Power Electronics

Date of Publication: Feb 11, 2015
The wireless power charging IC market is projected to see tremendous growth over the next five years, with a dollar market increasing from $284.3 million in 2015 to over $2.8 billion in 2020, a compounded annual growth rate (CAGR) of 58.7%. The wireless power charging market covered in this report is made up of both wireless charging receiver ICs and transmitter ICs. Although this report presents the wireless charging market in five categories: Consumer, Computers, Industrial, Medical and Military, it is an emerging technology and there are no traditional applications within these categories to rely on to lead the way. The further growth of wireless charging power is entirely dependent on the growth of wireless charging penetration rates in a number of key applications such as mobile phones and tablets.

Date of Publication: Sep 23, 2015
This unique report reflects the new reality that energy harvesting - creation of off-grid electricity where it is needed, using ambient energy - is now one subject from microwatts for wireless sensors to kilowatts for vehicles and buildings. This is because it increasingly involves the same technologies, locations and companies. Vehicles, for example, need everything from wireless sensors driven by local harvesting providing milliwatts to traction battery charging from harvesting that can reach many kilowatts. Some technologies previously only capable of signal power are now proving scalable to higher power. It is all one business now but, for the coming decade, the largest addressable value market lies in the range of one watt to 10 kW so this will receive particular attention.

Date of Publication: Aug 26, 2015
This report is intended for those seeking to invest, support, develop, make, sell or use vehicle fuel cell systems and their materials and associated services. It will also assist those participating in the value chain of alternatives, such as batteries and supercapacitors, to understand the considerable opportunities for both collaborative use of their components with fuel cells and scope for common technologies.

Date of Publication: Sep 1, 2015

Organic Light Emitting Diodes (OLEDs): Technologies and Global Markets

The global market for organic light emitting diodes (OLED) was about $2.1 billion and $2.5 billion in 2013 and 2014, respectively. This market is expected to reach nearly $3.1 billion in 2015 and $9.6 billion in 2020, registering a compound annual growth rate (CAGR) of 25.7% for the period 2015-2020.


This report provides:

  • An overview of the global markets and technologies for organic light emitting diodes (OLEDs).
  • Analyses of global market trends, with data from 2013 and 2014, estimates for 2015 and projections of CAGRs through 2020.
  • Information with a focus on the two major market segments for OLEDs, electronic displays and solid-state lighting, as well as emerging markets such as sensors.
  • Analysis of the economic, political and legal/regulatory environment within which the OLED industry will continue to develop.
  • Details concerning industry structure.
  • Technology trends and patent analysis.
  • Profiles of major players in the industry.


The scope of this study includes discussion of the upcoming and present market trends of OLEDs. It examines the potential of OLEDs as well as their limitations, and discusses the mode of integration that seems most favored.

The OLED market is segmented into categories by the following:

  • Technology: Passive-matrix OLED (PMOLED) and active-matrix OLED (AMOLED).
  • Material: Electrode materials, emissive layer (EML) materials, hole transport layer (HTL) materials, electron transport layer (ETL) materials, and substrates.
  • Application: Displays, sub-displays, and mobile phones.
  • Region: North America, Europe, Asia-Pacific, and rest of world (RoW).



Date of Publication: Sep 15, 2015
This report presents the forecasts for energy harvesters for 2015 through 2020 on a volume and value basis. Sales values in terms of dollar sales are presented in U.S. dollars, while sales values in terms of unit sales are presented in thousand units.  The choice of thousands as a denomination unit was dictated by the shipment volumes for specific categories, which would have otherwise appeared too insignificant.  It is important to note that energy harvesters can power wireless sensor nodes, which will ship by the billions in the future.  Energy harvesters will also power several other device categories that will not be as prolific in number as wireless nodes, but that will experience tremendous growth as well.  

Date of Publication: Apr 11, 2016
Residential Energy Efficiency Technologies and Global Markets This report provides: An overview of energy-efficient technologies for global...

Date of Publication: Aug 21, 2015
Smart lighting is an advance technology that makes the use of intelligent lighting control systems to control light based on various parameters, namely, occupancy, movement, color temperature, and amount of natural light. The smart lighting broadly comprises two components, namely, luminaries and control & communication components. The system uses luminaries such as fluorescent bulbs, LED lamps, HID lamps, and others for illumination. The control and communication components which include sensors, microcontrollers, receivers, and others are the key components and are responsible for intelligence in the luminaries. The growth of infrastructure, burgeoning population, and focus on energy consumption rate has catalyzed the growth of the smart lighting market. Moreover, the government mandates over energy consumption is acting as a key revenue pocket for the smart lighting manufacturers.