Global Telecom Power Systems Market By Type (Indoor telecom power system , and Outdoor telecom power system), By Application (Macro BTS and outdoor distributed BTS , and enterprise network,data center), By Region and Key Companies - Industry Segment Outlook, Market Assessment, Competition Scenario, Trends and Forecast 2021-2030 (Includes Business Impact of COVID-19)

                                          
Report updated on 11th September, 2021: Global Telecom Power Systems Market By Type (Indoor telecom power system , and Outdoor telecom power system), By Application (Macro BTS and outdoor distributed BTS , and enterprise network,data center), By Region and Key Companies - Industry Segment Outlook, Market Assessment, Competition Scenario, Trends and Forecast 2021-2030 (Includes Business Impact of COVID-19)
Trusted Business Insights has published a comprehensive market research report on, Global Telecom Power Systems Market by Component (Rectifiers, Converters, Controllers, Controllers, Generators, Distribution Unit, Protection Devices and others), By Grid (On Grid, Off Grid), By Power Source (Diesel-Battery, Diesel-Solar, Diesel-Wind, and Multiple Sources) by Region -Global Forecast to 2030, which offers a holistic view of the global telecom power systems market through systematic segmentation that covers every aspect of the target market.

The global telecom power systems market is projected to be US$ 3,800.3 Mn in 2021 to reach US$ 10885.9 Mn by 2030 at a CAGR of 11.1%.

Telecom power systems are generally used to assist telecom services through monitoring and controlling the flow of power over the telecom network, and designed for wireless broadband access, internet backbone, fixed-line applications, and for data centers. Telecom power systems consist of numerous smaller units that can bear various technical requirements such as controllers, converters, distributors, and others. These systems are reliable, energy-efficient solutions that protect against grid power interruptions and fluctuations that help the operators to reduce OPEX and the overall carbon footprint. The intersection of information technology (IT) and telecom industry has resulted in the development of the telecom power systems market.

The global telecom power system is expected to register stable growth, especially in developing economies over the forecast period owing to favorable economic situations in this region. Global telecom power system market is currently witnessing rapid growth, owing to impeccable growth in telecommunication industry across the globe. Since telecom networks are reaching even in the remotest part of the world, with strong growth of telecom infrastructures in rural areas, mainly in developing regions, the demand for telecom power system is certainly augmenting, which represents the critical factor that is driving the market. Emerging telecom network, particularly in developing regions of the Asia Pacific, Middle East, and Africa is rising number of subscribers in these regions. To meet the demand telecom towers being mostly installed even in rural and remote areas, raising the demand for telecom power systems, this is certainly attracting major market player in these regions which is boosting market growth.


Global Telecom Power Systems Market Revenue (US$ Mn), 2021“2029


Robust growth, in the end-use segment, i.e., growth in the telecommunication industry is certainly the key factor that is driving the target market. With the increasing penetration of telecom towers in the remotest part of the world and off-grid areas, the demand for power systems is significantly increasing hence aiding the market growth.

With a rising disposable large share of the population is using smartphones and tablets which has driven the demand for more advanced networks such as 4G and VoLTE, this is also one of the factors which are driving the growth of the market

Robust growth in telecommunication industry especially in Asia, Middle East, and Africa and increasing internet penetration in these regions is certainly augmenting demand for power systems which is generating lucrative growth opportunities for the key players to invest in these market

Global telecom power systems market is segmented on the basis on component, grid, power source, and region. Based on the component, the market is segmented into rectifiers, converters, controllers, controllers, generators, distribution unit, protection devices, and others. Based on the grid, the market is segmented into on-grid, off-grid. On the basis of power source, the market is segmented into diesel-battery, diesel-solar, diesel-wind, and multiple sources.


Global Telecom Power Systems Market by Grid, 2019


On the basis of region, the market is segmented into North America, Europe, APAC, South America and MEA. APAC market is estimated to contribute the largest share owing to increasing internet penetration in these regions. North America is a second-highest shareholder of the target market and is expected to remain identical for the coming years. APAC market in the global telecom power systems market is projected to register a steady CAGR over the forecast period owing to increase in industrialization in the country such as China & India of Asia Pacific is expected to fuel the global telecom power systems market in forecast years.

The research report on the global telecom power systems market includes profiles of some of major companies such as General Electric Company, Schneider Electric SE., Mitsubishi Electric Corporation, Delta Electronics, Inc., AEG Power Solutions, Myers Power Products, Inc., Eaton Corporation plc, Huawei Technologies Co., Ltd., Vertiv Group Corp., Microtek International Pvt. Ltd., Cummins Inc., Ascot Industrial S.r.l. and UNIPOWER, LLC.



Below are the active patents related to Telecom Power Systems Market.


