DESCRIPTION The Texas Instruments MSP430 family of ultra-low-power microcontrollers consists of several devices featuring different sets of peripherals targeted for various applications. The architecture, combined with five low-power modes, is optimized to achieve extended battery life in portable measurement applications. The device features a powerful 16-bit RISC CPU, 16-bit registers, and constant generators that contribute to maximum code efficiency. The digitally controlled oscillator (DCO) allows wake-up from low-power modes to active mode in less than 1 μs. The MSP430G2x13 and MSP430G2x53 series are ultra-low-power mixed signal microcontrollers with built-in 16- bit timers, up to 24 I/O capacitive-touch enabled pins, a versatile analog comparator, and built-in communication capability using the universal serial communication interface. In addition the MSP430G2x53 family members have a 10-bit analog-to-digital (A/D) converter. For configuration details see Table 1. Typical applications include low-cost sensor systems that capture analog signals, convert them to digital values, and then process the data for display or for transmission to a host system.
上传时间: 2018-12-25
上传用户:ygyh
European Research Framework Programs are a public policy instrument to strengthen European competitiveness through cooperation. Although they have a fixed timeframe, determined research themes, and specific expected impact, the achievements in research and development (R&D) made by the funded projects pave the way for a research continuum.
标签: New Horizons Mobile Wireless
上传时间: 2020-05-31
上传用户:shancjb
安全仪表系统、SIS系统技术方案,方案设计。
标签: SIS
上传时间: 2021-10-15
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Texas instruments MIPI DSI to eDP converter. Input supports 2 channel, 4 lanes each, up to 1.5GBit/s. Total input bandwidth is 12Gbit/s. Output eDP 1.4 1,2 or 4 lanes up to 5.4Gbit/s. output up to 4096x2304 60fps.
上传时间: 2021-12-22
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本系统基于STM32单片机设计的非接触式电流检测控制系统,通过OPA548片将所给任意信号放大,由100Ω电阻和INA128芯片进行电流电压转换放大后,利用STM32单片机对获取的电压信号以0.488μs频率采样,利用STM32单片机的FFT库,获得信号的谐波信息。测量电流信号精准,该设计可广泛应用在以STM32单片机为核心控制器件的新型仪表中,性能精准且抗干扰能力强。This system is a non-contact current detection and control system based on STM32 single chip microcomputer. It amplifiesany signal through OPA548 chip, converts and amplifies the current and voltage by 100 Ω resistance and INA128 chip. The obtainedvoltage signal is sampled at the frequency of 0.488 μs by STM 32 single chip microcomputer, and the harmonic information of the signalis obtained by the FFT library of STM 32 single chip microcomputer. The measurement of current signal is accurate. This design can bewidely used in a new instrument with STM 32 single chip microcomputer as its core control device, with accurate performance and stronganti-interference capability.
上传时间: 2022-03-27
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以单片机控制A/D转换器TLC549为例,对A/D转换器的主要技术指标进行了分析研究,在Proteus平台下,完成了A/D转换电路的构建,采用器件工作时序方式进行程序编写,借助仿真图表、虚拟仪器等工具对A/D转换的数据进行测量并对失调误差、增益误差、微分非线性、积分非线性和转换时间等重要参数进行了详细分析。结果表明:使用Proteus软件可对A/D转换过程进行定性分析,将抽象的A/D转换器技术指标直观化、形象化展现出来,有助于学生更好地理解A/D转换过程。The main technical indicators of A/D converter were analyzed and studied with an example from A/D converter TLC2543 which is controlled by using SCM.It was completed the construction of the A/D converter circuit under the Proteus software.The programming based on the operation sequence of the chip is put forward.With the aid of the simulation tools such as virtual instrument,simulation charts provided by Proteus,the important parameters of circuit such as offset error,gain error,differential nonlinearity(DNL),integral nonlinearity (INL) and conversion time are analyzed detailedly.Simulation results show that the A/D conversion process can be qualitatively analyzed and visualized the abstract indicators of A/D.The system can help students better to understand the SCM conversion process.
