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Power Factor Controller IC Market Overview
The report is titled ‘Power Factor Controller IC Market: Opportunity Analysis and Future Assessment 2020-2028’. An overview of conceptual frameworks, analytical approaches of the power factor controller IC market is the main objective of the report, which further consists of the market opportunity and insights of the data involved in the making of the respective market. The power factor controller IC market is expected to grow at a significant rate in the near future.
The global power factor controller IC market is estimated to reach at a value of US$ xx Mn by the end of 2020 and expected to reach at a value of US$ xx Mn by 2028 with a significant CAGR of xx%
Power Factor Controller IC Introduction
Power factor controller, otherwise called as power factor correction devices or PFC in abbreviation, can be perceived as an attribute incorporated in some computing devices and other power supply boxes that cuts off the amount of reactive power produced by a computer. Reactive power functions at right angles to true power and drives the magnetic field. Reactive power has no real value for an electronic equipment, but power companies charge for both true and reactive power following undue and irrelevant charges. In the power factor controller, the power factor (depicted as "k") is the ratio of true power (kwatts) divided by reactive power (kvar). Notably, the value for power factor is in the middle of 0.0 and 1.00. If the power factor is beyond 0.8, it can be confirmed that the electric device is consuming power efficiently.
Power Factor Controller IC Market Dynamics
One of the major factors that is primarily driving the growth of the global power factor controller IC market is the expeditiously rising number of electronic appliances and devices across all kinds of industries around the world, which further results in growing necessity to inhibit damage to equipment and appliances due to overvoltage conditions as well as other threatening conditions. Although on the other side, factors like high installation costs are likely to hold back the growth of the global power factor controller IC market over the forecast period. Nonetheless, the rising investments in emerging economies in infrastructure is still estimated to add fresh and lucrative opportunities for the power factor controller IC market which is expected to drive the market growth in the coming years.
Power Factor Controller IC Market Segmentation
The global power factor controller IC market is segmented on the basis of product type, topology mode, package type, mounting type, end-use industry, and by region.
By Product Type
Active Power Factor IC Controllers
Passive Power Factor IC Controllers
By Topology Mode
Continuous current mode
Current-mode with fixed-off-time
Critical Conduction
Average Current
Transition mode
By Package Type
DIP-8
SO-14
SO-16
SO-20
SO-8
SSOP 10
TSSOP 38
By Mounting Type
Through Hole
Surface Mount
By End Use Industry
Automotive
Communication Infrastructure
Smart City
Smart Home
Commercial
Enterprise
Military
By Region
North America
Latin America
Europe
Africa
Middle East
Asia Pacific
Power Factor Controller IC Market Key Players
The key participating players of the global power factor controller IC market include ABB Ltd., NXP Semiconductors, STMicroelectronics, Infineon, Texas Instruments (TI), Sanken Electric Semiconductors, ON Semiconductor Corporation, Monolithic Power Systems (MPS), Toshiba Electronic Devices & Storage, Renesas Electronics, Power Integrations, Champion Microelectronic, Unisonic Technologies, Alpha & Omega Semiconductor, Motorola Mobility LLC, Analog Devices, Inc., Power Integrations Inc, Fairchild Semiconductor International, Inc., among others.
R&I Overview on Power Factor Controller IC Market Report
The non-identical approach of Reports and Insights stands with conceptual methods backed up with the data analysis. The novel market understanding approach makes up the standard of the assessment results that give a better opportunity for the customers to put their effort.
A research report on the Power Factor Controller IC market by Reports and Insights is an in-depth and extensive study of the market based on the necessary data crunching and statistical analysis. It provides a brief view of the dynamics flowing through the market, which includes the factors that support the market and the factors that are acting as impedance for the growth of the market.
Furthermore, the report includes the various trends and opportunities in the respective market in different regions for a better understanding of readers that helps to analyze the potential of the market.
Factors that are benchmarked while estimating the market
Various factors that are benchmarked while estimating the market growth includes (but not restricted to):
New product designs and launches
Current product compliance
Reimbursement
Concerns for use of Power Factor Controller IC
Advantages of Power Factor Controller IC
Actions taken by the manufacturer and respective regulatory authorities also impact the market growth of the segment. These factors are understood at regional level and in major countries globally for providing regional insights of the product segment in the report. This helps our clients to make informed decisions.
