亚太地区空间电力市场应用、产品与国家分析及预测（2024-2034）

预计到 2024 年亚太地区空间电源市场规模将达到 981,893,800 美元。

预计到 2034 年，市场规模将达到 1,597,288,900 美元，复合年增长率为 4.99%。高效能太阳能电池阵、高性能电池、能源储存模组和电源管理系统只是亚太地区空间电力市场中卫星、火箭和轨道平台必不可少的众多产品中的一部分。区域发射活动的活性化（从中国的天问一号和印度的 Gaganyaan 计划到东盟的小型卫星星系）以及对可携式可靠电源的不断增长的需求正在推动增长。支援 AI 的 MPPT 控制器、固态电池、锂离子电池和多结太阳能电池是减轻品质和提高耐用性的创新成果之一。空中巴士澳洲和 NEC Space 等全球OEM与中国电子科技集团和印度太空研究组织的 UR Rao 卫星中心等新兴的本地供应商在竞争激烈的市场中共存。人们越来越关注成本效益、永续性和长期任务，这推动了对模组化、可部署系统和本地製造的投资，确保亚太地区始终处于下一代太空动力技术的前沿。

市场介绍

随着公共和私营部门拓展其太空计划，亚太地区太空电力市场正在迅速扩张。随着中国嫦娥一号和天问一号月球和星际探测任务、印度载人太空船「月船」和「加加尼亚号」以及东南亚国协即将部署的小型卫星星系等重要项目的计划，对可靠轻便的电力解决方案的需求比以往任何时候都更加迫切。先进的锂离子电池和固态电池、模组化和可展开式太阳能电池板、支援人工智慧的最大功率点追踪 (MPPT) 控制器以及高效的多结太阳能电池阵列等关键技术正在开发中，以应对亚太地区发射过程中常见的严酷辐射、高温和有限的品质预算。

私人企业、研究机构和航太机构之间的合作将推动该地区的创新。韩国和日本等国家正在投资本国的电池工厂，而澳洲和新加坡则为航太技术企业提供奖励。中国电子科技集团和印度太空研究组织的乌尔·饶卫星中心是两家本土供应商，它们正在与空中巴士澳洲公司和NEC太空系统公司等知名国际公司竞争。获得认证设施的机会有限、对特殊材料（如锂金属和砷化镓）的出口管制限制以及分散的监管标准仍然是障碍。随着热真空室、辐射试验台和发射台等基础设施的完善，亚太市场已准备好引领下一代永续太空能源系统，这将使卫星飞行时间更长、有效载荷容量更大、运行成本更低。

市场区隔

细分一：按应用

• 卫星
• 太空探勘与深空任务
  • 土地
  • 探测车
  • 轨道器
• 太空站和栖息地
• 发射运输机
  • 小型和中型火箭
  • 大型和超大型火箭

细分2：按卫星轨道

• 低地球轨道（LEO）卫星
• 地球静止轨道（GEO）卫星
• 中轨道（MEO）卫星
• 地外卫星

细分3：依卫星类型

• 小型卫星（立方卫星、奈米卫星）（1-10 千瓦）
• 中型卫星（10-15kW）
• 大型卫星（15kW或以上）

细分 4：按组件类型

• 光电发电系统
  • 太阳能电池
  • 太阳能电池阵列/电池板
• 电池系统
• 电源管理和分配 (PMAD) 系统

细分5：按国家

• 中国
• 日本
• 印度
• 其他的

亚太空间电力市场趋势、驱动因素与挑战

趋势

• 高效能太阳能电池阵列：采用多结太阳能电池和薄膜太阳能电池可提高中小型卫星的功率密度
• 先进的能源储存：下一代锂离子和新型固态电池将延长任务寿命并支援高负载机动。
• 模组化、可部署系统：折迭面板和充气散热器可在紧凑的发射平台上实现更大的功率足迹
• 智慧电源管理：具有 AI 负载平衡功能的板载 MPPT 控制器可优化发电、储存和配电
• 标准化和小型化：即插即用的「电源Brick」和立方卫星的标准化汇流排介面加速了开发週期

