Abstract: This application note explains the hardware of different types of 1-Wire® interfaces and software examples adapted to this hardware with a focus on serial ports. Depending on the types of iButtons required for a project and the type of computer to be used, the most economical interface is easily found. The hardware examples shown are basically two different types: 5V general interface and 12V RS-232 interface. Within the 5V group a common printed circuit board could be used for all circuits described. The variations can be achieved by different populations of components. The same principal is used for the 12V RS-232 interface. The population determines if it is a Read all or a Read/Write all type of interface. There are other possible circuit implementations to create a 1-Wire interface. The circuits described in this application note cover many different configurations. For a custom application, one of the described options can be adapted to meet individual needs.
标签: iButtons Reading Writing and
上传时间: 2013-10-29
上传用户:long14578
The 87LPC76X Microcontroller combines in a small package thebenefits of a high-performance microcontroller with on-boardhardware supporting the Inter-Integrated Circuit (I2C) bus interface.The 87LPC76X can be programmed both as an I2C bus master, aslave, or both. An overview of the I2C bus and description of the bussupport hardware in the 87LPC76X microcontrollers appears inapplication note AN464, Using the 87LPC76X Microcontroller as anI2C Bus Master. That application note includes a programmingexample, demonstrating a bus-master code. Here we show anexample of programming the microcontroller as an I2C slave.The code listing demonstrates communications routines for the87LPC76X as a slave on the I2C bus. It compliments the program inAN464 which demonstrates the 87LPC76X as an I2C bus master.One may demonstrate two 87LPC76X devices communicating witheach other on the I2C bus, using the AN464 code in one, and theprogram presented here in the other. The examples presented hereand in AN464 allow the 87LPC76X to be either a master or a slave,but not both. Switching between master and slave roles in amultimaster environment is described in application note AN435.The software for a slave on the bus is relatively simple, as theprocessor plays a relatively passive role. It does not initiate bustransfers on its own, but responds to a master initiating thecommunications. This is true whether the slave receives or transmitsdata—transmission takes place only as a response to a busmaster’s request. The slave does not have to worry about arbitrationor about devices which do not acknowledge their address. As theslave is not supposed to take control of the bus, we do not demandit to resolve bus exceptions or “hangups”. If the bus becomesinactive the processor simply withdraws, not interfering with themaster (or masters) on the bus which should (hopefully) try toresolve the situation.
上传时间: 2013-11-19
上传用户:shirleyYim
MPC7400 Part Number Speci&THorN;cationThis document describes part number speci&THorN;c changes to recommended operating conditions and revised electrical speci&THorN;cations,as applicable, from those described in the generalMPC7400 Hardware Speci&THorN;cations.Speci&THorN;cations provided in this Part Number Speci&THorN;cation supersede those in theMPC7400 Hardware Speci&THorN;cationsdated 9/99(order #: MPC7400EC/D) for these part numbers only; speci&THorN;cations not addressed herein are unchanged. This document isfrequently updated, refer to the website at http://www.mot.com/SPS/PowerPC/ for the latest version.Note that headings and table numbers in this data sheet are not consecutively numbered. They are intended to correspond to theheading or table affected in the general hardware speci&THorN;cation.
上传时间: 2014-12-28
上传用户:huyahui
Presents short and simple I2C software routines that support onlyslave (rather than master or master & slave) operation and an ASMdemonstration program. The slave-only software in this app notecomplements the master mode software presented in AN464, Usingthe 87LPC76X microcontroller as an I2C bus master.
上传时间: 2013-11-22
上传用户:1039312764
This document describes part number speci&THorN;c changes to recommended operating conditions and revised electrical speci&THorN;cations,as applicable, from those described in the generalMPC7400 Hardware Speci&THorN;cations.Speci&THorN;cations provided in this Part Number Speci&THorN;cation supersede those in theMPC7400 Hardware Speci&THorN;cationsdated 9/99(order #: MPC7400EC/D) for these part numbers only; speci&THorN;cations not addressed herein are unchanged. This document isfrequently updated, refer to the website at http://www.mot.com/SPS/PowerPC/ for the latest version.Note that headings and table numbers in this data sheet are not consecutively numbered. They are intended to correspond to theheading or table affected in the general hardware speci&THorN;cation.Part numbers addressed in this document are listed in Table A. For more detailed ordering information see Table B.
上传时间: 2013-11-19
上传用户:qiaoyue
I2C interface, is a very powerful tool for system designers. Theintegrated protocols allow systems to be completely software defined.Software development time of different products can be reduced byassembling a library of reusable software modules. In addition, themultimaster capability allows rapid testing and alignment ofend-products via external connections to an assembly-line computer.The mask programmable 87LPC76X and its EPROM version, the87LPC76X, can operate as a master or a slave device on the I2Csmall area network. In addition to the efficient interface to thededicated function ICs in the I2C family, the on-board interfacefacilities I/O and RAM expansion, access to EEPROM andprocessor-to-processor communications.
标签: microcontro Using 76X LPC
上传时间: 2013-12-30
上传用户:Artemis
The MC68HC05K0 is a low cost, low pin countsingle chip microcomputer with 504 bytes of userROM and 32 bytes of RAM. The MC68HC05K0 isa member of the 68HC05K series of devices whichare available in 16-pin DIL or SOIC packages.It uses the same CPU as the other devices in the68HC05 family and has the same instructions andregisters. Additionally, the device has a 15-stagemulti-function timer and 10 general purposebi-directional I/0 lines. A mask option is availablefor software programmable pull-downs on all ofthe I/O pins and four of the pins are capable ofgenerating interrupts.The device is ideally suited for remote-controlkeyboard applications because the pull-downs andthe interrupt drivers on the port pins allowkeyboards to be built without any externalcomponents except the keys themselves. There isno need for external pull-up or pull-down resistors,or diodes for wired-or interrupts, as these featuresare already designed into the device.
