovoltaic digital competitiveness

1.3.4 Smart PV pilot demonstration

1.3.5 Challenges in the development of smart photovoltaics

1.3.6 Smart photovoltaic development tasks

1.3.7 Development trend of smart photovoltaics

1.3.8 Smart PV development goals

1.4 2021-2023 Power Generation Technology Competition Situation of Mainstream Photovoltaic Enterprises in China

1.4.1 Technological change of photovoltaic enterprises

1.4.2 R&D investment of photovoltaic enterprises

1.4.3 Emerging technologies of photovoltaic enterprises

1.4.4 Technical path of photovoltaic enterprises

1.5 Analysis of the application of photovoltaic power generation technology in typical industries in mainland China

1.5.1 Agriculture

1.5.2 Transportation

1.5.3 Lighting

1.5.4 Energy storage

1.5.5 BIPV Domain

1.5.6 Substation field

1.6 Analysis of key technologies and strategies for grid connection of photovoltaic power generation

1.6.1 Overview of key technologies for grid connection of photovoltaic power generation

1.6.2 Problems existing in the grid-connected photovoltaic power generation

1.6.3 Control requirements for grid-connected photovoltaic power generation

1.6.4 Optimization strategy for grid-connected photovoltaic power generation

1.7 Analysis of the development problems and countermeasures of photovoltaic power generation technology in mainland China

1.7.1 Export restrictions on photovoltaic technology

1.7.2 The conversion efficiency of P-type cells is low

1.7.3 Low conversion efficiency of thin-film cells in mass production

1.7.4 Countermeasures for the development of photovoltaic power generation technology

Chapter 2 Analysis of the technological development of the polysilicon sector from 2021 to 2023

2.1 Overview of technological development in the polysilicon sector

2.1.1 Technological development history

2.1.2 Review of technological developments

2.1.3 Analysis of technical standards

2.1.4 Current status of technological development

2.1.5 Comparison of mainstream technologies

2.1.6 Technological development process

2.1.7 Enterprise technical route

2.1.8 Technology Investment Logic

2.2 Analysis of the development of the modified Siemens method

2.2.1 Production process

2.2.2 Technological development history

2.2.3 Overview of technological developments

2.2.4 Scale of process energy consumption

2.2.5 Production cost structure

2.2.6 Reducing the investment route

2.2.7 Space for technological development

2.3 Development and analysis of silane fluidized bed method

2.3.1 Production process

2.3.2 Technological development history

2.3.3 Technological development

2.3.4 Analysis of technical standards

2.3.5 Mainstream enterprise competition

2.3.6 Technology patent application

2.3.7 Enterprise layout dynamics

2.3.8 Technological development dilemma

2.3.9 Technology Development Trends

2.4 Prediction of key indicators in the polysilicon sector

2.4.1 Energy consumption of polysilicon technology

2.4.2 Utilization rate of waste heat for restoration

2.4.3 Market share of product form

2.4.4 Investment cost of trichlorosilane

2.4.5 Technical and economic benefits of polysilicon process

Chapter 3 Analysis of the technological development status of the silicon wafer sector from 2021 to 2023