A mix of top-down and bottom-up approach is followed to arrive and validate our market value estimations. For a product segment where one/two manufacturer(s) dominates the market, it’s product sales, previous growth rates and market expansion plans are considered to generate market share in the global market.
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1. Global Power Factor Controller IC Market Report Overview
1.1. Introduction
1.2. Report Description
1.3. Methodology
2. Global Power Factor Controller IC Market Overview
2.1. Introduction
2.1.1. Introduction
2.1.2. Market Taxonomy
2.2. Executive Summary
2.3. Global Power Factor Controller IC Market Snapshot
2.4. Global Power Factor Controller IC Market Size And Forecast, 2020–2028
2.4.1. Introduction
2.4.2. Market Value Forecast And Annual Growth Rate (AGR) Comparison (2020–2028)
2.5. Global Power Factor Controller IC Market Dynamics
2.5.1. Drivers
2.5.2. Restraints
2.5.3. Opportunity
2.5.4. Trends
2.6. Wide Bandgap Semiconductors Trend Analysis
2.7. Porter’s Five Forces Model
2.8. SWOT Analysis
2.9. Power Factor IC Controller Market Demand Analysis By End Use Industries
2.9.1. Automotive
2.9.2. Communication Infrastructure
2.9.3. Smart City
2.9.4. Smart Home
2.9.5. Commercial
2.9.6. Enterprise
2.9.7. Military
2.10. PEST Analysis
2.11. Pricing Analysis
2.11.1. Regional Pricing Analysis By Product Type
2.11.2. Pricing Break-up
2.11.3. Manufacturer Level Pricing
2.11.4. Distributor Level Pricing
2.11.5. Global Average Pricing Analysis Benchmark
2.11.6. Pricing Analysis by Competition
2.12. Cross Section Analysis
2.12.1. Cross Analysis of Product Type W.R.T End User Industries
3. Covid-19 Impact on Power Factor Controller IC Market
4. Global Power Factor Controller IC Market, By Product Type
4.1. Introduction
4.1.1. Annual Growth Rate Comparison, By Product Type
4.1.2. BPS Analysis, By Product Type
4.2. Market Revenue (US$Mn) and Forecast, By Product Type
4.2.1. Active Power Factor Controller ICs
4.2.2. Passive Power Factor Controller ICs
4.3. Global Power Factor Controller IC Market Attractiveness Index, By Product Type
5. Global Power Factor Controller IC Market, By End User Industries
5.1. Introduction
5.1.1. Annual Growth Rate Comparison, By End User Industries
5.1.2. BPS Analysis, By End User Industries
5.2. Market Revenue (US$Mn) and Forecast, By End User Industries
5.2.1. Automotive
5.2.2. Communication Infrastructure
5.2.3. Smart City
5.2.4. Smart Home
5.2.5. Commercial
5.2.6. Enterprise
5.2.7. Military
5.3. Global Power Factor Controller IC Market Attractiveness Index, By End User Industries
6. Global Power Factor Controller IC Market, By Package Type
6.1. Introduction
6.1.1. Annual Growth Rate Comparison, By Package Type
6.1.2. BPS Analysis, By Package Type
6.2. Market Revenue (US$Mn) and Forecast, By Package Type
6.2.1. DIP-8
6.2.2. SO-14
6.2.3. SO-16
6.2.4. SO-20
6.2.5. SO-8
6.2.6. SSOP 10
6.2.7. TSSOP 38
6.3. Global Power Factor Controller IC Market Attractiveness Index, By Package Type
7. Global Power Factor Controller IC Market, By Topology Mode
7.1. Introduction
7.1.1. Annual Growth Rate Comparison, By Topology Mode
7.1.2. BPS Analysis, By Topology Mode
7.2. Market Revenue (US$Mn) and Forecast, By Topology Mode
7.2.1. Continuous current mode
7.2.2. Current-mode with fixed-off-time
