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Global Space Power Electronics Market by Device Type (Power Discrete, Power Module, Power IC), Application (Satellites, Spacecraft & Launch Vehicles, Space Stations, Rovers), Platform, Voltage, Current, Material and Region - Forecast to 2026

  • ID: 5577794
  • Report
  • April 2022
  • Region: Global
  • 232 Pages
  • Markets and Markets
Increasing Investments by Venture Capitalists in Space Exploration Missions

FEATURED COMPANIES

  • Airbus
  • Api Technologies
  • Crane Co.
  • Heico Corporation
  • Nxp Semiconductors
  • Solid State Devices, Inc.
The Space power electronics market is projected to grow from USD 205 million in 2021 to USD 435 million by 2026, at a CAGR of 16.2%. Space power electronics is the application of electronics on satellites, spacecraft, launch vehicles, space stations and rovers to control and convert electric power from one form to other. It deals with the processing of high voltages and currents to deliver power that supports a variety of needs. According to the National Aeronautics and Space Administration, a power electronic system can comprise a modular power electronic subsystem (PESS) connected to a source and load at its input and output power ports, respectively. Semiconductor devices such as metal-oxide semiconductor field effect transistors (MOSFET), insulated gate bipolar transistors (IGBT), mos-controlled thyristor (MCT), and gate-turn-off thyristors (GTO) represent the cornerstone of modem power electronic converters.


Major manufacturers in this market are based in North America and Europe. Infineon Technologies (Germany), Texas Instrument Incorporated US), STMicroelectronics (Switzerland), Onsemi (US), Renesas Electronics Corporation (Japan) are among a few leading players operating in the space power electronics market. 

The COVID-19 pandemic has caused significant damage to the economic activities of countries across the world. The manufacturing of space power electronics, subsystems, and components has also been impacted. Although satellite systems are critically important, disruptions in the supply chain have halted their manufacturing processes for the time being. Resuming manufacturing activities depends on the level of COVID-19 exposure, the level at which manufacturing operations are running, and import-export regulations, among other factors. While companies may still be taking in orders, delivery schedules may not be fixed.

Based on device type, the power IC segment is expected to lead the space power electronics market from 2021 to 2026


Power ICs are integrated circuits that include multiple power rails and power management functions within a single chip. Power ICs are frequently used to power small, battery-operated devices since the integration of multiple functions into a single chip result in more efficient use of space and system power. Functions commonly integrated into a PMIC include voltage converters and regulators, battery chargers, battery fuel gauges, LED drivers, real-time clocks, power sequencers, and power control. The Power ICs consist of Power Management ICs and Application Specific ICs.

Based on application, the satellite segment is expected to lead the space power electronics market from 2021 to 2026


Satellites are increasingly being adopted in modern communication technologies. The introduction of wireless satellite internet and development of miniature hardware systems are exploiting numerous opportunities in the field of satellite-enabled communication. Over the past decade, there has been an explosion of activity in the small satellite world, driven by technology breakthroughs, industry commercialization, and private investments. There is a growing demand for space exploration, which enables small satellites to achieve attitude and orbit control, orbital transfers, and end-of-life deorbiting. Miniaturization of power electronic technologies are performing very well for CubeSats. Also, rapid growth in the NewSpace industry has led to the greater use of modular components like miniaturized rad-hard MOSFETs, gate drivers, DC-DC converters and solid-state relays.

Based on region, North America is expected to lead the space power electronics market from 2021 to 2026. The US is a lucrative market for space power electronics in the North American region. The US government is increasingly investing in advanced space power electronics technologies to enhance the quality and effectiveness of satellite communication, deep space exploration. The increasing investment on satellite equipment to enhance defense and surveillance capabilities of the armed forces, modernization of existing communication in military platforms, critical infrastructure and law enforcement agencies using satellite systems, are key factors expected to drive the space power electronics market in North America. Boeing-manufactured O3b mPOWER satellites are widely using radiation-fault-tolerant DC-DC converter power modules for better power conversion

The break-up of the profile of primary participants in the space power electronics market:

  • By Company Type: Tier 1 - 35%, Tier 2 - 45%, and Tier 3 - 20% 
  • By Designation: C Level - 35%, Director Level - 25%, and Others - 40% 
  • By Region: North America - 30%, Europe - 20%, Asia Pacific - 25%, Rest of the World - 25%

Research Coverage:


This market study covers space power electronics market across various segments and subsegments. It aims at estimating the size and growth potential of this market across different segments based on Device Type, Application, Platform Type, Voltage, Current, Material and Region. This study also includes an in-depth competitive analysis of the key players in the market, along with their company profiles, key observations related to their product and business offerings, recent developments undertaken by them, and key market strategies adopted by them.

