这个寄存器定义了将用于数据通信的物理串行接口。
This register defines the physical serial interface which will be used for data communications.
接口的波特率为31.25 k波特,其中包括1个起始位,8个数据位以及1个停止位,每个串行比特周期为320微妙。
The baud rate for the interface is 31.25 Kbaud with 1 start bit, 8 data bits, and 1 stop bit, giving a period of 320 microseconds per serialized byte.
从Arduino获得数据最简单的方式是让此单元直接连接到主机计算机的UniversalSerialBus (USB)接口,像串行连接那样读取数据。
The simplest way of getting the data from the Arduino is with the unit connected directly to a host computer Universal Serial Bus (USB) interface, reading the data as if it were a serial connection.
转换过程和数据采集过程通过CS和串行时钟信号进行控制,从而为器件与微处理器或DSP轻松接口创造了条件。
The conversion process and data acquisition are controlled using CS and the serial clock signal, allowing the device to easily interface with microprocessors or DSPs.
该系统从功能上可以分为数据采集模块、无线数据传输模块、通用串行总线接口传输模块。
The system can be divided into three modular by function, sensing data acquisition part, wireless data transmitting part, and universal serial interface part.
通用串行总线作为一种崭新的微机总线接口规范,其特点使其非常适合高速数据采集系统。
As a new computer bus interface criterion, USB ap-plies to the high-speed data collecting system.
文本介绍了带有RS-232串行通讯接口和非易失静态存储器的多功能数据采集仪。并详细描述了其系统功能、特点和工作原理。
This paper introduces a practical multipurpose data acquisition instrument with RS-232 and nonvolatile SRAM. It gives a minute description of system function, features and operational principle.
通过使用串行数据输出,驱动器可级联需要附加驱动线路的接口应用。
By using the serial data output, drivers can be cascaded for interface applications requiring additional drive lines.
串行接口由于其具有连接简单、使用方便、数据传递可靠等优点,在工业实时控制系统中得到了广泛应用。
The serial interface possesses the good qualities of connecting simply, using conveniently and data transferring credibly, so it has gained abroad appliance in real time control system.
这个混合模式的接口把传统的模拟传感器信号与低成本的串行数字连接结合在一起,以访问传感器的内嵌的传感器电子数据表(TEDS)。
This mixed mode interface combines the traditional analog sensor signal with a low cost serial digital link to access a transducer electronic data sheet (TEDS) embedded in the sensor.
本文推荐的SDI— 12通讯标准是近五年来欧美国家在环境监测中广泛使用的一种串行数据通讯接口协议。
The SDI-12 communication standard, a kind of serial data communication interface protocol, is widely used in environment monitoring in Euro-American countries.
串行数据通信在网络传输、背板连接和I/O接口等领域应用非常广泛。
Serial data communication has gained wide application in network transmission, backplane transceiver and I/O interface.
本文以应用于工业测试系统的在线状态检测数据采集系统的设计为例,讨论了基于DSP数字信号处理器和USB通用串行总线接口数据采集系统的软硬件设计的主要步骤和过程。
Taking the design of the industry on-line state detection Data Acquisition System as example, the paper discusses the main processes on the software and hardware design based on DSP and USB.
以激光测径仪为测量手段,通过其RS232串行通信接口发送数据。
The POF's diameter is measured by using laser diameter gauge and the data of the diameter is sent through its RS232 serial communication interface.
并且使用了广泛应用的RS- 485电气接口的串行通讯技术作为通讯方式,文中分析了发送数据桢的过程,并制定了通讯协议。
And it USES asynchronous serial communication technology based on RS-485 electric interface as communication means. The process of sending data frames are analyzed and communication protocol was made.
显示模块采用串行的液晶模块通过RS232接口和DSP相连,实现测量数据的实时显示。
We use the serial display module LCD module is connected through the RS232 interface and DSP to achieve real-time display of measured data.
转换数据可通过串行或并行接口获得。
The conversion data is available via a serial or parallel interface.
在集散控制系统设计中,经常会涉及到利用计算机串行接口进行数据通信。
The data communication through computer's serial interface is often involved in the design of distributing control system.
SPI接口技术是一种高速,高效的串行接口技术,因而SPI设备在数据通信中应用十分方便。
The Serial peripheral Interface is a sort of technology with high speed and efficiency, which makes the SPI device convenient in data communication.
输出数据通过串行或并行端口从输出寄存器中存取,这可实现与现代微控制器和数字信号处理器的轻松、高速接口。
The output data is accessed from the output register through a serial or parallel port. This offers easy, high speed interfacing to modern microcontrollers and digital signal processors.
串行接口作为一种应用较早的数据通信接口,由于其自身实现容易等诸多特性,现在已经在工业控制等诸多领域得到了广泛的应用。
Serial port, early applied communications port, has been widely using in various fields as the industrial control and so on, just due to its special features of its easy realization.
串行接口能够将并行数据转化成串行数据,或者反之。
Serial interfaces can convert parallel data to serial, and vice versa.
该系统由多路复用的RS232、RS485串行接口电路及多路数据采集系统组成,具有结构简单、工作可靠、经济实用等特点。
This system consist of the MUX RS232, RS485and data acquisition system. It is characterized by simple construction, reliability service and economy.
提出一种基于TMS320C 6711的具有USB(通用串行总线)接口的高速数据传输的设计方案,对TMS320C 6711和USB处理器an2131 Q的软硬件设计作了详细介绍。
A design scheme of high-speed data transmission with the interface of USB based on TMS320C6711 is presented. And the hardware and software design of TMS320C6711 and AN2131Q are described in detail.
以GC - 06蓝牙接收模块、SD储存卡和RS232串行通讯接口为数据传输接口的蓝牙接收装置设计。
Take GC-06 blue tooth receive module, SD storage card and RS232 serial communication connection as data transmission connection.
转换过程和数据采集过程通过CS和串行时钟进行控制,从而为器件与微处理器或DSP接口创造了条件。
The conversion process and data acquisition are controlled using CS and the serial clock, allowing the devices to interface with microprocessors or DSPs.
SIM读卡器和手机数据接口是基于PC机串行通信口,利用一片74hc14芯片实现接口功能。
SIM reads the card and the handset data interface is based on the PC machine serial port, USES a piece of 74hc14 chip to realize the interface function.
本文介绍了用于激光三维图像数据采集系统中的硬件数据补偿电路和实现高速串行通讯的RS- 422接口电路。
In this paper we mainly discuss the data compensating principle and its circuit accomplishment, RS-422 interface adaptor which are used in a high-speed data acquisition system.
通用串行总线USB已成为PC的标准接口,它可以实现高速的数据传递。
USB has been a PC standard interface which can transfer data in high speed.
我们已经表明,频带有限的接口抖动有很强的关系的串行接口代码位结构,因此它可以高度与相关音频数据传输。
We have shown that band-limited interface jitter has a strong relationship to the bit structure of the serial interface code, and hence can be highly correlated with the transmitted audio data.
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