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智能计量系统的嵌入式设计要求
无线发射机、接收机和收发器在计量系统中越来越普遍。智能电表涉及一些独特的设计挑战,正如本文所解释的。
利用技术和智能系统使能源和其他资源得到有效利用的概念已成为人们熟悉的二十一世纪主题。“智能测光”一词每天都来自主流媒体和技术媒体的头条。公众通常将智能计量与智能电表结合起来,以实现智能电网。事实上,智能计量也被用来监测其他形式的能源使用,如天然气和热(即热能),以及水,一个世界上重要的资源。
住宅、商业和工业设施的计量信息通常按一定的间隔取样,并在发送到服务提供者之前由一个共同的计量收集器进行聚合。与电表不同,燃气、热水和热量表由电池供电,使用寿命可达20年。这给计量系统设计者带来了独特的挑战,他们必须权衡当前能源存储技术的局限性以及这些复杂系统日益增长的功耗要求。新的系统架构和电源管理策略正在发展,以满足这些不断变化的需求。
There are three disTInct categories of metering systems, each with its own unique requirements. The most common type is the electricity meter, which quanTIfies the consumpTIon of electrical energy. The second most common is a meter that measures consumpTIon of fluids such as water, natural gas, or fuel oil. The third category — heat meters or heat cost allocators — quantifies the consumption of thermal energy.
Electricity metering systems comprise two functional areas: metrology (or measurement) and the communications subsystem. Metrology requirements vary by region and meter type (residential versus industrial)。 Key variables include the number of phases being measured, measurement accuracy, the requirement for different rates depending on time of use and the level of security required at the communication layer.