3.1 Overview of the technological development of the silicon wafer sector

3.1.1 Technological development history

3.1.2 Review of technological developments

3.1.3 Production process

3.1.4 Overview of technological developments

3.1.5 Production cost analysis

3.1.6 Enterprise layout dynamics

3.1.7 Technology development trends

3.1.8 Cost reduction development path

3.2 Analysis of the development of crystal pulling technology

3.2.1 Overview of technological developments

3.2.2 Core production equipment

3.2.3 New Straight Pull Technology

3.2.4 Enterprise Competitive Landscape

3.2.5 Production cost analysis

3.2.6 Technological development prospects

3.2.7 Benefits of technological development

3.3 Analysis of the development of slicing technology

3.3.1 Overview of technological developments

3.3.2 Core production equipment

3.3.3 Analysis of technical standards

3.3.4 Enterprise Competitive Landscape

3.3.5 Production cost analysis

3.3.6 Technological development prospects

3.3.7 Benefits of technological development

3.4 Analysis of diamond wire technology development

3.4.1 Overview of technological developments

3.4.2 Technological development advantages

3.4.3 Technological development history

3.4.4 Production process

3.4.5 Current status of technological development

3.4.6 Enterprise layout dynamics

3.4.7 Technology Development Trends

3.5 Prediction of key indicators in the wafer sector

3.5.1 Technical energy consumption

3.5.2 Wafer thickness

3.5.3 Diamond wire bus diameter

3.5.4 Output

3.5.5 Investment Costs

3.5.6 Market Structure

3.5.7 Output efficiency

Chapter 4 Analysis of the technological development status of the cell sector from 2021 to 2023

4.1 Overview of technological development in the cell sector

4.1.1 Overview of technological developments

4.1.2 Mainstream technology route

4.1.3 Production process

4.1.4 Technological development history

4.1.5 Review of technological developments

4.1.6 Overview of technological developments

4.1.7 Battery conversion efficiency

4.1.8 Enterprise Competitive Landscape

4.2 Analysis of AL-BSF technology development

4.2.1 Overview of technological developments

4.2.2 Production process

4.2.3 Current status of technological development

4.2.4 Enterprise Competitive Landscape

4.3 PERC Technology Development Analysis

4.3.1 Overview of technological developments

4.3.2 Production process

4.3.3 Technological development history

4.3.4 Technology conversion efficiency

4.3.5 Technology penetration

4.3.6 Technology Development Trends

4.4 TopCon Technology Development Analysis

4.4.1 Overview of technological developments

4.4.2 Technological development history

4.4.3 Review of technological developments

4.4.4 Mainstream technical routes

4.4.5 Technology conversion efficiency

4.4.6 Production cost analysis

4.4.7 Enterprise Competitive Landscape

4.4.8 Battery efficiency improvement path

4.5 HJT Technology Development Analysis

4.5.1 Overview of technological developments

4.5.2 Technological development history

4.5.3 Technological development advantages

4.5.4 Review of technological developments

4.5.5 Technology conversion efficiency

4.5.6 Production cost analysis

4.5.7 Cost reduction and efficiency improvement path

4.5.8 Technological development prospects

4.6 IBC Technology Development Analysis

4.6.1 Overview of technological developments

4.6.2 Production process

4.6.3 Technological development advantages

4.6.4 Technological development history

4.6.5 Review of technological developments

4.6.6 Technology conversion efficiency

4.6.7 Enterprise layout dynamics

4.7 Analysis of perovskite technology development

4.7.1 Overview of technological developments

4.7.2 Production process

4.7.3 Technological development history

4.7.4 Technological development advantages

4.7.5 Disadvantages of technological development

4.7.6 Relevant policy support

4.7.7 Technology Conversion Efficiency

4.7.8 Enterprise layout dynamics

4.8 Prediction of key indicators in the cell sector

4.8.1 Average conversion efficiency of battery technology

4.8.2 Market share of battery technology routes

4.8.3 Energy consumption of cell technology

4.8.4 Market share of metal electrode technology

4.8.5 Market share of busbar printing technology

4.8.6 Investment in equipment per unit of cell production capacity

4.8.7 Resistor of the emitter cube of the p-type cell

4.8.8 Market share of cell back passivation technology

4.8.9 Market share of cell TCO deposition method

4.8.10 Width and alignment accuracy of fine grid line on the front side of the battery

4.8.11 Market share of cell busbar technology

4.8.12 Output efficiency of cell technology

Chapter 5 Analysis of the technological development status of the module link from 2021 to 2023