驱动程式

• 小型卫星和巨型卫星群发射激增：商业宽频、地球观测和物联网连接刺激了对可扩展电源解决方案的需求
• 政府太空计画：中国的嫦娥月球探勘、印度的Gaganyaan计画以及东协在小型卫星计划上的合作为研发和采购提供了资金。
• 国防现代化：地区海军和空军将优先整合用于监视和通讯的卫星以及可靠的长航时电力系统。
• 发射服务的成本压力：需要更轻、更紧凑的动力装置来满足共享有效载荷的限制，从而推动创新
• 本地製造业奖励：亚太地区支持国内航太技术工厂的政策促进了电池、电池组和电力电子装置的区域供应商

任务

• 恶劣的太空环境：辐射劣化和热循环需要严格的测试，增加了设计和认证成本
• 供应链中的脆弱性：对专用原料（GaAs、锂金属）的依赖以及严格的出口限製造成生产瓶颈
• 进入门槛高：航太认证所需的大量资金和技术专长限制了新进者
• 寿命与品质的权衡：平衡更高的能量密度与重量限制仍然是一个关键的工程妥协
• 监管分散：亚太地区各国不同的标准和核准流程使跨境销售和零件整合变得复杂

产品/创新策略：产品类型帮助读者了解亚太地区不同类型的产品。此外，它还能帮助读者根据应用和产品类型详细了解各种空间电源产品。

成长/行销策略：亚太地区空间电源市场正在见证市场主要企业的重大发展，包括业务扩张、合作伙伴关係、合作、合资企业等。每家公司的首选策略是协同活动，以加强其在空间电源市场的地位。

竞争策略：本文分析了亚太地区太空电源市场的主要企业，并对其太空电源产品进行了概述。此外，本文也对太空电源市场的参与企业进行了详细的竞争基准化分析，以提供清晰的市场格局，帮助读者了解参与企业之间的竞争状况。此外，本文还提供了全面的竞争策略，包括伙伴关係、协议和联盟，以帮助读者了解市场中尚未开发的收益空间。

主要市场参与企业及竞争格局

公司简介是根据广泛的二手资料研究选出的，其中包括对公司范围、产品系列、市场渗透率的分析以及从主要专家收集的见解。

目录

执行摘要

第一章市场：产业展望

• 趋势：现况与未来影响评估
  • 太空应用多结太阳能电池的进展
  • 卫星用薄膜柔性太阳能电池的开发
  • 提高太阳能板的效率和功率密度
  • 为长期任务创新太空太阳能（SBSP）系统
• 供应链概览
  • 价值链分析
• 专利分析
• 监管情况和行业倡议
  • 法规与政策
• 市场动态概览
  • 市场驱动因素
  • 市场限制
  • 市场机会
• 卫星群对太阳能需求的影响以及与传统卫星部署的比较

第二章 区域

• 区域摘要
• 亚太地区
  • 市场
  • 目的
  • 产品
  • 亚太地区（按国家/地区）

第三章 市场竞争基准化分析与公司概况

• 未来展望
• 地理评估
• 主要太空动力计划
• 太空动力计画的关键技术重点。
• 航太电源市场总承包商情况
• 公司简介
  • Space Solar Power Solutions

第四章调查方法

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Introduction to Asia-Pacific Space Power Supply Market

The Asia-Pacific space power supply market was valued at $981,893.8 thousand in 2024 and is projected to grow at a CAGR of 4.99%, reaching $1,597,288.9 thousand by 2034. High-efficiency solar arrays, sophisticated batteries, energy-storage modules, and power-management systems are just a few of the many products that are essential for satellites, launch vehicles, and orbital platforms that are included in the APAC space power supply market. Rising regional launch activity (from China's Tianwen and India's Gaganyaan programs to ASEAN small-sat constellations) and growing desire for portable, dependable power sources are driving growth. AI-enabled MPPT controllers, solid-state and Li-ion batteries, and multi-junction solar cells are among the innovations that are decreasing mass and increasing durability. Global OEMs like Airbus Australia and NEC Space coexist with up-and-coming regional vendors like China's Electronics Technology Group and ISRO's U R Rao Satellite Centre in a competitive market. Investments in modular, deployable systems and localised manufacturing are being driven by heightened focus on cost-efficiency, sustainability, and long-duration missions, guaranteeing that the APAC area stays at the forefront of next-generation space-power technologies.