Reasons to buy this report:


The report will help the market leaders/new entrants in this market with information on the closest approximations of the revenue numbers for the overall space power electronics market. This report will help stakeholders understand the competitive landscape and gain more insights to position their businesses better and to plan suitable go-to-market strategies. The report also helps stakeholders understand the pulse of the market and provides them with information on key market drivers, restraints, challenges, and opportunities.

The report provides insights on the following pointers:

  • Market Penetration: Comprehensive information on space power electronics offered by the top players in the market
  • Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product launches in the space power electronics market
  • Market Development: Comprehensive information about lucrative markets - the report analyses the space power electronics market across varied regions
  • Market Diversification: Exhaustive information about new products, untapped geographies, recent developments, and investments in the space power electronics market  
  • Competitive Assessment: In-depth assessment of market shares, growth strategies, products, and manufacturing capabilities of leading players in the space power electronics market
Frequently Asked Questions about the Global Space Power Electronics Market

What is the estimated value of the Global Space Power Electronics Market?

The Global Space Power Electronics Market was estimated to be valued at $205.0 Million in 2021.

What is the growth rate of the Global Space Power Electronics Market?

The growth rate of the Global Space Power Electronics Market is 16.2%, with an estimated value of $435.0 Million by 2026.

What is the forecasted size of the Global Space Power Electronics Market?

The Global Space Power Electronics Market is estimated to be worth $435.0 Million by 2026.

Who are the key companies in the Global Space Power Electronics Market?

Key companies in the Global Space Power Electronics Market include Airbus, Alphacore Inc., Analog Devices, Inc., Api Technologies, Bae Systems plc, Cobham Limited, Crane Co., Epc Space LLC and Gomspace: Company Overview.
Note: Product cover images may vary from those shown

FEATURED COMPANIES

  • Airbus
  • Api Technologies
  • Crane Co.
  • Heico Corporation
  • Nxp Semiconductors
  • Solid State Devices, Inc.

