设计采用数字信号处理器(TMS320 LF 2407dsp)作为主控芯片,能提高控制系统的实时性和数据处理能力。
This design USES digital signal processor (TMS320LF2407 DSP) as a control chip, which helps the system to improve the real-time control capability and data processing capability.
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 design realizes the data communication between the main controller and accessary controller in MIC bus redundancy system.
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.
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 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.
所述的摄像模块和图像数据缓存模块通过主控制模块分别与多屏幕拼墙的显示屏幕和计算机通信连接。
Said video camera module and image data buffer module are respectively connected to the multi-screen display wall and computer via the main control module.
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 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.
利用PC机作为主控计算机,采用RS485网络系统对生产中的配料系统进行多点数据采集,并对整个配料生产过程进行监控和控制。
This paper describes a multipoint data sampling system for the manufacturing material-mixing system, which uses RS485 network system and PC as a master control computer.
该实例是利用AT 90CAN 128这块芯片做主控芯片,ATA6660做CAN的控制器,通过对芯片里面的寄存器进行操控,来完成对数据的传输。
The instance utilizes the chip AT90CAN128 as the main chip and the chip ATA6660 as Can transceiver. The Can bus transmits the data by controlling the inside registers.
硬件电路包括主控制板、数据采集板、人机交互接口板。
The hardware circuits include the main control board, data acquiring board and human machine interface (HMI) board.
所述后端控制系统包括抓拍主控机、连接抓拍主控机的数据分析机;
The rear end control system comprises a main capture controller and a data analyzer connected with the maincapture controller.
主控制器使用单片机对各个传感器的信号进行采集、分析、计算,并进行补偿,得到所需数据,再将各种数据送到液晶显示器显示。
The master controller uses a single-chip computer to collect, analyze, compute and compensate the signals of all sensors, and gets the needed data, then displays all data via the LCD.
然后经过一级可变增益放大器,在经过A/D变换,通过单片机串口将数字数据传输到ARM主控制板内进行处理。
Then after a variable gain amplifier, After A / D conversion and through the microcontroller serial digital data to the ARM within the main control panel for processing.
系统采用SPCE061 A微控制器为主控单元,特别指出了软件设计中需注意的几个问题,最后利用软件对实验数据进行误差修正。
SPCE061A MCU is adopted as central control unit. Especially, we point out several problems which must be paid attention to in the program, and correct the error of experiment data in the end.
其中,抓拍主控机与路口控制器通过光纤连接,用于协调和控制前端采集系统的运行并将车牌图片发送给数据分析机;
The main capture controller is connected with the road junction controller through optical fiber and sends the image of the license plate to the data analyzer;
其中,抓拍主控机与路口控制器通过光纤连接,用于协调和控制前端采集系统的运行并将车牌图片发送给数据分析机;
The main capture controller is connected with the road junction controller through optical fiber and sends the image of the license plate to the data analyzer;
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