Market Introduction

The market for space power supplies in Asia-Pacific (APAC) is expanding quickly as regional space aspirations spread throughout the public and private sectors. The need for dependable, lightweight power solutions has never been greater because to significant projects like China's Chang'e and Tianwen lunar and interplanetary missions, India's Chandrayaan and Gaganyaan crewed spacecraft, and an approaching wave of small-satellite constellations from ASEAN countries. Advanced lithium-ion and solid-state batteries, modular deployable panels, AI-driven maximum power point tracking (MPPT) controllers, and high-efficiency multi-junction solar arrays are among the key technologies being developed to withstand the severe radiation, high temperatures, and constrained mass budgets typical of APAC launch profiles.

Partnerships between private industries, research institutions, and space agencies drive regional innovation. While Australia and Singapore provide incentives for space-tech businesses, countries such as South Korea and Japan are investing in their own domestic cell and battery factories. China Electronics Technology Group and ISRO's U R Rao Satellite Centre are two local vendors that compete with well-known international firms like Airbus Australia and NEC Space Systems. Limited access to certification facilities, export-control restrictions for speciality materials (such as Li-metal and GaAs), and fragmented regulatory standards are still obstacles. The APAC market is positioned to lead in next-generation, sustainable space power systems that enable longer flights, bigger payload capacities, and more economical satellite operations as infrastructure-such as thermal vacuum chambers, radiation testbeds, and launchpads-continues to ramp up.

Market Segmentation

Segmentation 1: by Application

• Satellites
• Space Exploration and Deep-Space Missions
  • Land
  • Rover
  • Orbiter
• Space Stations and Habitats
• Launch Vehicles
  • Small and Medium-Lift Launch Vehicles
  • Heavy and Super Heavy-Lift Launch Vehicles

Segmentation 2: by Satellite Orbit

• Low Earth Orbit (LEO) Satellites
• Geostationary Earth Orbit (GEO) Satellites
• Medium Earth Orbit (MEO) Satellites
• Beyond Earth Orbit Satellites

Segmentation 3: by Satellite Type

• Small Satellites (CubeSats, NanoSats) (1-10 kW)
• Medium Satellites (10-15 kW)
• Large Satellites (Above 15 kW)

Segmentation 4: by Component Type

• Solar Power Systems
  • Solar Cells
  • Solar Array/Panel
• Battery Systems
• Power Management and Distribution (PMAD) Systems

Segmentation 5: by Country

• China
• Japan
• India
• Rest-of-Asia-Pacific

APAC Space Power Supply Market Trends, Drivers and Challenges-

Trends

• High-efficiency solar arrays: Adoption of multi-junction and thin-film solar cells boosts power density for small and medium satellites.
• Advanced energy storage: Next-gen Li-ion and emerging solid-state batteries extend mission lifetimes and support high-load maneuvers.
• Modular, deployable systems: Foldable panels and inflatable radiators enable larger power footprints on compact launch platforms.
• Smart power management: On-board MPPT controllers with AI-driven load balancing optimize generation, storage, and distribution.
• Standardization & miniaturization: Plug-and-play "power bricks" for CubeSats and standardized bus interfaces accelerate development cycles.

