基于单片机的智能电风扇控制系统的外文翻译

外文原文

Single-chip microcomputer

1. the introduction of the singlechip microcomputer

The singlechip is one kind of integrated circuit chip, which uses the ultra large-scale technology and has the data-handling capacity (for example arithmetic operation, logic operation, data transfer, interrupt processing) the microprocessor (CPU), random access data-carrier storage (RAM), read-only program memory (ROM), input output circuit (I/O), possibly also includes fixed time the counter, serial passes unguardedly (SCI), demonstration actuation electric circuit (LCD or LED actuation electric circuit), pulse-duration modulation electric circuit (PWM), simulation multichannel switch and A/Electric circuit and so on D switch integrates to together the monolith chip on, constitutes to be smallest the computer system which however consummates. These electric circuits can under the software control accurate, be rapid, highly effective complete the procedure designer preset the duty. From this looked that, singlechip has the function which the microprocessor does not have, it may alone complete the intellectualization control function which the modern industry control requests, this is singlechip biggest characteristic. However singlechip also is different with the single trigger, the chip before the development, it only has the function greatly strengthened ultra large scale integrated circuit, if entrusts with it the specific procedure, it then is youngest, the integrity microcomputer control system, it (PC machine) has the essential difference with the single trigger or the personal computing, singlechip application belongs to the chip level application, needs the user to understand singlechip chip the structure and the command system as well as other integrated circuit application technologies and the system design need theory and technology, with such specific chip design application procedure, thus causes this chip to have the specific function.

The different singlechip has the different hardware characteristic and the software characteristic, namely their technical characteristic is different, the hardware characteristic is decided by singlechip chip internal structure, the user must use some kind of singlechip, must understand whether this product does satisfy the characteristic target which the need the function and the application system requests. Here technical characteristic including function characteristic, control characteristic and electrical specification and so on, these information needs to obtain from in theproduction merchant technical manual. The software characteristic is refers to the command system characteristic and the development support environment, the

instruction characteristic is singlechip addressing way which we is familiar with, the data processing and the logical processing way, input-output characteristic and to power source request and so on. The development support environment is compatible and the probability including the instruction, supports the software (to contain may support development application procedure software resources) and the hardware resources. Must use some model singlechip to develop own application system, master its structure characteristic and the technical characteristic is that we need.. Singlechip control system could substitute for before uses control system which the complex electronic circuit or the digital circuit constituted, might the software control realizes, and could realize the intellectualization, now singlechip control category omnipresent, for example correspondence product, domestic electric appliances, intelligent instrument measuring appliance, process control and special-purpose control device and so on, singlechip application domain was more and more widespread. Indeed, singlechip application significance is far is not restricted in its application category or from this the economic efficiency which brings, it fundamentally changed the traditional control method and the design thought more importantly. Is controls technical a revolution, is an important milestone.

2.The MCU’s development outline

In 1946 first electronic accounting machine birth until now, only then 50 years, depends upon microelectronic technology and the semiconductor technology progress, from the electron tube - transistor- integrated circuit - large scale integrated circuit, now together on the chip definitely may integrate several million even more than ten million transistor, causes the computer volume slightly, the function is stronger. Specially in the nearly 20 years time, computer technology obtained the rapid development, the computer in the industry and agriculture, the scientific research, the education, the national defense and the aerospace domain has obtained the widespread application, computer technology already was a national modern science and technology level important symbol.

Singlechip is born in the 20th century 70's, looks like F8 monolithic microcomputer which Fairchid Corporation develops. The so-called singlechip is uses the large scale integrated circuit technology the central processing element (Center Processing Unit, Also is Chang Cheng CPU) and the data-carrier storage (RAM), theprogram memory (ROM) and other I/O passes integrates unguardedly on together the chip, constitutes a smallest computer system, but modern singlechip then has added on the severance unit, fixed time unit and A/D transformation and so on more complex, more perfect electric circuit, causes singlechip the function more and more formidable, the application is more widespread.

The 20th century 70's, microelectronic technology is being at the development phase, the

integrated circuit belongs to the scale development time, each kind of new material new craft not yet mature, singlechip still occupied the primary development phase, the part integration scale also quite small, the function quite was simple, CPU, RAM had generally has also included some simple I/O integrates to the chip on, looks like Farichild Corporation to belong to this type, it also must be joined to the periphery other processing electric circuits just now to constitute the integrity the computing system. The similar singlechip also has Zilog Corporation the Z80 microprocessor. In 1976 INTEL Corporation has promoted the MCS-48 singlechip, this time singlechip is the genuine 8 monolithic microcomputers, and pushes to the market. It is young by the volume, function entire, the price has lowly won the widespread application, has laid the foundation for singlechip development, becomes in singlechip history the important milestone. Under the MCS-48 leadership, after that, each big semiconductor company developed and has developed own singlechip one after another, looked like Zilog Corporation the Z8 series.

To the beginning of the 80's, singlechip has developed to the high performance stage, looks like INTEL Corporation the MCS-51 series, Motorola Corporation 6,801 and 6,802 series, Rokwell Corporation 6,501 and 6,502 series and so on, In addition,Japan's famous electrical company NEC and HITACHI all one after another developed had oneself characteristic the special-purpose singlechip. The 80's, world each big company competes to develop the variety multi-purpose strong singlechip, some severaldozens series, more than 300 varieties, this time singlechip belongs approximately truely monolithic, mostly integrated CPU, RAM, ROM, number many I/O connection, many kinds of interruption system, even also has some to bring A/D switch singlechip, function more and more formidable, RAM and ROM capacity also more and more big, the addressing space even may reach 64kB, may say, singlechip developed to a brand-new stage, the application domain has beenmore widespread, many domestic electric appliances moved towards the intellectualized development path which controlled using singlechip. After 1982, 16 singlechips are published, represent the product are INTEL Corporation's MCS-96 series, 16 singlechips compare 8 machine, the data width increased a time, real-time processing ability stronger, the basic frequency is higher, the integration rate had achieved 120,000 transistors, RAM increased to 232 bytes, ROM then has achieved 8kB, and had 8 interrupt sources, at the same time has disposed multichannel A/D transformation channel, high speed I/The O processing unit, is suitable for the more complex control system.

After 90's, singlechip obtained the rapid development, the world each big semiconductor company has developed a function more formidable singlechip one after another. American Microchip Corporation had issued one kind of incompatible MCS-51 new

generation of PIC series singlechip, has aroused the field widespread interest completely, its product only then 33 simplified the set of instructions to attract many users specially, caused the people to concentrate from the INTEL 111 complex instructions. The PIC singlechip has obtained the fast development, holds the small space in the field. The afterwards matter, the familiar singlechip public figures quite have been all clear, more monolithic aircraft types pour out, MOTOROLA Corporation had issued one after another the MC68HC series singlechip, Japan's several famous companies all developed a performance stronger product, but Japan's singlechip used in generally the special-purpose systems control, but did not look like company and so on INTEL puts in to the market forms the general singlechip. For example NEC Corporation produces the uCOM87 series singlechip, its representative works uPC7811 is one kind of performance quite outstanding singlechip. MOTOROLA Corporation's characteristic and so on MC68HC05 series its high speed low price has won many users. Zilog Corporation's Z8 series product representative works are Z8671, contains BASIC the Debug interpreter, enormous place then user. But American country half COP800 series singlechip then uses the advanced Harvard structure. ATMEL Corporation then perfectly unifies singlechip technology and the advanced Flash memory technology, has issued the performance quite outstanding AT89 series singlechip. Including company and so on China's Taiwan HOLTEK and WINBOND in abundance has also joined singlechip development ranks, by reason of their inexpensive superiority, shares cup of beautiful thick soup.In 1990 American INTEL Corporation promoted 80,960 super 32 singlechips to cause the computer stir, the product has put in the market one after another, became in singlechip history an important milestone. This period, in singlechip field, singlechip variety extraordinary splendour, competes to be the most unusual. Some 8, 16 even 32 machine, but 8 singlechips by its price inexpensive, the variety complete, the application software rich, the support environment were still full, characteristic and so on development convenience but are occupying the dominant position. But INTEL Corporation by reason of their abundant technology, the performance outstanding type and the good foundation, at present was still singlechip mainstream product. Only is the 90's intermediate stages, INTEL Corporation is busy is developing their personal computing microprocessor, not the enough energy continued singlechip technology which develops oneself creates leads, but by company and so on PHILIPS continues to develop the C51 series singlechip.

3.Singlechip application domain

Singlechip widely applies in the instrument measuring appliance, the domestic electric appliances, the medical equipment, domain and so on aerospace, special purpose equipment intellectualized management and process control, may divide the following several categories

approximately:

(1). On intelligent instrument measuring appliance application

Singlechip has the volume small, the power loss low, the control function strong, the expansion is nimble, merit and so on microminiaturization and easy to operate, widely applies in the instrument measuring appliance, the union different type sensor, may realize such as physical quantity the and so on voltage, power, frequency, humidity, temperature, current capacity, speed, thickness, angle, length, degree of hardness, element, pressure survey. Uses singlechip control to cause the instrument measuring appliance digitization, the intellectualization, the microminiaturization, also the function compares uses the electron or the digital circuit is more formidable. For example precise measurement equipment (dynamometer, oscilloscope, each kind of analyzer).

(2). In industry control application

May constitute the various formats control system, the data acquisition system with singlechip. For example the factory assembly line intellectualized management, the elevator intellectualization control, each kind of alarm system, constitutes two cascade control systems with the computer networking and so on.

(3).In domestic electric appliances application

May say like this that, the present domestic electric appliances basically have all used singlechip control, praised, the washer, the electric refrigerator, the air conditioner, the color television, other acoustic video frequency equipments from the electricity food, again to the electronic weighting equipment, all kinds of, omnipresent.

(4).In computer network and correspondence domain application

Of the modern singlechip has the correspondence connection generally, may very conveniently and the computer carries on the data communication,for provided the extremely good physical conditions application in between the computer network and the communication facility, the present communication facility basically has all realized singlechip intelligence control, from the handset, the telephone, the small program controlled switch, the building automatic correspondence ringing system, the train wireless correspondence, again the mobile phone which everywhere to the routine work in, the colony mobile communication, radio intercom and so on.

(5).Singlechip in medical equipment domain application

Singlechip quite is also widespread inmedical equipment use, for example medical life-support machine, each kind of analyzer, , ultrasound diagnosis equipment and hospital bed ringing system and so on. In addition, singlechip in the industry and commerce, the finance, the scientific research, the education, domain and so on national defense aerospace

all has the extremely widespread use.

4.Singlechip development tendency

Now may say singlechip was all flowers blooms together, the time which hundred school of thought contended, in the world each big chip manufacture company has all promoted own singlechip, from 8, 16 to 32, innumerable, had everything expected to find, has compatibly with the mainstream C51 series, also had not not compatibly, but they unique, became mutually supplementarily, provided the broad world for singlechip application. Looks over singlechip developing process, may indicate singlechip development tendency, has approximately:

(1). Low power loss CMOS

The MCS-51 series 8,031 promotes when the power loss reaches 630mW, but the present singlechip all about 100mW, along with more and more is generally low to singlechip power loss request, the present each singlechip manufacturer basic has all used CMOS (complementary metal oxide semiconductor craft). Looked like

80C51 to use HMOS (namely high density metal oxide compound semiconductor craft) and CHMOS (supplementary high density metal oxide compound semiconductor craft). CMOS although power loss low, but because its physical characteristic decides its working speed insufficiently high, but CHMOS then had has been high speed and the low power loss characteristic, these characteristics, suited in are requesting the low power loss likely battery power supply the application situation. Therefore this kind of craft will be the main way which the next section of times singlechip will develop.

(2). Miniature monolithic

Now the conventional singlechip all is generally the central processor (CPU), the random access data storage (RAM), the read-only program memory (ROM), parallel and the serial communication connection, the interruption system, the timing circuit, the clock electric circuit integration on together the sole chip, the enlargement mode singlechip integrated like A/The D switch, PMW (pulse-duration modulation electric circuit), WDT (watch-dog), some singlechips (liquid crystal) actuate LCD the electric circuit all to integrate on the sole chip, such singlechip contains unit electric circuit more, the function is more formidable. Even singlechip merchant also may act according to the user requiremnet the body custom make, makes has oneself characteristic singlechip chip. In addition, present product universal demand volume small, weight light, this requests singlechip strong and the power loss is low besides the function, but also requests its volume to have to be small. Present many singlechips all have the many kinds of seals form, SMD (superficial seal) more and more receives welcome, to enable the system which constitutes by singlechip towards the

microminiaturized direction to develop.

(3).Mainstream and multi- varieties coexistence

Now although singlechip variety is many, unique, but still as the core singlechip occupies the mainstream take 80C51, the compatible its structure and the command system have PHILIPS Corporation the product, the ATMEL Corporation's product and the Chinese Taiwan's Winbond series singlechip. Therefore C8051 was the core singlechip occupied the half of the country. But Microchip Corporation's PIC simplified the set of instructions (RISC) also to have the strong development tendency, the Chinese Taiwan's HOLTEK Corporation recent years singlechip output grows day by day, if the low price nature superior superiority, occupied a certain market minute volume. In addition also has MOTOROLA Corporation the product, the Japaneseseveral big companies' special-purpose singlechips. In the certain time, this kind of situation will be able to continue, will not have the monopoly aspect which some singlechip unified, will walk will be depends on for existence supplementarily, will complement one another, the communal development path.