1 Introduction
1.1 Objectives of the Study
1.2 Market Definition
1.3 Study Scope
1.3.1 Markets Covered
1.3.2 Regional Scope
1.3.3 Years Considered for the Study
1.4 Currency & Pricing
1.5 USD Exchange Rates
1.6 Limitations
1.7 Inclusions & Exclusions
1.8 Stakeholders
2 Research Methodology
2.1 Research Data
Figure 1 Research Process Flow
Figure 2 Research Design
2.1.1 Secondary Data
2.1.1.1 Key Data from Secondary Sources
2.1.2 Primary Data
2.1.2.1 Key Data from Primary Sources
2.1.2.2 Key Primary Sources
2.2 Factor Analysis
2.2.1 Introduction
2.2.2 Demand-Side Indicators
2.3 Research Approach and Methodology
2.3.1 Bottom-Up Approach
Figure 3 Market Size Estimation Methodology: Bottom-Up Approach
Table 1 Market Size Estimation & Methodology
2.3.1.1 Regional Split of Space Power Electronics Market
2.3.2 Top-Down Approach
Figure 4 Market Size Estimation Methodology: Top-Down Approach
2.3.2.1 COVID-19 Impact on Space Power Electronics Market
2.4 Data Triangulation
Figure 5 Data Triangulation
2.5 Research Assumptions
2.6 Limitations
2.7 Risks
3 Executive Summary
Figure 6 Power Ic Segment Projected to Lead Market
Figure 7 Low Voltage Segment Projected to Dominate Market
Figure 8 Up to 25 a Segment Projected to Grow at Highest CAGR During Forecast Period
Figure 9 Power Segment Projected to Lead During Forecast Period
Figure 10 Satellites Segment Projected to Command Largest Share During Forecast Period
Figure 11 Silicon Segment Projected to Hold Major Share During Forecast Period
Figure 12 Us to Account for Lowest CAGR During Forecast Period
4 Premium Insights
4.1 Attractive Growth Opportunities in Space Power Electronics Market
Figure 13 Increasing Demand for Wide Bandgap Materials Drives Market
4.2 Space Power Electronics Market, by Device Type
Figure 14 Power Ic Segment Projected to Lead During Forecast Period
4.3 Space Power Electronics Market, by Voltage
Figure 15 Low Voltage Segment Projected to Dominate During Forecast Period
4.4 Space Power Electronics Market, by Current
Figure 16 Up to 25 a Segment Projected to Grow at Highest CAGR During Forecast Period
4.5 Space Power Electronics Market, by Platform
Figure 17 Power Segment Projected to Lead During Forecast Period
4.6 Space Power Electronics Market, by Application
Figure 18 Satellites Segment Projected to Lead During Forecast Period
4.7 Space Power Electronics Market, by Material
Figure 19 Silicon Segment Projected to Hold Largest Share During Forecast Period
4.8 Space Power Electronics Market, by Country
Figure 20 Australia Projected to Grow at Highest CAGR During Forecast Period
5 Market Overview
5.1 Introduction
5.2 Market Dynamics
Figure 21 Space Power Electronics Market: Drivers, Restraints, Opportunities, and Challenges
5.2.1 Drivers
5.2.1.1 Increasing Demand for Wide Bandgap Materials Such as Silicon Carbide (Sic) and Gallium Nitride (Gan)
5.2.1.2 Increasing Demand for Small Satellites
Table 2 Key Information on Leo and Meo Constellations (Operational)
Table 3 Key Information on Leo and Meo Constellations (Development)
5.2.1.3 Advancements in Power Semiconductor Switch Technology
5.2.1.4 Use of Gan Amplifiers for Space Applications
5.2.1.5 Increasing Investments by Venture Capitalists in Space Exploration Missions
5.2.2 Restraints
5.2.2.1 Government Policies Related to Spacecraft
5.2.2.2 Complex Design and Integration Process
5.2.2.3 High Costs of Development and Designing
5.2.3 Opportunities
5.2.3.1 Miniaturization of Space Dc-Dc Converters
5.2.3.2 Development of Advanced Power Electronic Components
5.2.3.3 Increasing Use of Cots Products in Satellites and Other Space Applications
5.2.4 Challenges
5.2.4.1 Hazards due to Harsh Conditions in Space
5.2.4.2 Development of Low-Noise Performance Dc-Dc Converters
5.2.4.3 Converter Interaction Challenge
5.2.4.4 Customized Requirements of High-End Consumers
5.3 Impact of COVID-19 on Space Power Electronics Market
Figure 22 Impact of COVID-19 on Space Power Electronics Market
5.4 Ranges and Scenarios
Figure 23 Pessimistic, Realistic, and Optimistic Scenarios of Space Power Electronics Market with Regards to COVID-19 Pandemic:
5.5 Trends/Disruption Impacting Customer Business
5.5.1 Revenue Shift & New Revenue Pockets for Space Power Electronics Market
Figure 24 Revenue Shift for Space Power Electronics Market Players
5.6 Value Chain Analysis
Figure 25 Value Chain Analysis
5.6.1 R&D
