The Internet of Things is considered to be the next big opportunity, and challenge, for the Internet engineering community, users of technology, companies and society as a whole. It involves connecting embedded devices such as sensors, home appliances, weather stations and even toys to Internet Protocol (IP) based networks. The number of IP-enabled embedded devices is increasing rapidly, and although hard to estimate, will surely outnumber the number of personal computers (PCs) and servers in the future. With the advances made over the past decade in microcontroller,low-power radio, bATtery and microelectronic technology, the trend in the industry is for smart embedded devices (called smart objects) to become IP-enabled, and an integral part of the latest services on the Internet. These services are no longer cyber, just including data created by humans, but are to become very connected to the physical world around us by including sensor data, the monitoring and control of machines, and other kinds of physical context. We call this latest frontier of the Internet, consisting of wireless low-power embedded devices, the Wireless Embedded Internet. Applications that this new frontier of the Internet enable are critical to the sustainability, efficiency and safety of society and include home and building automation, healthcare, energy efficiency, smart grids and environmental monitoring to name just a few.
标签: Embedded Internet Wireless 6LoWPAN The
上传时间: 2020-05-26
上传用户:shancjb
bATtery systems for energy storage are among the most relevant technologies of the 21 st century. They – in particular modern lithium-ion batteries (LIB) – are enablers for the market success of electric vehicles (EV) as well as for stationary energy storage solutions for balancing fluctuations in electricity grids resulting from the integrationofrenewableenergysourceswithvolatilesupply 1 .BothEVandstationary storage solutions are important because they foster the transition from the usage of fossil energy carriers towards cleaner renewable energy sources. Furthermore, EV cause less local air pollution and noise emissions compared to conventional combustion engine vehicles resulting in better air quality especially in urban areas. Unfortunately, to this day, various technological and economic challenges impede a broad application of batteries for EV as well as for large scale energy storage and load leveling in electricity grids.
标签: Multiscale Simulation Approach
上传时间: 2020-06-07
上传用户:shancjb
Plug in Electric Vehicles (PEVs) use energy storages usually in the form of bATtery banks that are designed to be recharged using utility grid power. One category of PEVs are Electric Vehicles (EVs) without an internal-combustion (IC) engine where the energy stored in the bATtery bank is the only source of power to drive the vehicle. These are also referred as bATtery Electric Vehicles (BEVs). The second category of PEVs, which is more commercialized than the EVs, is the Plug in
标签: Electric Vehicles Grids Smart Plug In in
上传时间: 2020-06-07
上传用户:shancjb
Plug in Electric Vehicles (PEVs) use energy storages usually in the form of bATtery banks that are designed to be recharged using utility grid power. One category of PEVs are Electric Vehicles (EVs) without an Internal-Combustion (IC) engine where the energy stored in the bATtery bank is the only source of power to drive the vehicle. These are also referred as bATtery Electric Vehicles (BEVs). The second category of PEVs, which is more commercialized than the EVs, is Plug in Hybrid Electric Vehicles (PHEVs) where the role of the energy storage is to supplement the power produced by the IC engine.
上传时间: 2020-06-07
上传用户:shancjb
Plug in Electric Vehicles (PEVs) use energy storages usually in the form of bATtery banks that are designed to be recharged using utility grid power. One category of PEVs are Electric Vehicles (EVs) without an Internal-Combustion (IC) engine where the energy stored in the bATtery bank is the only source of power to drive the vehicle. These are also referred to as bATtery Electric Vehicles (BEVs). The second category of PEVs, which is more commercialized than the EVs, is the Plug in Hybrid Electric Vehicles (PHEVs) where the role of energy storage is to supplement the power produced by the IC engine.
标签: Electric Vehicles Smart Grids in
上传时间: 2020-06-07
上传用户:shancjb
Although state of the art in many typical machine learning tasks, deep learning algorithmsareverycostly interms ofenergyconsumption,duetotheirlargeamount of required computations and huge model sizes. Because of this, deep learning applications on bATtery-constrained wearables have only been possible through wireless connections with a resourceful cloud. This setup has several drawbacks. First, there are privacy concerns. Cloud computing requires users to share their raw data—images, video, locations, speech—with a remote system. Most users are not willing to do this. Second, the cloud-setup requires users to be connected all the time, which is unfeasible given current cellular coverage. Furthermore, real-time applications require low latency connections, which cannot be guaranteed using the current communication infrastructure. Finally, wireless connections are very inefficient—requiringtoo much energyper transferredbit for real-time data transfer on energy-constrained platforms.
标签: Embedded_Deep_Learning Algorithms
上传时间: 2020-06-10
上传用户:shancjb
Research on microwave power amplififiers has gained a growing importance demanded by the many continuously developing applications which require such subsystem performance. A broad set of commercial and strategic systems in fact have their overall performance boosted by the power amplififier, the latter becoming an enabling component wherever its effificiency and output power actually allows functionalities and operating modes previously not possible. This is the case for the many wireless systems and bATtery-operated systems that form the substrate of everyday life, but also of high-performance satellite and dual-use systems.
上传时间: 2021-10-30
上传用户:得之我幸78
bATtery charge 1.2 specification
标签: 电池充电规范
上传时间: 2021-10-31
上传用户:
常用接插件USB座 SD卡 TF卡 RJ45 AD集成库ALITUM库49个合集(原理图库+PCB封装库),集成封装库型号列表:Library Component Count : 49Name Description----------------------------------------------------------------------------------------------------3F07 立体声耳机插座6.3mm插簧 6.3mm插簧bATtery 备份电池CON 2X16 DIN41612 DIN 41612CON 2X32 DIN41612 DIN 41612CON50A D Connector 15 VGAD Connector 9 串口DB25 并口DG141 DIMM-100 接插件EMIF 接插件FIN 散热片FPC-30P FPC排线连接器FPC-40P FPC排线连接器HR5803 以太网接口HR911103A 网络接口HR911105A 以太网接口Header 10 接插件Header 10X2 接插件Header 14X2A 接插件Header 15X2 接插件Header 16 接插件Header 16X2 接插件Header 17X2 接插件Header 2 接插件Header 2X2 接插件Header 3 接插件Header 30 接插件Header 32X2 接插件Header 4 接插件Header 40 接插件Header 5X2 接插件Header 6 接插件Header 7X2 接插件Header 8 接插件Header 8X2 接插件Header_AMP50 控制器接插件LCD_CON37 LCD接口Light_Pipe 灯柱PJ-306 立体声耳机插座PWRCON 直流电源端子RCA RCA Phono JackSDCARD SD卡自弹SDCARD-M TF卡槽SU-25-3 接线叉USB USB接口USB_M Micro/Mini USBZIF20 接插件
上传时间: 2021-11-21
上传用户:slq1234567890
此为ISO 7176-21的标准,Requirements and test methods forelectromagnetic compatibility ofelectrically powered wheelchairs andscooters, and bATtery chargers
标签: iso
上传时间: 2021-12-17
上传用户: