As the global energy structure accelerates its transition to low-carbonization, photovoltaic (PV) power generation has emerged as a core pillar of renewable energy. Among the key equipment driving the efficiency of PV systems, PV tracking brackets play an indispensable role. By dynamically adjusting the orientation of solar panels to align with the sun's trajectory, these brackets significantly enhance power generation efficiency compared to fixed. This article elaborates on the technical principles, classification, and development trends of PV tracking brackets, while providing an in-depth analysis of the global market size, regional patterns, and competitive landscape with a focus on market share dynamics.
1.Core Technology and Classification of PV Tracking Brackets
1.1Working Principle
The fundamental principle of PV tracking brackets lies in minimizing the angle of incidence between incoming sunlight and PV panels, thereby reducing cosine error and maximizing the absorption of direct solar radiation-which accounts for approximately 90% of total solar energy. The energy contribution of direct sunlight decreases with the cosine of the incidence angle; when the angle exceeds 50°, reflectance increases rapidly, leading to significant energy loss. Tracking systems address this issue by real-time adjustment, ensuring panels maintain optimal alignment with the sun throughout the day and across seasons.
1.2Technical Classification
PV tracking brackets are primarily categorized into single-axis and dual-axis systems based on their movement modes, each with distinct characteristics and application scenarios.
Single-Axis Tracking Systems: These systems rotate along a single horizontal axis (typically north-south oriented) to follow the sun's diurnal trajectory from east to west. Common subtypes include Horizontal Single-Axis Tracking (HSAT) and Tilted Single-Axis Tracking (TSAT). Advantages include simple structure, low manufacturing and maintenance costs, and a power generation gain of 15%-25% compared to fixed brackets. As the dominant choice for utility-scale PV projects globally, single-axis trackers hold a 72% market share in 2025, supported by their wide application in large ground-mounted and "PV+" multi-scenario projects.
Dual-Axis Tracking Systems: These systems adjust along both horizontal and vertical axes, simultaneously tracking the sun's diurnal movement and seasonal altitude changes to maintain perpendicular alignment with sunlight. This precision delivers a power generation gain of 25%-40% compared to fixed brackets, making them ideal for high-irradiation regions and complex plateau, desert scenarios. Benefiting from technological upgrading and scenario expansion, dual-axis systems have achieved an 18% market penetration rate in 2025, showing strong growth momentum in high-value projects.
1.2Technological Innovation Trends
The industry is evolving toward intelligence, lightweight design, and integration, with remarkable technological breakthroughs achieved in 2025. AI-driven intelligent tracking algorithms have improved power generation efficiency by 4.2% compared to traditional astronomical algorithms, with tracking accuracy errors controlled within 0.15 degrees. Material innovation has advanced significantly: aluminum alloy and carbon fiber composites account for 38% of the material composition, reducing single-system weight by over 18%. Additionally, modular design has boosted installation efficiency by 60%, while IoT integration enables remote monitoring and predictive maintenance via digital twin platforms. Notably, flexible tracking brackets have emerged as a new growth driver, with a global market size of 50 GW in 2025 and a year-on-year increase of 40%, accounting for 36.2% of the total bracket market.
2.Global Market Size and Share Dynamics
2.1Overall Market Growth
|
Indicator |
2025 Data (Latest) |
Key Notes |
|
Global Market Size |
Approx. 62.8 billion US dollars (432.2 billion yuan) |
Driven by "PV+" multi-scenario development and flexible bracket boom |
|
Global Shipment Volume |
138 GW, YoY +25% (vs 2024) |
Chinese manufacturers contribute 42% of global shipments |
|
Tracking Bracket Penetration Rate (New PV Installations) |
55% |
Driven by large ground-mounted and "PV+" complementary projects |
|
Flexible Bracket Market Size |
50 GW, YoY +40% |
Emerging core growth segment, widely used in complex terrain |
|
System Cost |
0.16 US dollars/W |
Reduced by material innovation and large-scale production effects |
The global PV tracking bracket market maintains robust growth momentum, with 2025 witnessing remarkable performance driven by low-carbon energy transition policies, technological iteration, and "PV+" multi-scenario expansion. In 2025, the global market size reaches 62.8 billion US dollars, with a shipment volume of 138 GW, supported by the 55% penetration rate in new PV installations. The rapid rise of flexible brackets-with a 50 GW market size and 40% year-on-year growth-has become a key growth engine. Looking ahead, the market is projected to maintain a CAGR of 12.5% from 2025 to 2030, fueled by intelligent upgrading and emerging market demand.