Drivers

• Surge in small-sat and mega-constellation launches: Commercial broadband, Earth-observation, and IoT connectivity spur demand for scalable power solutions.
• Government space initiatives: China's Chang'e lunar program, India's Gaganyaan ambitions, and ASEAN collaboration on small-sat projects fund R&D and procurement.
• Defense modernization: Regional navies and air forces integrate satellites for surveillance and communications, prioritizing reliable, long-endurance power systems.
• Cost-pressure on launch services: Need for lighter, more compact power units to fit within rideshare payload constraints drives innovation.
• Local manufacturing incentives: APAC policies supporting domestic space-tech fabs encourage regional suppliers of cells, batteries, and power electronics.

Challenges

• Harsh space environment: Radiation-induced degradation and thermal cycling demand rigorous testing, raising design and qualification costs.
• Supply-chain vulnerabilities: Dependence on specialty raw materials (GaAs, Li-metal) and tight export controls can bottleneck production.
• High entry-barriers: Significant capital and technical expertise required for space-grade certification limit new entrants.
• Longevity vs. mass trade-offs: Balancing higher energy density against weight constraints remains a key engineering compromise.
• Regulatory fragmentation: Divergent standards and approval processes across APAC countries complicate cross-border component sales and integration.

How can this report add value to an organization?

Product/Innovation Strategy: The product segment helps the reader understand the different types of products available in APAC region. Moreover, the study provides the reader with a detailed understanding of the different space power supply products based on applications and products.

Growth/Marketing Strategy: The APAC space power supply market has seen major development by key players operating in the market, such as business expansion, partnership, collaboration, and joint venture. The favored strategy for the companies has been synergistic activities to strengthen their position in the space power supply market.

Competitive Strategy: Key players in the APAC space power supply market have been analyzed and profiled in the study of space power supply products. Moreover, a detailed competitive benchmarking of the players operating in the space power supply market has been done to help the reader understand how players stack against each other, presenting a clear market landscape. Additionally, comprehensive competitive strategies such as partnerships, agreements, and collaborations will aid the reader in understanding the untapped revenue pockets in the market.

Key Market Players and Competition Synopsis

Profiled companies have been selected based on thorough secondary research, which includes analyzing company coverage, product portfolio, market penetration, and insights gathered from primary experts.

Some prominent names established in this market are:

• SHARP CORPORATION
• Shanghai Institute of Space Power-Sources
• Mitsubishi Electric Corporation
• Bharat Electronics Limited (BEL)

Table of Contents

Executive Summary

Scope and Definition

1 Market: Industry Outlook

• 1.1 Trends: Current and Future Impact Assessment
  • 1.1.1 Advancements in Multi-Junction Solar Cells for Space Applications
    • 1.1.1.1 Innovations in Multi-Junction Silicon Solar Cells for Space Applications
  • 1.1.2 Development of Thin-Film and Flexible Solar Cells for Satellites
  • 1.1.3 Efficiency Improvements and Power Density Advancements in Solar Panels
  • 1.1.4 Innovations in Space-Based Solar Power (SBSP) Systems for Long-duration Missions
• 1.2 Supply Chain Overview
  • 1.2.1 Value Chain Analysis
• 1.3 Patent Analysis
  • 1.3.1 Patent Filing Trend (by Country)
  • 1.3.2 Patent Filing Trend (by Company)
• 1.4 Regulatory Landscape and Industry Initiatives
  • 1.4.1 Regulations and Policies
• 1.5 Market Dynamics Overview
  • 1.5.1 Market Drivers
    • 1.5.1.1 Growing Satellite Deployments and Mega-Constellations (e.g., Starlink, Amazon Kuiper)
    • 1.5.1.2 Rising Investments in Space-Based Solar Power Systems (SBSP)
    • 1.5.1.3 Increased Demand for LEO, GEO, and MEO Satellites
  • 1.5.2 Market Restraints
    • 1.5.2.1 High Production Costs of Solar Power Systems for Space
    • 1.5.2.2 Durability and Reliability of Solar Cells in Harsh Space Environments
    • 1.5.2.3 Regulatory and Compliance Challenges for Solar-Based Power Systems
  • 1.5.3 Market Opportunities
    • 1.5.3.1 Impact of Mega-Constellations on Solar Cell Demand
    • 1.5.3.2 Expansion of CubeSats and Small Satellites Market and Their Power Needs
    • 1.5.3.3 Growing Role of Solar Power in Deep Space Exploration Missions
    • 1.5.3.4 Strategic Collaborations Between Governments and Private Space Companies
• 1.6 Impact of Mega-Constellations on Solar Power Demand and Comparison with Traditional Satellite Deployments