中文翻译

单片机

1. 单片机介绍

单片机是一种集成电路芯片，应用超大规模技术把具有数据处理能力(如算术运算，逻辑运算、数据传送、中断处理)的微处理器(CPU)，随机存取数据存储器(RAM)，只读程序存储器(ROM)，输入输出电路(I/O口)，可能还包括定时计数器，串行通信口(SCI)，显示驱动电路(LCD 或 LED 驱动电路)，脉宽调制电路(PWM)，模拟多路转换器A/D 转换器等电路集成到一块单块芯片上,构成一个最小然而完善的计算机系统。这些电路能在软件的控制下准确、迅速、高效地完成程序设计者事先规定的任务。由此来看，单片机有着微处理器所不具备的功能，它可单独地完成现代工业控制所要求的智能化控制功能，这是单片机最大的特征。然而单片机又不同于单板机，芯片在没有开发前，它只是有着极强功能的超大规模集成电路，如果赋予它特定的程序，它便是一个最小的、完整的微型计算机控制系统，它与单板机或个人电脑(PC机)有着本质的区别，单片机的应用属于芯片级应用，需要用户了解单片机芯片的结构和指令系统以及其它集成电路应用技术和系统设计所需要的理论和技术，用这样特定的芯片设计应用程序，从而使该芯片具备特定的功能。

不同的单片机有着不同的硬件特征和软件特征，即它们的技术特征均不尽相同,而硬件特征取决于单片机芯片的内部结构，用户要使用某种单片机，必须了解该型产品是否满足需要的功能和应用系统所要求的特性指标。这里的技术特征包括功能特性、控制特性和电气特性等等，这些信息需要从生产厂商的技术手册中得到。软件特征是指指令系统特性和开发支持环境，指令特性即我们熟悉的单片机的寻址方式，数据处理和逻辑处理方式，输入输出特性及对电源的要求等等。开发支持的环境包括指令的兼容及可移植性，支持软件(包含可支持开发应用程序的软件资源)及硬件资源。要利用某型号单片机开发自己的应用系统，掌握其结构特征和技术特征是必须的。单片机控制系统能够取代以前利用复杂电子线路或数字电路构成的控制系统，可以由软件控制来实现，并能够实现智能化，现在单片机控制范畴无所不在，例如通信产品、家用电器、智能仪器仪表、过程控制和专用控制装置等等，单片机的应用领域越来越广泛。诚然，单片机的应用意义远不限于它的应用范畴或由此带来的经济效益，更重要的是它已从根本上改变了传统的控制方法和设计思想。是控制技术的一次革命，是一座重要的里程碑。

2. 单片机发展概述

1946 年第一台电子计算机诞生至今，只有50年的时间，依靠微电子技术和半导体技术的进步，从电子管——晶体管——集成电路——大规模集成电路，现在一块芯片上完全可以集成几百万甚至上千万只晶体管，使得计算机体积更小，功能更强。特别是近

20 年时间里，计算机技术获得飞速的发展，计算机在工农业，科研，教育，国防和航空航天领域获得了广泛的应用，计算机技术已经是一个国家现代科技水平的重要标志。

单片机诞生于20世纪70年代，像Fairchid公司研制的F8单片微型计算机。所谓单片机是利用大规模集成电路技术把中央处理单元(Center Processing Unit,也即常称的 CPU)和数据存储器(RAM)、程序存储器(ROM)及其他 I/O 通信口集成在一块芯片上，构成一个最小的计算机系统，而现代的单片机则加上了中断单元，定时单元及A/D 转换等更复杂、更完善的电路，使得单片机的功能越来越强大，应用更广泛。

20 世纪70 年代，微电子技术正处于发展阶段，集成电路属于中规模发展时期，各种新材料新工艺尚未成熟，单片机仍处在初级的发展阶段，元件集成规模还比较小，功能比较简单，一般均把CPU、RAM 有的还包括了一些简单的 I/O 口集成到芯片上，像Farichild 公司就属于这一类型，它还需配上外围的其他处理电路方才构成完整的计算系统。类似的单片机还有Zilog 公司的 Z80 微处理器。1976 年 INTEL 公司推出了MCS-48 单片机，这个时期的单片机才是真正的 8 位单片微型计算机，并推向市场。它以体积小，功能全，价格低赢得了广泛的应用，为单片机的发展奠定了基础，成为单片机发展史上重要的里程碑。在 MCS-48 的带领下，其后，各大半导体公司相继研制和发展了自己的单片机，像Zilog 公司的 Z8 系列。

到了80 年代初，单片机已发展到了高性能阶段像INTEL 公司的 MCS-51 系列，Motorola 公司的 6801 和 6802 系列，Rokwell 公司的 6501 及 6502 系列等等,此外,日本的著名电气公司 NEC 和 HITACHI 都相继开发了具有自己特色的专用单片机。80 年代，世界各大公司均竞相研制出品种多功能强的单片机，约有几十个系列，300 多个品种，此时的单片机均属于真正的单片化，大多集成了CPU、RAM、ROM、数目繁多的 I/O 接口、多种中断系统，甚至还有一些带 A/D 转换器的单片机，功能越来越强大，RAM 和ROM 的容量也越来越大，寻址空间甚至可达 64kB，可以说，单片机发展到了一个全新阶段，应用领域更广泛，许多家用电器均走向利用单片机控制的智能化发展道路。1982 年以后，16 位单片机问世，代表产品是 INTEL 公司的MCS-96 系列， 16 位单片机比起 8 位机，数据宽度增加了一倍，实时处理能力更强，主频更高，集成度达到了 12 万只晶体管，RAM 增加到了232 字节，ROM 则达到了8kB，并且有8 个中断源，同时配置了多路的 A/D 转换通道，高速的 I/O 处理单元，适用于更复杂的控制系统。

九十年代以后，单片机获得了飞速的发展，世界各大半导体公司相继开发了功能更为强大的单片机。美国 Microchip 公司发布了一种完全不兼容 MCS-51 的新一代 PIC 系列单片机，引起了业界的广泛关注，特别它的产品只有33条精简指令集,吸引了不少用户，使人们从INTEL的 111 条复杂指令集中走出来。PIC 单片机获得了快速的发展，在业界中占有一席之地。随后的事情，熟悉单片机的人士都比较清楚了，更多的单片机种蜂拥而至，MOTOROLA 公司相继发布了 MC68HC 系列单片机，日本的几个著名公司都研制出了性能更强的产品，但日本的单片机一般均用于专用系统控制，而不像INTEL 等