2.2Regional Market Share Distribution
|
Region |
2025 Market Share |
Core Drivers |
Key Performance |
2025-2030 Outlook |
|
North America (US-dominated) |
40% of global market value |
IRA subsidy continuation, large-scale ground-mounted PV project expansion |
Tracking bracket penetration rate 88%; balanced demand for single/dual-axis systems |
Maintain global leading position, CAGR projected at 10.2% |
|
Asia-Pacific |
China accounts for 25% of global share |
China's wind-solar hybrid bases, India's renewable energy goals, Southeast Asia's emerging demand |
Chinese manufacturers contribute 42% global shipments; 70% installations in energy bases |
Fastest-growing core region (CAGR 15.3%); annual new demand to exceed 45 GW by 2030 |
|
Europe |
18% of global market value |
EU carbon neutrality targets, CBAM policy, distributed PV expansion |
Dual-axis penetration 38%; distributed PV application rate 35% |
Micro-tracking systems gain traction; CAGR projected at 11.8% |
|
Middle East & North Africa (MENA) |
9% of global market value |
Surging power demand, energy structure transformation, large-scale desert PV projects |
Penetration rate ~90%; dual-axis systems favored for high-irradiation desert areas |
High-growth region (CAGR 16.5%); grid upgrading drives installation boom |
|
Latin America |
6% of global market value |
Mature market foundation, local manufacturing policies, high solar resource endowment |
Chinese manufacturers hold 14%+ regional share; Brazil factory capacity reaches 2.5GW |
CAGR 14.2%; localized production expands market penetration |
|
Australia |
2% of global market value |
Abundant solar resources, renewable energy targets, large ground-mounted projects |
Penetration rate ~90%; single-axis systems dominate utility-scale projects |
Steady growth (CAGR 9.8%); distributed PV drives micro-tracking demand |
The global market presents distinct regional differentiation, with North America, Asia-Pacific, and Europe as core demand hubs, while the Middle East & North Africa (MENA), Latin America, and Australia emerge as high-growth engines. Collectively, these regions account for over 99% of the global market value in 2025, each demonstrating unique development characteristics driven by local policies, resource endowments, and project demands.
North America: Dominated by the United States, the region leads the global market with a 45% market share in 2025, supported by the continued IRA subsidy policy and accelerated deployment of large-scale ground-mounted PV projects. The US market boasts a tracking bracket penetration rate of 88%, with balanced demand for single-axis systems (for general utility projects) and dual-axis systems (for high-irradiation regions), solidifying its position as a high-value market.
Asia-Pacific: As the fastest-growing core region, Asia-Pacific is driven by large-scale PV base projects in China, India's aggressive renewable energy targets, and booming demand in Southeast Asia. China, the world's largest PV component and bracket producer, holds 28% of the global market share in 2025, with 70% of its installations concentrated in northwest wind-solar hybrid bases. Chinese manufacturers have further expanded their global influence, contributing 42% of global shipments, while Southeast Asia's annual order growth for Chinese products remains above 55%.
Europe: With an 18% global market share in 2025, Europe's growth is fueled by the EU's carbon neutrality strategy and CBAM policy. Spain, Germany, and France lead in concentrated PV project construction, driving the penetration rate of dual-axis systems to 38%. Notably, the application of tracking brackets in distributed PV scenarios has reached 35% in 2025, spurring strong demand for micro-tracking systems tailored to rooftop and small-scale projects.
Middle East & North Africa (MENA): As a high-potential growth region with a 9% global market share in 2025, the MENA region is accelerating energy structure transformation to meet surging power demand. The region's total is expected to grow by 50% between 2025 and 2035, with photovoltaic becoming the core driver of new installed capacity. Benefiting from abundant desert solar resources, the tracking bracket penetration rate reaches nearly 90%, with dual-axis systems widely adopted in large-scale desert PV projects to maximize power generation efficiency. In 2025, the launch of the Middle East's first high-temperature test certification program further promotes the localization of tracking bracket technology adapted to extreme environments.
Latin America: A mature and competitive market with a 6% global share, Latin America boasts a high foundation of tracking bracket application. Chinese manufacturers have achieved significant breakthroughs in the region, with Trina Tracking ranking among the top three in regional shipments and holding over 14% market share. Localization layout has become a key competitive strategy-Trina Tracking's factory in Brazil, with an annual capacity of 2.5GW, has obtained FINAME financing certification, enabling local customers to access preferential loans. Chile has also become a regional operation hub, supporting project delivery in surrounding countries, with Argentina and Colombia under consideration for new operation centers.
Australia: Accounting for 2% of the global market, Australia relies on its abundant solar resources to maintain a tracking bracket penetration rate of nearly 90%. Single-axis systems dominate utility-scale ground-mounted projects, while the gradual expansion of distributed PV creates growing demand for micro-tracking systems. Chinese manufacturer Qingyuan Co., Ltd. has maintained the No.1 market share in Australia for 14 consecutive years, leveraging mature localized service capabilities to consolidate its leading position.
2.3Competitive Landscape and Enterprise Market Share
First Tier: International Head Enterprises - NEXTracker and Array Technologies, with a combined 45% global market share, dominate the high-end market by virtue of technological barriers and mature global channels. NEXTracker leads in modular and intelligent solutions, securing large orders in the MENA region's super-large projects, while Array Technologies relies on its robust product performance to maintain a leading position in North American utility-scale projects. Both enterprises are accelerating their expansion into Europe and Asia-Pacific to tap into emerging demand.