5.1 Overview of the technological development of the component link

5.1.1 Introduction to mainstream technologies

5.1.2 Production process

5.1.3 Progress in technical standardization

5.1.4 Review of technological developments

5.1.5 Characteristics of technological development

5.1.6 Photovoltaic module efficiency

5.1.7 Enterprise product layout

5.1.8 Enterprise technical route

5.1.9 Component Lifting Path

5.1.10 Technology Development Trends

5.2 Analysis of the development of half-chip technology

5.2.1 Overview of technological developments

5.2.2 Technological development advantages

5.2.3 Technology Competitive Landscape

5.2.4 Enterprise layout dynamics

5.2.5 Technological development dilemma

5.3 Analysis of the development of shingling technology

5.3.1 Overview of technological developments

5.3.2 Technology patent application

5.3.3 Significance of technological development

5.3.4 Overview of technological developments

5.3.5 Technological development process

5.3.6 Benefits of technological development

5.4 Analysis of the development of multi-busbar technology

5.4.1 Overview of technological developments

5.4.2 Significance of technological development

5.4.3 Current status of technological development

5.4.4 Technological development dilemma

5.5 Analysis of busbar-less technology development

5.5.1 Overview of technological developments

5.5.2 Enterprise layout dynamics

5.5.3 Technical scheme layout

5.5.4 Technological development dilemma

5.5.5 Technology Investment Risk

5.5.6 Technology Investment Advice

5.5.7 Technology cost reduction

5.6 Prediction of key indicators in the component link

5.6.1 Component power

5.6.2 Component Power Consumption

5.6.3 Module Market Share

5.6.4 Light transmittance of tempered coated glass

5.6.5 Localized supply rate of resin particles

5.6.6 Productivity of component technology

Chapter 6 Strategic Deployment of Photovoltaic Power Generation Technology for Key Enterprises in the Mainland

6.1 LONGi Green Energy

6.1.1 Overview of enterprise development

6.1.2 Technological Development Results

6.1.3 R&D investment

6.1.4 Technical strength of the enterprise

6.1.5 Enterprise layout dynamics

6.1.6 Company development strategy

6.2 Tongwei Shares

6.2.1 Enterprise development

6.2.2 The main business of the enterprise

6.2.3 Competitive strength of the enterprise

6.2.4 Technological Development Results

6.2.5 R&D investment

6.2.6 Enterprise layout dynamics

6.2.7 Enterprise development strategy

6.3 Sungrow

6.3.1 Enterprise development overview

6.3.2 Market Position of the Enterprise

6.3.3 Technological Development Results

6.3.4 Technical strength of the enterprise

6.3.5 Enterprise patent application

6.3.6 R&D investment

6.3.7 Enterprise layout dynamics

6.4 TCL Central

6.4.1 Enterprise development

6.4.2 Enterprise development advantages

6.4.3 Main business of the enterprise

6.4.4 Progress in technological innovation

6.4.5 R&D investment

6.4.6 Interoperability of Patents by Enterprises

6.4.7 Enterprise layout dynamics

6.4.8 Enterprise development strategy

6.5 Trina Solar

6.5.1 Enterprise development

6.5.2 Market Position of the Enterprise

6.5.3 The main business of the enterprise

6.5.4 Current status of technological development

6.5.5 Progress in technological innovation

6.5.6 R&D achievements of enterprises

6.5.7 Enterprise layout dynamics

Chapter 7 Forecast of the development prospect and trend of photovoltaic power generation technology at home and abroad

7.1 Prospects for the development of global photovoltaic power generation technology

7.1.1 Global development level of photovoltaic power generation technology

7.1.2 Global development trend of photovoltaic power generation technology

7.1.3 Global PV technology development potential

7.2 Analysis of the development prospect of photovoltaic power generation technology in China

7.2.1 Development direction of photovoltaic power generation technology in China

7.2.2 Development trend of photovoltaic power generation technology in China

7.2.3 Direction of China's distributed photovoltaic technology innovation

7.3 Prospects for the development of China's photovoltaic power generation technology during the 14th Five-Year Plan

7.3.1 The development direction and goals of photovoltaic power generation technology in the 14th Five-Year Plan

7.3.2 Prospects for the future development of photovoltaic power generation technology during the 14th Five-Year Plan

Table of Contents of Charts

Chart Summary of key technical policies in China's photovoltaic power generation industry

Chart Summary of 2023 mainland photovoltaic power generation technology standards

Chart Summary of 2023 Continental Photovoltaic Power Generation Technical Standards (continued)