上传时间: 2022-04-04
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本文设计了一种磁致伸缩位移传感器,介绍了该磁致伸缩位移传感器的测量原理,通过结构优化设计提高了仪器的性能,详述了硬件电路设计及实现方法,完成了软件设计,实现了高压充电、问询脉冲加载、时间测量及滤波等功能,并通过实验对其性能进行了验证。所研制的磁致伸缩位移传感器具有测量精度高、长期稳定性好等特点,满足了大量程、高精度、恶劣环境等测量的要求。A kind of sensor based on magnetostrictive principle is designed.The measuring principle of the magnetostrictive displacement sensor is introduced,the performance of the instrument is improved by the structural optimization design,and introduced the hardware circuit design and the realization method,completed the software design,realized the functions of the high voltage charging,inquiries pulse loading,time measurement and filtering,and its performance is verified through the experiment.The magnetostrictive displacement sensor has the characteristics of high measuring precision.The sensor meets the requirements of large range,high precision,poor environment and so on.
标签: 位移传感器
上传时间: 2022-04-06
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介绍一种万能模拟信号输入采集电路,可以同时支持电压、电流、热电偶、热电阻等常见的工业类型信号,方便后级电路的测量。该研究成果通过不断优化和完善,已成功应用到了中控仪表的新产品中。The paper introduces a collection circuit of universal signal input. The circuit support voltage, current, thermocouple, thermal resistance and other common industrial type signal. The research results, which has been continuous optimized and improved, has been successfully applied to the new production of Zhejiang Supcon Instrument Co., Ltd.
标签: 采集电路
上传时间: 2022-04-21
上传用户:slq1234567890
ADS1256 是TI(Texas I nstruments )公司推出的一款低噪声高分辨率的24 位Si gma - Delta("- #)模数转换器(ADC)。"- #ADC 与传统的逐次逼近型和积分型ADC 相比有转换误差小而价格低廉的优点,但由于受带宽和有效采样率的限制,"- #ADC 不适用于高频数据采集的场合。该款ADS1256 可适合于采集最高频率只有几千赫兹的模拟数据的系统中,数据输出速率最高可为30K 采样点/秒(SPS),有完善的自校正和系统校正系统, SPI 串行数据传输接口。本文结合笔者自己的应用经验,对该ADC 的基本原理以及应用做简要介绍。ADs1256 的总体电气特性下面介绍在使用ADs1256 的过程中要注意的一些电气方面的具体参数:模拟电源(AVDD )输入范围+ 4 . 75V !+ 5 .25V,使用的典型值为+ 5 .00V;数字电源(DVDD )输入范围+ 1 . 8V !+ 3 .6V,使用的典型值+ 3 .3V;参考电压值(VREF= VREFP- VREFN)的范围+ 0 .5V!+ 2 .6V,使用的典型值为+ 2 .5V;耗散功率最大为57mW;每个模拟输入端(AI N0 !7 和AI NC M)相对于模拟地(AGND)的绝对电压值范围在输入缓冲器(BUFFER)关闭的时候为AGND-0 .1 !AVDD+ 0 . 1 ,在输入缓冲器打开的时候为AGND !AVDD-2 .0 ;满刻度差分模拟输入电压值(VI N = AI NP -AI NN)为+ /-(2VREF/PGA);数字输入逻辑高电平范围0 .8DVDD!5 .25V(除D0 !D3 的输入点平不可超过DVDD 外),逻辑低点平范围DGND!0 .2DVDD;数字输出逻辑高电平下限为0 .8DVDD,逻辑低电平上限为0 .2DVDD,输出电流典型值为5mA;主时钟频率由外部晶体振荡器提供给XTAL1和XTAL2 时,要求范围为2 M!10 MHz ,仅由CLKI N 输入提供时,范围为0 .1 M!10 MHz 。
上传时间: 2022-06-10
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IEEE1149.1的产生1985年由IBM、AT&T、Texas Instruments、Philips Electronics NV、Siemens、Alcatel和Ericsson等公司成立的JETAG(Joint European Test Action Group)提出了边界扫描技术。1986年由于其它地区的一些公司的加入,JETAG改名为JTAG。1988年JTAG提出了标准的边界扫描体系结构,名称叫Boundary-Scan Architecture Standard Proposal,Version2.0,1990年IEEE正式承认了JTAG标准,经过补充和修订以后命名命名为IEEE1149.1-90。同年又提出了BSDL(Boundary Scan Description Lauguage,边界扫描描述语言)。后来成为IEEE1149.1-93标准的一部分。
标签: jtag
上传时间: 2022-07-06
上传用户:canderile
