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Telecom Power System Market by Grid Type (On Grid, Off Grid, Bad Grid), Component (Rectifier, Inverter, Converter, Controller, Generator), Power Source (Diesel-Battery, Diesel-Solar, Diesel-Wind, Multiple Sources), and Geography - Global Forecast to 2022
出 版 商:MarketsandMarkets
出版日期:2017/03/08
頁 數:137頁
文件格式:PDF
價 格:
USD 5,650 (Single-User License)
USD 6,650 (Multi-User License)
USD 8,150 (Global-User License)
USD 6,650 (Multi-User License)
USD 8,150 (Global-User License)
“Telecom power system market estimated to grow at a CAGR of 10.26% between 2017 and 2022.”
The telecom power system market is expected to be worth USD 4.53 billion in 2022, growing at a CAGR of 10.26% between 2017 and 2022. The drivers for this market are increasing awareness to reduce the carbon footprint of telecom industry and aggressive expansion of telecom infrastructure in off-grid areas especially in Asia and Africa to attain universal coverage. The main restraint for this market is environmental concerns pertaining to power supply systems of telecom towers due to high utilization of diesel for powering telecom infrastructure.
“Market for off-grid telecom power systems is estimated to grow at the highest rate.”
The market for off-grid telecom power systems is expected to grow at the highest CAGR during the forecast period. The growth of mobile subscribers is expected to be concentrated in the developing countries of APAC and Africa. This population overwhelmingly inhabits rural areas where access to electricity is patchy and unreliable.
“Diesel-battery power source is estimated to hold the largest share of the market during the forecast period”
Diesel-battery power source is expected to hold the largest share during the forecast period. In developing countries such as Brazil, Mexico, and India among others the telecom operators find it economically feasible to deploy diesel-battery solutions to power the telecom towers. This power source requires less capital investment and reduces the carbon emission also due to reduction in diesel generator run time.
“APAC is expected to be the fastest-growing market for telecom power systems during the forecast period”
The market in APAC is expected to grow at the highest CAGR because of penetration of telecom towers in rural areas to expand the mobile network to the growing mobile subscriber base and also to improve connectivity. The APAC region has witnessed 3G network expansion and LTE networks have been launched in the APAC countries.
Breakdown of profile of primary participants:
‧ By Company Type: Tier 1 - 35 %, Tier 2 - 45%, and Tier 3 - 20%
‧ By Designation: C-level Executives - 35%, Directors - 25%, and Others - 40%
‧ By Region: North America - 45%, Europe - 20%, APAC - 30%, and RoW - 5%
The major players in the telecom power system market include Delta Electronics (Taiwan), Eaton (Ireland), GE Industrial Solutions (U.S.), Huawei Technologies Co. (China), Schneider Electric (France), among others.
Research Coverage
The study segments the telecom power system market on the basis of grid type into on-grid, off-grid and bad grid telecom power systems. The telecom power systems have been segmented on the basis of power source into diesel-battery, diesel-solar, diesel-wind and multiple sources (diesel/solar/wind/battery/biomass). On the basis of components, the report segments the telecom power system market into components such as generators, rectifiers, inverters, converters, controllers, heat management systems, and batteries. The report also forecasts the market size for various segments with regard to four main regions, namely, North America, Europe, Asia-Pacific, and RoW.
Reasons to buy the report
The report would help the market leaders/new entrants in this market in the following ways:
1. This report segments the telecom power system market comprehensively and provides the closest approximations of the overall market size and those of the subsegments across different grid types and regions.
2. The report helps stakeholders to understand the pulse of the market and provides them information on key market drivers, restraints, challenges, and opportunities.
3. This report would help stakeholders to understand their competitors better and gain more insights to enhance their position in the business. The competitive landscape section includes competitor ecosystem, new product developments, partnerships, and mergers and acquisitions in the telecom power system market.
The telecom power system market is expected to be worth USD 4.53 billion in 2022, growing at a CAGR of 10.26% between 2017 and 2022. The drivers for this market are increasing awareness to reduce the carbon footprint of telecom industry and aggressive expansion of telecom infrastructure in off-grid areas especially in Asia and Africa to attain universal coverage. The main restraint for this market is environmental concerns pertaining to power supply systems of telecom towers due to high utilization of diesel for powering telecom infrastructure.