Diagram Principles of photovoltaic power generation technology

Chart Technology panorama of the photovoltaic power generation industry

Chart Origin of photovoltaic cells

Chart Discussion of N-type technology development

Diagram Iterative progress of photovoltaic technology

Chart 2022 CPVS solar cell China's highest efficiency progress

Figure Number of national key R&D projects related to photovoltaic power generation technology in China from 2018 to 2021

Chart: Top 10 enterprises in China's photovoltaic digital service providers in terms of comprehensive competitiveness in 2021

Chart List of the third batch of smart photovoltaic pilot demonstration enterprises

Chart List of the third batch of smart PV pilot demonstration projects

Chart List of the Third Batch of Smart PV Pilot Demonstration Projects (continued)

Chart Introduction to the top 10 trends of smart PV

Chart Summary of major technological changes in photovoltaic manufacturing

Chart R&D investment of leading PV enterprises in 2022

Figure 2021-2022 comparison of R&D investment of leading PV enterprises

Figure Comprehensive comparison of electrochemical energy storage technologies

Diagram Grid-connected photovoltaic power generation

Chart Normal operating voltage range of photovoltaic power generation

Diagram Conversion efficiency of different crystalline silicon cells

Figure 2021 Mass production conversion efficiency and laboratory conversion efficiency of thin-film cells

Figure Comparison of the development history of the modified Siemens method and the silane fluidized bed method

Chart: Major technological changes in the polysilicon sector

Chart: Polysilicon industry standard

Chart Downstream enterprises bind to leading polysilicon companies through equity participation

Figure 2018-2022 rod silicon and granular silicon market share

Chart Production technology route of major polysilicon companies

Chart Logic diagram of polysilicon investment

Figure Modified Siemens process for polysilicon production

Figure Table of physicochemical properties of the main materials involved in distillation and disproportionation

Diagram The main material atomization indexes involved in the exhaust gas recovery section

Chart History of the Siemens Method

Chart Statistics on the proportion of investment in each system of Siemens' polysilicon production line in 2021

Figure Statistics on the proportion of land occupied by each system of Siemens polysilicon production line in 2021

Figure 2010-2021 Siemens process energy consumption statistics

Chart The reduction power consumption decreases with the increase of the reduction furnace specification

Chart Xinte Baotou project (Siemens method) steam balance sheet

Chart Leading companies improve the cost structure of Siemens polysilicon production

Chart The investment in fixed assets per unit of production capacity of the improved Siemens method decreased significantly

Chart The production cost of Jiangsu Zhongneng polysilicon has decreased year by year with the expansion of production line scale

Chart The purchase price of Tongwei's reduction furnace has been decreasing year by year

Figure 2016-2030 Siemens process energy consumption statistics

Diagram diagram schematic diagram of fluidized bed structure

Figure Flow diagram of polysilicon production by silane fluidized bed

Chart The development history of photovoltaic granular silicon

Chart GCL Technology, Tianhong Ruike granular silicon product indicators

Chart Granular silicon technology layout

Chart GCL and MEMC related patents

Chart Patents related to granular silicon of other domestic companies

Chart GCL Technology's polysilicon long list

Chart Granular silicon enterprise combing

Figure Technical difficulties of silane fluidized bed method

Chart 2024-2030 Trend of Reduced Power Consumption

Chart Trend of cold hydrogenation power consumption from 2024 to 2030

Chart 2024-2030 comprehensive power consumption trend

Figure 2024-2030 water consumption trend

Chart Trend of steam consumption from 2024 to 2030

Chart 2024-2030 comprehensive energy consumption trends

Chart: Trend of silicon unit consumption from 2024 to 2030

Figure 2024-2030 Trend of waste heat utilization rate of reduction

Figure 2024-2030 rod silicon and granular silicon market share change trend

Chart 2024-2030 trichlorosilane polysilicon production line investment cost change trend

Figure 2024-2030 polysilicon production line per capita output trend

Chart The change process of the mainstream size of photovoltaic silicon wafers

Chart: Major technological changes in the silicon wafer sector

Diagram Silicon wafer pulling process

Diagram The process of silicon wafer slicing

Chart Comparison of wafer costs of different specifications

Chart Examples of enterprises that have laid out large silicon wafer technology routes

