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  • 基于HITAG读写芯片HTRC110的读写设备设计

    Designing read/write device (RWD) units for industrial RF-Identification applications is strongly facilitated by the NXP Semiconductors HITAG Reader Chip HTRC110. All needed function blocks, like the antenna driver, modulator demodulator and antenna diagnosis unit, are integrated in the HTRC110. Therefore only a minimum number of additional passive components are required for a complete RWD. This Application Note describes how to design an industrial RF-Identification system with the HTRC110. The major focus is dimensioning of the antenna, all other external components including clock and power supply, as well as the demodulation principle and its implementatio

    标签: HITAG HTRC 110 读写芯片

    上传时间: 2013-10-22

    上传用户:zhengjian

  • MAXX9257 MAX9258芯片可编程SerDes持续时间计算

    The MAX9257/MAX9258 programmable serializer/deserializer (SerDes) devices transfer both video data and control signals over the same twisted-pair cable. However, control data can only be transmitted during the vertical blank time, which is indicated by the control-channel-enabled output (CCEN) signal. The electronic control unit (ECU) firmware designer needs to know how quickly to respond to the CCEN signal before it times out and how to calculate this duration. This application note describes how to calculate the duration of the CCEN for the MAX9257/MAX9258 SerDes chipset. The calculation is based on STO timeout, clock frequency, and UART bit timing. The CCEN duration is programmable and can be closed if not in use.

    标签: SerDes MAXX 9257 9258

    上传时间: 2014-01-24

    上传用户:xingisme

  • 常用PIC系列单片机速查表

    常用PIC系列产品特性一览表 器件  存储器 类型 字数 EEPROM 数据 存储器 RAM I/O 引脚数  ADC (-Bit) 比较 器 运 放 定时器/WDT 串行接口 最高 速度 MHz 封装 PDIP /SOIC ICSP CCP / ECCP 输出电流 (per I/O) 振荡器 频率 (MHz) 参考 电压 VREF LCD PWM 堆栈 深度 High Voltage Wakeup On Change PIC16C432 OTP 2048x14   128 12   2  1-8bit/1-WDT   20 20 √   25 mA  4       0 0 PIC16C433 OTP 2048x14   128 6 4/8    1-8bit/1-WDT   10 18 √   25 mA         0 0 PIC16C505 OTP 1024x12   72 12      1-8bit/1-WDT   20 14 √   25 mA  4       0 0 PIC16C54 OTP 512x12   25 12      1-8bit/1-WDT   20 18/20    20 mA          0 0 PIC16C54A OTP 512x12   25 12      1-8bit/1-WDT   20 18/20    20 mA         0 0 PIC16C54C OTP 512x12   25 12      1-8bit/1-WDT   40 18/20    20 mA          0 0 PIC16C55 OTP 512x12   24 20      1-8bit/1-WDT   20 28    20 mA          0 0 PIC16C554 OTP 512x14   80 13      1-8bit/1-WDT   20 18/20 √   25 mA          0 0 PIC16C558 OTP 2048x14   128 13      1-8bit/1-WDT   20 18/20 √   25 mA          0 0 PIC16C55A OTP 512x12   24 20      1-8bit/1-WDT   40 28    20 mA          0 0 PIC16C56 OTP 1024x12   25 12      1-8bit/1-WDT   20 18/20    20 mA          0 0 PIC16C56A OTP 1024x12   25 12      1-8bit/1-WDT   40 18/20    20 mA         0 0 PIC16C57 OTP 2048x12   72 20      1-8bit/1-WDT   20 28    20 mA          0 0 PIC16C57C OTP 2048x12   72 20      1-8bit/1-WDT   40 28    20 mA          0 0 PIC16C58B OTP 2048x12   73 12      1-8bit/1-WDT   40 18/20    20 mA          0 0 PIC16C620 OTP 512x14   80 13   2  1-8bit/1-WDT   20 18/20 √   25 mA   √      0 0 PIC16C620A OTP 512x14   96 13   2  1-8bit/1-WDT   40 18/20 √   25 mA   √      0 0 PIC16C621 OTP 1024x14   80 13   2  1-8bit/1-WDT   20 18/20 √   25 mA    √      0 0 PIC16C621A OTP 1024x14   96 13   2  1-8bit/1-WDT   40 18/20 √   25 mA   √      0 0 PIC16C622 OTP 2048x14   128 13   2  1-8bit/1-WDT   20 18/20 √   25 mA   √      0 0 PIC16C622A OTP 2048x14   128 13   2  1-8bit/1-WDT   40 18/20/40 √   25 mA   √      0 0 PIC16C62A OTP 2048x14   128 22      2-8bit/1-16bit/1-WDT I²C/ SPI 20 28/ √ 1 25 mA     1   0 0 PIC16C62B OTP 2048x14   128 22      2-8bit/1-16bit/1-WDT I²C /SPI 20 28 √ 1 25 mA     1   0 0 PIC16C63 OTP 4096x14   192 22      2-8bit/1-16bit/1-WDT USART/I²C /SPI 20 28 √ 2 25 mA     2   0 0 PIC16C63A OTP 4096x14   192 22      2-8bit/1-16bit/1-WDT USART/I²C/SPI 20 28 √ 2 25 mA     2   0 0 PIC16C642 OTP 4096x14   176 22   2  1-8bit/1-WDT   20 28 √   25 mA   √      0 0 PIC16C64A OTP 2048x14   128 33      2-8bit/1-16bit/1-WDT I²C /SPI 20 40/44 √ 1 25 mA     1   0 0 PIC16C65A OTP 4096x14   192 33      2-8bit/1-16bit/1-WDT USART/I²C/SPI 20 40/44 √ 2 25 mA     2   0 0 PIC16C65B OTP 4096x14   192 33      2-8bit/1-16bit/1-WDT USART/I²C/SPI 20 40/44 √ 2 25 mA     2   0 0 PIC16C66 OTP 8192x14   368 22      2-8bit/1-16bit/1-WDT USART/I²C/SPI 20 28 √ 2 25 mA     2   0 0 PIC16C662 OTP 4096x14   176 33   2  1-8bit/1-WDT   20 40/44 √   25 mA   √      0 0 PIC16C67 OTP 8192x14   368 33      2-8bit/1-16bit/1-WDT USART/I²C /SPI 20 40/44 √ 2 25 mA     2   0 0 PIC16C71 OTP 1024x14   36 13 4/8    1-8bit/1-WDT   20 18 √   25 mA         0 0 PIC16C710 OTP 512x14   36 13 4/8    1-8bit/1-WDT   20 18/20 √   25 mA         0 0 PIC16C711 OTP 1024x14   68 13 4/8    1-8bit/1-WDT   20 18/20 √   25 mA         

