硬件控制

介绍了基于DSP的硬件控制系统，脉宽调制技术及矢量控制的基本原理。

The elementary principles of hardware control system based on DSP , PWM and vector control are introduced . 3 .

可用于全部数据类型的主要优点体现在系统编程过程中的任何结构，（包括硬件控制寄存器）都可用C语言来表达。

The major advantage of this full set of data types is that any construction that arises in system programming , including hardware control registers , can be represented in C.

采用VHDL语言描述FPGA的规划并实现硬件控制电路板的各模块功能。

We use VHDL language to describe planning of FPGA and realize functions of each module .

最后，以DSP硬件控制为基础，运用汇编语言编写了单自由度磁轴承系统的控制软件，对控制器的实现进行了评估。

Finally , the control software of one freedom MB system is compiled using the DSP assembly language , and feasibility of the controller realization is appraised ;

本文通过对GPRS模块控制方法的探讨和分析，设计了其相应的硬件控制电路。

Based on the analyses of the GPRS module control method , the corresponding hardware control circuit is designed in this paper .

最后，实现了机器人的物理样机，对机器人的控制系统进行了设计，完成了对控制器的选型并基于选中的TMS320F2812芯片设计出了DSP硬件控制电路，并设计出了反馈采样电路。

The controller is selected and the hardware control system is designed . The sampling feedback circuit is also designed .

光学测棒硬件控制电路划分为：LED驱动电路、单片机控制、按键触发和数据通信四个功能模块。

The control circuit of the probe has been divided into four modules , namely , infrared LED drive circuit module , monolithic processor control module , keys trigger module and data communication module .

探讨和分析GPRS模块的控制方法后，设计了对应的硬件控制电路。

After the discussion and analysis of the method that how to control the GPRS module , the hardware circuit of controlling it is also designed .

主要对FPGA进行编程设计，配合DSP完成了系统硬件控制、OSD以及超声波雷达信号的采集、处理等功能。

By programming the FPGA , we finished the hardware control cooperating with the DSP , the OSD function , the collection and dealing with the ultrasonic sensor signal .

利用FPGA作为智能控制器的控制核心，不仅使系统具有高速型的特点，而且实现了用硬件控制方式代替软件控制方式，更重要的是使系统的抗干扰性得到很大的提高。

Using FPGA as the core of intelligent controller control will not only make the system has the characteristics of high speed type , but can also realize hardware control mode instead of software control mode .

介绍了高速A／D及其硬件控制电路与高速SRAM形成的超高速数据采集系统及实现方法。

An ultra rapid datu-sample system consisting of high-speed A / D and its hardware controlling circuit and High-speed SRAM and its accomplishing method are presented .

硬件控制电路部分以AVR控制器最小系统为核心，设计了转速设定、检测电路，电流检测及系统保护电路。

Hardware control circuit with AVR controller with minimum system as the core , design of the speed feedback circuit , a current detection and protection circuit .

VLIWDSP机器由于硬件控制简单，指令的并行性完全在编译时决定。因此编译程序成为基于VLIWDSP机器应用的关键因素。

VLIW DSP has simple control hardware , and its ILP is decided during the compile time , so compiler is the key factor in developing applications based on VLIW DSP .

为解决强背景噪声下的语音通信问题，设计了基于ARM核处理器的硬件控制平台和以DSP为核心的语音处理系统，采用嵌入式以太网完成实时语音和指令数据的传输；

A speech signal processing system based on the hardware control platform of ARM core processor and DSP is designed to resolve the speech communication in the high noise environment . transmission of real time speech and instrument datum is realized by the embedded ethernet .

提出了一种应用于单相级联型SVG的软硬件控制平台的设计方法，详细分析了系统硬件设计方法，涵盖了FPGA的系统设计及功率单元采样系统设计。

It designs the hardware and software control platform , which could be used in single-phase cascaded SVG . Detailed analysis of the system hardware design is given , it covers the designs of FPGA system and power unit sampling system .

提出了以嵌入式系统为硬件控制平台、uClinux为软件控制平台，以嵌入式Web为信息传输方式，以数码相机为图像拍摄主体的电子警察系统。

In this Electronic Police System , we use embedded system as the hardware platform , uClinux as the software platform , the embedded Web as the information transmission mode , and the digital camera as the picture capture equipment to realize it .

本文着眼于熔丝沉积快速成形系统的研究和开发，论述了HRPR-I型FDM设备的总体结构设计，包括系统硬件控制系统和软件体系结构。

This article emphasizes on the research and development of FDM HRPR-I device , describes the main structure involves the control processing of the system and software structure .

在该模块中，客户端软件包括客户端应用程序（程控面板）以及IVI驱动函数接口，服务器端软件包括服务器程序以及硬件控制函数库。

In this module , the client-side software includes client application ( program control panel ) and the IVI driver function interface , while the server-side software includes a server program and the hardware-control function library .

一般对单片机Flash的擦写有三种方法：ISP、IAP技术和编程器，而它们都需要一个硬件控制单元来实现对Flash的控制操作。

Flash is now widely used in the MCU as memory storage . In general , MCU has three ways to erase or reprogram its embedded Flash . ISP , IAP and parallel mode , all of them require an interface for MCU to control the Flash operation .

本系统采用现今强大的数字信号处理器DSP&TMS320LF2407作为硬件控制处理核心。

The system selects the popular digital signal processor DSP-TMS320LF2407as the control center .

基于单片机的液体粘性调速离合器的硬件控制系统

Wet Clutch Control System of Hardware Based on Singlechip

电子辅助硬件控制系统：计算机控制全数字测试及控制系统。

Electronic assisting hardware control system : Computer-controlled full digital test and control system .

基于硬件控制防遗忘关断电源开关控制器

Switch controller guarding against forgetting to turn off power supply based on hardware control

基于磁道钉导航的智能公路车道保持硬件控制系统研究

Study on Hardware Controlling System for Lane-following on Intelligent Highway with Embedded Magnetic Nails

这对于雷达系统中的硬件控制信号时序的设计，有着至关重要的影响。

It is of importance for the design of hardware control signal schedule in radar system .

而硬件控制电路又包括了频率跟踪、移相调功、信号采集、键盘-显示及辅助电源等。

Phase-shift Power modulation , signal acquisition , keyboard-screen , auxiliary power supply and so on .

本文介绍用于激光尘埃粒子计数器中，由硬件控制实现对大流量数据快速、准确采集计算和缓存的方法。

The high-speed data acquisition , calculation and buffering methods by hardware in particle counter are presented .

硬件控制系统包括信号提取、信号调理、数字信号处理器采样控制以及电源驱动四个部分；软件控制系统利用数字信号处理器控制器实现了所设计的控制策略。

Hardware control system included signal extraction , signal conditioning , DSP control , and power source drive circuit .

该原动机仿真控制系统，硬件控制电路简洁、体积小、适应性增强。

The prime mover simulation control system has simpler hardware control circuit , smaller volume , and higher adaptability .

然而随着激光标刻技术的发展，国内技术在硬件控制及控制方式上停滞不前。

With the development of laser marking technology , however , domestic development in the way of hardware control is stagnation .