Chart Variation in the size of photovoltaic silicon wafers

Chart G12 cost reduction of different wafer thicknesses

Chart G12 wafer thinning technology roadmap

Diagram Schematic diagram of the important process of crystal pulling

Figure Introduction to the main steps of crystal pulling

Diagram Schematic diagram of the structure of a single crystal furnace

Chart: Revenue of Liancheng and Jingsheng crystal growth furnace business

Chart The revenue proportion of the top five customers of Liancheng and Jingsheng

Chart Liancheng's revenue growth rate is highly correlated with the growth rate of LONGi's new production capacity

Chart Proportion of wafer pulling cost

Figure Input-output model of monocrystalline furnace crystal pulling-the effect of different silicon wafer sizes on round bar yield

Diagram Mortar cutting (left) vs. diamond wire cutting

Diagram Diagram of the important flow of slicing

Diagram Typical wafer manufacturing flow

Diagram Schematic diagram of the working of the double-roll multi-wire cutting machine

Chart Technical indicators and evaluation criteria of photovoltaic cutting equipment

Chart 2017-2021 slicing equipment revenue of major enterprises

Chart Gross profit margin of slicing equipment of major enterprises from 2017 to 2021

Chart Proportion of cost of silicon wafer slicing

Figure Input-output model of monocrystalline furnace crystal pulling - the influence of different silicon wafer sizes on wafer output per unit length (W).

Figure Schematic diagram of the longitudinal cross-section of the diamond wire

Diagram Schematic diagram of the transverse section of the diamond wire

Diagram Schematic diagram of the principle of traditional mortar cutting

Diagram Schematic diagram of the new diamond wire cutting principle

Diagram Comparison of different cutting methods

Chart The development history of diamond wire

Diagram Diamond wire production process

Diagram The diameter of the diamond wire is gradually refined

Chart: Average line consumption per wafer of different thicknesses

Chart Comparison of core performance indicators of diamond wires

Chart Development trend of diamond wire cutting technology

Chart 2024-2030 power consumption trend of rods

Chart 2024-2030 ingot power consumption trend

Figure 2024-2030 slicing power consumption trend

Chart 2024-2030 rod single furnace feeding trend

Chart 2024-2030 ingot single furnace feeding trend

Chart 2024-2030 Trend of silicon consumption of ingots

Figure 2024-2030 water consumption trends

Figure 2024-2030 wafer thickness trend

Figure 2024-2030 diamond wire bus diameter change trend

Figure 2024-2030 Trend of output per kilogram of square bar/square ingot under diamond wire cutting

Chart 2024-2030 Trend of equipment investment cost in rod/ingot link

Chart 2024-2030 slicing equipment investment cost change trend

Chart: 2024-2030 trend of market share of different types of silicon wafers

Chart: 2024-2030 Trend of the market share of silicon wafers of different sizes

Figure 2024-2030 per capita output rate of pull rods (square bars).

Figure 2024-2030 per capita output rate of slices

Diagram Comparison of process routes for various batteries

Diagram Cell production process by different technologies

Chart History of photovoltaic cell technology

Chart: Major technological changes in the cell sector

Chart Changes in conversion efficiency of different cells

Chart: Summary of photovoltaic cell efficiency of some companies

Diagram Aluminum back-field battery process equipment

Figure The process principle of aluminum back-field battery

Chart Domestic and foreign suppliers of BSF cell process equipment

Diagram Single-sided PERC cell structure

Diagram PERC cell process equipment

Figure PERC cell process principle

Figure Two back passivation technology paths based on alumina, PECVD

Chart Comparison and calculation of investment in ALD and PECVD technology routes

Chart PERC cell development history

Chart The highest efficiency of PERC cells of mainstream PV companies

Figure 2016-2021 battery penetration rate by different technical routes

Figure 2016-2030 PERC cell mass production efficiency trend

Diagram TOPCon cell structure diagram

Chart The development history of TOPCon batteries

Chart TOPCon's main process technology routes

Chart Highest efficiency record of N-type TOPCon

Chart TOPCon and PERC cell technology and equipment transformation

Chart TOPCon battery cost structure

Chart Technology path selection for TOPCon's new production capacity

Diagram TOPCon efficiency improvement path

Figure Structure diagram of HJT heterojunction cell

Chart The development history of HJT batteries

Chart Temperature coefficient of various types of batteries

Figure Comparison of process steps between HJT cells and TOPCon cells

Chart HJT Highest Conversion Efficiency (International Certification)