Patent Number: US8648495B2

Smart-grid combination power system

Abstract

The embodiments shown and described herein relate to a portable clean power generation and aggregation system. The system comprises a plurality of power generation units operable to generate DC electrical power, a power storage device, an inverter unit, and a main controller. The plurality of power generation units may include a solar power generation unit, a wind power generation unit, a hydro power generation unit, and a fuel-based power generation unit. The main controller is electrically coupled to the plurality of power generation units, the inverter controller, and the power storage device, and monitors DC electrical power generation by the plurality of power generation units, monitors DC electrical power received by the inverter, measures charge of the power storage device, and directs DC electrical power from the power storage device to the inverter. The nature of the system and its applications allows the effective use of wireless communications systems and the like where they would otherwise not be possible.

Application filed by Date:2010-07-08

Application Granted Date:2014-02-11

Current Assignee: CHOU LI

Patent Number: US8588991B1

System, method, and apparatus for electric power grid and network management of grid elements

Abstract

Systems, methods, and apparatus embodiments for electric power grid and network registration and management of active grid elements. Grid elements are transformed into active grid elements following initial registration of each grid element with the system, preferably through network-based communication between the grid elements and a coordinator, either in coordination with or outside of an IP-based communications network router. A multiplicity of active grid elements function in the grid for supply capacity, supply and/or load curtailment as supply or capacity. Also preferably, messaging is managed through a network by a Coordinator using IP messaging for communication with the grid elements, with the energy management system (EMS), and with the utilities, market participants, and/or grid operators.

Application filed by Date: 2013-02-02

Application Granted Date: 2013-11-19

Current Assignee: Causam Enterprises Inc

Patent Number: US7571028B2

Method and system for AC power grid monitoring

Abstract

A method and system allows for substantially real-time monitoring of the operational dynamics of power plants and other components comprising an AC power grid, by using information collected from a network of power grid frequency detection and reporting devices. The invention allows for the substantially real-time detection and reporting of certain power grid events such as power plant trips.

Application filed by Date: 2005-04-19

Application granted Date: 2009-08-04

Current Assignee: Genscape Intangible Holding Inc

Key Market Segments:

By Product Type

  
AC Power Systems
  
DC Power Systems
  
Digital Electricity

By Grid Type

  
On-grid
  
Off-grid
  
Bad grid

By Power Source

  
Diesel-Battery
  
Diesel-Solar
  
Diesel-Wind
  
Other Sources


Key Market Players included in the report:


  
ABB
  
AC DC Power Supply
  
Alpha Technologies
  
American Tower Corporation
  
Ascot Industrial S.r.l.
  
AU Optronics Corp.
  
Bharti Infratel Ltd.
  
BOE Technology Group Co.Ltd.
  
Corning Incorporated
  
Crown Castle International Corporation
  
Cummins Inc.
  
Delta Electronics (Taiwan)
  
Dynamic Power Group
  
Eaton Towers Limited
  
Eltek
  
Emerson Network Power Inc.
  
GE Energy Infrastructure.
  
GE Industrial Solutions (U.S.)
  
General Electric Company
  
GTL Infrastructure Ltd.
  
Hangzhou ZhongHeng Power Energy Co. Ltd.
  
Huawei Technologies Co. (China)
  
Indus Towers Ltd.
  
Japan Display Inc.
  
LG Display Co.Ltd
  
Myers Power Products Inc.
  
Reliance Infratel Limited
  
SAMSUNG
  
SBA
  
Schneider Electric (France)
  
Staticon Ltd.
  
UniPower
  
Vertiv Group Corp.
  
Viom Networks Limited
  
VoltServer Inc.
  
ZTE Corporation


Below are the key development related to Telecom Power Systems Market in 2020 and 2021.


April 2021: Advanced Energy Introduces Ultra-Small, High Power Density DC-DC Converter for Telecommunications and Data Communications Applications.New AVD200-48S12 delivers superior power density in a small form factor, shrinking power conversion footprint to significantly increase available PCB space for critical functions. Advanced Energys new Artesyn AVD200-48S12 is an ultra-small 48 V input DC-DC power converter designed for 5G digital communications modules, power-over-ethernet, and optical network applications in telecommunications and data communications. It delivers superior power density in a small form factor, shrinking the power conversion footprint to significantly increase available PCB space for critical functions. Delivering superior power density in a small form factor, the AVD200-48S12 increases operational efficiency by cutting power-conversion losses while reducing overall system costs. Source

December 2020: Ballard and Eltek Nordic to Collaborate on Fuel Cell Backup Power Systems for Communication Networks. VANCOUVER, BC and HOBRO, Ballard Power Systems (NASDAQ: BLDP) (TSX: BLDP) announced that it has signed a collaboration agreement with Eltek Nordic (www.eltek.com) – a power conversion company headquartered in Drammen, Norway and part of Delta, a global leader in power electronics, automation and infrastructure – to provide reliable backup power solutions for telecom networks and other critical communication infrastructure, with a focus on Nordic countries, primarily Norway, Denmark and Iceland. The collaboration announced will utilize Ballards FCgen®-H2PM fuel cell backup power system. Ballard and Eltek have a long-standing commercial relationship, having sourced products from each other for a number of years. The companies recently collaborated on a project at Trollstigen in the mountains of Norway, installing an off-grid power solution that integrates solar, wind, fuel cells, and batteries to ensure continuous operation and connectivity of a remote telecom network site. Source