“Market for off-grid telecom power systems is estimated to grow at the highest rate.”
The market for off-grid telecom power systems is expected to grow at the highest CAGR during the forecast period. The growth of mobile subscribers is expected to be concentrated in the developing countries of APAC and Africa. This population overwhelmingly inhabits rural areas where access to electricity is patchy and unreliable.
“Diesel-battery power source is estimated to hold the largest share of the market during the forecast period”
Diesel-battery power source is expected to hold the largest share during the forecast period. In developing countries such as Brazil, Mexico, and India among others the telecom operators find it economically feasible to deploy diesel-battery solutions to power the telecom towers. This power source requires less capital investment and reduces the carbon emission also due to reduction in diesel generator run time.
“APAC is expected to be the fastest-growing market for telecom power systems during the forecast period”
The market in APAC is expected to grow at the highest CAGR because of penetration of telecom towers in rural areas to expand the mobile network to the growing mobile subscriber base and also to improve connectivity. The APAC region has witnessed 3G network expansion and LTE networks have been launched in the APAC countries.
Breakdown of profile of primary participants:
‧ By Company Type: Tier 1 - 35 %, Tier 2 - 45%, and Tier 3 - 20%
‧ By Designation: C-level Executives - 35%, Directors - 25%, and Others - 40%
‧ By Region: North America - 45%, Europe - 20%, APAC - 30%, and RoW - 5%
The major players in the telecom power system market include Delta Electronics (Taiwan), Eaton (Ireland), GE Industrial Solutions (U.S.), Huawei Technologies Co. (China), Schneider Electric (France), among others.
Research Coverage
The study segments the telecom power system market on the basis of grid type into on-grid, off-grid and bad grid telecom power systems. The telecom power systems have been segmented on the basis of power source into diesel-battery, diesel-solar, diesel-wind and multiple sources (diesel/solar/wind/battery/biomass). On the basis of components, the report segments the telecom power system market into components such as generators, rectifiers, inverters, converters, controllers, heat management systems, and batteries. The report also forecasts the market size for various segments with regard to four main regions, namely, North America, Europe, Asia-Pacific, and RoW.
Reasons to buy the report
The report would help the market leaders/new entrants in this market in the following ways:
1. This report segments the telecom power system market comprehensively and provides the closest approximations of the overall market size and those of the subsegments across different grid types and regions.
2. The report helps stakeholders to understand the pulse of the market and provides them information on key market drivers, restraints, challenges, and opportunities.
3. This report would help stakeholders to understand their competitors better and gain more insights to enhance their position in the business. The competitive landscape section includes competitor ecosystem, new product developments, partnerships, and mergers and acquisitions in the telecom power system market.
TABLE OF CONTENTS
1. INTRODUCTION
1.1. OBJECTIVES OF THE STUDY
1.2. MARKET DEFINITION AND STUDY SCOPE
1.3. MARKETS COVERED
1.4. MARKET SEGMENTATION
1.5. STAKEHOLDERS
1.6. CURRENCY
1.7. LIMITATIONS
2. RESEARCH METHODOLOGY
2.1. MARKET SIZE ESTIMATION
2.2. MARKET BREAKDOWN AND DATA TRIANGULATIONS
2.2.1 TOP DOWN APPROACH
2.2.2 BOTTOM UP APPROACH
2.3 MARKET SHARE ESTIMATION
2.3.1 KEY DATA FROM PRIMARY SOURCES
2.3.2 KEY DATA FROM SECONDARY SOURCES
2.4. RESEARCH LIMITATIONS
3. EXECUTIVE SUMMARY
4. PREMIUM INSIGHTS
4.1. LUCRATIVE OPPORTUNITIES IN THE TELECOM POWER SYSTEM (HYBRID) MARKET
4.2. TELECOM POWER SYSTEM (HYBRID) MARKET IN APAC TO SHOW PROMINENT GROWTH BETWEEN 2017 AND 2022
4.3. TELECOM POWER SYSTEM (HYBRID) MARKET, BY COMPONENT AND POWER SOURCE, 2016
4.4. TELECOM POWER SYSTEM (HYBRID) MARKET, BY GRID TYPE, 2017 VS. 2022
4.5. TELECOM POWER SYSTEM (HYBRID) MARKET, BY POWER SOURCE, 2017 VS. 2022
5. MARKET OVERVIEW
5.1 MARKET DYNAMICS
5.1.1. DRIVERS
5.1.2. RESTRAINTS
5.1.3. OPPORTUNITIES
5.1.4. CHALLENGES
?