公司投放到市场形成通用单片机。例如NEC公司生产的uCOM87系列单片机，其代表作uPC7811 是一种性能相当优异的单片机。MOTOROLA 公司的 MC68HC05 系列其高速低价等特点赢得了不少用户。Zilog 公司的Z8 系列产品代表作是Z8671，内含BASIC Debug 解释程序，极大地方便用户。而美国过半的 COP800 系列单片机则采用先进的哈佛结构。ATMEL 公司则把单片机技术与先进的Flash存储技术完美地结合起来，发布了性能相当优秀的 AT89 系列单片机。包括中国的台湾HOLTEK和 WINBOND等公司也纷纷加入了单片机发展行列，凭着他们廉价的优势，分享一杯美羹。1990年美国INTEL公司推出了80960超级32位单片机引起了计算机界的轰动，产品相继投放市场，成为单片机发展史上又一个重要的里程碑。此期间，单片机园地里，单片机品种异彩纷呈，争奇斗艳。有8 位、16 位甚至 32 位机，但 8 位单片机仍以它的价格低廉、品种齐全、应用软件丰富、支持环境充分、开发方便等特点而占着主导地位。而INTEL公司凭着他们雄厚的技术，性能优秀的机型和良好的基础，目前仍是单片机的主流产品。只不过是九十年代中期，INTEL 公司忙着开发他们个人电脑微处理器，已没有足够的精力继续发展自己创导的单片机技术，而PHILIPS 等公司则继续发展C51系列单片机。

3.单片机的应用领域

单片机广泛应用于仪器仪表、家用电器、医用设备、航空航天、专用设备的智能化管理及过程控制等领域，大致可分如下几个范畴：

(1)在智能仪器仪表上的应用

单片机具有体积小、功耗低、控制功能强、扩展灵活、微型化和使用方便等优点，广泛应用于仪器仪表中，结合不同类型的传感器，可实现诸如电压、功率、频率、湿度、温度、流量、速度、厚度、角度、长度、硬度、元素、压力等物理量的测量。采用单片机控制使得仪器仪表数字化、智能化、微型化，且功能比起采用电子或数字电路更加强大。例如精密的测量设备（功率计，示波器，各种分析仪）。

(2)在工业控制中的应用

用单片机可以构成形式多样的控制系统、数据采集系统。例如工厂流水线的智能化管理，电梯智能化控制、各种报警系统，与计算机联网构成二级控制系统等。

(3)在家用电器中的应用

可以这样说，现在的家用电器基本上都采用了单片机控制，从电饭褒、洗衣机、电冰箱、空调机、彩电、其他音响视频器材、再到电子秤量设备，五花八门，无所不在。

(4)在计算机网络和通信领域中的应用

现代的单片机普遍具备通信接口，可以很方便地与计算机进行数据通信，为在计算机网络和通信设备间的应用提供了极好的物质条件，现在的通信设备基本上都实现了单片机智能控制，从手机、电话机、小型程控交换机、楼宇自动通信呼叫系统、列车无线通信、再到日常工作中随处可见的移动电话，集群移动通信，无线电对讲机等。

(5)单片机在医用设备领域中的应用

单片机在医用设备中的用途亦相当广泛，例如医用呼吸机，各种分析仪，监护仪，超声诊断设备及病床呼叫系统等等。此外，单片机在工商，金融，科研、教育，国防航空航天等领域都有着十分广泛的用途。

4.单片机的发展趋势

现在可以说单片机是百花齐放，百家争鸣的时期，世界上各大芯片制造公司都推出了自己的单片机，从8位、16位到32位，数不胜数，应有尽有，有与主流 C51 系列兼容的，也有不兼容的，但它们各具特色，互成互补，为单片机的应用提供广阔的天地。纵观单片机的发展过程，可以预示单片机的发展趋势，大致有：

(1)低功耗CMOS

MCS-51 系列的8031推出时的功耗达630mW，而现在的单片机普遍都在100mW 左右，随着对单片机功耗要求越来越低，现在的各个单片机制造商基本都采用了CMOS(互补金属氧化物半导体工艺)。像80C51就采用了HMOS(即高密度金属氧化阿物半导体工艺)和CHMOS(互补高密度金属氧化物半导体工艺)。CMOS 虽然功耗较低，但由于其物理特征决定其工作速度不够高，而CHMOS 则具备了高速和低功耗的特点，这些特征，更适合于在要求低功耗像电池供电的应用场合。所以这种工艺将是今后一段时期单片机发展的主要途径。

(2)微型单片化

现在常规的单片机普遍都是将中央处理器(CPU)、随机存取数据存储(RAM)、只读程序存储器(ROM)、并行和串行通信接口，中断系统、定时电路、时钟电路集成在一块单一的芯片上，增强型的单片机集成了如 A/D 转换器、PMW(脉宽调制电路)、WDT(看门狗)、有些单片机将LCD(液晶)驱动电路都集成在单一的芯片上，这样单片机包含的单元电路就更多，功能就越强大。甚至单片机厂商还可以根据用户的要求量身定做，制造出具有自己特色的单片机芯片。此外，现在的产品普遍要求体积小、重量轻，这就要求单片机除了功能强和功耗低外，还要求其体积要小。现在的许多单片机都具有多种封装形式，其中SMD(表面封装)越来越受欢迎，使得由单片机构成的系统正朝微型化方向发展。

(3)主流与多品种共存

现在虽然单片机的品种繁多，各具特色，但仍以80C51为核心的单片机占主流，兼容其结构和指令系统的有PHILIPS 公司的产品，ATMEL 公司的产品和中国台湾的Winbond 系列单片机。所以 C8051 为核心的单片机占据了半壁江山。而Microchip 公司的PIC 精简指令集(RISC)也有着强劲的发展势头，中国台湾的 HOLTEK 公司近年的单片机产量与日俱增，与其低价质优的优势，占据一定的市场分额。此外还有MOTOROLA 公司的产品，日本几大公司的专用单片机。在一定的时期内，这种情形将得以延续，将不

存在某个单片机一统天下的垄断局面，走的是依存互补，相辅相成、共同发展的道路。

智能风扇控制系统

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目录 第1节引言 (3) 1.1 智能电风扇控制系统概述 (3) 1.2 本设计任务和主要内容 (3) 第2节系统主要硬件电路设计 (5) 2.1 总体硬件设计 (5) 2.2 数字温度传感器模块设计 (5) 2.2.1 温度传感器模块的组成 (5) 2.2.2 DS18B20的温度处理方法 (6) 2.3 电机调速与控制模块设计 (7) 2.3.1 电机调速原理 (7) 2.3.2 电机控制模块硬件设计 (8) 2.4 温度显示与控制模块设计 (9) 第3节系统软件设计 (10) 3.1 数字温度传感器模块程序设计 (10) 3.2 电机调速与控制模块程序流程 (15) 3.2.1 程序设计原理 (15) 3.2.2 主要程序 (16) 第4节结束语 (19) 参考文献 (20)