5.6.2 Manufacturer
5.6.3 Assembly & Testing
5.6.4 End Use
5.7 Pricing Analysis
5.7.1 Average Selling Price of Key Players, by Application
Figure 26 Average Selling Prices of Key Players for Top 3 Applications
Table 4 Average Selling Prices of Key Players for Top 3 Applications (USD)
5.8 Space Power Electronics Market Ecosystem
5.8.1 Prominent Companies
5.8.2 Private and Small Enterprises
5.8.3 Market Ecosystem
Figure 27 Space Power Electronics Market Ecosystem Map
Table 5 Space Power Electronics Market Ecosystem
5.9 Trade Analysis
5.9.1 Space Power Electronics Market - Global Forecast to 2026
5.9.1.1 Import Scenario of Space Power Electronics Market
Table 6 Import Value of Aircraft and Spacecraft Spare Parts (Product Harmonized System Code: 8803) (USD Thousand)
5.9.1.2 Export Scenario of Space Power Electronics Market
Table 7 Export Value of Aircraft and Spacecraft Spare Parts (Product Harmonized System Code: 8803) (USD Thousand)
5.10 Key Conferences & Events in 2022-2023
Table 8 Space Power Electronics Market: Conferences & Events
5.11 Tariff and Regulatory Landscape
5.11.1 Regulatory Bodies, Government Agencies, and Other Organizations
Table 9 North America: List of Regulatory Bodies, Government Agencies, and Other Organizations
Table 10 Europe: List of Regulatory Bodies, Government Agencies, and Other Organizations
Table 11 Asia-Pacific: List of Regulatory Bodies, Government Agencies, and Other Organizations
5.11.2 North America
5.11.3 Europe
5.11.3.1 Un Outer Space Treaty
5.11.3.2 Developers
5.11.4 Asia-Pacific
5.11.5 Middle East & Africa
5.12 Porter's Five Forces Analysis
Table 12 Space Power Electronics: Porter's Five Force Analysis
Figure 28 Poster Five Forces Analysis: Space Power Electronics Market
5.12.1 Threat of New Entrants
5.12.2 Threat of Substitutes
5.12.3 Bargaining Power of Suppliers
5.12.4 Bargaining Power of Buyers
5.12.5 Intensity of Competitive Rivalry
5.13 Key Stakeholders & Buying Criteria
5.13.1 Key Stakeholders in Buying Process
Figure 29 Influence of Stakeholders in Buying Process for Top 3 Applications
Table 13 Influence of Stakeholders in Buying Process for Top 3 Applications (%)
5.13.2 Buying Criteria
Figure 30 Key Buying Criteria for Top 3 Applications
Table 14 Key Buying Criteria for Top 3 Applications
6 Industry Trends
6.1 Introduction
6.2 Technology Trends
6.2.1 Radiation-Hardened Gallium Nitride Power Devices
6.2.2 Low Power Dc/Dc Converter Modules
6.2.3 Modular Electric Power Systems
6.2.4 Machine Learning-Powered Analytics
6.3 Technology Analysis
6.3.1 Silicon Carbide
6.3.2 Field Programmable Gate Arrays
6.3.3 Swap - Size, Weight, and Power
6.4 Patent Analysis
Table 15 Patents Related to Space Power Electronics Granted Between 2017 and 2021
6.5 Use Cases
6.5.1 Use Case: Solar Array Panels for Power Generation in Satellites
6.5.2 Use Case: Satellite Radiation Hardness Test
6.5.3 Use Case: Cubesats for Interplanetary Missions
6.6 Impact of Megatrends
6.6.1 Development of New-Generation Cubesats for Lunar Exploration
6.6.2 Use of Radiation Hardened Power Electronics in Space
6.6.3 Convergence of Traditional and New Space Electronics Solutions
7 Space Power Electronics Market, by Device Type
7.1 Introduction
Figure 31 Power Ic Segment to Command Largest Share During Forecast Period
Table 16 Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 17 Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
7.2 Power Discrete
7.2.1 Diodes
7.2.1.1 High Demand for Silicon Carbide Power Diodes in Solar Panels on Satellites
7.2.2 Transistors
7.2.2.1 Gan Transistors Widely Used for Earth Observation Satellites and Satellite Internet
7.3 Power Module
7.3.1 Intelligent Power Module (Ipm)
7.3.1.1 Increasing Use of Cots-Based Ipm Lowers Space Mission Costs
7.3.2 Standard and Integrated Power Modules (Mosfets, Igbt)
7.3.2.1 Increasing Use of Radiation Hardened Power Mosfets in Satellites, Spacecraft, and Space Stations
7.4 Power Ic
7.4.1 Power Management Ic
7.4.1.1 Key Focus on Developing Cubesats for Communication and Testing Emerging Technologies
7.4.2 Application-Specific Ic
7.4.2.1 Increased Investments in Satellites Help Develop More Application-Specific Ics
8 Space Power Electronics Market, by Platform
8.1 Introduction
Figure 32 Command & Data Handling Segment Projected to Register Highest CAGR During Forecast Period
Table 18 Space Power Electronics Market, by Platform, 2018-2020 (USD Million)
