This is believed to be the first book that takes a view of nanotechnology from a telecommunications and networking perspective. Nanotechnology refers to the manip- ulation of materials at the atomic or molecular level. Nanotechnology is getting a lot of attention of late not only in academic settings and in laboratories around the world, but also in government and venture capitalists’ initiatives. There now is a major drive to commercialize the technology by all sorts of firms, ranging from start- ups to Fortune 100 companies.
标签: Nanotechnology Applications
上传时间: 2020-05-31
上传用户:shancjb
Sensors are points ofcontact betweenthe material world ofatoms, mass, andenergy and the seemingly immaterial world of information, computation, and cognition. Linking these two domains more tightly yields all sorts of practical benefits, such as improvedinputdevicesforcomputers,moreeffectivemedicaldevices(implantedor worn), more precise agricultural operations, better monitored buildings or bridges, more secure payment systems, and more reliable sensor–actuator control systems. There are many settings in which tighter coupling between digital and physical planes can enhance safety, security, performance, and reliability.
标签: Computational RFID
上传时间: 2020-06-08
上传用户:shancjb
HRVAS is a complete and self-contained heart rate variability analysis software (HRVAS) package. HRVAS offers several preprocessing options. HRVAS offers time-domeain, freq-domain, time-frequency, and nonlinear HRV analysis. All results can be exported to an Excel file. For processing many files HRVAS offers a bach processing feature. All settings/options can be saved to a .mat file and reloaded for future HRV analysis. Upon starting HRVAS all previously used settings/options are loaded.
标签: HRVAS时频分析
上传时间: 2021-09-19
上传用户:boboo
**对于CEPARK实验平台选择Debug选项卡,如图进行设置。1)选择Debug选项卡2)勾选上use千的选择框,型号选择ULINK2/MCortex Debugger3)勾选如图所示两项4)勾选如图所示四个选项。5)设置完毕后点击settings.
标签: cepark
上传时间: 2022-02-15
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This Getting Started Guide is written for Maxwell beginners and experienced users who would like to quickly re familiarize themselves with the capabilities of MaxwelL.This guide leads you step-by-step through solving and analyzing the results of a rotational actuator magnetostatic problem with motion By following the steps in this guide, you will learn how to perform the following tasks Modify a models design parameters y Assign variables to a model's design parameters.Specify solution settings for a design Validate a designs setupRun a maxwell simulation v Plot the magnetic flux density vecto v Include motion in the simulation本《入门指南》是为希望快速重新熟悉MaxwelL功能的Maxwell初学者和有经验的用户编写的。本指南将引导您逐步解决和分析旋转致动器静运动问题的结果。按照本指南中的步骤,您将学习如何执行以下任务。修改模型设计参数y将变量分配给模型的设计参数。指定设计的解决方案设置验证设计设置运行maxwell模拟v绘制磁通密度vecto v在模拟中包含运动
上传时间: 2022-03-10
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首先下载软件,解压软件,安装在程序中找到SEGGER,选里面的J-FLASH,进入界面,刚开始的那个界面可以忽略,不用建project也可以;单击菜单栏的“Options---Project settings”打开设置,进行jlink配置;正在General选项,选择“USB”,一般都是默认配置,确认一下即可;然后在CPU选项,选择芯片型号,先选择“Device”才能选择芯片型号,芯片型号,要根据你使用的芯片进行选择;在Target interface选项 里面选择SWD模式;首先Target里面选“Connection”连接目标芯片,然后 Target--Auto进行程序烧写;首先Target里面选择“Connection”连接目标芯片,然后 Target--Auto进行程序烧写.SEGGER J-Links are the most widely used line of debug probes available today. They've proven their value for more than 10 years in embedded development. This popularity stems from the unparalleled performance, extensive feature set, large number of supported CPUs, and compatibility with all popular development environments.