基于单片机的智能电风扇控制系统 数理与信息工程学院电子信息工程041班汪轲 指导教师：余水宝 第1节引言 电风扇曾一度被认为是空调产品冲击下的淘汰品，其实并非如此，市场人士称，家用电风扇并没有随着空调的普及而淡出市场，近两年反而出现了市场销售复苏的态势。其主要原因：一是风扇和空调的降温效果不同——空调有强大的制冷功能，可以快速有效地降低环境温度，但电风扇的风更温和，更加适合老人儿童和体质较弱的人使用；二是电风扇有价格优势，价格低廉而且相对省电，安装和使用都非常简单。 尽管电风扇有其市场优势，但传统电风扇还是有许多地方应当进行改良的，最突出的缺点是它不能根据温度的变化适时调节风力大小，对于夜间温差大的地区，人们在夏夜使用电风扇时可能遇到这样的问题：当凌晨降温的时候电风扇依然在工作，可是人们因为熟睡而无法察觉，既浪费电资源又容易引起感冒，传统的机械定时器虽然能够控制电风扇在工作一定后关闭，但定时范围有限，且无法对温度变化灵活处理。鉴于以上方面的考虑，我们需要设计一种智能电风扇控制系统来解决这些问题。 1.1 智能电风扇控制系统概述 传统电风扇是220V交流电供电，电机转速分为几个档位，通过人为调整电机转速达到改变风力大小的目的，亦即，每次风力改变，必然有人参与操作，这样势必带来诸多不便。 本设计中的智能电风扇控制系统，是指将电风扇的电机转速作为被控制量，由单片机分析采集到的数字温度信号，再通过可控硅对风扇电机进行调速。从而达到无须人为控制便可自动调整风力大小的效果。 1.2设计任务和主要内容 本设计以MCS51单片机为核心，通过温度传感器对环境温度进行数据采集，从而建立一个控制系统，使电风扇随温度的变化而自动变换档位，实现“温度高，风力大，温度低，风力弱”的性能。另外，通过键盘控制面板，用户可以在一定范围内设置电风扇的最低工作温度，当温度低于所设置温度时，电风扇将自动关闭，当高于此温度时电风扇又将重新启动。

关于现代工业机械手外文文献翻译@中英文翻译@外文翻译

附录 About Modenr Industrial Manipulayor Robot is a type of mechantronics equipment which synthesizes the last research achievement of engine and precision engine, micro-electronics and computer, automation control and drive, sensor and message dispose and artificial intelligence and so on. With the development of economic and the demand for automation control, robot technology is developed quickly and all types of the robots products are come into being. The practicality use of robot not only solves the problems which are difficult to operate for human being, but also advances the industrial automation program. Modern industrial robots are true marvels of engineering. A robot the size of a person can easily carry a load over one hundred pounds and move it very quickly with a repeatability of 0.006inches. Furthermore these robots can do that 24hours a day for years on end with no failures whatsoever. Though they are reprogrammable, in many applications they are programmed once and then repeat that exact same task for years. At present, the research and development of robot involves several kinds of technology and the robot system configuration is so complex that the cost at large is high which to a certain extent limit the robot abroad use. To development economic practicality and high reliability robot system will be value to robot social application and economy development. With he rapid progress with the control economy and expanding of the modern cities, the let of sewage is increasing quickly; with the development of modern technology and the enhancement of consciousness about environment reserve, more and more people realized

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单片机的智能温控风扇的设计 2 方案论证 本系统实现风扇的温度控制，需要有较高的温度变化分辨率和稳定可靠的换档停机控制部件。 2．1 温度传感器的选用 温度传感器可以下几种方案可供选择： 方案一：选用热敏电阻作为感测温度的核心元件，通过运算放大器放大于温度变化引起热敏电阻电阻的变化、进而导至的输出电压变化的微弱电压变化信号，再用AD转换芯片ADC0809将模拟信号转化为数字信号输入单片机处理。 方案二：采用热电偶作为感测温度的核心元件，配合桥式电路，运算放大电路和AD转换电路，将温度变化信号送入单片机处理。 方案三：采用数字式集成温度传感器DS18B20作为感测温度的核心元件，直接输出数字温度信号供单片机处理。 对于方案一，采用热敏电阻有价格便宜、元件易购的优点，但热敏电阻对温度的细微变化不敏感，在信号采集、放大、转换过程中还会产生失真和误差，并且于热敏电阻的R-T 关系的非线性，其本身电阻对温度的变化存在较大误差，虽然可以通过一定电路予以纠正，但不仅将使电路复杂稳定性降低，而且在人体所处温度环境温度变化中难以检测到小的

温度变化。故该方案不适合本系统。 对于方案二，采用热电偶和桥式测量电路相对于热敏电阻其对温度的敏感性和器件的非线性误差都有较大提高，其测温范围也非常宽，从-50摄氏度到1600摄氏度均可测量。但是依然存在电路复杂，对温度敏感性达不到本系统要求的标准，故不采用该方案。 对于方案三，于数字式集成温度传感器DS18B20的高度集成化，大大降低了外接放大转换等电路的误差因素，温度误差很小，并且于其感测温度的原理与上述两种方案的原理有着本质的不同，使得其温度分辨力极高。温度值在器件内部转换成数字量直接输出，简化了系统程序设计，又于该传感器采用先进的单总线技术，与单片机的接口变的非常简洁，抗干扰能力强。关于DS18B20的详细参数参看下面“硬6 件设计”中的器件介绍。 2．2 控制核心的选择 方案一：采用电压比较电路作为控制部件。温度传感器采用热敏电阻或热电偶等，温度信号转为电信号并放大，集成运放组成的比较电路判决控制风扇转速，当高于或低于某值时将风扇切换到相应档位。 方案二：采用单片机作为控制核心。以软件编程的方法进行温度判断，并在端口输出控制信号。

智能电风扇开题报告

附件B： 毕业设计（论文）开题报告 1、课题的目的及意义 随着电子制造业的不断发展，社会对生产率的要求越来越高，各行业都需要精良高效、高可靠性的设备来满足要求。作为一种老式家电，电风扇曾一度被认为是空调产品冲击下的淘汰品；但电风具有价格便宜、摆放方便、体积轻巧等特点。由于大部分家庭消费水平的限制，电风扇作为成熟的家电行业的一员，在中小城市以及乡村将来一段时间内仍然会占有市场的大部分份额，但老式电风扇功能简单，不能满足智能化的要求。为提高电风扇的市场竞争力，使之在技术含量上有所提高，且更加安全可靠，智能电风扇随之被提出。 传统电风扇具有以下缺点：风扇不能随着环境温度的变化自动调节风速，这对那些昼夜温差大的地区是致命的缺点，尤其是人们在熟睡时，不但浪费资源，还很容易使人感冒生病；传统电风机械的定时方式常常会伴随着机械运动的声音，特别是夜间影响人们的睡眠，而且定时范围有限，不能满足人们的需求。鉴于这些缺点，我们需要设计一款智能的电风扇温度控制系统来解决。 2、国内外研究现状 电风扇在中国仍然具有很大的市场，所以我国对电风扇的优化研究是很积极的。智能电风扇已经开始投入市场，目前这方面的技术已经成熟。下一阶段的研究将是使其更加人性化，更好的满足不同群体的人的需求。美的等家电企业相继推出了大厦扇和学生扇，这是针对不同的人群而专门研制的，具有智能化控制系统的电风扇。 国外在电风扇方面的研究相对我国不那么积极，但是在智能化电器方面的研究却比我国更加成功。“智能化电器”包含三个层次：智能化的电器元件，如智能化断路器、智能化接触器和智能化磁力启动器等，智能化开关柜和智能化供配电系统。智能化开关柜包含多台断路器，而且供电系统的控制与用电设备的控制关系很密切。这两个层次上的智能化工作重点是：加强网络功能，最大限度地提高配电系统和用电设备的自动化水平。 新型的智能化电器元件的发展趋势：采用微处理器及可编程器件，大量功能“以软代硬”实现，并具有“现场”设计的能力。充分增加智能化电器元件的“柔