Chart HJT Highest Conversion Efficiency (Non-International Certification)

Chart 2022 PERC cell vs. HJT cell cost comparison

Chart HJT cost structure

Chart HJT's non-silicon cost structure

Chart HJT battery production equipment suppliers

Chart Key technologies for cost reduction and efficiency improvement of HJT

Chart HJT's main manufacturers have landed production capacity and capacity planning

Diagram IBC battery structure diagram

Diagram IBC battery process

Figure Simulation of IBC hole currents for FFE structures

Figure IBC hole current simulation of FSF structure

Chart IBC battery development history

Chart SunPower's IBC battery development history

Diagram IBC battery process route

Chart Industrialization progress of various technical routes of IBC batteries

Fig. Crystal structure of organic-inorganic hybrid perovskite materials

Figure Principle of perovskite solar cell power generation (taking trans structure as an example)

Diagram Perovskite cell production process

Figure Development process of perovskite cells

Chart Relevant policies/meetings and content in the field of perovskite solar cells

Figure Photoelectric conversion efficiency of perovskite cell laboratory

Chart Perovskite cell companies

Figure 2024-2030 average conversion efficiency trend of various battery technologies

Chart 2024-2030 market share trend of different battery technology routes

Figure 2024-2030 Trend of aluminum paste consumption for single/bifacial PERC batteries

Chart 2024-2030 Trend of front/back silver paste consumption of p-type cells

Figure 2024-2030 trend of bifacial silver paste (aluminum) consumption of n-type TOPCon cells

Figure 2024-2030 trend of bifacial low-temperature silver paste consumption of heterojunction batteries

Chart: Trends in power consumption of various types of cells from 2024 to 2030

Chart: Trends in water consumption of different types of cells from 2024 to 2030

Chart 2024-2030 Trend of market share of metal electrode technology on the front side of the cell

Chart 2024-2030 busbar printing technology market share change trend

Figure 2024-2030 Trend of investment cost of production lines of different battery types

Figure 2024-2030 emitter block resistance trend of p-type cells

Chart: 2024-2030 PERC cell back passivation technology market share trend

Chart: 2024-2030 TOPCon cell back passivation technology market share trend

Figure 2024-2030 market share of TCO deposition method for heterojunction cells

Chart: 2024-2030 Trend of the width and alignment accuracy of the fine grid on the front of the battery

Chart: 2024-2030 PERC cell market share of various busbar technologies

Chart: 2024-2030 TOPCon cell market share of various busbar technologies

Figure 2024-2030 per capita output trend of different types of battery lines

Diagram Component technology and characteristics

Diagram Production process of photovoltaic modules

Diagram Major technological changes in the component sector

Chart 2023 global mass-produced PV module efficiency ranking

Diagram Electrical performance parameters of Hi-MO modules

Chart DeepBlue 4.0 Pro Electrical Performance Parameters (JAM72D40LB)

Chart Comparison of Jinko Tiger's full range of products

Chart Trina Solar's product and technical advantages

Diagram Summary of Canadian Solar's N-type module technology

Diagram Electrical performance parameters of Hyper-ion components

Diagram Summary of Tongwei's new N-type components

Chart Summary of the N-type shingling series launched by Huansheng PV

Chart Summary of ABC components of Aiko shares

Chart Summary of Huasheng New Energy's HJT components

Diagram Component CR5 Technology Development Roadmap Selection

Chart 2009-2022 PERC module power improvement path

Chart Component Technology Trends

Diagram The principle of reducing the heat generation of the half-cell module compared with the whole cell

Fig. Circuit structure design of half-chip components

Diagram Application advantages of half-cell modules

Chart Parameters of half-cell modules displayed by major manufacturers

Diagram Introduction to the advantages of shingled modules

Diagram Schematic diagram of shingling technology

Chart Patents of major shingling technologies

Chart Comparison of MBB, double-sided double-glass, and half-cell technologies

Diagram The multi-busbar technology shortens the current conduction distance of the fine busbar

