敏感单元是触觉传感器的核心器件。
The sensitive cell is the nucleus device of the tactile sensor.
核心器件均采用进口,稳定可靠,无耗材。
All the core components are imported with advantages of stability, reliability, no consumable.
核心器件均采用进口,稳定可靠,无耗材。
All the core components are imported with advantages of stability, reliability, and no consumable.
硬件的设计采用80C51单片机为核心器件。
The 80C51 single chip processor is key devices in the design of the hardware .
光交叉连接器OXC是实现全光网络的核心器件。
设计了以电力电子元件IGBT为核心器件的功率主电路。
Then, the main power circuit taking electric electronic component IGBT as key device is designed.
高量程MEMS加速度传感器是测量高冲击过程的核心器件。
High-g MEMS accelerometer sensor is the key device for measuring acceleration during high shock process.
采用可在线编程的单片机作为核心器件实现参数的实时调节;
The MCU, applied as the core unit, is to realize the real time adjustment of parameters.
作为紫外预警系统中的核心器件一紫外探测器就成为研究的焦点。
As the key device in ultraviolet warning system, ultraviolet image intensifier becomes the focus of research.
用DSP作为行驶控制器的核心器件完成了控制器的软硬件设计。
Using DSP as the core processor, the paper completes the controller 's software and hardware design.
密集波分复用(简称DWDM)器件是DWDM系统中的核心器件。
The dense wavelength division multiplexing (DWDM) device is the core component in DWDM systems.
以负温度系数热敏电阻为核心器件设计了多通道高精度温度测量系统。
Based on negative temperature coefficient resistance (NTCR), a fine multiple channel temperature measurement system was designed.
核心器件均采用进口,软件功能强大,稳定可靠,可连续24小时运转。
All the core components are imported. The function of software is powerful, stable, reliable and can be running for 24 hours continuously.
本嵌入式信号处理系统采用双处理器的结构,核心器件为ARM和DSP。
The signal processing system embedded kernel apparatus of ARM and DSP.
计算机硬件的核心器件有CPU、内存、中断控制器、DMA控制器,等等。
The essential hardwares of computer contain CPU, memory, interrupt controller, DMA controller, etc.
并且针对数据采集卡的核心器件FPGA的设计开发进行了一定的技术探讨。
And we also discussed the development of FPGA, which is the core chirp of whole system.
世界主流电子产商编程核心器件时所信赖的稳定而可靠的自动编程解决方案。
Robust and reliable automated programming solutions trusted by leading electronics manufactures worldwide to program their mission critical devices.
作为自动交换光网络中的核心器件,全光波长转换器在网络中发挥着重要作用。
AS a key device in ASON (automatic switched optical networks), the study on all optical wavelength converters is becoming a very important project.
数字掩模技术的核心器件是数字微镜芯片,它具有较高的分辨率和灰度等级等优点。
DMD chip is the core device of digital mask technology, and it has such advantages as high resolve, gray level, and so on.
此传感器以BSO晶体为核心器件,巧妙地利用了其显著的电光效应和光电导效应。
BSO crystal is the core of the sensor and the sensor is characterized by using both electro-optic and photoconductive properties of BSO crystal.
此红外探测仪的核心器件焦平面阵列(FPA)由无硅基底结构的微悬臂梁阵列构成。
The IR detector contains a focus plane array (FPA) which is fabricated into an array of bi-material microcantilevers in the form of single-layer membranous structure without Si-base.
论文对核心器件的选型,单元电路的设计,控制原理以及控制算法都进行了详尽的说明。
In this part, some points are presented in detail, including hardware choosing, unit circuit design, control principle and control algorithm.
光开关是光网络中完成全光交换的核心器件,它的研究日益成为全光通信领域关注的焦点。
In all optical networks, as the kernel part of instruments used to accomplish all optical interchange, optical switch is being a focus of research in all optical communication.
本文给出了采用单片机及铂电阻pt 1000为核心器件的高精度恒温式自动量热仪设计。
In this paper, SCM and Platinum -resistor PT1000 are chosen as its core to design the circuit of the isothermal automatic calorimeter.
提出了一种以pic 16f877单片机作为核心器件的多路数据采集系统的设计和实现方法。
This article introduces the designing method of the multi-channel data acquisition system with PIC16F877 as its kernel processor chip.
半导体激光器作为该领域中的核心器件,其性能不断提高,人们对激光器测量的需要也逐渐延伸。
As the central devices of optoelectronic domain, the performance of the LD is improving continuously, with which the demand for LD characteristic testing is extended.
采用ARM芯片S3C2410X核心器件,通过串口与上位机进行通讯,并以LCD显示各项信息。
The system uses ARM chip and the core parts of S3C2410X to communicate with the host through serial ports and display information through LCD.
介绍了非接触式红外测温仪的一种实用数字温度补偿方法,其中,测温仪采用热电堆传感器作为核心器件。
An applied numerical temperature compensation method for the non-contact infrared thermometers is described. The thermometers employ thermopile sensors as the key element.
在该系统设计中,以FPGA芯片作为核心器件,通过底层软件编程实现高强度聚焦超声的数字化相位调控。
In the system design FPGA slug as a key device realizes digital phase control of high intensity focused ultrasound through base software programming.
文章着重介绍了温度控制系统的基本构成,核心器件的选择、控制算法的确定、各部分的电路及软件的设计。
The article focused on the basic component of temperature control system, the choosing of core device and algorithm, and the design of the various parts of the circuit and software.
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