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毕业设计(论文)外文资料翻译 学院：机械工程学院 专业：机械设计制造及其自动化 姓名： 学号：XXXXXXXXXX 外文出处：《Computational Intelligence and (用外文写)Design》 附件： 1.外文资料翻译译文；2.外文原文。 注：请将该封面与附件装订成册。

附件1：外文资料翻译译文 基于微型计算机的步进电机控制系统设计 孟天星余兰兰 山东理工大学电子与电气工程学院 山东省淄博市 摘要 本文详细地介绍了一种以AT89C51为核心的步进电机控制系统。该系统设计包括硬件设计、软件设计和电路设计。电路设计模块包括键盘输入模块、LED显示模块、发光二极管状态显示和报警模块。按键可以输入设定步进电机的启停、转速、转向,改变转速、转向等的状态参数。通过键盘输入的状态参数来控制步进电机的步进位置和步进速度进而驱动负载执行预订的工作。运用显示电路来显示步进电机的输入数据和运行状态。AT89C51单片机通过指令系统和编译程序来执行软件部分。通过反馈检测模块，该系统可以很好地完成上述功能。 关键词：步进电机，AT89C51单片机，驱动器，速度控制 1概述 步进电机因为具有较高的精度而被广泛地应用于运动控制系统，例如机器人、打印机、软盘驱动机、绘图仪、机械式阀体等等。过去传统的步进电机控制电路和驱动电路设计方法通常都极为复杂，由成本很高而且实用性很差的电器元件组成。结合微型计算机技术和软件编程技术的设计方法成功地避免了设计大量复杂的电路，降低了使用元件的成本，使步进电机的应用更广泛更灵活。本文步进电机控制系统是基于AT89C51单片机进行设计的，它具有电路简单、结构紧凑的特点，能进行加减速，转向和角度控制。它仅仅需要修改控制程序就可以对各种不同型号的步进电机进行控制而不需要改变硬件电路，所以它具有很广泛的应用领域。 2设计方案 该系统以AT89C51单片机为核心来控制步进电机。电路设计包括键盘输入电路、LED显示电路、发光二极管显示电路和报警电路，系统原理框图如图1所示。 At89c51单片机的P2口输出控制步进电机速度的时钟脉冲信号和控制步进电机运转方向的高低电平。通过定时程序和延时程序可以控制步进电机的速度和在某一

智能电风扇控制器设计单片机课程设计

智能电风扇控制器设计单片机课程设计

智能电风扇控制器设计 单片机课程设计 设计题目：智能电风扇控制器设计

neuq 目录 序言 一、设计实验条件及任务 (2) 1.1、设计实验条件 1.2、设计任务 (2) 二、小直流电机调速控制系统的总体方案设计 (3) 2.1、系统总体设计 (3) 2.2、芯片选择 (3) 2.3、DAC0832芯片的主要性能指标 (3) 2.4、数字温度传感器DS18B20 (3) 三、系统硬件电路设计 (4) 3.1、AT89C52单片机最小系统 (5) 3.2、DAC0832与AT89C52单片机接口电路设计 (6) 3.3、显示电路与AT89C52单片机接口电路设计 (7) 3.4、显示电路与AT89C52单片机电路设计 (8) 四、系统软件流程设计 (7) 五、调试与测试结果分析 (8) 5.1、实验系统连线图 (8) 5.2、程序调试................................................,. (8) 5.3、实验结果分析 (8) 六、程序设计总结 (10) 七、参考文献............................................ (11) 附录 (12) 1、源程序代码 (12) 2、程序原理图 (23)

序言 传统电风扇不能根据温度的变化适时调节风力大小，对于夜间温差大的地区，人们在夏夜使用电风扇时可能遇到这样的问题：当凌晨降温的时候电风扇依然在工作，可是人们因为熟睡而无法察觉，既浪费电资源又容易引起感冒，传统的机械定时器虽然能够控制电风扇在工作一定后关闭，但定时范围有限，且无法对温度变化灵活处理。鉴于以上方面的考虑，我们需要设计一种智能电风扇控制系统来解决这些问题，使家用电器产品趋向于自动化、智能化、环保化和人性化，使得由微机控制的智能电风扇得以出现。 本文介绍了一种基于AT89C52单片机的智能电风扇调速器的设计，该设计主要硬件部分包括AT89C52单片机，温度传感器ds18b20，数模转换DAC0809 电路，电机驱动和数码管显示电路，系统可以实现手动调速和自动调速两种模式的切换，在自动工作模式下，系统能够能够根据环境温度实现自动调速；可以通过定时切换键和定时设置键实现系统工作定时，使得在用户需求的定时时间到后系统自动停止工作。 在日常生活中,单片机得到了越来越广泛的应用，本系统采用的AT89C52单片机体积小、重量轻、性价比高,尤其适合应用于小型的自动控制系统中。系统电风扇起停的自动控制,能够解决夏天人们晚上熟睡时,由于夜里温度下降而导致受凉,或者从睡梦中醒来亲自开关电风扇的问题,具有重要的现实意义。 一、设计实验条件及任务 1.1、设计实验条件 单片机实验室 1.2、设计任务 利用DAC0832芯片进行数/模控制，输出的电压经放大后驱动小直流电机的速度进行数字量调节，并显示运行状态DJ-XX和D/ A输出的数字量。 巩固所学单片知识，熟悉试验箱的相关功能，熟练掌握Proteus仿真软件，培养系统设计的思路和科研的兴趣。实现功能如下： ①系统手动模式及自动模式工作状态切换。

