1 - 物联网和公用事业世界的融合现在!
公用事业公司可能是第一个创建连接工业对象的公用事业公司:自20世纪90年代末和21世纪初以来,已经部署了许多“专有”标准的连接仪表。
电子索引位于公用事业公司财产的仓库中,仅与其每个客户共享,并且筒仓内的连接由与公共访问隔离的本地“标准”保证。
当时,互联网的普及程度要低得多,而且与Wi-Fi,蓝牙和智能手机的连接几乎没有。
随着分布式能源发电(2005-2010)的开始,与仪表的双向连接变得必不可少:电力公司将为最终用户提供能源,最终用户可以为电力公司提供能源。
因此,不仅公用事业必须连接到仪表,而且新的分布式提供商必须知道他为电网提供了多少能量。
与此同时,“网络电表串”成为一个明显的扩展,以及公用事业的需要。
通过MBUS等技术实现了电表的燃气和水表联网功能。
然而,当时只能对个人设备的消费和生产进行一种“被动阅读”;
建议使用像互联网盒这样的“网关接入点”或蜂窝网络。
从最终用户的角度来看,能源网络的信心和知识正在增加。
但到底是什么?
只是看一个漂亮的条形图是不够的。
今天我们能够确定功耗和生产的数字,我们知道它们何时发生。
但是下一步是什么?
答案是控制(a.k.a.减少)您的个人能量消耗。
你是消费者吗?
一个大企业?
创业公司?
每个用户都可以进入下一阶段:通过触手可及的方式更好地利用这些信息。
我们知道我们的碳足迹,但我们如何优化数据呢?
我们如何控制消费和生产?
随着油价波动,我们如何管理资源?
我们怎样才能积极参与地球的未来?
一旦您决定启动,该解决方案就在这里并立即可用:添加各种环境传感器,将信息放入云中,让一些自动化软件根据您的喜好为您管理。
连接传感器是智能电网,智能城市和智能家居的推动者:
连接光传感器
连接温度和湿度传感器
连接相机
连接仪表
连接开关
连接存在控制。
所有这些技术现在都可以使用,并且是我们所谓的工业物联网的一部分,您可以在安森美半导体的B展厅,D42号展位上找到它们。
2-ON Semiconductor是传感器和连接解决方案的物联网革命的核心。
凭借作为节能解决方案提供商的悠久历史和声誉,安森美半导体正在整个工业物联网中推动节能创新:
开发有线连接(MBUS,KNX,SFKS调制解调器,OFDM解决方案);
利用飞思卡尔和安德里亚开发G3联盟和Prime的参考设计。
开发2.4GHz片上系统(Orion平台)
开发能量收集解决方案(ETA平台)
收购广谱性能的图像传感器(Cypress,Kodak,Aptina)
开发PIR传感器&
水流量计。
收购Sub GHz超窄带/超低功率无线电(Sigfox,Enocean等)
收购无线MBUS和无线KNX解决方案
采集智能收获传感器(零功率RFID标签)
采集图像传感器(低光和高分辨率)
安森美半导体正在创建支持工业物联网的新解决方案,并成为工业4.0概念的首选解决方案提供商。
我们为连接和传感提供领先的技术解决方案。
这些技术现已上市。
3-Harvesting Energy将实现更智能的网格,安森美半导体现在展示:
我们之前证明,智能电网在其先前的定义中并未结束。
此外,还将有大量的传感器进行管理,并且需要减少城市,建筑和家庭的能源使用量。
但有人可以合理地怀疑这些设备的功耗是否只能抵消节能,那么这项努力值得吗?
当然不是:传感器必须至少具有超低功率,或者能量更少,或者显示图片的免费资产负债表。
是否有一个更好的建议,而不是一个传感器收获自己的能量,并使用超低功耗技术进行通信?
在安森美半导体,我们提供两者
ULP 2.4GHz智能光传感器演示,为智能城市提供收获的太阳能
ULP超低功耗Sigfox,用于智能楼宇自动化
适用于智能家居的ULP Enocean兼容无线电。
Smart Harvesting Sensors网络,适用于智能城市/智能家居。
以上来自于谷歌翻译
以下为原文
1-The convergence of IoT and Utility World is now!