2 Regions

• 2.1 Regional Summary
• 2.2 Asia-Pacific
  • 2.2.1 Markets
    • 2.2.1.1 Key Market Participants in Asia-Pacific
    • 2.2.1.2 Business Drivers
    • 2.2.1.3 Business Challenges
  • 2.2.2 Application
  • 2.2.3 Product
  • 2.2.4 Asia-Pacific (by Country)
    • 2.2.4.1 China
      • 2.2.4.1.1 Market (By Application)
      • 2.2.4.1.2 Market (By Product)
    • 2.2.4.2 Japan
      • 2.2.4.2.1 Market (By Application)
      • 2.2.4.2.2 Market (By Product)
    • 2.2.4.3 India
      • 2.2.4.3.1 Market (By Application)
      • 2.2.4.3.2 Market (By Product)
    • 2.2.4.4 Rest-of-Asia-Pacific
      • 2.2.4.4.1 Market (By Application)
      • 2.2.4.4.2 Market (By Product)

3 Markets - Competitive Benchmarking & Company Profiles

• 3.1 Next Frontiers
• 3.2 Geographic Assessment
• 3.3 Key Space Power Supply Programs
• 3.4 Key Technology Preferences for Space Power Supply Programs
• 3.5 Prime Contractor Landscape for Space Power Supply Market
• 3.6 Company Profiles
  • 3.6.1 Space Solar Power Solutions
    • 3.6.1.1 SHARP CORPORATION
      • 3.6.1.1.1 Overview
      • 3.6.1.1.2 Top Products/Product Portfolio
      • 3.6.1.1.3 Top Competitors
      • 3.6.1.1.4 Target Customers
      • 3.6.1.1.5 Key Personnel
      • 3.6.1.1.6 Analyst View
      • 3.6.1.1.7 Market Share, 2023
    • 3.6.1.2 Shanghai Institute of Space Power-Sources
      • 3.6.1.2.1 Overview
      • 3.6.1.2.2 Top Products/Product Portfolio
      • 3.6.1.2.3 Top Competitors
      • 3.6.1.2.4 Target Customers
      • 3.6.1.2.5 Key Personnel
      • 3.6.1.2.6 Analyst View
      • 3.6.1.2.7 Market Share, 2023
    • 3.6.1.3 Mitsubishi Electric Corporation
      • 3.6.1.3.1 Overview
      • 3.6.1.3.2 Top Products/Product Portfolio
      • 3.6.1.3.3 Top Competitors
      • 3.6.1.3.4 Target Customers
      • 3.6.1.3.5 Key Personnel
      • 3.6.1.3.6 Analyst View
      • 3.6.1.3.7 Market Share, 2023
    • 3.6.1.4 Bharat Electronics Limited (BEL)
      • 3.6.1.4.1 Overview
      • 3.6.1.4.2 Top Products/Product Portfolio
      • 3.6.1.4.3 Top Competitors
      • 3.6.1.4.4 Target Customers
      • 3.6.1.4.5 Key Personnel
      • 3.6.1.4.6 Analyst View
      • 3.6.1.4.7 Market Share, 2023

4 Research Methodology

• 4.1 Data Sources
  • 4.1.1 Primary Data Sources
  • 4.1.2 Secondary Data Sources
  • 4.1.3 Data Triangulation
• 4.2 Market Estimation and Forecast