Table 19 Space Power Electronics Market, by Platform, 2021-2026 (USD Million)
8.2 Power
8.2.1 Demand for High Efficiency Electrical Power and Distribution Systems on the Rise
8.3 Command & Data Handling
8.3.1 Increasing Demand for Low Power Consumption Command & Data Handling for Nanosatellites
8.4 Attitude Determination & Control System (Adcs)
8.4.1 Demand for High Efficiency Radiation Hardened Interface for Adcs
8.5 Propulsion
8.5.1 Need for Innovative Power Systems for Electrical Propulsion
8.6 Telemetry Tracking & Command System (Tt&C)
8.6.1 Increasing Satellite Launches Increases Demand for Tt&C
8.7 Structure
8.7.1 Development of Multi-Functional Structures - Key Driver
8.8 Thermal System
8.8.1 Critical to Maintaining Optimal Temperature in Spacecraft
9 Space Power Electronics Market, by Application
9.1 Introduction
Figure 33 Spacecraft & Launch Vehicles to Grow Fastest During Forecast Period
Table 20 Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 21 Space Power Electronics Market, by Application, 2021-2026 (USD Million)
9.2 Satellites
9.2.1 Increasing Deployment of Cubesats in Interplanetary Missions Boosts Segment
9.3 Spacecraft & Launch Vehicles
9.3.1 Use of Reusable Launch Vehicles Reduces Space Mission Costs
9.4 Rovers
9.4.1 Space-Grade Mosfets, Ics in Rovers Widely Used for Deep Space Exploration
9.5 Space Stations
9.5.1 Launch of Crewed Spacecraft to International Space Station Fuels Growth
10 Space Power Electronics Market, by Voltage
10.1 Introduction
Figure 34 Low Voltage Segment Projected to Register Highest CAGR During Forecast Period
Table 22 Space Power Electronics Market, by Voltage, 2018-2020 (USD Million)
Table 23 Space Power Electronics Market, by Voltage, 2021-2026 (USD Million)
10.2 Low Voltage (Below 28V)
10.2.1 Segment Driven by Use of Gan Field-Effect Transistors (Fet) in Small Satellites
10.3 Medium Voltage (28V - 80V)
10.3.1 Increasing Use of Modular Electric Power Systems Boosts Segment
10.4 High Voltage (Above 80V)
10.4.1 Increasing Use of High Voltage Power Modules Fuels Growth
11 Space Power Electronics Market, by Current
11.1 Introduction
Figure 35 Up to 25A Segment to Dominate During Forecast Period
Table 24 Space Power Electronics Market, by Current, 2018-2020 (USD Million)
Table 25 Space Power Electronics Market, by Current, 2021-2026 (USD Million)
11.2 Up to 25 A
11.2.1 Increasing Launch of Deep-Space Exploration Missions Boosts Segment
11.3 25-50 A
11.3.1 Rapid Miniaturization of Payloads Facilitates Use of Satellites for Science Missions
11.4 Over 50 A
11.4.1 Need for High-Density Power to Maintain ‘New Space’ Growth
12 Space Power Electronics Market, by Material
12.1 Introduction
Figure 36 Silicon Segment to Lead During Forecast Period
Table 26 Space Power Electronics Market, by Material, 2018-2020 (USD Million)
Table 27 Space Power Electronics Market, by Material, 2021-2026 (USD Million)
12.2 Silicon
12.2.1 Performance, Reliability, and Flight Heritage Drive Silicon Mosfet Usage
12.3 Silicon Carbide
12.3.1 Used to Reduce Spacecraft Mass and Increase Functional Capacity
12.4 Gallium Nitride
12.4.1 Used to Power Various Deep-Space Applications
12.5 Others
13 Regional Analysis
13.1 Introduction
13.2 COVID-19 Impact
Table 28 Space Power Electronics Market, by Region, 2018-2020 (USD Million)
Table 29 Space Power Electronics Market, by Region, 2021-2026 (USD Million)
13.3 North America
13.3.1 North America: COVID-19 Impact
13.3.2 PESTLE Analysis: North America
Figure 37 North America: Space Power Electronics Market Snapshot
Table 30 North America: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 31 North America: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 32 North America: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 33 North America: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
Table 34 North America: Space Power Electronics Market, by Country, 2018-2020 (USD Million)
Table 35 North America: Space Power Electronics Market, by Country, 2021-2026 (USD Million)
13.3.3 US
13.3.3.1 Use of Radiation-Fault-Tolerant Dc-Dc Converter Power Modules in Small Satellites Drives Market
Table 36 US: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 37 US: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 38 US: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 39 US: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