    标签: PIC 单片机 速查

    上传时间: 2013-10-12

    上传用户:xjy441694216

  • 基于瑞萨电子微控制器的温度控制系统设计

      为了提高传统温度控制系统的性能,将PID控制理论与嵌入式系统相结合,采用瑞萨电子公司的H8S/2166作为核心处理器,AD公司的AD7705以及热敏电阻温度传感器作为温度检测单元,利用4×6小键盘、LCD显示器和S1D13305液晶控制器达到良好的人机交互,设计出了一个应用于化工领域的嵌入式实时温度控制系统。相比于传统温度控制系统,该系统提供了更强的计算能力和可扩展能力,采用增量PID控制算法实现复杂控制。通过实验,该系统能达到0.1 ℃的温度控制精度以及小于120 s的温度稳定时间。   Abstract:   In order to improve the performance of conventional temperature control system, combining PID control theory with embedded systems, using the Renesas Electronics Corp. H8S/2166 micro-controller as a core processors, AD7705 and thermistor temperature sensor as a temperature detection unit and 4×6 small keyboard, LCD and S1D13305 LCD controller as a good human-computer interaction, this paper designed an embedded real-time temperature control system which is applied in chemical industry. Compared with conventional temperature control system, this system provides more computing power and extensibility, and adopts PID control algorithm for complex control. Through the experiment, the system can reach temperature control accuracy of 0.1 ℃ and temperature stabilization time of less than 120 seconds.

    标签: 瑞萨电子 微控制器 温度控制 系统设计

    上传时间: 2014-12-26

    上传用户:003030

  • 基于W77E58的跑步机联网系统的开发

    对于传统的跑步机无法联机组网,保存历史数据,实时调试等问题,介绍了一个由多台跑步机通过RS-232串行总线与上位机相连组成的跑步机联网系统。系统采用W77E58作为下位机核心控制器件,它具有双串行通讯端口,其中一个串口用于与变频器通讯,另一个串口则与上位机相连,构成跑步机网络。 Abstract:  The traditional running machine can not be connected to a network, saving historical data, real time debug etc.In this paper,a new network system which is composed of running machines connected by a RS-232 communication bus is introduced.In the system,W77E58 is used as a core control unit.W77E58 has two serial ports,one is connected to the inverter and the other is connected to the PC. Thus a network appears.