6. INDUSTRY TRENDS
6.1. VALUE CHAIN ANALYSIS
6.2 SUPPLIER ANALYSIS
6.3. PORTER’S FIVE FORCES ANALYSIS
6.3.1. BARGAINING POWER OF BUYERS
6.3.2. BARGAINING POWER OF SUPPLIERS
6.3.3. THREAT OF NEW ENTRANTS
6.3.4. THREAT OF SUBSTITUTES
6.3.5. INTENSITY OF COMPETITIVE RIVALRY
7. MARKET BY COMPONENT
7.1. INTRODUCTION
7.2. RECTIFIERS
7.3. CONVERTERS
7.4. CONTROLLERS
7.5. HEAT MANAGEMENT SYSTEMS
7.6. GENERATORS
7.7. OTHERS (SOLAR OR PV CELLS, WIND TURBINES, BATTERIES, CABINETS, AND ENCLOSURES, POWER DISTRIBUTION UNITS, CIRCUIT BREAKERS, AND SURGE PROTECTION DEVICES.)
8. MARKET BY GRID TYPE
8.1. INTRODUCTION
8.2. ON GRID
8.3. OFF GRID
8.4. BAD GRID
9. MARKET BY POWER SOURCE
9.1. INTRODUCTION
9.2. DIESEL-BATTERY
9.3. DIESEL-SOLAR
9.4. DIESEL-WIND
9.5. MULTIPLE SOURCES (DIESEL-SOLAR-WIND BATTERY- BIOMASS)
10. MARKET BY GEOGRAPHY
10.1. INTRODUCTION
10.2. APAC
10.3. ROW
10.4. NORTH AMERICA
10.5. EUROPE
?
11. COMPETITIVE LANDSCAPE
11.1. MARKET SHARE ANALYSIS
11.2. COMPETITIVE LANDSCAPE
11.2.1. NEW PRODUCT LAUNCHES AND NEW PRODUCT DEVELOPMENT
11.2.2. CONTRACTS AND AGREEMENTS
11.2.1. AWARDS AND ACQUISITIONS
11.2.2. PARTNERSHIPS AND COLLABORATIONS
12. COMPANY PROFILES
12.1. INTRODUCTION
12.2 DELTA ELECTRONICS
12.3. EATON
12.4. GE INDUSTRIAL SOLUTIONS
12.5. HUAWEI TECHNOLOGIES CO.
12.6. SCHNEIDER ELECTRIC
12.7. VERTIV CO. ( FORMERLY EMERSON NETWORK POWER)
12.8. CUMMINS POWER
12.9. MYERS POWER PRODUCTS, INC.
12.10. ASCOT INDUSTRIAL S.R.L.
12.11. UNIPOWER
13. APPENDIX
13.1. DISCUSSION GUIDE
13.2. KNOWLEDGE STORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL
13.3. INTRODUCING RT: REAL-TIME MARKET INTELLIGENCE
13.4. AVAILABLE CUSTOMIZATIONS
13.5. RELATED REPORTS
13.6. AUTHOR DETAILS
?