13.3.4 Canada
13.3.4.1 Ongoing Developments in Planetary Exploration to Drive Market in Canada
Table 40 Canada: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 41 Canada: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 42 Canada: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 43 Canada: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
13.4 Europe
13.4.1 COVID-19 Impact on Europe
13.4.2 PESTLE Analysis: Europe
Figure 38 Europe: Space Power Electronics Market Snapshot
Table 44 Europe: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 45 Europe: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 46 Europe: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 47 Europe: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
Table 48 Europe: Space Power Electronics Market, by Country, 2018-2020 (USD Million)
Table 49 Europe: Space Power Electronics Market, by Country, 2021-2026 (USD Million)
13.4.3 Russia
Table 50 Russia: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 51 Russia: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 52 Russia: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 53 Russia: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
13.4.4 Germany
13.4.4.1 Increasing Budget for Space Missions to Fuel Market
Table 54 Germany: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 55 Germany: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 56 Germany: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 57 Germany: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
13.4.5 Finland
13.4.5.1 Increasing Partnerships Among Local Companies to Drive Market
Table 58 Finland: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 59 Finland: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 60 Finland: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 61 Finland: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
13.4.6 UK
13.4.6.1 Partnerships Between UK Space Agency, Nasa, and Others to Drive Market
Table 62 UK: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 63 UK: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 64 UK: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 65 UK: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
13.4.7 Italy
13.4.7.1 Increasing Number of Remote Sensing Satellites Fuels Market
Table 66 Italy: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 67 Italy: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 68 Italy: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 69 Italy: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
13.4.8 Rest of Europe
Table 70 Rest of Europe: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 71 Rest of Europe: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 72 Rest of Europe: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 73 Rest of Europe: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
13.5 Asia-Pacific
13.5.1 COVID-19 Impact: Asia-Pacific
13.5.2 PESTLE Analysis: Asia-Pacific
Figure 39 Asia-Pacific: Space Power Electronics Market Snapshot
Table 74 Asia-Pacific: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 75 Asia-Pacific: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 76 Asia-Pacific: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 77 Asia-Pacific: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
Table 78 Asia-Pacific: Space Power Electronics Market, by Country, 2018-2020 (USD Million)
Table 79 Asia-Pacific: Space Power Electronics Market, by Country, 2021-2026 (USD Million)
13.5.3 China
13.5.3.1 Advancements in Space Missions and Endeavors Like Chinese Space Station Drive Market Growth
Table 80 China: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 81 China: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 82 China: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 83 China: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
13.5.4 India
13.5.4.1 Thriving Telecommunications Industry to Drive Indian Market for Space Power Electronics
Table 84 India: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 85 India: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 86 India: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 87 India: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
13.5.5 Japan
13.5.5.1 Involvement of Private Space Companies in Government Space Programs to Drive Market