7.2.3. Critical Conduction
7.2.4. Average Current
7.2.5. Transition mode
7.3. Global Power Factor Controller IC Market Attractiveness Index, By Topology Mode
8. Global Power Factor Controller IC Market, By Mounting Type
8.1. Introduction
8.1.1. Annual Growth Rate Comparison, By Mounting Type
8.1.2. BPS Analysis, By Mounting Type
8.2. Market Revenue (US$Mn) and Forecast, By Mounting Type
8.2.1. Through Hole
8.2.2. Surface Mount
8.3. Global Power Factor Controller IC Market Attractiveness Index, By Mounting Type
9. Global Power Factor Controller IC Market, By Region
9.1. Introduction
9.1.1. Annual Growth Rate Comparison, By Region
9.1.2. BPS Analysis, By Region
9.2. Market Revenue (US$Mn) and Forecast, By Region
9.2.1. North America
9.2.2. Latin America
9.2.3. Europe
9.2.4. Asia Pacific
9.2.5. Middle East
9.2.6. Africa
9.3. Global Power Factor Controller IC Market Attractiveness Index, By Region
10. North America Power Factor Controller IC Market Analysis and Forecast, 2020–2028
10.1. Introduction
10.1.1. Annual Growth Rate Comparison, By Country
10.1.2. BPS Analysis, By Country
10.2. Market Revenue (US$Mn) and Forecast, By Country
10.2.1. U.S. Power Factor Controller IC Market
10.2.1.1. Revenue (US$ Mn) & Forecast, By Product Type
10.2.1.2. Revenue (US$ Mn) & Forecast, By Topology Mode
10.2.1.3. Revenue (US$ Mn) & Forecast, By Mounting Type
10.2.1.4. Revenue (US$ Mn) & Forecast, By End User Industries
10.2.1.5. Revenue (US$ Mn) & Forecast, By Package Type
10.2.2. Canada Power Factor Controller IC Market
10.2.2.1. Revenue (US$ Mn) & Forecast, By Product Type
10.2.2.2. Revenue (US$ Mn) & Forecast, By Topology Mode
10.2.2.3. Revenue (US$ Mn) & Forecast, By Mounting Type
10.2.2.4. Revenue (US$ Mn) & Forecast, By End User Industries
10.2.2.5. Revenue (US$ Mn) & Forecast, By Package Type
10.3. North America Power Factor Controller IC Market, By Product Type
10.3.1. Active Power Factor Controller ICs
10.3.2. Passive Power Factor Controller ICs
10.4. North America Power Factor Controller IC Market, By End User Industries
10.4.1. Automotive
10.4.2. Communication Infrastructure
10.4.3. Smart City
10.4.4. Smart Home
10.4.5. Commercial
10.4.6. Enterprise
10.4.7. Military
10.5. North America Power Factor Controller IC Market, By Package Type
10.5.1. DIP-8
10.5.2. SO-14
10.5.3. SO-16
10.5.4. SO-20
10.5.5. SO-8
10.5.6. SSOP 10
10.5.7. TSSOP 38
10.6. North America Power Factor Controller IC Market, By Mount Type
10.6.1. Through Hole
10.6.2. Surface Mount
10.7. North America Power Factor Controller IC Market, By Topology Mode
10.7.1. Continuous current mode
10.7.2. Current-mode with fixed-off-time
10.7.3. Critical Conduction
10.7.4. Average Current
10.7.5. Transition mode
10.8. North America Power Factor Controller IC Market Attractiveness Index
10.8.1. By Country
10.8.2. By Product Type
10.8.3. By End User Industries
10.8.4. By Package Type
10.8.5. By Mount Type
10.8.6. By Topology Mode
11. Latin America Power Factor Controller IC Market Analysis and Forecast, 2020–2028
11.1. Introduction
11.1.1. Annual Growth Rate Comparison, By Country
11.1.2. BPS Analysis, By Country
11.2. Market (US$Mn) Forecast, By Country
11.2.1. Brazil Power Factor Controller IC Market
11.2.1.1. Revenue (US$ Mn) & Forecast, By Product Type
11.2.1.2. Revenue (US$ Mn) & Forecast, By Topology Mode