速度控制系统设计外文翻译

译文 流体传动及控制技术已经成为工业自动化的重要技术，是机电一体化技术的核心组成之一。而电液比例控制是该门技术中最具生命力的一个分支。比例元件对介质清洁度要求不高，价廉，所提供的静、动态响应能够满足大部分工业领域的使用要求，在某些方面已经毫不逊色于伺服阀。比例控制技术具有广阔的工业应用前景。但目前在实际工程应用中使用电液比例阀构建闭环控制系统的还不多，其设计理论不够完善，有待进一步的探索，因此，对这种比例闭环控制系统的研究有重要的理论价值和实践意义。本论文以铜电解自动生产线中的主要设备——铣耳机作为研究对象，在分析铣耳机组各构成部件的基础上，首先重点分析了铣耳机的关键零件——铣刀的几何参数、结构及切削性能，并进行了实验。用电液比例方向节流阀、减压阀、直流直线测速传感器等元件设计了电液比例闭环速度控制系统，对铣耳机纵向进给装置的速度进行控制。论文对多个液压阀的复合作用作了理论上的深入分析，着重建立了带压差补偿型的电液比例闭环速度控制系统的数学模型，利用计算机工程软件，研究分析了系统及各个组成环节的静、动态性能，设计了合理的校正器，使设计系统性能更好地满足实际生产需要 水池拖车是做船舶性能试验的基本设备,其作用是拖曳船模或其他模型在试验水池中作匀速运动,以测量速度稳定后的船舶性能相关参数,达到预报和验证船型设计优劣的目的。由于拖车稳速精度直接影响到模型运动速度和试验结果的精度,因而必须配有高精度和抗扰性能良好的车速控制系统,以保证拖车运动的稳速精度。本文完成了对试验水池拖车全数字直流调速控制系统的设计和实现。本文对试验水池拖车工作原理进行了详细的介绍和分析,结合该控制系统性能指标要求,确定采用四台直流电机作为四台车轮的驱动电机。设计了电流环、转速环双闭环的直流调速控制方案,并且采用转矩主从控制模式有效的解决了拖车上四台直流驱动电机理论上的速度同步和负载平衡等问题。由于拖车要经常在轨道上做反复运动,拖动系统必须要采用可逆调速系统,论文中重点研究了逻辑无环流可逆调速系统。大型直流电机调速系统一般采用晶闸管整流技术来实现,本文给出了晶闸管整流装置和直流电机的数学模型,根据此模型分别完成了电流坏和转速环的设计和分析验证。针对该系统中的非线性、时变性和外界扰动等因素,本文将模糊控制和PI控制相结合,设计了模糊自整定PI控制器,并给出了模糊控制的查询表。本文在系统基本构成及工程实现中,介绍了西门子公司生产的SIMOREGDC Master 6RA70全数字直流调速装置,并设计了该调速装置的启动操作步骤及参数设置。完成了该系统的远程监控功能设计,大大方便和简化了对试验水池拖车的控制。对全数字直流调速控制系统进行了EMC设计,提高了系统的抗干扰能力。本文最后通过数字仿真得到了该系统在常规PI控制器和模糊自整定PI控制器下的控制效果,并给出了系统在现场调试运行时的试验结果波形。经过一段时间的试运行工作证明该系统工作良好,达到了预期的设计目的。 提升装置在工业中应用极为普遍,其动力机构多采用电液比例阀或电液伺服阀控制液压马达或液压缸,以阀控马达或阀控缸来实现上升、下降以及速度控制。电液比例控制和电液伺服控制投资成本较高,维护要求高,且提升过程中存在速度误差及抖动现象,影响了正常生产。为满足生产要求,提高生产效率,需要研究一种新的控制方法来解决这些不足。随着科学技术的飞速发展,计算机技术在液压领域中的应用促进了电液数字控制技术的产生和发展,也使液压元件的数字化成为液压技术发展的必然趋势。本文以铅电解残阳极洗涤生产线中的提升装置为研究

智能电风扇控制系统

第六届全国大学生电子设计竞赛征题（湖北赛区） 一、题目 智能电风扇控制系统 二、任务 设计并制作一个智能电风扇控制系统，其示意图如下： 三、要求 1、基本要求 （1）能够分档、连续（或步进）调节电风扇转速，调节范围：0~600转/分钟。 （2）具有普通风、自然风、睡眠风输出功能。 （3）具备定时关机功能。 （4）能通过按键设定输出风的种类、关机时间及调速。 （5）可以切换显示电风扇转速，误差小于1%；输出风的种类;开机工作时间；剩余工作时间;累计工作时间。能够存储当前设定状态。 （6）由于输入电压波动引起转速超过要求的最大值时，应具备限速功能。 （7）具备遥控操作功能，遥控范围不小于5米。 2、发挥部分 （1）电扇输出普通风时，若输入电压有效值在±20%范围内波动时，应保持输出转速恒定，静态误差小于1%。 （2）可以通过键盘任意设定普通风输出时的转速。 （3）当转速设定值和输入电压突变时，采取适当的控制方法以减少超调量及调节时间。

（4）提高输入功率因数，要求不小于0.9。 （5）其他特色与创新（如进一步提高输入功率因素，减低输入电流谐波，提高睡眠风、自然风的舒适度，增加语音提示功能等）。 四、评分意见 五、说明 电风扇用一50W普通风扇 自然风：风扇能吹出忽大忽小的自然风,仿佛大自然的阵阵轻风。 睡眠风：阶梯性减小风速的睡眠风,能顺应人体生理变化,使你即使睡觉也不会因吹风扇着凉而感冒。 六、命题意图及知识范围 本题侧重与控制系统的设计，其内容涵盖了控制、模拟电路、数字电路、单片机和电力电子技术等方面的知识。 本题基本部分虽然要求学生要有一定的知识面，但难度不大，相信大部分参赛学生可以完成。而发挥部分要求学生具有较好的控制理论知识及应用能力。特别是输入功率因素不得小于90%这一要求，用传统的移相斩波调压法是很难达到的，需要用到现代电力电子技术，有一定难度。

人工智能专家系统_外文翻译原文

附件 毕业生毕业论文(设计)翻译原文 论文题目远程农作物病虫害诊断专家系统的设计与实现系别_____ ______ _ 年级______ _ _ _ _ _ 专业_____ ___ ___ 学生姓名______ _____ 学号 ___ __ _ 指导教师______ ___ _ __ _ 职称______ __ ___ 系主任 _________________ _ _ ___ 2012年 04月22 日

EXPERT SYSTEMS AND ARTIFICIAL INTELLIGENCE Expert Systems are computer programs that are derived from a branch of computer science research called Artificial Intelligence (AI). AI's scientific goal is to understand intelligence by building computer programs that exhibit intelligent behavior. It is concerned with the concepts and methods of symbolic inference, or reasoning, by a computer, and how the knowledge used to make those inferences will be represented inside the machine. Of course, the term intelligence covers many cognitive skills, including the ability to solve problems, learn, and understand language; AI addresses all of those. But most progress to date in AI has been made in the area of problem solving -- concepts and methods for building programs that reason about problems rather than calculate a solution. AI programs that achieve expert-level competence in solving problems in task areas by bringing to bear a body of knowledge about specific tasks are called knowledge-based or expert systems. Often, the term expert systems is reserved for programs whose knowledge base contains the knowledge used by human experts, in contrast to knowledge gathered from textbooks or non-experts. More often than not, the two terms, expert systems (ES) and knowledge-based systems (KBS), are used synonymously. Taken together, they represent the most widespread type of AI application. The area of human intellectual endeavor to be captured in an expert system is called the task domain. Task refers to some goal-oriented, problem-solving activity. Domain refers to the area within which the task is being performed. Typical tasks are diagnosis, planning, scheduling, configuration and design. An example of a task domain is aircraft crew scheduling, discussed in Chapter 2. Building an expert system is known as knowledge engineering and its practitioners are called knowledge engineers. The knowledge engineer must make sure that the computer has all the knowledge needed to solve a problem. The knowledge engineer must choose one or more forms in which to represent the required knowledge as symbol patterns in the memory of the computer -- that is, he (or she) must choose a knowledge representation. He must also ensure that the computer can use the knowledge efficiently by selecting from a handful of reasoning methods. The practice of knowledge engineering is described later. We first describe the components of expert systems. The Building Blocks of Expert Systems Every expert system consists of two principal parts: the knowledge base; and the reasoning, or inference, engine.

