2[1].英文翻译格式和要求
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From the world of radio in the world to a single chip
Modern computer technology, industrial revolution, the world economy from the capital into the economy to knowledge economy. Field in the electronic world, from the 20th century into the era of radio to computer technology in the 21st century as the center of the intelligent modern era of electronic systems. The basic core of modern electronic systems are embedded computer systems (referred to as embedded systems), while the microcontroller is the most typical and most extensive and most popular embedded systems.
First, radio has created generations of excellence in the world
Fifties and sixties in the 20th century, the most representative of the advanced electronic technology is wireless technology, including radio broadcasting, radio, wireless communications (telegraph), Amateur Radio, radio positioning, navigation and other telemetry, remote control, remote technology. Early that these electronic technology led many young people into the wonderful digital world, radio show was a wonderful life, the prospects for science and technology. Electronics began to form a new discipline. Radio electronics, wireless communications began e-world journey.
Radio technology not only as a representative of advanced science and technology at that time, but also from popular to professional fields of science, attracting the young people and enable them to find a lot of fun. Ore from the bedside to the superheterodyne radio radio; report issued from the radio amateur radio stations; from the telephone, electric bell to the radio control model. Became popular youth radio technology, science and technology education is the most popular and most extensive content. So far, many of the older generation of engineers, experts, Professor of the year are radio enthusiasts. Fun radio technology, radio technology, comprehensive training, from basic principles of electronics, electronic components to the radio-based remote control, telemetry, remote electronic systems, has trained several generations of technological excellence.
Second, from the popularity of the radio era to era of electronic technology
The early radio technology to promote the development of electronic technology, most notably electronic vacuum tube technology to semiconductor electronic technology. Semiconductor technology to realize the active device miniaturization and low cost, so more popular with radio technology and innovation, and to greatly broaden the number of non-radio-control areas.
The development of semiconductor technology lead to the production of integrated circuit, forming the modern electronic technology leap from discrete electronics into the era of era of integrated circuits. Electronic design engineers no longer use the discrete electronic components designed circuit modules, and direct selection of integrated circuit components constitute a single system. They freed the design of the circuit unit dedicated to system design, greatly liberating the productive forces of science and technology, promote the wider spread of electronic systems.
Semiconductor integrated circuits in the basic digital logic circuits first breakthrough.
A large number of digital logic circuits, such as gates, counters, timers, shift registers, and analog switches, comparators, etc., for the electronic digital control provides excellent conditions for the traditional mechanical control to electronic control. Power electronic devices and sensor technology to make the original to the radio as the center of electronic technology turned to mechanical engineering in the field of digital control systems, testing in the field of information collection, movement of electrical mechanical servo drive control object.
Semiconductor and integrated circuit technology will bring us a universal age of electronic technology, wireless technology as the field of electronic technology a part of.
70 years into the 20th century, large scale integrated circuit appeared to promote the
conventional electronic circuit unit-specific electronic systems development. Many electronic systems unit into a dedicated integrated devices such as radios, electronic clocks, calculators, electronic engineers in these areas from the circuit, the system designed to debug into the device selection, peripheral device adapter work. Electronic technology, and electronic products enriched, electronic engineers to reduce the difficulty, but at the same time, radio technology, electronic technology has weakened the charm. The development of semiconductor integrated circuits classical electronic systems are maturing, remain in the large scale integrated circuit other than the shrinking of electronic technology, electronic technology is not the old days of radio fun times and comprehensive engineering training. Third, from the classic era of electronic technology to modern electronic technology of the times
80 years into the 20th century, the century of economic change is the most important revolution in the computer. The computer revolution in the most important sign is the birth of the computer embedded applications. Modern computer numerical requirements should be born. A long period of time, is to develop the massive computer numerical duty. But the computer shows the logic operation, processing, control, attracting experts in the field of electronic control, they want development to meet the control object requirements of embedded applications, computer systems. If you meet the massive data-processing computer system known as general-purpose computer system, then the system can be the embedded object (such as ships, aircraft, motorcycles, etc.) in a computer system called the embedded computer. Clearly, both the direction of technology development are different. The former requires massive data storage, handling, processing and analysis of high-speed data transmission; while the latter requires reliable operation in the target environment, the external physical parameters on high-speed acquisition, analysis and processing logic and the rapid control of external objects. It will add an early general-purpose computer data acquisition unit, the output driver circuit reluctance to form a heat treatment furnace temperature control system. This general-purpose computer system is not possible for most of the electronic system used, and to make general-purpose computer system meets the requirements of embedded applications, will inevitably affect the development of high-speed numeric processing. In order to solve the contradiction between the development of computer technology, in the 20th century 70s, semiconductor experts another way, in full accordance with the electronic system embedded computer application requirements, a micro-computer's basic system on a chip, the formation of the early SCM (Single Chip Microcomputer). After the advent of single chip in the computer industry began to appear in the general-purpose computer systems and embedded systems the two branches. Since then, both the embedded system, or general-purpose computer systems have been developed rapidly.