Diagram Schematic diagram of busbar-less heterojunction cells and modules

Chart Busbar-less module manufacturers and their progress

Diagram The main difference between busbar-less technology is the soldering process in the packaging of the module

Chart The history of SmartWire technology

Diagram of the SmartWire component production process steps

Diagram Corresponding equipment and parameters for busbar-less packaging process

Diagram Flow chart of dispensing welding scheme

Diagram Schematic diagram of the battery component of the dispensing welding scheme

Diagram Structural diagram of busbar-less stringer equipment

Diagram Manufacturing process of busbar-less shingled components

Diagram Schematic diagram of a battery with Merlin's busbarless technology

Diagram No busbar technology cost reduction space

Chart: Busbar-less technology can reduce costs and improve efficiency of cells and modules

Chart: Power trends of different types of modules from 2024 to 2030

Chart 2024-2030 module power consumption trend

Chart 2024-2030 monofacial and bifacial module market share trends

Chart 2024-2030 market share trend of full-cell, half-cell, shingled and multi-slice modules

Chart 2024-2030 Trend of module market share by cell interconnection technology

Figure 2024-2030 trend of market share of different ribbon material components

Chart 2024-2030 trend of market share of front cover components of different materials

Chart 2024-2030 Trend of module market share by different front cover glass thickness

Chart 2024-2030 market share trend of different packaging materials

Chart 2024-2030 market share trend of different backsheet materials

Figure 2024-2030 Trend of light transmittance of tempered coated glass for 3.2mm module packaging

Figure 2024-2030 Trend of localized supply rate of resin particles

Chart Trend of per capita module output rate from 2024 to 2030

Chart Development history of LONGi Green Energy

Chart LONGi breaks the world record for silicon solar cell efficiency

Chart 2017-2022 LONGi Green Energy's R&D expenses and growth rate

Chart: 2017-2022 LONGi Green Energy Patents and the total number of patents added in the year

Chart 2022-2023 LONGi Green Energy wafer expansion

Chart LONGi Green Energy continues to break the conversion efficiency records of various route laboratories

Chart Performance of LONGi Green Energy's Hi-MO series modules

Chart: LONGi Green Energy's four major BIPV solutions

Chart Advantages of LONGi Green Energy's BIPV building photovoltaic integrated solution

Chart The development history of Tongwei shares

Chart Business scope of Tongwei shares

Chart 2018-2022 Tongwei R&D expenses

Diagram The production process of high-purity crystalline silicon has been iterated to the seventh generation

Chart 2017-2022 polysilicon capacity utilization rate of Tongwei Co., Ltd

Chart Yongxiang high-purity crystalline silicon optimal index data

Chart 2018-2022 Tongwei Co., Ltd. new battery technology research and development progress

Chart Sorting out the bid-winning projects of the main components of Tongwei Co., Ltd

Chart Sungrow's development history

Chart Introduction to Sungrow's business segment

Chart TCL Zhonghuan's business structure

Chart TCL Zhonghuan's development history

Chart TCL Zhonghuan business at a glance

Chart Summary of TCL Zhonghuan's important technological breakthroughs from 2020 to 2023

Chart TCL Zhonghuan's key R&D projects

Chart TCL Zhonghuan's interoperability

Chart The progress of thinning photovoltaic silicon wafers in Zhonghuan

Chart: The number of wafers per kilogram of Zhonghuan polysilicon

Chart The company's cooperation with MAXEON at a glance

Chart The development history of Huansheng PV

Chart: Huansheng battery production capacity and planning

Chart Huansheng module production capacity and planning

Diagram Comparison of the parameters of Huansheng shingled module and conventional module

Chart MAXEON's product efficiency roadmap

Chart: Trina Solar's History

Chart Trina Solar's main business

Chart: Trina Solar's four major business models for residential PV

Chart: Trina Solar's major scientific research projects

Chart Technology development direction of photovoltaic power generation industry