1. INTRODUCTION
1.1. OBJECTIVES OF THE STUDY
1.2. MARKET DEFINITION AND STUDY SCOPE
1.3. MARKETS COVERED
1.4. MARKET SEGMENTATION
1.5. STAKEHOLDERS
1.6. CURRENCY
1.7. LIMITATIONS
2. RESEARCH METHODOLOGY
2.1. MARKET SIZE ESTIMATION
2.2. MARKET BREAKDOWN AND DATA TRIANGULATIONS
2.2.1 TOP DOWN APPROACH
2.2.2 BOTTOM UP APPROACH
2.3 MARKET SHARE ESTIMATION
2.3.1 KEY DATA FROM PRIMARY SOURCES
2.3.2 KEY DATA FROM SECONDARY SOURCES
2.4. RESEARCH LIMITATIONS
3. EXECUTIVE SUMMARY
4. PREMIUM INSIGHTS
4.1. LUCRATIVE OPPORTUNITIES IN THE TELECOM POWER SYSTEM (HYBRID) MARKET
4.2. TELECOM POWER SYSTEM (HYBRID) MARKET IN APAC TO SHOW PROMINENT GROWTH BETWEEN 2017 AND 2022
4.3. TELECOM POWER SYSTEM (HYBRID) MARKET, BY COMPONENT AND POWER SOURCE, 2016
4.4. TELECOM POWER SYSTEM (HYBRID) MARKET, BY GRID TYPE, 2017 VS. 2022
4.5. TELECOM POWER SYSTEM (HYBRID) MARKET, BY POWER SOURCE, 2017 VS. 2022
5. MARKET OVERVIEW
5.1 MARKET DYNAMICS
5.1.1. DRIVERS
5.1.2. RESTRAINTS
5.1.3. OPPORTUNITIES
5.1.4. CHALLENGES
?
6. INDUSTRY TRENDS
6.1. VALUE CHAIN ANALYSIS
6.2 SUPPLIER ANALYSIS
6.3. PORTER’S FIVE FORCES ANALYSIS
6.3.1. BARGAINING POWER OF BUYERS
6.3.2. BARGAINING POWER OF SUPPLIERS
6.3.3. THREAT OF NEW ENTRANTS
6.3.4. THREAT OF SUBSTITUTES
6.3.5. INTENSITY OF COMPETITIVE RIVALRY
7. MARKET BY COMPONENT
7.1. INTRODUCTION
7.2. RECTIFIERS
7.3. CONVERTERS
7.4. CONTROLLERS
7.5. HEAT MANAGEMENT SYSTEMS
7.6. GENERATORS
7.7. OTHERS (SOLAR OR PV CELLS, WIND TURBINES, BATTERIES, CABINETS, AND ENCLOSURES, POWER DISTRIBUTION UNITS, CIRCUIT BREAKERS, AND SURGE PROTECTION DEVICES.)
8. MARKET BY GRID TYPE
8.1. INTRODUCTION
8.2. ON GRID
8.3. OFF GRID
8.4. BAD GRID
9. MARKET BY POWER SOURCE
9.1. INTRODUCTION
9.2. DIESEL-BATTERY
9.3. DIESEL-SOLAR
9.4. DIESEL-WIND
9.5. MULTIPLE SOURCES (DIESEL-SOLAR-WIND BATTERY- BIOMASS)
10. MARKET BY GEOGRAPHY
10.1. INTRODUCTION
10.2. APAC
10.3. ROW
10.4. NORTH AMERICA
10.5. EUROPE
?
11. COMPETITIVE LANDSCAPE
11.1. MARKET SHARE ANALYSIS
11.2. COMPETITIVE LANDSCAPE
11.2.1. NEW PRODUCT LAUNCHES AND NEW PRODUCT DEVELOPMENT
11.2.2. CONTRACTS AND AGREEMENTS
11.2.1. AWARDS AND ACQUISITIONS
11.2.2. PARTNERSHIPS AND COLLABORATIONS
12. COMPANY PROFILES
12.1. INTRODUCTION
12.2 DELTA ELECTRONICS
12.3. EATON
12.4. GE INDUSTRIAL SOLUTIONS
12.5. HUAWEI TECHNOLOGIES CO.
12.6. SCHNEIDER ELECTRIC
12.7. VERTIV CO. ( FORMERLY EMERSON NETWORK POWER)
12.8. CUMMINS POWER
12.9. MYERS POWER PRODUCTS, INC.
12.10. ASCOT INDUSTRIAL S.R.L.
12.11. UNIPOWER
13. APPENDIX
13.1. DISCUSSION GUIDE
13.2. KNOWLEDGE STORE: MARKETSANDMARKETS’ SUBSCRIPTION PORTAL
13.3. INTRODUCING RT: REAL-TIME MARKET INTELLIGENCE
13.4. AVAILABLE CUSTOMIZATIONS
13.5. RELATED REPORTS
13.6. AUTHOR DETAILS
?
