在硬件设计中对电压、电流采样电路,IGBT驱动电路以及通讯和人机接口电路进行了设计。
In part of hardware design, voltage and current sampling circuit, IGBT driving circuit communication and man-machine interface circuit are designed.
具有独特的双输入接口、灵活的传感器接收、高速采样、实时记录、多种记录模式和实用的操作、处理、成像软件。
It has distinctive double input interface, flexible sensor receiving, high-speed sampling, recording in realtime, multi-recording mode and practical operation, processing and imaging software.
主要包括硬件接口电路的设计、控制参数的设置以及部分关键的控制代码和实现AD采样的程序流程等。
The design of hardware interface circuits, setting of control parameters, some critical control code, and the flowchart of AD sampling program etc. are described in this paper.
硬件设计方面采用DSP芯片TMS320F206为核心处理器,建立起基本的采样、控制、通信和人机接口硬件平台。
With regards to the hardware design, a DSP chip TMS320F206 is adopted as CPU, and builds a hardware platform of sample, control, communication and human interface.
数字音频接口(DAI),可以实现用户可定义的外设访问,包括8通道异步采样率转换器。
Digital Audio Interface (DAI) enabling user-definable access to peripherals including 8-channel asynchronous sample rate converter.
它内置一个低功耗、高速、16位不失码的采样adc、一个内部转换时钟和一个多功能串行接口。
It contains a low power, high speed, 16-bit sampling ADC with no missing codes, an internal conversion clock, and a versatile serial interface port.
通过CT图像滤波、分割、开操作等图像处理方法以及轮廓提取和采样等建模方法,得到快速成形数据接口cli文件,进而进行原型的快速成形制造。
Through ct image processing, segmentation, open operation, contour sampling and extraction, the rapid prototyping data interface modal file which is presented as CLI format, can be obtained.
从采样针筒接口、校正系数、放散和分析时间等方面探讨了煤气含苯分析不准确的原因及改进措施,从而提高了煤气含苯分析的准确度。
Discussed the inaccurate analysis of content of the benzene in the gas caused by inacurate sampling connection, correction factor, exhales and and alysis time and gives the improvement measures.
然后分别介绍控制电路和主电路设计原理与思路,重点论述了混合电平逻辑设计中的接口解决方案、A/D采样电路、SPI通讯接口电路及主电路的保护等;
The key points lies in interface resolve method in hybrid voltage-logic design, A/D sampling circuit, SPI communication port and the protect of the main circuit.
该方法可用于软盘驱动器或高速采样的接口设计。
This method can be used to design the interface of a floppy disk driver or a highspeed sampling circuit.
以TMS320F2812为控制核心,设计了系统的控制驱动电路、采样电路、保护电路、人机接口…更多电路等硬件部分和控制系统软件。
Using TMS320F2812 as the core of the control system, drive circuit, sampling circuit, protection circuits, man-machine interface circuit hardware components and control system software were designed.
它内置一个低功耗、高速、18位采样adc和一个多功能串行接口端口。
It contains a low power, high speed, 18-bit sampling ADC and a versatile serial interface port.
主要介绍CPCI数字存储示波器模块的模拟通道设计、A/D采样设计、数字控制电路设计、电源设计以及CPCI接口设计。
The hardware design of the module mainly presents analogue channel circuit design, A/D acquisition circuit design, digital control circuit design, power and CPCI interface design.
它内置一个16位高速采样adc、一个内部转换时钟、一个内部基准电压源(和缓冲)、纠错电路,以及串行和并行系统接口端口。
It contains a high speed 16-bit sampling ADC, an internal conversion clock, an internal reference (and buffer), error correction circuits, and both serial and parallel system interface ports.
仪表灵敏度高,采样速度快,软件功能强,有标准接口可与计算机通讯。
The meter is of high sensitivity, sampling speed, software function, and a standard interface with the computer communications.
所述解调变换器和低频振动分离器输出的信号送入一个采样和分析诊断的计算机ad接口。
Signals output by the demodulating converter and the low frequency vibration separator are sent to an interface of a sampling and analyzing diagnostic computer AD.
本发明电路设计简单,电路的接口关系清晰明了,并且用单个fpga芯片实现采样数据形成的电路使得电路的可靠性比较高。
The present invention has simple circuit structure and clear circuit interface relationship and the sample data forming circuit with a single FPGA chip makes the present invention reliable.
本文以三相桥式晶闸管整流电路为例,讨论波形分析法的原理、采样电路与微型计算机接口电路的设计及应用程序的设计。
As an example, the principle of waveform analysis, the design of sampling circuit, interface and applied programs for 3-phase bridge rectifier are discussed.
客户可以实现具有更高的帧速率传感器窗口或子采样读出模式,并可以通过SPI接口方案传感器的设置。
Customers can achieve higher frame rates for the sensor with windowed or sub-sampled readout modes, and can program the sensor's Settings over an SPI interface.
由于数字信号处理器具有10位的模拟——数字转换功能的接口,本文使用它的模数转换接口作为模拟量的采样。
Because DSP has analog-digital conversion interface of 10 bit, this type of interface act as sampling of analog quantity.
采样模拟信号,转化成数字信号。2)接口的连接问题。3)LED显示器如何接入电路。4)如何进行显示控制。
Sampling analog signals into digital signals. 2) interface connectivity problems. 3) LED display to access the circuit. 4) How to display control.
着重介绍了TMS320F 206与MAX147的接口电路及同步采样串口操作,并在最后给出了采样源程序。
It emphasizes on the interface circuit between TMS320F206 and MAX147 and their communication by synchronous series port. Besides, the resource procedure of sampling is offered at last.
它们包括信号采样电路、人机接口电路、主控芯片接口电路、过零触发电路及通讯电路等。
They include signal sampling circuit, man-machine interface circuit and control circuit, main chip interface circuit, zero-crossing triggering circuit, and communication circuit, etc.
系统由程控电源、测试回路、信号采样、调理电路和数据采集接口卡等部分组成。
The system is composed of programmable power, test circuit, signal sampler, signal conditioner and data acquisition card.
该器件内置一个高速18位采样ADC、一个内部转换时钟、一个内部基准电压缓冲、纠错电路,以及串行和并行系统接口。
The part contains a high-speed 18-bit samplingADC, an internal conversion clock, an internal reference buffer, error correction circuits, and both serial and parallel system interface ports.
利用单片机及上述芯片设计了一个高速不连续采样的数据采集系统,给出了该采集系统的接口电路,并阐述它的实现原理。
A discontinuous data acquisition system based on microcontroller is designed. The systematic interface circuit is provided and its realization principle is explained.
利用单片机及上述芯片设计了一个高速不连续采样的数据采集系统,给出了该采集系统的接口电路,并阐述它的实现原理。
A discontinuous data acquisition system based on microcontroller is designed. The systematic interface circuit is provided and its realization principle is explained.
应用推荐