上传时间: 2014-01-24
上传用户:zl5712176
The 87C576 includes two separate methods of programming theEPROM array, the traditional modified Quick-Pulse method, and anew On-Board Programming technique (OBP).Quick Pulse programming is a method using a number of devicepins in parallel (see Figure 1) and is the traditional way in which87C51 family members have been programmed. The Quick-Pulsemethod supports the following programming functions:– program USER EPROM– verify USER EPROM– program KEY EPROM– program security bits– verify security bits– read signature bytesThe Quick-Pulse method is quite easily suited to standardprogramming equipment as evidenced by the numerous vendors of87C51 compatible programmers on the market today. Onedisadvantage is that this method is not well suited to programming inthe embedded application because of the large number of signallines that must be isolated from the application. In addition, parallelsignals from a programmer would need to be cabled to theapplication’s circuit board, or the application circuit board wouldneed to have logic built-in to perform the programming functions.These requirements have generally made in-circuit programmingusing the modified Quick Pulse method impractical in almost all87C51 family applications.
上传时间: 2013-10-21
上传用户:xiaozhiqban
微型计算机课程设计论文—通用微机发声程序的汇编设计 本文讲述了在微型计算机中利用可编程时间间隔定时器的通用发声程序设计,重点讲述了程序的发声原理,节拍的产生,按节拍改变的动画程序原理,并以设计一个简单的乐曲评分程序为引子,分析程序设计的细节。关键字:微机 8253 通用发声程序 动画技术 直接写屏 1. 可编程时间间隔定时器8253在通用个人计算机中,有一个可编程时间间隔定时器8253,它能够根据程序提供的计数值和工作方式,产生各种形状和各种频率的计数/定时脉冲,提供给系统各个部件使用。本设计是利用计算机控制发声的原理,编写演奏乐曲的程序。 在8253/54定时器内部有3个独立工作的计数器:计数器0,计数器1和计数器2,每个计数器都分配有一个断口地址,分别为40H,41H和42H.8253/54内部还有一个公用的控制寄存器,端地址为43H.端口地址输入到8253/54的CS,AL,A0端,分别对3个计数器和控制器寻址. 对8353/54编程时,先要设定控制字,以选择计数器,确定工作方式和计数值的格式.每计数器由三个引脚与外部联系,见教材第320页图9-1.CLK为时钟输入端,GATE为门控信号输入端,OUT为计数/定时信号输入端.每个计数器中包含一个16位计数寄存器,这个计数器时以倒计数的方式计数的,也就是说,从计数初值逐次减1,直到减为0为止. 8253/54的三个计数器是分别编程的,在对任一个计数器编程时,必须首先讲控制字节写入控制寄存器.控制字的作用是告诉8253/54选择哪个计数器工作,要求输出什么样的脉冲波形.另外,对8253/54的初始化工作还包括,向选定的计数器输入一个计数初值,因为这个计数值可以是8为的,也可以是16为的,而8253/5的数据总线是8位的,所以要用两条输出指令来写入初值.下面给出8253/54初始化程序段的一个例子,将计数器2设定为方式3,(关于计数器的工作方式参阅教材第325—330页)计数初值为65536. MOV AL,10110110B ;选择计数器2,按方式3工作,计数值是二进制格式 OUT 43H,AL ; j将控制字送入控制寄存器 MOV AL,0 ;计数初值为0 OUT 42H,AL ;将计数初值的低字节送入计数器2 OUT 42H,AL ;将计数初值的高字节送入计数器2 在IBM PC中8253/54的三个时钟端CLK0,CLK1和CLK2的输入频率都是1.1931817MHZ. PC机上的大多数I/O都是由主板上的8255(或8255A)可编程序外围接口芯片(PPI)管理的.关于8255A的结构和工作原理及应用举例参阅教材第340—373页.教材第364页的”PC/XT机中的扬声器接口电路”一节介绍了扬声器的驱动原理,并给出了通用发声程序.本设计正是基于这个原理,通过编程,控制加到扬声器上的信号的频率,奏出乐曲的.2.发声程序的设计下面是能产生频率为f的通用发声程序:MOV AL, 10110110B ;8253控制字:通道2,先写低字节,后写高字节 ;方式3,二进制计数OUT 43H, AL ;写入控制字MOV DX, 0012H ;被除数高位MOV AX, 35DEH ;被除数低位 DIV ID ;求计数初值n,结果在AX中OUT 42H, AL ;送出低8位MOV AL, AHOUT 42H,AL ;送出高8位IN AL, 61H ;读入8255A端口B的内容MOV AH, AL ;保护B口的原状态or AL, 03H ;使B口后两位置1,其余位保留OUT 61H,AL ;接通扬声器,使它发声
上传时间: 2013-10-17
上传用户:sunjet
The STWD100 watchdog timer circuits are self-contained devices which prevent systemfailures that are caused by certain types of hardware errors (non-responding peripherals,bus contention, etc.) or software errors (bad code jump, code stuck in loop, etc.).The STWD100 watchdog timer has an input, WDI, and an output, WDO (see Figure 2). Theinput is used to clear the internal watchdog timer periodically within the specified timeoutperiod, twd (see Section 3: Watchdog timing). While the system is operating correctly, itperiodically toggles the watchdog input, WDI. If the system fails, the watchdog timer is notreset, a system alert is generated and the watchdog output, WDO, is asserted (seeSection 3: Watchdog timing).The STWD100 circuit also has an enable pin, EN (see Figure 2), which can enable ordisable the watchdog functionality. The EN pin is connected to the internal pull-downresistor. The device is enabled if the EN pin is left floating.
上传时间: 2013-10-22
上传用户:taiyang250072