The utilities were probably the first to create connected industrial objects: connected meters of many “proprietary” standards have been deployed since the late 1990s and early 2000s. The electronic index was located in a silo that was the property of the Utility, solely shared with each of its customers, and the connectivity inside the silo was guaranteed by local ‘standards’ isolated from the public access. At the time, the Internet was much less prevalent and there was little if any connectivity to Wi-Fi, Bluetooth, and smartphones.
With the beginning of the Distributed Energy Generation (2005-2010), bidirectional connectivity to the meter became a must: the Utility would provide energy to the end user and end user could provide energy to the Utility. Hence, not only did the Utility have to get connected to the meter, but also the new distributed provider had to know how much energy he provided to the grid.
At the same time, a “networked meters string” became an obvious extension, as well as a Utility need. Networking gas and water meters to electricity meters has been enabled by technology like MBUS. However, only a sort of “passive reading” of the consumption and production from personal devices was possible at that time; the use of a “gateway-access point” like the internet box, or the cellular network was recommended. From an end-user standpoint, the confidence and knowledge in the energy network was increasing. But to what end? Just looking at a beautiful bar graph was not enough.
Today we are able to determine the figures of power consumption and production and we know when they happen. But what is next? The answer is to control (a.k.a. reduce) your individual energy consumption.
Are you a consumer? A big enterprise? A startup? Every user can get to the next stage: by making better use of this information at our fingertips. We know our carbon footprints, but how can we optimize the figures? How can we control consumption and production? With oil prices fluctuating, how can we manage resources? How can we positively participate in the future of the planet?
Once you have decided to start, the solution is here and available now: add ambient sensors of all kinds, put the information in the cloud and let some automated software manage things for you according to your preference.
Connected sensors are enablers for the smart grid, the smart city, the smart home:
- Connected Light sensors
- Connected temperature and moisture sensors
- Connected Cameras
- Connected Meters
- Connected Switches
- Connected presence control.
All of these technologies are now available, and are part of what we call the Industrial IoT and you can find them at work at ON Semiconductor’s booth Hall B, Booth #D42.
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2-ON Semiconductor is at the heart of the IoT revolution with Sensors and Connectivity solutions.
After a long history and reputation as an Energy Efficient solution provider, ON Semiconductor is driving energy efficient innovations throughout the Industrial IoT:
- Development of Wired connectivity ( MBUS , KNX, SFKS MODEM , OFDM SOLUTION ) ;
- Development of reference design for G3 Alliance and Prime with Freescale and Andrea.
- Development of 2.4GHz System on chip ( Orion platform )
- Development of Energy Harvesting Solution ( ETA platform )
- Acquisition of Image sensor of wide spectrum of performance ( Cypress , Kodak , Aptina )
- Development of PIR sensors & Water flow meters.
- Acquisition of Sub GHz Ultra Narrow band/ Ultra low power Radio ( Sigfox, Enocean etc )
- Acquisition of Wireless MBUS and wireless KNX solutions
- Acquisition Smart Harvesting Sensors ( Zero power RFID tag )
- Acquisition of Image Sensors ( low light and high resolution )
ON Semiconductor is creating new solutions to support the Industrial IoT and to become the preferred solution provider for the Industry 4.0 concept. We offer leading technology solutions for both connectivity and sensing. These technologies are available now.
3-Harvesting Energy will enable smarter grids and ON Semiconductor demonstrates it now:
We demonstrated earlier, that the smart grid, in its previous definition, is not at the end. Additionally, there will be a proliferation of sensors to manage and a required decrease in energy usage in cities, building and homes. But one can reasonably wonder if the power consumption of such equipment will only offset the energy savings, then is the effort worth it? Certainly not: sensors must be ultra-low power at a minimum, or energy less, or showing a free balance sheet to the picture.
Is there a better proposal than an offer with a sensor harvesting its own energy and using ultra low power technology for communication? At ON Semiconductor we offer both.
- ULP 2.4GHz Smart light sensor demo with Harvested solar power for the smart city
- ULP Ultra low power Sigfox for the smart building automation
- ULP Enocean compatible Radio for smart home.
- Smart Harvesting Sensors network for smart city / Smart home.
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