11.2.1.3. Revenue (US$ Mn) & Forecast, By Mounting Type
11.2.1.4. Revenue (US$ Mn) & Forecast, By End User Industries
11.2.1.5. Revenue (US$ Mn) & Forecast, By Package Type
11.2.2. Mexico Power Factor Controller IC Market
11.2.2.1. Revenue (US$ Mn) & Forecast, By Product Type
11.2.2.2. Revenue (US$ Mn) & Forecast, By Topology Mode
11.2.2.3. Revenue (US$ Mn) & Forecast, By Mounting Type
11.2.2.4. Revenue (US$ Mn) & Forecast, By End User Industries
11.2.2.5. Revenue (US$ Mn) & Forecast, By Package Type
11.2.3. Rest Of Latin America Power Factor Controller IC Market
11.2.3.1. Revenue (US$ Mn) & Forecast, By Product Type
11.2.3.2. Revenue (US$ Mn) & Forecast, By Topology Mode
11.2.3.3. Revenue (US$ Mn) & Forecast, By Mounting Type
11.2.3.4. Revenue (US$ Mn) & Forecast, By End User Industries
11.2.3.5. Revenue (US$ Mn) & Forecast, By Package Type
11.3. Latin America Power Factor Controller IC Market, By Product Type
11.3.1. Active Power Factor Controller ICs
11.3.2. Passive Power Factor Controller ICs
11.4. Latin America Power Factor Controller IC Market, By End User Industries
11.4.1. Automotive
11.4.2. Communication Infrastructure
11.4.3. Smart City
11.4.4. Smart Home
11.4.5. Commercial
11.4.6. Enterprise
11.4.7. Military
11.5. Latin America Power Factor Controller IC Market, By Package Type
11.5.1. DIP-8
11.5.2. SO-14
11.5.3. SO-16
11.5.4. SO-20
11.5.5. SO-8
11.5.6. SSOP 10
11.5.7. TSSOP 38
11.6. Latin America Power Factor Controller IC Market, By Mount Type
11.6.1. Through Hole
11.6.2. Surface Mount
11.7. Latin America Power Factor Controller IC Market, By Topology Mode
11.7.1. Continuous current mode
11.7.2. Current-mode with fixed-off-time
11.7.3. Critical Conduction
11.7.4. Average Current
11.7.5. Transition mode
11.8. Latin America Power Factor Controller IC Market Attractiveness Index
11.8.1. By Country
11.8.2. By Product Type
11.8.3. By End User Industries
11.8.4. By Package Type
11.8.5. By Mount Type
11.8.6. By Topology Mode
12. Europe Power Factor Controller IC Market Analysis and Forecast, 2020–2028
12.1. Introduction
12.1.1. Annual Growth Rate Comparison, By Country
12.1.2. BPS Analysis, By Country
12.2. Market (US$Mn) Forecast, By Country
12.2.1. U.K. Power Factor Controller IC Market
12.2.1.1. Revenue (US$ Mn) & Forecast, By Product Type
12.2.1.2. Revenue (US$ Mn) & Forecast, By Topology Mode
12.2.1.3. Revenue (US$ Mn) & Forecast, By Mounting Type
12.2.1.4. Revenue (US$ Mn) & Forecast, By End User Industries
12.2.1.5. Revenue (US$ Mn) & Forecast, By Package Type
12.2.2. Germany Power Factor Controller IC Market
12.2.2.1. Revenue (US$ Mn) & Forecast, By Product Type
12.2.2.2. Revenue (US$ Mn) & Forecast, By Topology Mode
12.2.2.3. Revenue (US$ Mn) & Forecast, By Mounting Type
12.2.2.4. Revenue (US$ Mn) & Forecast, By End User Industries
12.2.2.5. Revenue (US$ Mn) & Forecast, By Package Type
12.2.3. Italy Power Factor Controller IC Market
12.2.3.1. Revenue (US$ Mn) & Forecast, By Product Type
12.2.3.2. Revenue (US$ Mn) & Forecast, By Topology Mode
12.2.3.3. Revenue (US$ Mn) & Forecast, By Mounting Type
12.2.3.4. Revenue (US$ Mn) & Forecast, By End User Industries
12.2.3.5. Revenue (US$ Mn) & Forecast, By Package Type
12.2.4. France Power Factor Controller IC Market
12.2.4.1. Revenue (US$ Mn) & Forecast, By Product Type
12.2.4.2. Revenue (US$ Mn) & Forecast, By Topology Mode
