介绍了随钻测量仪测试系统中,基于MC68 HC 908gz60微处理器的数据采集控制器设计。
Introduced is the design of data acquisition controller based on MC68HC908GZ60 microprocessor in MWD testing system.
数据采集和处理系统均以单片机作为核心控制器。
We choose MCU as the core controller in both data acquisition and the data processing system.
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.
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。
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.
该数据采集系统采用TI公司的TMS320 LF 2407 A芯片为主控制器,另外设计了相应的外围信号调理电路、存储模块、通信模块等。
The data acquisition system adopted TMS320LF2407A chip of ti as main controller, in addition, designed peripheral signal processing circuit, memory module, communication module and so on.
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.
对于底层数据的采集本文使用了西门子公司的S7-300可编程逻辑控制器。
This paper uses the S7-300 programmable logic controller of Siemens to collect the bottom data.
分析了ADC转换器单端模式下对电压信号的采集过程和DMA控制器对外部存储器写入数据的过程。
The process of data acquisition with ADC controller in single-ended mode and the process of data storage with DMA controller are described.
利用基于DSP的运动、压力控制器对编码器和传感器采集的数据进行高速处理,实现了对压铸机的实时控制。
Using movement & pressure controller based on DSP to make high-speed disposal on the data collected by the coder and the sensor, the real control on the die-casting machine was realized.
本文介绍了高速数据采集系统中的DMA控制器的功能;
This paper introduces the functions of a DMA controller in fast data collect system.
设计了一种新型平滑度仪,详细描述了控制器、数据采集、人机接口和实时时钟等模块的具体选型及设计;
A new smoothness tester has been designed and accomplished. This paper presents in details the module design of controller, data acquisition, man-machine interface and real clock.
以C8051F 023处理器和CAN总线控制器SJA1000为核心,设计了一种通用的基于CAN总线的数据采集通信系统。
A kind of current data acquisition system based on CAN is designed, its core design is C8051F023 microprocessor and CAN controller SJA1000.
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.
介绍了一种基于可编程控制器(PLC)的分布式堤防安全监测数据采集系统的构成及工作原理。
The structure and operation principle of a distributed data acquisition system for embankment safety monitoring based on PLC, are introduced.
该节点通过微控制器和无线传输模块实时采集、处理、传输井下工作面的瓦斯浓度、CO浓度、温度、湿度等数据。
The node can collect, process and transmit data of gas concentration, co concentration, temperature and humidity of underground working face by microcontroller and wireless transmission module.
本文介绍一种USB数据采集系统,应用单片机作为微控制器。
This article introduces a kind of USB data collecting system, using the one-chip computer as the micro controller.
数据的采集、计算和这些技术中的其他功能可以由诸如dsl优化器之类的系统控制器来完成。
The collection of data, calculations and other functions performed in these techniques may be performed by a system controller, such as a DSL optimizer.
设计了一种以C8051F 350作为核心控制器,并配以无线通信模块的数据采集系统。
A data acquisition system based on the core controller of C8051F350 and wireless communication module was designed.
以具有US B控制器的C8051F340单片机为硬件平台,实现了工业现场数据的实时、高速、高精度采集。
C8051F340 MCU with USB function controller is used as a hardware platform to achieve data acquisition of the industrial field.
数据采集卡采集程控电源的输出以实现对程控电源的闭环控制,采集发电机控制器和汇流条功率控制器的保护信号以计算延时时间。
Data acquisition card collects data about the power output to realize a close-loop control, and protection signal of the two controllers to compute the delay time.
文章基于DSP的语音系统,采用TMS320 VC 5402作为微控制器,实现了对语音信号的采集压缩和传输数据等功能。
A DSP control based voice systems, with TMS320VC5402bas a microcontroller, realizes the functions of voice signal acquisition compression and data transmission.
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。
This paper presents a data acquisition and display system of HEV based on CAN BUS using microcontroller AT89C52 and stand-alone CAN controller SJA1000.
主要介绍点阵液晶控制器SED 1335在基于P 87c 552数据采集系统中的应用。
The article mainly introduces the application of lattice LCD controller SED1335 in the data acquisition system, which is based on the P87C552.
文章基于DSP的语音系统,采用TMS320 VC 5402作为微控制器,实现了对语音信号的采集压缩和传输数据等功能。
DSP control based voice systems, with TMS320VC5402bas a microcontroller, realizes the functions of voice signal acquisition compression and data transmission.
本设计应用SPCE061A16位单片机作为微控制器,扩展数据采集模块、LCD、键盘模块以及无线通讯模块,组成系统的硬件电路。
The design used SPCE061A16 SCM to be tiny controller, enlarge data collection module, LCD, keyboard module and wireless communication module buildup system hardware circuit.
基于对道路交叉路口车流量数据进行采集和统计分析,运用模糊理论构建了交通灯信号延时模糊控制器。
Based on the collection and statistics of the traffic flow for crossroads, the fuzzy controller for the delay time of traffic lights was constructed by the theory of fuzzy.
本文研究了双通道A/D自动采集存储系统,利用数据收发器及数据选通控制器分别控制RAM的数据线及地址控制线。
The memory system of dual channel A/D automatic acquisition is studied in this paper. Using transceivers and gating controllers, the data bus and address bus of RAM are respectively controlled.
首先,采用PD控制器控制倒立摆,采集倒立摆的输入输出数据;
Firstly, a PD controller is used to stabilize the inverted pendulum, and the inverted pendulum′s input and output are sampled.
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。
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。
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.
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