Table 88 Japan: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 89 Japan: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 90 Japan: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 91 Japan: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
13.5.6 Rest of Asia-Pacific
Table 92 Rest of Asia-Pacific: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 93 Rest of Asia-Pacific: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 94 Rest of Asia-Pacific: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 95 Rest of Asia-Pacific: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
13.6 Rest of the World
13.6.1 COVID-19 Impact on Rest of the World
13.6.2 PESTLE Analysis: Rest of the World
Table 96 Rest of the World: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 97 Rest of the World: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 98 Rest of the World: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 99 Rest of the World: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
Table 100 Rest of the World: Space Power Electronics Market, by Region, 2018-2020 (USD Million)
Table 101 Rest of the World: Space Power Electronics Market, by Region, 2021-2026 (USD Million)
13.6.3 Middle East
13.6.3.1 Government Focus on Enhancing Military Space Applications Supports Market Growth
Table 102 Middle East: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 103 Middle East: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 104 Middle East: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 105 Middle East: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
13.6.4 Africa
13.6.4.1 Ongoing Involvement in Nanosatellite Launches Stimulates Market Growth
Table 106 Africa: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 107 Africa: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 108 Africa: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 109 Africa: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
13.6.5 Latin America
13.6.5.1 Continued Tie-Ups with Foreign Space Agencies for Space Missions Will Drive Market
Table 110 Latin America: Space Power Electronics Market, by Device Type, 2018-2020 (USD Million)
Table 111 Latin America: Space Power Electronics Market, by Device Type, 2021-2026 (USD Million)
Table 112 Latin America: Space Power Electronics Market, by Application, 2018-2020 (USD Million)
Table 113 Latin America: Space Power Electronics Market, by Application, 2021-2026 (USD Million)
14 Competitive Landscape
14.1 Introduction
14.2 Company Overview
Table 114 Key Developments of Leading Players in Space Power Electronics Market (2019-2021)
14.3 Ranking Analysis of Key Players in Space Power Electronics Market,2021
Figure 40 Ranking of Key Players in Space Power Electronics Market, 2021
14.4 Revenue Analysis,2021
Figure 41 Revenue Analysis of Key Companies in Space Power Electronics Market
14.5 Market Share Analysis,2021
Table 115 Space Power Electronics Market: Degree of Competition
14.6 Competitive Evaluation Quadrant
14.6.1 Star
14.6.2 Emerging Leader
14.6.3 Pervasive
14.6.4 Participant
Figure 42 Space Power Electronics Market Competitive Leadership Mapping, 2021
14.7 Startup/Sme Evaluation Quadrant
14.7.1 Progressive Company
14.7.2 Responsive Company
14.7.3 Starting Block
14.7.4 Dynamic Company
Figure 43 Space Power Electronics Market (Startup/Sme) Competitive Leadership Mapping, 2020
14.7.4.1 Competitive Benchmarking
Table 116 Space Power Electronics Market: Detailed List of Key Startup/Smes
14.8 Competitive Scenario
Table 117 New Product Launches, 2019-March 2022
Table 118 Contracts, Partnerships, and Agreements, 2019-March 2022
Table 119 Expansions and Collaborations, 2019-March 2022
15 Company Profiles
(Business Overview, Products Offered, Recent Developments, Analyst's View Right to Win, Strategic Choices Made, Weaknesses and Competitive Threats) *
15.1 Introduction
15.2 Key Players
15.2.1 Infineon Technologies
Table 120 Infineon Technologies: Business Overview
Figure 44 Infineon Technologies: Company Snapshot
Table 121 Infineon Technologies: Product/Solutions/Services Offered
Table 122 Infineon Technologies: Deals
Table 123 Infineon Technologies: Others
15.2.2 Texas Instruments Incorporated
Table 124 Texas Instruments Incorporated: Business Overview
Figure 45 Texas Instruments Incorporated: Company Snapshot