标签: JLINK
上传时间: 2022-03-22
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对于文件名为xx.ms11的文件,需要首先安装multisim11仿真软件才能使用;对于文件名为xx.ms11的8051单片机仿真电路文件(或者PIC弹片机仿真电路文件),不仅需要首先安装multisim11仿真软件,还需要有相关的工程文件(multisim11中默认存放在C:\Documents and settings\Windows\My Documents\National Instruments\Circuit Design Suite 11.0\MCU Workspaces路径\...中),因此建议读者进行单片机仿真时,最好按照光盘中给出的仿真电路图,在multisim11重新绘制仿真电路,重新建立相关的工程文件,以保证仿真的顺利进行。当读者创建简易数字频率计的8051单片机仿真电路时,必须在MCU Wizard的第2步中将工程文件类型设置为“下载外部文件”类型(External hex file);具体方法请读者参考与光盘配套的书籍的第8章和光盘的“简易数字频率计\软件流程\调试”文件路径中的“调试.txt”文件(其中的第0步)和光盘的“简易数字频率计\软件流程\调试”文件路径中"图1"文件。简易数字频率计由于采用了“下载外部文件”的工程类型,因此MCU Code Manager窗口中的设置较简单:只要按照光盘中“简易数字频率计\软件流程\调试”文件路径中的“图3”文件设置好后缀为.hex的外部文件在磁盘中的路径即可。
标签: 数字频率计
上传时间: 2022-05-05
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RX-8801 SA Features built-in 32.768 kHz DTCXO, High Stability Supports l'C-Bus's high speed mode (400 kHz)Alarm interrupt function for day, date, hour, and minute settings Fixed-cycle timer interrupt function Time update interrupt function32.768 kHz output with OE function Auto correction of leap years Wide interface voltage range: 2.2 V to 5.5 V Wide time-keeping voltage range:1.8 V to 5.5 V Low current consumption: 0.84A/3V (Typ.)is an IC bus interface-compliant real-time clock which includes a 32.768 kHz DTCXO In addition to providing a calendar (year, month, date, day, hour, minute, second) function and a clock counter function, this module provides an abundance of other functions including an alarm function, fixed-cycle timer unction, time update interrupt function, and 32.768 kHz output function.The devices in this module are fabricated via a C-MOS process for low current consumption, which enables ong-term battery back-up.
上传时间: 2022-06-17
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安装软件到ST的网站上下载最新版本的STM32CubeMX 软件:编写这份文档的时候最新版本是V4.17.0 将下载后的压缩包解压,双击里面的SetupSTM32CubeMX-4.17.0.exe 文件来安装软件, 出现下图的界面的时候按Next 按钮继续:在下面的窗口中选择“ I accept the terms of this license agreement ”然后继续按Next 按钮。2下一个出现的窗口是选择软件安装的路径, 默认安装路径是C:\Program Files(x86)\STMicroelectronics\STM32Cube\STM32CubeMX ,可以根据实际需要选择别的路径,本次安装在D 盘相同的路径上。按Next 按钮后弹出一个确认窗口,按确定键确定。接着弹出下图的配置窗口,按原来默认的配置,按Next 键继续。3安装完后,按Next 键继续。按Done 键关闭下面的窗口,完成所有的安装。4安装固件包点击桌面上的STM32CubeMX 图标运行软件。先修改软件包的安装路径,点击help 菜单选“ Updater settings”选项。软件包默认安装在C:/Users/XIN/STM32Cube/Repository/ 目录下,STM32Cube 软件包比较大可以点击Browse 按键修改安装的路径。修改完软件包的安装路径后开始安装 STM32Cube软件包,点击 help 菜单选 “Insta lnl ewsoftware and/or firmware packages ”选项。
标签: stm32cubemx
上传时间: 2022-06-19
上传用户:jason_vip1
一建立STM32cubeMX工程1.建立新工程,选择芯片STM32F302CCTx2. 在Pinout 中时钟配置为高速外部时钟, UART配置为异步通信, cube 会自动分配引脚。3.Clock Configuration 中配置如下4.configuration 中点击USART1可进入配置在USART1 configuration 中Parameter settings 可以配置波特率,发送数据字长,奇偶校验位和停止位等。NVIC Setting 可以配置中断优先级。5.生成keil 软件代码点击工具栏中的齿轮按钮,可以选择代码的开发平台, ok 结束。(文件保存路径一定要是全英文的)进过了我们一系列的配置, cube 会为我们自动生成keil 软件的代码,代码中包括工程所需的固件库,配套的头文件,启动文件及用户文件。在main.c 中包括了我们工程所需外设的初始化,包括了系统时钟初始化,中断初始化, GPIO初始化, USART1初始化, HAL库初始化。我们只需要在main.c 中添加我们自己的代码就可以了。二keil 软件代码及HAL库使用UART_HandleTypeDef huart1;生成的代码中有声明一个USART处理的结构体HAL库中串口的数据收发有四个函数HAL_StatusTypeDef HAL_UART_Transmit(UART_HandleTypeDef *huart, uint8_t *pData, uint16_tSize, uint32_t Timeout);HAL_StatusTypeDef HAL_UART_Receive(UART_HandleTypeDef *huart, uint8_t *pData, uint16_tSize, uint32_t Timeout);指针huart 指向我们之前定义的USART处理结构体, 我们将在函数中对结构体中的参数进行操作。pDate 是我们自己定义的数据发送接收缓存, Size 发送接收数据个数, Timeout 超时持续时间。UART状态的结构体:我们在发送接收函数中要经常对USART的状态进行判断,以便我们对函数结构体中的参数进行操作
标签: stm32cubemx 串口
上传时间: 2022-06-22
上传用户:shjgzh
