2021 Market Roundup: Growing Need of Energy Harvesting System in Coming Future

Increasing the use of remote energy recovery systems to minimize power disruptions, improve the dependability and supplement an electronic system's principal power source in an electronic circuit is mainly due to the expansion of the world energy harvesting system market.

Overview


Energy harvesting is the process of obtaining energy from external sources, then capturing and storing it. Wireless autonomous devices, including wearable electronics and wireless sensor networks, are commonly exposed to this technique. This method usually uses less energy for low-power devices and incorporates electrical circuitry for storage unit management and protection. An electrical circuit, sensing components (sensors and transducers), and a storage unit make up the power extraction system. The energy harvesting system charges the transducer with unconventional energy sources, which are then transformed into electricity and stored in the battery unit. A supplementary electronic circuit manages the produced power and protects the storage unit and principal circuitry in the system. The sensing elements act as a converter, converting physical energy (such as light, heat, vibration, pressure, salinity gradients, and radiofrequency) into electrical energy. This electrical energy is either stored in batteries, thin-film capacitors, supercapacitors, ultracapacitors, or utilized to power low-power electronic circuits.

According to a recent survey issued by Facts and Factors, the global energy harvesting systems market was valued at about USD 432 Million in 2020 and is predicted to reach USD 700 Million by the end of the financial year 2026, rising at a CAGR of nearly 8.4% between 2021 and 2026.

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Growth Factors

The energy harvesting systems market is anticipated to be driven by rising demand for safe, energy-efficient, and long-lasting systems that require little or no maintenance during the forecast period. The growing IoT trend would effectively raise the requirement for energy-efficient and wireless sensors autonomous systems. As a result, the need for efficient energy harvesting devices will increase, reducing the requirement for battery charging and lowering overall costs. As a result, IoT intervention in a variety of industrial and non-industrial applications will increase market demand for energy harvesting systems within the forecast period. The higher initial cost of energy harvesting systems, as well as the restrictions of remotely deployed networking modules, are two major factors that are hindering the energy harvesting systems industry's growth.

Top Market Players

Some main participants of the worldwide energy harvesting system market are Bionic Power, Convergence Wireless, Cymbet, Cypress Semiconductor, ABB, Enocean, Fujitsu, Greenpeak Technologies, Honeywell, IXYS Corporation, Laird, Linear Technology, Lord Microstrain, Microchip Technology, MIDE Technology, O-Flexx Technologies, Powercast Corporation, Stmicroelectronics, Texas Instruments, Voltree Power. amongst others.

Key Segments

The global energy harvesting system market is segregated based on end-use system, technology, component, end-use industry, and region. On the basis of technology, the global energy harvesting system industry is categorized into vibration energy harvesting, light energy harvesting, thermal energy harvesting, and radiofrequency energy harvesting. Based on the End-use system, the global energy harvesting system industry is categorized into the wireless HVAC system, wireless switching system, tire pressure monitoring system, wireless sensing, and telematics system, remote health monitoring system, asset tracking system, and regenerative energy harvesting system. Based on components, the global Energy Harvesting System industry is categorized into power management ic (PMIC), transducers, and secondary batteries. Based on the end-use industry, the global energy harvesting system industry is categorized into consumer electronics, industrial, transportation, building and home automation, security, and others.

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