毕业设计外文翻译---控制系统介绍

英文原文 Introductions to Control Systems Automatic control has played a vital role in the advancement of engineering and science. In addition to its extreme importance in space-vehicle, missile-guidance, and aircraft-piloting systems, etc, automatic control has become an important and integral part of modern manufacturing and industrial processes. For example, automatic control is essential in such industrial operations as controlling pressure, temperature, humidity, viscosity, and flow in the process industries; tooling, handling, and assembling mechanical parts in the manufacturing industries, among many others. Since advances in the theory and practice of automatic control provide means for attaining optimal performance of dynamic systems, improve the quality and lower the cost of production, expand the production rate, relieve the drudgery of many routine, repetitive manual operations etc, most engineers and scientists must now have a good understanding of this field. The first significant work in automatic control was James Watt’s centrifugal governor for the speed control of a steam engine in the eighteenth century. Other significant works in the early stages of development of control theory were due to Minorsky, Hazen, and Nyquist, among many others. In 1922 Minorsky worked on automatic controllers for steering ships and showed how stability could be determined by the differential equations describing the system. In 1934 Hazen, who introduced the term “ervomechanisms”for position control systems, discussed design of relay servomechanisms capable of closely following a changing input. During the decade of the 1940’s, frequency-response methods made it possible for engineers to design linear feedback control systems that satisfied performance requirements. From the end of the 1940’s to early 1950’s, the root-locus method in control system design was fully developed. The frequency-response and the root-locus methods, which are the

智能电风扇控制器设计

智能电风扇控制器设计 序言 传统电风扇不能根据温度的变化适时调节风力大小，对于夜间温差大的地区，人们在夏夜使用电风扇时可能遇到这样的问题：当凌晨降温的时候电风扇依然在工作，可是人们因为熟睡而无法察觉，既浪费电资源又容易引起感冒，传统的机械定时器虽然能够控制电风扇在工作一定后关闭，但定时范围有限，且无法对温度变化灵活处理。鉴于以上方面的考虑，我们需要设计一种智能电风扇控制系统来解决这些问题，使家用电器产品趋向于自动化、智能化、环保化和人性化，使得由微机控制的智能电风扇得以出现。 本文介绍了一种基于AT89C52单片机的智能电风扇调速器的设计，该设计主要硬件部分包括AT89C52单片机，温度传感器ds18b20，数模转换DAC0809电路，电机驱动和数码管显示电路，系统可以实现手动调速和自动调速两种模式的切换，在自动工作模式下，系统能够能够根据环境温度实现自动调速；可以通过定时切换键和定时设置键实现系统工作定时，使得在用户需求的定时时间到后系统自动停止工作。 在日常生活中,单片机得到了越来越广泛的应用，本系统采用的AT89C52单片机体积小、重量轻、性价比高,尤其适合应用于小型的自动控制系统中。系统电风扇起停的自动控制,能够解决夏天人们晚上熟睡时,由于夜里温度下降而导致受凉,或者从睡梦中醒来亲自开关电风扇的问题,具有重要的现实意义。 一、设计实验条件及任务

1.1、设计实验条件 单片机实验室 1.2、设计任务 利用DAC0832芯片进行数/模控制，输出的电压经放大后驱动小直流电机的速度进行数字量调节，并显示运行状态DJ-XX和D/ A输出的数字量。巩固所学单片知识，熟悉试验箱的相关功能，熟练掌握Proteus 仿真软件，培养系统设计的思路和科研的兴趣。实现功能如下： ① 系统手动模式及自动模式工作状态切换。 智能电风扇控制器设计 ② 风速设为从高到低9个档位，可由用户通过键盘手动设定。③ 定时控制键实现定时时间设置，可以实现10小时的长定时。 ④ 环境温度检测，并通过数码管显示，自动模式下实现自动转速控制。⑤ 当温度每降低1℃则电风扇风速自动下降一个档位，环境低于21度时，电风扇停止工作。 ⑥ 当温度每升高1℃则电风扇风速自动上升一个档位。环境温度到30度以上时，系统以最大风速工作。 ⑦ 实现数码管友好显示。 二、小直流电机调速控制系统的总体设计方案 2.1、系统硬件总体结构 图2.1系统硬件总体框图 2.2、芯片选择

智能红外遥控电风扇控制系统

目录 1.1 选题依据与研究意义 (1) 1.2 设计的任务与要求 (1) 2、整体方案设计 (3) 2.1系统方案设计 (3) 2.2方案论证 (4) 2.2.1 温度传感器的选择 (4) 2.2.2 控制器的选择 (5) 2.2.3 显示模块的选择 (6) 2.2.4 直流电机驱动方式 (7) 3、系统硬件组成 (8) 3.1 单片机主控单元设计 (8) 3.2 独立按键电路 (9) 3.3 数码管显示电路 (10) 3.4 温度采集电路 (11) 3.5 风扇电机驱动与调速电路 (11) 3.6舵机驱动电路 (12) 3.7 LED显示电路 (13) 3.8风扇遥控发射与接收电路 (14) 3.9单片机引脚资源分配 (15) 4、软件设计 (16) 4.1 程序设计 (16)

4.2 温度测量子程序 (17) 4.3 数码管显示子程序 (18) 4.4按键扫描子程序 (19) 4.5转速计算函数 (20) 4.6 延时函数 (21) 4.7定时函数 (21) 4.8红外遥控函数 (22) 5、系统仿真与调试 (23) 5.1 独立按键调试 (23) 5.2 数码管显示调试 (23) 5.3 温度采集调试 (24) 总结 (26) 参考文献 (27) 附录1 (29) 附录2 (30)

摘要：传统的手工操作、模拟调控为主的风扇，功能简单，智能化程度不高，调速方式一般采用电机抽头的小型电机来实现，不能实现无级调速，而且功耗高，效率低。针对上述缺点，本设计采用单片机STC89C51作为控制器，利用数字温度传感器DS18B20作为温度采集器，可以根据采集的温度，另外通过单片机的脉宽调制控制三极管的导通关断来驱动风扇电机和控制风扇电机的转速。风扇可利用红外遥控器或手动按键实现切换风扇的挡位、工作模式以及定时时间，可根据系统设定温度与实际检测到的温度进行比较来实现风扇的自动启停，并可以根据温度的变化来自动改变风扇转速，同时可通过数码管来显示实际检测的温度。关键词：单片机、DS18B20、风扇控制器、红外遥控