12.2.4.3. Revenue (US$ Mn) & Forecast, By Mounting Type
12.2.4.4. Revenue (US$ Mn) & Forecast, By End User Industries
12.2.4.5. Revenue (US$ Mn) & Forecast, By Package Type
12.2.5. Spain Power Factor Controller IC Market
12.2.5.1. Revenue (US$ Mn) & Forecast, By Product Type
12.2.5.2. Revenue (US$ Mn) & Forecast, By Topology Mode
12.2.5.3. Revenue (US$ Mn) & Forecast, By Mounting Type
12.2.5.4. Revenue (US$ Mn) & Forecast, By End User Industries
12.2.5.5. Revenue (US$ Mn) & Forecast, By Package Type
12.2.6. Russia Power Factor Controller IC Market
12.2.6.1. Revenue (US$ Mn) & Forecast, By Product Type
12.2.6.2. Revenue (US$ Mn) & Forecast, By Topology Mode
12.2.6.3. Revenue (US$ Mn) & Forecast, By Mounting Type
12.2.6.4. Revenue (US$ Mn) & Forecast, By End User Industries
12.2.6.5. Revenue (US$ Mn) & Forecast, By Package Type
12.2.7. Poland Power Factor Controller IC Market
12.2.7.1. Revenue (US$ Mn) & Forecast, By Product Type
12.2.7.2. Revenue (US$ Mn) & Forecast, By Topology Mode
12.2.7.3. Revenue (US$ Mn) & Forecast, By Mounting Type
12.2.7.4. Revenue (US$ Mn) & Forecast, By End User Industries
12.2.7.5. Revenue (US$ Mn) & Forecast, By Package Type
12.2.8. NORDIC Power Factor Controller IC Market
12.2.8.1. Revenue (US$ Mn) & Forecast, By Product Type
12.2.8.2. Revenue (US$ Mn) & Forecast, By Topology Mode
12.2.8.3. Revenue (US$ Mn) & Forecast, By Mounting Type
12.2.8.4. Revenue (US$ Mn) & Forecast, By End User Industries
12.2.8.5. Revenue (US$ Mn) & Forecast, By Package Type
12.2.9. BENELUX Power Factor Controller IC Market
12.2.9.1. Revenue (US$ Mn) & Forecast, By Product Type
12.2.9.2. Revenue (US$ Mn) & Forecast, By Topology Mode
12.2.9.3. Revenue (US$ Mn) & Forecast, By Mounting Type
12.2.9.4. Revenue (US$ Mn) & Forecast, By End User Industries
12.2.9.5. Revenue (US$ Mn) & Forecast, By Package Type
12.2.10. Rest Of Europe Power Factor Controller IC Market
12.2.10.1. Revenue (US$ Mn) & Forecast, By Product Type
12.2.10.2. Revenue (US$ Mn) & Forecast, By Topology Mode
12.2.10.3. Revenue (US$ Mn) & Forecast, By Mounting Type
12.2.10.4. Revenue (US$ Mn) & Forecast, By End User Industries
12.2.10.5. Revenue (US$ Mn) & Forecast, By Package Type
12.3. Europe Power Factor Controller IC Market, By Product Type
12.3.1. Active Power Factor Controller ICs
12.3.2. Passive Power Factor Controller ICs
12.4. Europe Power Factor Controller IC Market, By End User Industries
12.4.1. Automotive
12.4.2. Communication Infrastructure
12.4.3. Smart City
12.4.4. Smart Home
12.4.5. Commercial
12.4.6. Enterprise
12.4.7. Military
12.5. Europe Power Factor Controller IC Market, By Package Type
12.5.1. DIP-8
12.5.2. SO-14
12.5.3. SO-16
12.5.4. SO-20
12.5.5. SO-8
12.5.6. SSOP 10
12.5.7. TSSOP 38
12.6. Europe Power Factor Controller IC Market, By Mount Type
12.6.1. Through Hole
12.6.2. Surface Mount
12.7. Europe Power Factor Controller IC Market, By Topology Mode
12.7.1. Continuous current mode
12.7.2. Current-mode with fixed-off-time
12.7.3. Critical Conduction
12.7.4. Average Current
12.7.5. Transition mode
12.8. Europe Power Factor Controller IC Market Attractiveness Index
12.8.1. By Country
12.8.2. By Product Type
12.8.3. By End User Industries
12.8.4. By Package Type
12.8.5. By Mount Type
12.8.6. By Topology Mode
13. Asia Pacific Power Factor Controller IC Market Analysis and Forecast, 2020–2028
