Electronic enthusiasts: security monitoring of bridges, zero-watt standby, intelligent lighting control, etc. These seemingly irrelevant areas, today, they will all be combined with a concept - "Energy HarvesTIng" "Technology is linked. Although the micro-energy collection technology has not yet been widely commercialized, at the booth of Fujitsu Semiconductor, the 12th Shanghai Electronics Fair just opened, we were pleasantly surprised to see that the micro-energy harvesting technology has achieved major technological breakthroughs. The long-standing widespread use of “batteryless†and “semi-permanent battery†applications has laid the foundation.
Figure 1. Fujitsu Semiconductors at the Shanghai Electronics Show in Munich showcases a new generation of energy-saving and environmentally friendly technologies.
Fujitsu Semiconductor has highlighted its latest optical environment power generation PMIC that can achieve 97% conversion efficiency under low-light conditions, and this power management IC can also achieve ultra-low voltage startup as low as 0.35V. These technological breakthroughs have made the “battery-free†and “semi-permanent†application scenarios that were in the conceptual stage of the past a reality, and provide a broader imagination for green energy-saving applications.
Market status and trends
“In fact, micro-energy collection is not a completely new concept. The biggest reason why it has not been widely used is that the energy collected by its energy collection end and the energy consumption that it can actually drive are consumed. Energy has always been in an unbalanced state. Simply put, the energy it collects is not enough. Fortunately, with the continuous reduction of power consumption of sensors, MCUs, RF and other devices, and the breakthrough of micro energy harvesting power management IC technology, The system's energy budget is gradually balanced.†Wang Yun, senior manager of Fujitsu's semiconductor marketing department, said at the show.
According to estimates by Nikkei BP, the energy harvesting and energy consumption of such applications are very close in 2010 and 2011, and after 2011, they believe that the energy collected by micro-energy harvesting technology is completely Can be used for the part of energy consumption.
According to a survey by InnovaTIve Research and Products (iRAP), the market for micro-energy collection will reach $1,254 million by 2014. Since 2009, its market has maintained a high growth rate of 73% per year.
The UK's IDTechEx has also provided data: "The market for energy harvesting and energy related equipment will grow from $440 million in 2010 to $605 million in 2020." Microenergy collection technology will become a very promising market.
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