Although the early general-purpose computer converted the embedded computer systems, and real embedded system began in the emergence of SCM. Because the microcontroller is designed specifically for embedded applications, the MCU can only achieve embedded applications. MCU embedded applications that best meet environmental requirements, for example, chip-level physical space, large-scale integrated circuits low-cost, good peripheral interface bus and outstanding control of instruction.
A computer system microcontroller core, embedded electronic systems, intelligent electronic systems for the foundation. Therefore, the current single chip electronic system in widespread use of electronic systems to enable rapid transition to the classical modern intelligent electronic systems.
4, single chip to create the modern era of electronic systems
A microcontroller and embedded systems
Embedded computer systems from embedded applications, embedded systems for
early general-purpose computer adapted to the object system embedded in a variety of electronic systems, such as the ship's autopilot, engine monitoring systems. Embedded system is primarily a computer system, followed by it being embedded into the object system, objects in the object system to achieve required data collection, processing, status display, the output control functions, as embedded in the object system, embedded system computer does not have an independent form and function of the computer. SCM is entirely in accordance with the requirements of embedded system design, so SCM is the most typical embedded systems. SCM is the early application of technical requirements in accordance with the design of embedded computer chip integration, hence the name single chip. Subsequently, the MCU embedded applications to meet the growing demands of its control functions and peripheral interface functions, in particular, highlight the control function, so has international name the single chip microcontroller (MCU, Microcontroller Unit).
2 MCU modern electronic systems consisting of electronic systems will become mainstream
MCU is a device-level computer systems, it can be embedded into any object system to achieve intelligent control. Small to micro-machinery, such as watches, hearing aids. Low-cost integrated device-level, low-to a few dollars, ten dollars, enough to spread to many civilian SCM appliances, electronic toys to go. SCM constitutes a modern electronic systems has in-depth to the households, are changing our lives, such as home audio, televisions, washing machines, microwave ovens, telephones, security systems, and air conditioners. SCM innovation the original electronic systems, such as microwave ovens use SCM, it can easily set the clock, the program memory, power control; air conditioner after use of SCM is not only convenient for remote parameter setting, running automatically transform, frequency control can be achieved. At present, many household appliances such as VCD, DVD only single chip to achieve its function may occur before.
3 Embedded Systems led the entire electronics industry
Current electronic components industry, in addition to microprocessors, embedded system devices, the most modern electronic systems around the supporting components industries, such as keys used to meet the human-computer interaction, LED / LCD display drivers, LED / LCD display units, voice integrated device, etc., to meet the requirements of data acquisition channel digital sensor, ADC, data acquisition module, signal conditioning modules to meet the servo drive control in the DAC, solid state relays, stepper motor controller, frequency control unit, etc., to meet the communication requirements various bus driver, level converters.
Electronic components in the embedded systems world, driven by embedded applications along fully meet requirements of modern electronic systems development. This makes the original classic world of increasingly small electronic systems. Practitioners in the various electronic systems to modern electronic systems as early as possible to stay. 5, SCM will create a new generation of electronic elite
If the 50's, radio has created several generations of the world elite, then today's SCM will create a new generation of e-world elite.
A single chip with you to the intelligent electronics
If we as a dead classic electronic system electronic system, then the intelligent modern electronic systems is a "life" of the electronic system. Application System of hardware, electronic systems, "body", microcontroller applications, the application gives it "life." For example, in the design of intelligent machines monitor display, it can boot the system self-test results show, not to enter the work shows a variety of stand-by state, equipment run-time display running processes, work can be displayed after the end of the current results, self results, raw data, reports and other various processing. Unattended, it can run automatically given a variety of functions.
Intelligent electronic systems for the endless realm, often without additional hardware resources can achieve all kinds of renovated function. It is also present in many household appliances feature a large number of additional factors.