13.1. Introduction
13.1.1. Annual Growth Rate Comparison, By Country
13.1.2. BPS Analysis, By Country
13.2. Market (US$Mn) Forecast, By Country
13.2.1. China Power Factor Controller IC Market
13.2.1.1. Revenue (US$ Mn) & Forecast, By Product Type
13.2.1.2. Revenue (US$ Mn) & Forecast, By Topology Mode
13.2.1.3. Revenue (US$ Mn) & Forecast, By Mounting Type
13.2.1.4. Revenue (US$ Mn) & Forecast, By End User Industries
13.2.1.5. Revenue (US$ Mn) & Forecast, By Package Type
13.2.2. India Power Factor Controller IC Market
13.2.2.1. Revenue (US$ Mn) & Forecast, By Product Type
13.2.2.2. Revenue (US$ Mn) & Forecast, By Topology Mode
13.2.2.3. Revenue (US$ Mn) & Forecast, By Mounting Type
13.2.2.4. Revenue (US$ Mn) & Forecast, By End User Industries
13.2.2.5. Revenue (US$ Mn) & Forecast, By Package Type
13.2.3. Japan Power Factor Controller IC Market
13.2.3.1. Revenue (US$ Mn) & Forecast, By Product Type
13.2.3.2. Revenue (US$ Mn) & Forecast, By Topology Mode
13.2.3.3. Revenue (US$ Mn) & Forecast, By Mounting Type
13.2.3.4. Revenue (US$ Mn) & Forecast, By End User Industries
13.2.3.5. Revenue (US$ Mn) & Forecast, By Package Type
13.2.4. Australia and New Zealand Power Factor Controller IC Market
13.2.4.1. Revenue (US$ Mn) & Forecast, By Product Type
13.2.4.2. Revenue (US$ Mn) & Forecast, By Topology Mode
13.2.4.3. Revenue (US$ Mn) & Forecast, By Mounting Type
13.2.4.4. Revenue (US$ Mn) & Forecast, By End User Industries
13.2.4.5. Revenue (US$ Mn) & Forecast, By Package Type
13.2.5. South Korea Power Factor Controller IC Market
13.2.5.1. Revenue (US$ Mn) & Forecast, By Product Type
13.2.5.2. Revenue (US$ Mn) & Forecast, By Topology Mode
13.2.5.3. Revenue (US$ Mn) & Forecast, By Mounting Type
13.2.5.4. Revenue (US$ Mn) & Forecast, By End User Industries
13.2.5.5. Revenue (US$ Mn) & Forecast, By Package Type
13.2.6. Rest of Asia Pacific Power Factor Controller IC Market
13.2.6.1. Revenue (US$ Mn) & Forecast, By Product Type
13.2.6.2. Revenue (US$ Mn) & Forecast, By Topology Mode
13.2.6.3. Revenue (US$ Mn) & Forecast, By Mounting Type
13.2.6.4. Revenue (US$ Mn) & Forecast, By End User Industries
13.2.6.5. Revenue (US$ Mn) & Forecast, By Package Type
13.3. Asia Pacific Power Factor Controller IC Market, By Product Type
13.3.1. Active Power Factor Controller ICs
13.3.2. Passive Power Factor Controller ICs
13.4. Asia Pacific Power Factor Controller IC Market, By End User Industries
13.4.1. Automotive
13.4.2. Communication Infrastructure
13.4.3. Smart City
13.4.4. Smart Home
13.4.5. Commercial
13.4.6. Enterprise
13.4.7. Military
13.5. Asia Pacific Power Factor Controller IC Market, By Package Type
13.5.1. DIP-8
13.5.2. SO-14
13.5.3. SO-16
13.5.4. SO-20
13.5.5. SO-8
13.5.6. SSOP 10
13.5.7. TSSOP 38
13.6. Asia Pacific Power Factor Controller IC Market, By Mount Type
13.6.1. Through Hole
13.6.2. Surface Mount
13.7. Asia Pacific Power Factor Controller IC Market, By Topology Mode
13.7.1. Continuous current mode
13.7.2. Current-mode with fixed-off-time
13.7.3. Critical Conduction
13.7.4. Average Current
13.7.5. Transition mode
13.8. Asia Pacific Power Factor Controller IC Market Attractiveness Index
13.8.1. By Country
13.8.2. By Product Type
13.8.3. By End User Industries
13.8.4. By Package Type
13.8.5. By Mount Type
13.8.6. By Topology Mode
