其总线(变成了S- 100)扩展到足够大量供应商为18槽系统开发卡片(如串口卡和磁盘控制器),并使其成为一台有用的计算机。
Its bus, which became the S-100, was extensible enough that numerous vendors developed CARDS for the 18-slot system (such as serial CARDS and disk controllers), making it a useful computer.
因为还有另一个有着相同的总线和插槽编号(而功能不同)的以太网控制器,所以这是一个两口的控制器。
Because there is another Ethernet controller with the same bus and slot number (and a different function), this is a two-port controller.
服务器上有两个主机总线适配器 (HBAs)、RAID阵列上有两个SAN交换机和两个 RAID控制器。
There are two host bus adapters (HBAs) on the server, two SAN switches, and two RAID controllers on the RAID array.
为了排除人为干扰、提高可靠性,采集数据以可编程逻辑控制器为核心,通过现场总线和以太网的多层网络传送至数据库中。
To avoid interfering by work, data were sampled through a multi-layers network which synthesize the field-bus and Ethernet and center on programmable logic controller.
然后将MCU芯片at89c51和SJA1000总线控制器结合,为实验平台设计了实时可靠的智能控制CAN节点。
Thirdly, combining MCU clip AT89C51 with bus controller SJA1000, an intelligent control CAN node for the experimental platform is designed.
以1553B总线控制器为例,采用SOC设计方法,研究了航天器系统总线的设计和实现。
The SOC design and implementation of the spacecraft system bus was studied, for example of the 1553b bus controller.
为了在总线上传输仪器命令和数据,控制器给一个呼叫口和一个或几个响应口分配地址。
To transfer instrument commands and data on the bus, the Controller addresses one Talker and one or more Listeners.
最后基于LPC 2194微控制器和TJA1050高速CAN总线驱动器开发了各通信节点。实际应用表明,该系统稳定可靠。
Communication nodes are developed based on microcontroller LPC2194 and high speed CAN bus driver TJA1050. The application shows that the network is reliable and stable.
而显示控制器作为控制的一个重要部分,可以对总线的数据实行监测和修改。
As an important component of the control system, display controller can monitor and modify the BUS data in real time.
介绍了基于CAN总线的全分布式控制器的设计和应用。
The design and application of the CAN bus based fully distributed controller are introduced.
把FPGA用作D MA控制器、采集控制器和总线控制器。
FPGA is regarded as DMA controller, acquisition controller and BUS controller.
设计出了一种基于可编程自动控制器(PAC),采用现场总线和I7000系列分布式数据采集模块组成的潮汐模拟控制系统。
In this sense, the control system based on programmable automation controller (PAC) for simulating tide with field bus and I7000 distributed data acquisition units was developed.
完成了一种基于WISHBONE总线的GPIO_WB控制器的逻辑设计和物理实现。
The logic design and physical implementation of a GPIO_WB controller based on WISHBONE Bus are achieved.
发送器,致动器和可编程序控制器间信息交换用文件传送协议总线。数据链层。
Fip bus for exchange of information between transmitters, actuators and programmable controllers. Data link layer.
它是一种利用多媒体计算机、CAN现场总线和微控制器组成的一种新型的分布式多媒体控制系统。
A new type distributed multimedia control system, which utilizes multimedia-computer, CAN BUS LINE, and micro-controller is introduced.
其设计包括不同数据节点的CAN控制器,及单片机控制的CAN接口模块和基于DSPTMS320 LF 2407a的CAN总线接口等。
The design includes designs of different can controllers for different data nodes, the can module controlled by single chip computer and can bus interface based on DSP TMS320LF2407A, etc.
设计了基于CAN总线和LPC 2294的智能家电控制器。
The intelligent home appliance controller based on CAN bus and LPC2294 microprocessor was designed.
介绍了现场CAN总线通讯以及在同步发电机励磁控制系统中的运用,并具体给出了利用AT 89 C52单片机和CAN控制器sJA 1000实现CAN接点通信的方法。
The scene CAN bus communication and its application to excitation system of synchronous generator was introduced, and the use of SBC AT89C52 and controller SJA1000 to realize junction communication.
控制器的逻辑单元为多cpu网络体系,体系内各智能化功能模块通过CAN总线互联,实现模块间的数据交换和多cpu协同工作。
The logic elements in controller are multiple CPU network setup. Individual intelligent functional modules are interconnected by CAN bus for data exchanging and multiple CPU cooperating.
阐述该系统软、硬件的设计方案和设计重点;讲解CAN总线控制器SJA1000的应用。
It expounds the software and hardware designing schemes and main points as well as explains the application of the CAN bus controller-SJA1000.
它提供的接口之间的连接控制器和物理总线线。
It provides interfacing between a link controller and the physical bus wire.
简述了一种基于CAN总线的电梯轿厢控制器,介绍了该控制器的功能、结构及其软硬件和通信协议的设计方法。
An elevator car controller based on CAN bus is described. The functions, architecture, hardware and software and the communication protocol designing methods of this controller are introduced.
文章介绍了该平台的设计思想、硬件和软件组成及原理,给出了基于计算机的仿真总线控制器的设计方法。
The article introduces the platform design thinking, the hardware and software composition and operating principle. The design method of emulating bus controller based on computer is emphasized.
智能采集器与控制器通过现场总线通信,交换信息、发送指令、采集数据和控制。
Intelligent data acquisition collector communicates with controller via field-bus, exchanges information, sends command, gather data and control.
该设备通过解析火警控制器从CAN总线上发送来的火警信息,在汉字液晶上动态实时地显示火警发生地点和报警类型。
This device analyses information from fire alarm controller through CAN Bus, and displays occurent fire addresses and alarm types on Chinese LCD module dynamically and in real time.
本文采用ARM处理器技术、嵌入式实时操作系统技术和通用串行总线(usb)技术来完成TCSC实验系统控制器前置单元的实际开发。
This paper interprets the means of the development of the preset unit of TCSC Test Controller with ARM microprocessor, embedded real time operating system and the USB technique.
阐述了机载实时容错分布式计算机系统测试体系结构及测试方法,并简要介绍了测试总线和测试控制器的设计。
The test structure and test method in an air-born real-time fault-tolerant distributed computer system are dealt. The design of test controller and test buses are also discussed briefly.
USB技术在嵌入式系统中有两种主要的应用方式:即作为USB总线设备的USB设备方式和作为USB主控制器的嵌入式USB主机。
There are generally two modes of USB technology could be used in embedded systems, one is the USB device mode using as USB Devices and the other is USB host mode using as USB Host Controllers.
采用多个单片机和双端口ram研发了一种总线型控制器,可以进行实时多任务控制,非常适合于复杂自动化设备控制系统的应用。
A bus type controller is developed with multi SCM and dual port RAMs, which have real time multitask function and fits to complex automation equipment well.
CAN总线上的智能节点是网络上报文的接收和发送站,一般由单片机和可编程的CAN通信控制器组成。
The smart node on CAN field-bus is the transmit or receive station of messages. It is mainly combined with micro-controller and programmable CAN controller.
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