Considering strong disturbance environment in the field area, redundant design in bus cable, CAN controller and driver is involved to assure the reliability of data transmission.
考虑到现场的环境干扰较强,对总线电缆及CAN控制器、驱动器采用了冗余设计,保证数据传输的可靠性。
To transfer instrument commands and data on the bus, the Controller addresses one Talker and one or more Listeners.
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 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.
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。
As an important component of the control system, display controller can monitor and modify the BUS data in real time.
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。
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.
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。
This design realizes the data communication between the main controller and accessary controller in MIC bus redundancy system.
本设计实现了在MIC总线冗余系统中主控制器与从控制器间的数据通讯。
This paper presents a data acquisition and display system of HEV based on CAN BUS using microcontroller AT89C52 and stand-alone CAN controller SJA1000.
文章采用AT 89 C 52单片机与CAN控制器sJA 1000设计了基于CAN总线的电动汽车数据采集显示与控制系统。
And it designs the CAN field bus node communication, the universal controller and the module of data gathering in details, and finally runs the system under the development environment.
同时主要对CAN总线节点的通信程序、家电通用控制器和数据采集模块进行了详细设计,并最终在开发环境下演示运行。
A host controller transfers data over a bus communication system, under the control of a processor, in individual transactions.
一种主机控制器在处理器的控制下经由总线通信系统在单独事务中传送数据。
Intelligent data acquisition collector communicates with controller via field-bus, exchanges information, sends command, gather data and control.
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。
The data gather system made by micro controller may make up of a multi computer system expediently with the RS 485 bus, which can gather data synchronously in parallel.
借助于差分传输的RS 4 85总线,以微控制器为核心的数据采集系统可方便地构成多机系统,可同时并行进行数据采集。
The microcontrollers transmit data to the main controller by the CAN bus, the main controller can start-up and finish the brake action initiatively after estimating.
单片机通过CAN总线向主控制器发送检测数据,主控制器经过判断可主动启动并完成车体的制动动作。
The local controller sends steering order to field signal-acquisition equipments and receives test data from RS485 bus, thereby communication control of RS485 bus was realized.
本地主控机通过RS485总线向现场信号采集设备发送控制指令并接收采集的测试数据,从而实现对rs485总线通信的控制。
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.
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。
To a micro-controller, the PDIUSBD12 appears as a memory device 8-bit data bus and 1 address bit (occupying 2 locations).
对微控制器而言,PDIUSBD12看起来就像一个带8位数据总线和一个地址位(占用两个位置)的存储器件。
The paper focuses on realizing each field bus controller and the mutual data conversion on FPGA chips.
论文的重点是在FPGA芯片上实现各个总线控制器以及相互之间的数据转换。
This paper discussed detailedly about the CAN Bus-Ethernet Controller of Data Exchange design and configure software design.
本文详细讨论了CAN—以太网数据转换控制器及上位机配置软件的设计。
It includes that the bus controller PCI9054 action, the simulation of the CPU design with CPLD on the LOCAL bus side, configuration of EEPROM and the bus operation of the data transmission.
介绍了总线控制器pci9054的桥式作用、用可编程逻辑器件模拟LOCAL总线侧cpu的设计、EEPROM的配置以及总线的数据传输操作过程,然后在此基础上给出了数据采集系统的设计。
The proposal based on USB Host/Slave controller chip CH375A, realized a USB-Host embedded in CAN bus data acquisition system and stored acquisition data of each node in U flash disk under MCU control.
该方案基于USB主/从控制芯片CH375A,在单片机的控制下,实现了CAN总线数据采集系统中嵌入USB主机,从而完成把各节点采集的数据存入U盘,取代了现场数据采集系统必须有一台计算机的模式。
The proposal based on USB Host/Slave controller chip CH375A, realized a USB-Host embedded in CAN bus data acquisition system and stored acquisition data of each node in U flash disk under MCU control.
该方案基于USB主/从控制芯片CH375A,在单片机的控制下,实现了CAN总线数据采集系统中嵌入USB主机,从而完成把各节点采集的数据存入U盘,取代了现场数据采集系统必须有一台计算机的模式。
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