14. Middle East Power Factor Controller IC Market Analysis and Forecast, 2020–2028
14.1. Introduction
14.1.1. Annual Growth Rate Comparison, By Country
14.1.2. BPS Analysis, By Country
14.2. Market (US$Mn) Forecast, By Country
14.2.1. GCC Countries Power Factor Controller IC Market
14.2.1.1. Revenue (US$ Mn) & Forecast, By Product Type
14.2.1.2. Revenue (US$ Mn) & Forecast, By Topology Mode
14.2.1.3. Revenue (US$ Mn) & Forecast, By Mounting Type
14.2.1.4. Revenue (US$ Mn) & Forecast, By End User Industries
14.2.1.5. Revenue (US$ Mn) & Forecast, By Package Type
14.2.2. Israel Power Factor Controller IC Market
14.2.2.1. Revenue (US$ Mn) & Forecast, By Product Type
14.2.2.2. Revenue (US$ Mn) & Forecast, By Topology Mode
14.2.2.3. Revenue (US$ Mn) & Forecast, By Mounting Type
14.2.2.4. Revenue (US$ Mn) & Forecast, By End User Industries
14.2.2.5. Revenue (US$ Mn) & Forecast, By Package Type
14.2.3. Rest Of Middle East Power Factor Controller IC Market
14.2.3.1. Revenue (US$ Mn) & Forecast, By Product Type
14.2.3.2. Revenue (US$ Mn) & Forecast, By Topology Mode
14.2.3.3. Revenue (US$ Mn) & Forecast, By Mounting Type
14.2.3.4. Revenue (US$ Mn) & Forecast, By End User Industries
14.2.3.5. Revenue (US$ Mn) & Forecast, By Package Type
14.3. Middle East Power Factor Controller IC Market, By Product Type
14.3.1. Active Power Factor Controller ICs
14.3.2. Passive Power Factor Controller ICs
14.4. Middle East Power Factor Controller IC Market, By End User Industries
14.4.1. Automotive
14.4.2. Communication Infrastructure
14.4.3. Smart City
14.4.4. Smart Home
14.4.5. Commercial
14.4.6. Enterprise
14.4.7. Military
14.5. Middle East Power Factor Controller IC Market, By Package Type
14.5.1. DIP-8
14.5.2. SO-14
14.5.3. SO-16
14.5.4. SO-20
14.5.5. SO-8
14.5.6. SSOP 10
14.5.7. TSSOP 38
14.6. Middle East Power Factor Controller IC Market, By Mount Type
14.6.1. Through Hole
14.6.2. Surface Mount
14.7. Middle East Power Factor Controller IC Market, By Topology Mode
14.7.1. Continuous current mode
14.7.2. Current-mode with fixed-off-time
14.7.3. Critical Conduction
14.7.4. Average Current
14.7.5. Transition mode
14.8. Middle East Power Factor Controller IC Market Attractiveness Index
14.8.1. By Country
14.8.2. By Product Type
14.8.3. By End User Industries
14.8.4. By Package Type
14.8.5. By Mount Type
14.8.6. By Topology Mode
15. Africa Power Factor Controller IC Market Analysis and Forecast, 2020–2028
15.1. Introduction
15.1.1. Annual Growth Rate Comparison, By Country
15.1.2. BPS Analysis, By Country
15.2. Market (US$Mn) Forecast, By Country
15.2.1. South Africa Countries Power Factor Controller IC Market
15.2.2. Egypt Power Factor Controller IC Market
15.2.2.1. Revenue (US$ Mn) & Forecast, By Product Type
15.2.2.2. Revenue (US$ Mn) & Forecast, By End User Industries
15.2.2.3. Revenue (US$ Mn) & Forecast, By Package Type
15.2.3. North Africa Power Factor Controller IC Market
15.2.3.1. Revenue (US$ Mn) & Forecast, By Product Type
15.2.3.2. Revenue (US$ Mn) & Forecast, By End User Industries
15.2.3.3. Revenue (US$ Mn) & Forecast, By Package Type
15.2.4. Rest of Africa Power Factor Controller IC Market
15.2.4.1. Revenue (US$ Mn) & Forecast, By Product Type
15.2.4.2. Revenue (US$ Mn) & Forecast, By End User Industries
15.2.4.3. Revenue (US$ Mn) & Forecast, By Package Type
