Dallas, Tex. -- RnRMarketResearch.com adds Global Energy Harvesting Devices Market 2015-2019 research report that covers products, applications and technology market segments while discussing wireless sensor nodes, wrist watches and solar-plated mobile phones as some of the energy harvesting devices.
Complete report on energy harvesting devices market spread across 107 pages, talking about 6 major companies and supported with 52 data exhibits is now available athttp://www.rnrmarketresearch.com/global-energy-harvesting-devices-market-2015-2019-market-report.html .
Increasing need to reduce carbon emissions is intensifying growth in global energy harvesting devices market that is forecast to grow at a CAGR of 21.97% in terms of revenue and 25.91% in term of unit shipments over the period 2014-2019. The significant demand for energy-harvesting devices in consumer electronics is one of the major growth drivers in the market. Almost all consumer electronic products run on batteries or some other power supply source that must be charged frequently. Energy-harvesting solutions enable the contactless charging of consumer electronics products.
The most significant way of combating carbon emissions is by reducing greenhouse gases by harvesting clean energy from renewable sources such as the sun, wind, air, and water. Energy-harvesting devices use natural resources to produce electrical energy, making them attractive to environmentally aware end-users. EnOcean, Linear Technology Lord Corp., Microchip Technology, Perpetuum and Texas Instruments are the leading companies discussed in this research. Other players simply mentioned in the report include Arveni, Convergence Wireless, Cymbet, G24i Power, GreenPeak Technologies, IMEC Holst, Infinite Power Solutions, Levant Power, Marlow Industries, Micropelt, Nextreme Thermal Solutions, Schneider Electric and Sol-Chip. Order a copy of Global Energy Harvesting Devices Market 2015-2019 athttp://www.rnrmarketresearch.com/contacts/purchase?rname=394785 .
According to the report, governments across the world are introducing initiatives to meet the energy demand arising from rapid urbanization. For instance, the British government has invested $14.9 million in energy-harvesting projects and R&D to develop smart applications for transport, energy, and buildings. Thus, this is a form of renewable energy that helps governments to meet the growing demand from consumers. Further, the report states that energy-harvesting devices have low power storage capacity and are therefore limited to low-power-consuming devices.
Major drivers of energy harvesting devices market discussed in this research include increasing government support, increasing need for energy savings, integration of energy-harvesting with other technologies, increasing demand from the consumer electronics segment, growth of commercial building automation market, development of new technologies such as Internet of Things and big data and economical attractiveness of energy-harvesting devices. To define the energy harvesting devices market circumstances in the next 3-4 years, analysts have conducted in-depth analysis of the impact of market drivers, challenges and trends featuring data on product segmentations, vendor shares, growth rate by revenue and an evaluation of the different buying criteria in the order of importance.
Another research titled Internet of Things Market & M2M Communication by Technologies, Platforms and Services (RFID, Sensor Nodes, Gateways, Cloud Management, NFC, ZigBee, SCADA, Software Platform, System Integrators), by M2M Connections, & by IoT Components) - Global Market Forecasts - 2019provides a case study on Philips One Sleep Therapy: "Sleep apnea" is one of the dreadful disorders where people stop breathing while sleeping. Philips came with a plan of CPAP therapy that will monitor the breathing of a patient and accordingly transmit the information to a web-based patient management system. It uses the Cinterion TC65i Java Module and GSM/GPRS wireless networks to send breathing data to a secure web portal. It helps the doctor in analyzing the data and accordingly making changes to the air pressure prescription. This is accounted as one of the application of IoT and M2M communications in remote patient monitoring system in the healthcare vertical. Read more at http://www.rnrmarketresearch.com/internet-of-things-iot-machine-to-machine-m2m-communication-market-by-technologies-platforms-m2m-m2m-connections-m2m-sim-cards-m2m-modules-short-range-cellular-range-satellit-market-report.html .
The third research on Power Sources for the Internet-of-Things: Markets and Strategies and its analysts believe that the deployments of sensors and processors for the Internet-of-Things (IoT) are creating huge new opportunities for manufacturers of power source devices. Because of IoT, power devices such as thin-film and printed batteries, energy harvesting modules, small flexible photovoltaics panels and thermoelectric sources, which have enjoyed marginal revenues up to now, may begin generating hundreds of millions of dollars in annual revenues. The objective of this report is to identify where the money will be made and lost in the emergent IoT power source business. It begins with an assessment of the power requirements of the various devices that the research believes will form the "things" in the IoT. These include sensor networks, MCUs/MPUs and tagging devices, for example. The report continues by considering how established technologies such as batteries will adapt to new IoT opportunities and whether emerging technologies such as energy harvesting and thermoelectric power sources will find their first big markets as the result of IoT.
The report explores the opportunities for all industry sectors that will be impacted by the development of new power sources for the IoT. In particular we examine how leading battery companies, chipmakers, OEMs and others are preparing for the business opportunities in the IoT power source space. The report also discusses the strategies of eight firms that it believes will shape the market for power sources for the IoT over the next decade.
We believe that this report will be essential reading for business development and marketing executives in the battery, energy harvesting, RFID, sensors, photovoltaics and semiconductor industries, as well as the investment community. In addition to providing a thorough analysis of the IoT power source markets, this report also provides detailed eight-year forecasts of power sources for the IoT in both volume and value terms and with break outs by power source types. Read more on the report titled Power Sources for the Internet-of-Things: Markets and Strategies at http://www.rnrmarketresearch.com/power-sources-for-the-internet-of-things-markets-and-strategies-market-report.html .