    标签: W77E58 跑步机 联网系统

    上传时间: 2014-12-27

    上传用户:哇哇哇哇哇

  • PCF2116系列LCD驱动器芯片简介及封装库

    1 FEATURES· Single chip LCD controller/driver· 1 or 2-line display of up to 24 characters per line, or2 or 4 lines of up to 12 characters per line· 5 ′ 7 character format plus cursor; 5 ′ 8 for kana(Japanese syllabary) and user defined symbols· On-chip:– generation of LCD supply voltage (external supplyalso possible)– generation of intermediate LCD bias voltages– oscillator requires no external components (externalclock also possible)· Display data RAM: 80 characters· Character generator ROM: 240 characters· Character generator RAM: 16 characters· 4 or 8-bit parallel bus or 2-wire I2C-bus interface· CMOS/TTL compatible· 32 row, 60 column outputs· MUX rates 1 : 32 and 1 : 16· Uses common 11 code instruction set· Logic supply voltage range, VDD - VSS: 2.5 to 6 V· Display supply voltage range, VDD - VLCD: 3.5 to 9 V· Low power consumption· I2C-bus address: 011101 SA0.

    标签: 2116 PCF LCD 驱动器芯片

    上传时间: 2013-11-08

    上传用户:laozhanshi111

  • 基于msp430单片机的便携式数字倾角仪的研制

    介绍了一种基于MSP430系列单片机和ADXL203加速度传感器的数字式倾角仪,它不仅可以实现水平度检测,而且可以测量00~3600范围内的任意倾角,分辨率可达O.1。。此外,由于该倾角仪输出为数字结果,因此它也可以与其他的数字设备结合起来,组合成一个功能更加强大的仪器。该数字倾角仪可广泛应用于建筑、机械、道路、桥梁、石油、煤矿和地质勘探等各种需要测量重力参考系下倾角的场合。关键词:MSP430F133单片机;力敏传感器;ADXL203加速度计;角度测量 Abstract:This paper presents a new style digital inclinometer which is developed on the basis of the MSP430F133 MCU and the ADXL203 dual axis aeeelerometer.This inclinometer not only can test levelness,but also can measure any angle between 0。and 360。with an accuracy of 0.1 O.In addition,its output is a digital result,which makes it possible to integrate itself with other digital devices to form a more functional unit.This inclinometer can be widely used in any construction site,oil field,coal-mine or geologic survey and SO on where it will provide the working people with convenience to measure any angles.Key words:MSP430F133 MCU;force sensor;ADXL203 accelerometer;angle measurement

    标签: msp 430 单片机 便携式

    上传时间: 2013-11-14

    上传用户:lizhizheng88

  • 单片机概述(一)

    什么是单片机 在半导体硅片上集成了微处理器(CPU),存储器(RAM、ROM、EPROM)和各种输入、输出接口。 具有一台计算机的属性。也称为:• 嵌入式控制器 EMCU(Embedded icroController Unit)。• 微控制器 MCU(MicroController Unit)

    标签: 单片机概述

    上传时间: 2014-01-11

    上传用户:chenxichenyue

  • PICKIT™ 2 PROGRAMMER-TO-

    PICKIT™ 2 PROGRAMMER-TO-GO USER GUIDE The PICkit 2 Programmer-To-Go functionality allows a PIC MCU memory image to be downloaded into the PICkit 2 unit for later programming into a specific PIC MCU. No software or PC is required to program devices once the PICkit 2 unit is set up for Programming-To-Go. A USB power source for the PICkit 2 is all that is needed.

    标签: PROGRAMMER-TO PICKIT 8482

    上传时间: 2013-10-29

    上传用户:ca05991270

  • MPC555的发动机电控单元小系统设计

    随着当前电子技术及发动机电控技术的发展,以32位嵌入式微控制器及多任务实时操作系统为基本技术特征的新一代电子控制单元ECU(Electronic Control Unit)的开发已成为汽车电子发展应用的主流。本文在Tonadofor OSEKWorks多任务实时操作系统及32佗Power PC微控制器MPC555的基础上,介绍高压共轨柴油发动机电子控制单元的最小系统设计方案。

    标签: MPC 555 发动机 电控单元

    上传时间: 2013-10-30

    上传用户:miaochun888