List of Figures

• Figure 1: Asia-Pacific Space Power Supply Market Scenarios, 2024, 2029, 2034
• Figure 2: Asia-Pacific Space Power Supply Market (by Application), $Thousand, 2024, 2029, and 2034
• Figure 3: Asia-Pacific Space Power Supply Market (by Orbit), $Thousand, 2024, 2029, and 2034
• Figure 4: Asia-Pacific Space Power Supply Market (by Satellite Type), $Thousand, 2024, 2029, and 2034
• Figure 5: Asia-Pacific Space Power Supply Market (by Component Type), $Thousand, 2024, 2029, and 2034
• Figure 6: Space Power Supply Market, Recent Developments
• Figure 7: Supply Chain of Space Power Supply Market
• Figure 8: Space Power Supply Market (by Country), January 2022-December 2024
• Figure 9: Space Power Supply Market (by Company), January 2022-December 2024
• Figure 10: Estimated Satellites in Space
• Figure 11: China Space Power Supply Market, $Thousand, 2024-2034
• Figure 12: Japan Space Power Supply Market, $Thousand, 2024-2034
• Figure 13: India Space Power Supply Market, $Thousand, 2024-2034
• Figure 14: Rest-of-Asia-Pacific Space Power Supply Market, $Thousand, 2024-2034
• Figure 15: Strategic Initiatives, 2022-2025
• Figure 16: Share of Strategic Initiatives, 2022-2025
• Figure 17: Data Triangulation
• Figure 18: Top-Down and Bottom-Up Approach
• Figure 19: Assumptions and Limitations

List of Tables

• Table 1: Market Snapshot
• Table 2: Opportunities across Regions
• Table 3: Trends: Overview
• Table 4: Impact Analysis of Market Navigating Factors, 2024-2034
• Table 6: Asia-Pacific Space Power Supply Market (by Application), $Thousand, 2023-2034
• Table 7: Asia-Pacific Space Power Supply Market for Satellites (by Orbit), $Thousand, 2023-2034
• Table 8: Asia-Pacific Space Power Supply Market for Satellites (by Satellite Type), $Thousand, 2023-2034
• Table 9: Asia-Pacific Space Power Supply Market (by Component Type), $Thousand, 2023-2034
• Table 10: China Space Power Supply Market (by Application), $Thousand, 2023-2034
• Table 11: China Space Power Supply Market for Satellites (by Orbit), $Thousand, 2023-2034
• Table 12: China Space Power Supply Market for Satellites (by Satellite Type), $Thousand, 2023-2034
• Table 13: China Space Power Supply Market (by Component Type), $Thousand, 2023-2034
• Table 14: Japan Space Power Supply Market (by Application), $Thousand, 2023-2034
• Table 15: Japan Space Power Supply Market for Satellites (by Orbit), $Thousand, 2023-2034
• Table 16: Japan Space Power Supply Market for Satellites (by Satellite Type), $Thousand, 2023-2034
• Table 17: Japan Space Power Supply Market (by Component Type), $Thousand, 2023-2034
• Table 18: India Space Power Supply Market (by Application), $Thousand, 2023-2034
• Table 19: India Space Power Supply Market for Satellites (by Orbit), $Thousand, 2023-2034
• Table 20: India Space Power Supply Market for Satellites (by Satellite Type), $Thousand, 2023-2034
• Table 21: India Space Power Supply Market (by Component Type), $Thousand, 2023-2034
• Table 22: Rest-of-Asia-Pacific Space Power Supply Market (by Application), $Thousand, 2023-2034
• Table 23: Rest-of-Asia-Pacific Space Power Supply Market for Satellites (by Orbit), $Thousand, 2023-2034
• Table 24: Rest-of-Asia-Pacific Space Power Supply Market for Satellites (by Satellite Type), $Thousand, 2023-2034
• Table 25: Rest-of-Asia-Pacific Space Power Supply Market (by Component Type), $Thousand, 2023-2034
• Table 26: Market Share, 2023
• Table 27: Key Space Power Supply Programs
• Table 28: Key Technologies for Space Power Supply Programs (Ongoing, Future)