Table 125 Texas Instruments Incorporated: Product/Solutions/Services Offered
Table 126 Texas Instruments Incorporated: Product Launches
Table 127 Texas Instruments Incorporated: Others
15.2.3 Stmicroelectronics
Table 128 Stmicroelectronics: Business Overview
Figure 46 Stmicroelectronics: Company Snapshot
Table 129 Stmicroelectronics: Product/Solutions/Services Offered
Table 130 Stmicroelectronics: Deals
Table 131 Stmicroelectronics: Product Launches
15.2.4 Onsemi
Table 132 Onsemi: Business Overview
Figure 47 Onsemi: Company Snapshot
Table 133 Onsemi: Product/Solutions/Services Offered
Table 134 Onsemi: Deals
15.2.5 Renesas Electronics Corporation
Table 135 Renesas Electronics Corporation: Business Overview
Figure 48 Renesas Electronics Corporation: Company Snapshot
Table 136 Renesas Electronics Corporation: Product/Solutions/Services Offered
Table 137 Renesas Electronics Corporation: Deals
Table 138 Renesas Electronics Corporation: Product Launches
15.2.6 Bae Systems plc
Table 139 Bae Systems plc: Business Overview
Figure 49 Bae Systems plc: Company Snapshot
Table 140 Bae Systems plc: Product/Solutions/Services Offered
Table 141 Bae Systems plc: Deals
15.2.7 Analog Devices, Inc.
Table 142 Analog Devices Inc: Business Overview
Figure 50 Analog Devices Inc.: Company Snapshot
Table 143 Analog Devices Inc.: Product/Solutions/Services Offered
15.2.8 Vishay Intertechnology, Inc.
Table 144 Vishay Intertechnology Inc.: Business Overview
Figure 51 Vishay Intertechnology Inc.: Company Snapshot
Table 145 Vishay Intertechnology Inc.: Product/Solutions/Services Offered
15.2.9 Nxp Semiconductors
Table 146 Nxp Semiconductors: Business Overview
Figure 52 Nxp Semiconductors: Company Snapshot
Table 147 Nxp Semiconductors: Product/Solutions/Services Offered
15.2.10 Crane Co.
Table 148 Crane Co.: Business Overview
Figure 53 Crane Co.: Company Snapshot
Table 149 Crane Co.: Product/Solutions/Services Offered
15.2.11 Heico Corporation
Table 150 Heico Corporation: Business Overview
Figure 54 Heico Corporation: Company Snapshot
Table 151 Heico Corporation: Product/Solutions/Services Offered
Table 152 Heico Corporation: Deals
Table 153 Heico Corporation: Product Launches
15.2.12 Microchip Technology Inc.
Table 154 Microchip Technology Inc: Business Overview
Figure 55 Microchip Technology Inc.: Company Snapshot
Table 155 Microchip Technology Inc.: Product/Solutions/Services Offered
Table 156 Microchip Technology Inc.: Product Launches
Table 157 Microchip Technology Inc.: Deals
Table 158 Microchip Technology Inc.: Others
15.2.13 Cobham Limited
Table 159 Cobham Limited: Business Overview
Table 160 Cobham Limited: Product/Solutions/Services Offered
Table 161 Cobham Limited: Deals
Table 162 Cobham Limited: Product Launches
15.2.14 Airbus
Table 163 Airbus: Business Overview
Figure 56 Airbus: Company Snapshot
Table 164 Airbus: Product/Solutions/Services Offered
Table 165 Airbus: Deals
15.2.15 Ruag Group
Table 166 Ruag Group: Business Overview
Figure 57 Ruag Group: Company Snapshot
Table 167 Ruag Group: Product/Solutions/Services Offered
15.3 Other Players
15.3.1 Epc Space LLC
15.3.2 Alphacore Inc.
15.3.3 Gomspace: Company Overview
15.3.4 Gan Systems Inc.
15.3.5 Api Technologies
15.3.6 Wolfspeed Inc.
15.3.7 Tt Electronics
15.3.8 Terma Group
15.3.9 Vicor Corporation
15.3.10 Solid State Devices, Inc.
*Details on Business Overview, Products Offered, Recent Developments, Analyst's View, Right to Win, Strategic Choices Made, Weaknesses and Competitive Threats Might Not be Captured in Case of Unlisted Companies.
16 Appendix
16.1 Discussion Guide
16.2 Knowledgestore: The Subscription Portal
16.3 Available Customizations
Note: Product cover images may vary from those shown
  • Airbus
  • Alphacore Inc.
  • Analog Devices, Inc.
  • Api Technologies
  • Bae Systems plc
  • Cobham Limited
  • Crane Co.
  • Epc Space LLC
  • Gan Systems Inc.
  • Gomspace: Company Overview
  • Heico Corporation
  • Infineon Technologies
  • Microchip Technology Inc.
  • Nxp Semiconductors
  • Onsemi
  • Renesas Electronics Corporation
  • Ruag Group
  • Solid State Devices, Inc.
  • Stmicroelectronics
  • Terma Group
  • Texas Instruments Incorporated
  • Tt Electronics
  • Vicor Corporation
  • Vishay Intertechnology, Inc.
  • Wolfspeed Inc.
Note: Product cover images may vary from those shown

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