Second Tier: Chinese Core Manufacturers - Represented by Arctech Solar, Trina Solar, and China Singyes Solar Technologies, Chinese enterprises hold a combined 37% global market share, with overseas shipments accounting for 42% of the global total. They gain competitive advantages through cost control (18%-25% lower than international brands) and localized production layout. For example, Trina Solar's Brazil factory obtains FINAME certification to access local preferential financing, while Arctech Solar's Southeast Asian bases shorten delivery cycles. Additionally, Chinese enterprises excel in scenario-based innovation, such as China Singyes Solar Technologies' flexible brackets leading the global market.
Third Tier: Emerging Regional Players - These enterprises, with an 8% global share, focus on niche markets such as European distributed PV and MENA small-scale projects. They leverage compliance with local standards (e.g., EU CE certification) and policy preferences to gain a foothold, and their micro-tracking systems for rooftop projects show strong growth momentum, with an annual growth rate exceeding 30% in 2025.
|
Enterprise Category |
2025 Global Market Share |
Core Products & Technological Advantages |
Regional Layout & Key Strategies |
2025 Key Performance |
|
International Leaders NEXTracker (US) |
25% |
Core product: NX Horizon™ single-axis tracker; integrated AI intelligent tracking algorithm and modular design, supporting rapid installation in large-scale projects; waterproof and dustproof structure adapted to extreme environments. |
Dominates North American market (60% regional share); expands into Europe and MENA via local partners; focuses on "tracker + energy storage" integrated solutions. |
2025 shipments reach 34.5 GW, ranking first globally; secures 8 GW order from Saudi Arabia's NEOM project. |
|
Array Technologies (US) |
20% |
Core product: DuraTrack HZ v3 single-axis tracker; patented torque tube design enhances wind resistance (up to 160 km/h); low maintenance cost with 25-year service life. |
Mainly in North American utility-scale projects; builds R&D center in Germany to penetrate European distributed market; cooperates with local EPCs in Australia. |
2025 shipments hit 27.6 GW; holds 35% share of US ground-mounted PV tracker market. |
|
Chinese Core Enterprises Arctech Solar |
16.2% |
Core products: SkyLine II single-axis tracker, SkySmart dual-axis tracker; self-developed AI algorithm improves power generation efficiency by 8%-12%; lightweight aluminum alloy structure reduces transportation costs. |
Global layout covering 16 countries; builds production bases in Thailand and Mexico; deepens cooperation in Southeast Asia and Latin America. |
Ranks third globally; 2025 overseas shipments account for 58% of total; secures 5 GW order in Vietnam. |
|
Trina Solar (Trina Tracking) |
12.8% |
Core product: Vanguard single-axis tracker; integrated with Trina's high-efficiency modules to form "module + tracker" solution; intelligent monitoring system reduces O&M costs by 15%. |
2.5 GW factory in Brazil (FINAME certified); regional hub in Chile; expands into MENA via Dubai office. |
Top 3 in Latin America (14% regional share); 2025 global shipments 17.7 GW. |
|
China Singyes Solar Technologies |
8% |
Core product: flexible tracking bracket for complex terrain; anti-corrosion zinc-aluminum-magnesium material adapts to coastal and high-humidity areas. |
Focuses on Asia-Pacific and Europe; builds R&D center in Singapore to optimize tropical region solutions. |
2025 flexible bracket shipments account for 40% of global total; holds 22% share in Southeast Asia. |
|
Emerging Regional Players Local Enterprises (Europe/MENA) |
8% |
Specializes in micro-tracking systems for distributed PV; complies with EU CE certification and MENA high-temperature resistance standards. |
Niche market focus: European rooftop PV and MENA small-scale desert projects; relies on local policy preferences. |
Account for 15% of European distributed tracker market; annual growth rate exceeds 30%. |
PV tracking brackets have become a critical enabler of high-efficiency PV power generation, with technology iteration and cost optimization driving widespread adoption. Single-axis systems will remain dominant in the short to medium term, while dual-axis systems will gain traction in high-value scenarios. The global market will continue to expand under the triple drivers of policy support, technological innovation, and industrial chain synergy.
Future growth will be shaped by three key trends: first, the deep integration of "tracking + energy storage" solutions, which are expected to contribute 30% of industry profit growth by 2030; second, the upgrading of intelligent applications, with AI and IoT further optimizing the entire lifecycle operation of PV plants; third, the acceleration of localization layout in emerging markets such as Africa and Latin America, as manufacturers adapt to regional standards and reduce logistics costs. As the global pursuit of carbon neutrality intensifies, PV tracking brackets will play an increasingly vital role in the renewable energy transition, with their market influence and technological iteration pace continuing to accelerate.