15.3. Africa Power Factor Controller IC Market, By Product Type
15.3.1. Active Power Factor Controller ICs
15.3.2. Passive Power Factor Controller ICs
15.4. Africa Power Factor Controller IC Market, By End User Industries
15.4.1. Automotive
15.4.2. Communication Infrastructure
15.4.3. Smart City
15.4.4. Smart Home
15.4.5. Commercial
15.4.6. Enterprise
15.4.7. Military
15.5. Africa Power Factor Controller IC Market, By Package Type
15.5.1. DIP-8
15.5.2. SO-14
15.5.3. SO-16
15.5.4. SO-20
15.5.5. SO-8
15.5.6. SSOP 10
15.5.7. TSSOP 38
15.6. Africa Power Factor Controller IC Market, By Mount Type
15.6.1. Through Hole
15.6.2. Surface Mount
15.7. Africa Power Factor Controller IC Market, By Topology Mode
15.7.1. Continuous current mode
15.7.2. Current-mode with fixed-off-time
15.7.3. Critical Conduction
15.7.4. Average Current
15.7.5. Transition mode
15.8. Africa Power Factor Controller IC Market Attractiveness Index
15.8.1. By Country
15.8.2. By Product Type
15.8.3. By End User Industries
15.8.4. By Package Type
15.8.5. By Mount Type
15.8.6. By Topology Mode
16. Competitive Landscape
16.1. Competition Dashboard
16.2. Company Share Analysis
16.2.1. Market Analysis by Tier of Companies
16.2.2. Market Share Analysis of Top Players
16.2.3. Market Presence Analysis
16.2.4. Regional Footprint of Players
16.2.5. Product Footprint by Players
16.2.6. Channel Footprint by Players
16.3. Company Profiles
16.3.1. ABB Ltd.
16.3.1.1. Company Overview
16.3.1.2. Financial Overview
16.3.1.3. Key Developments
16.3.1.4. SWOT Analysis
16.3.1.5. Strategies
16.3.1.6. Product Analysis
16.3.2. Infineon Technologies AG
16.3.3. NXP Semiconductors
16.3.4. STMicroelectronics
16.3.5. Texas Instruments (TI)
16.3.6. Sanken Electric Semiconductors
16.3.7. ON Semiconductor Corporation
16.3.8. Monolithic Power Systems (MPS)
16.3.9. Toshiba Electronic Devices & Storage
16.3.10. Renesas Electronics
16.3.11. Power Integrations
16.3.12. Champion Microelectronic
16.3.13. Unisonic Technologies
16.3.14. Alpha & Omega Semiconductor
16.3.15. Motorola Mobility LLC
16.3.16. Analog Devices, Inc.
16.3.17. Power Integrations Inc.
16.3.18. Fairchild Semiconductor International, Inc..
17. Acronyms
Power factor controller, otherwise called as power factor correction devices or PFC in abbreviation, can be perceived as an attribute incorporated in some computing devices and other power supply boxes that cuts off the amount of reactive power produced by a computer.
The expeditiously rising number of electronic appliances and devices across all kinds of industries around the world and rising investments in emerging economies in infrastructure
The global power factor controller IC market is segmented on the basis of product type, topology mode, package type, mounting type, end-use industry, and by region.
The key participating players of the global power factor controller IC market include ABB Ltd., NXP Semiconductors, STMicroelectronics, Infineon, Texas Instruments (TI), Sanken Electric Semiconductors, ON Semiconductor Corporation, Monolithic Power Systems (MPS), Toshiba Electronic Devices & Storage, Renesas Electronics, Power Integrations, Champion Microelectronic, Unisonic Technologies, Alpha & Omega Semiconductor, Motorola Mobility LLC, Analog Devices, Inc., Power Integrations Inc, Fairchild Semiconductor International, Inc., among others