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  • GE D20 EME
  • GE D20 EME
  • GE D20 EME
  • GE D20 EME
  • GE D20 EME
  • GE D20 EME
  • GE D20 EME
  • GE D20 EME

GE D20 EME 通用电气模块

GE D20 EME  通用电气模块

品牌
通用电气
产品特性
模块
是否进口
产地
美国
加工定制
工作电压
220V
输出频率
39kHz
产品认证
合格
系列
514060656
物料编码
D20 EME
可售卖地
全国
型号
D20 EME


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GE D20 EME  通用电气模块

GE D20 EME (3).jpg


随着时间的推移,CPU倾向于吸收最流行的协处理器的功能。现在,fpu被认为是处理器主流水线不可分割的一部分;SIMD单元加速了多媒体的发展,取代了各种各样的角色死后无子女。加速卡;甚至绘图处理器已经集成在CPU芯片上。尽管如此,在台式机之外,专用单元仍然很受欢迎,用于额外的功能,并允许独立于主处理器产品线的持续发展。

一;一个人工智能加速器是一类专门的硬件加速器[1]或计算机系统[2][3]旨在加速人工智能和机器学习应用程序,包括人工神经网络和计算机视觉。典型应用包括以下算法机器人学,物联网,以及其他数据-密集型或传感器驱动的任务。[4]他们经常是多核设计,通常侧重于低精度算术,小说数据流架构或者内存计算能力。截至2018年,典型的人工智能集成电路芯片包含数十亿关于金属氧化物半导体场效应晶体管晶体管。[5]此类设备有许多特定于供应商的术语,它是一个新兴技术没有主导设计。GE D20 EME  通用电气模块

由跳闸单元216DB61控制。在每种情况下电路连接到由两个串联触点构成的端子上。14个信号继电器:二进制O/P单元216AB61控制。N/O触点并且继电器1…4的N/C触点连接到端子。该装置以24 V直流电供电,并提供冗余电源。保险丝F101(2 A快速,5 x 20 mm)安装在保护24 V电源不受装置短路的影响。在RE.216方案中,二进制信号可以具有以下值之一:逻辑“0”(固定值)=FALSE逻辑“1”(固定值)=真二进制输入值(216DB61、216EB61)双重指示信号;两个连续的二进制输入是组合。功能定义的二进制保护值(跳闸)数字和相应的信令输出。以上所有内容也可以设置为保护功能的二进制输入。所有二进制地址集可以直接使用,也可以反转使用。

所有RE.216信令输出(信号地址)可以是配置用于以下操作模式之一:1) 控制信号继电器并记录为事件。与重要信号有关的完整信息。拾取信号激活“常规启动”(信号和事件)跳闸信号激活“一跳闸”(信号和事件)2) 在没有信号继电器控制的情况下记录为事件。不需要信号继电器。尽管如此,有关信号的状态。拾取信号激活“常规启动”(仅事件)跳闸信号激活“常规跳闸”(仅事件)3) 既不控制信号继电器,也不记录为事件。不需要信号继电器。没有关于状态变化的信息,即没有被不必要的信息占用的存储器空间。对“常规启动”或“常规跳闸”没有影响。辅助信号继电器通过二进制O/P通电

GE D20 EME  通用电气模块

GE D20 EME (4).jpg

Over time, CPU tends to absorb the functions of the most popular coprocessor. At present, fpu is considered as an inseparable part of the processor's main pipeline; SIMD unit accelerates the development of multimedia, replacing all kinds of characters who have no children after death. Accelerator card; Even the graphics processor has been integrated on the CPU chip. Nevertheless, outside the desktop, dedicated units are still very popular for additional functions and allow the continuous development of product lines independent of the main processor.

One; An artificial intelligence accelerator is a special kind of hardware accelerator [1] or computer system [2][3] aimed at accelerating artificial intelligence and machine learning applications, including artificial neural networks and computer vision. Typical applications include the following algorithms: robotics, Internet of Things, and other data-intensive or sensor-driven tasks. [4] They are often multi-core designs, usually focusing on low-precision arithmetic, novel data flow architecture or memory computing power. As of 2018, typical artificial intelligence integrated circuit chips contain billions of transistors about metal oxide semiconductor field effect transistors. [5] This kind of equipment has many vendor-specific terms, and it is an emerging technology with no dominant design.

Controlled by trip unit 216DB61. In each case, the circuit is connected to a terminal consisting of two contacts in series. 14 signal relays: controlled by binary O/P unit 216AB61. N/O contacts and N/C contacts of relays 1…4 are connected to terminals. The device is powered by 24 V DC and provides redundant power supply. Fuse F101(2 A fast, 5 x 20 mm) is installed to protect the 24 V power supply from the short circuit of the device. In the RE.216 scheme, the binary signal can have one of the following values: logic "0" (fixed value) =FALSE logic "1" (fixed value) = true binary input value (216DB61, 216EB61) double indication signal; Two consecutive binary inputs are combinations. Function-defined binary protection value (trip) number and corresponding signaling output. All of the above can also be set as the binary input of the protection function. All binary address sets can be used directly or in reverse.

All RE.216 signaling outputs (signal addresses) can be configured for one of the following operation modes: 1) Control the signal relay and record it as an event. Complete information related to important signals. Pick-up signal activates "normal start" (signal and event) and trip signal activates "one trip" (signal and event) 2) It is recorded as an event without signal relay control. No signal relay is needed. Nevertheless, the status of the signal. Pick-up signal activates "normal start" (event only) Trip signal activates "normal trip" (event only) 3) Signal relay is neither controlled nor recorded as an event. No signal relay is needed. There is no information about the state change, that is, there is no memory space occupied by unnecessary information. There is no effect on "normal start" or "normal trip". The auxiliary signal relay is energized through binary O/P.

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