2 single chip computer with you to the industrial area
The 21st century is the century of humanity into the computer age, many people are not used in the manufacture of computer is the computer. People using the computer, only the people engaged in embedded system applications really into the internal computer system hardware and software systems, can we truly understand the nature of the computer's intelligence and grasp the knowledge of intelligent design. MCU applications starting from the learning technology applications in today's computer software training, hardware and technical personnel of one of the best roads.
3 SCM bring you into the most attractive in the digital world
Charming single chip to enable you to experience the true meaning of the computer, you can design intelligent microcontroller hands-on toys, different applications can be designed to achieve different functions. Both software design and hardware making there, both mental and physical, but also hands. Primary level can develop intelligent toys, with macro programming. Intermediate levels can develop some intelligent controller, such as computer mouse, smart cars, all kinds of remote control model. High levels can be developed robots, such as robot soccer, the development of industrial control units, network communications, and high-level language with assembly language or design application. Microcontroller and embedded systems around the formation of the future of the electronics industry, will provide a vast world of electronic fans, an even broader than the current wireless world, richer, more durable, more attractive in the digital world. Plunge into the microcontroller in the world to, will benefit your life.
MCU Attacks
Currently, there are four single chip attack technique, namely:
(1) software attack
The technology is commonly used processor communication interface and use protocol, encryption algorithm or the algorithm of security vulnerabilities to attack. The success of software attack is a typical example of the early ATMEL AT89C MCU attacks. Attacker single chip erase operation of the timing design flaw, erase the encryption used by ourselves locked in place, the next stop on-chip program memory data erase operation, thus bringing into too close a single chip SCM not encrypted, and then use the programmer to read out chip program.
(2) electronic detection of attacks
The technology is usually a high time resolution to monitor the processor during normal operation of all power and interface simulation features, and by monitoring the electromagnetic radiation characteristics of it to attack. Because SCM is an active electronic device, when it executes a different command, the corresponding changes in the power consumption accordingly. This through the use of special electronic measuring instruments and mathematical statistical analysis and detection of these changes, you can access key information specific microcontroller.
(3) fault generation technology
Abnormal working conditions of the technology used to make the processor errors, and provide additional access to attack. Produce the most widely used means of attack, including the fault of the impact and the clock voltage shock. Low voltage and high voltage protection circuit attack can be used to prohibit the work of processor execution errors or enforcement action. Clock transition may reset the transient protection circuit will not damage the protected information. Power and clock transients transition effects in certain single-processor instruction decoding and execution.
(4) probe
This technology is directly exposed to chip connection, and then observe, manipulate, interfere with single chip to achieve the attack purpose. For convenience, these four people will attack techniques are divided into two categories is the intrusion type attack (physical attack), such attack requires destruction of package, then use semiconductor test equipment, microscopes and micro-positioning device, in a special laboratory spend hours or even weeks to complete. All of the micro-probe techniques are invasive type attack. The other three methods are non-invasive type attack, attack the MCU will not be physical damage. In some cases, non-invasive-type attacks are particularly dangerous, but because of non-invasive type attacks can usually be made and the necessary equipment to upgrade, so it is cheap.
Most non-invasive type attack requires the attacker have a good knowledge of processors and software knowledge. In contrast, the invasive type of probe do not need too much of the initial attack of knowledge, and usually a set of similar technology available to deal with a wide range of products
MCU general process of invasion-type attack
Invasive type of attack is thrown off its first chip package. There are two ways to achieve this goal: the first one is completely dissolved out chip package, exposed metal connections. The second is only removed to the top of the plastic package silicon core. The first method is the need to bind to the test fixture on the chip, using bind Taiwan to operate. The second method requires the attacker in addition to a certain degree of knowledge and necessary skills, but also the wisdom and patience, but operate relatively easy.
Above the plastic chips can be opened with a knife, epoxy around the chip can be eroded by concentrated nitric acid. Hot concentrated nitric acid will dissolve out without affecting the chip, chip packaging and connection. This process usually very dry conditions, because the presence of water may erode the aluminum wire connections have been exposed.
Then, in ultrasonic cleaning of the pool first chip with acetone to remove residual nitric acid, then washed with water to remove salt and dried. No ultrasound pool, are generally skip this step. This case, the chip surface, a bit dirty, but do not affect the operation of UV effects on the chip. The final step is to find the location of the protection fuse and fuse protection under exposure to UV light. General use at least a 100 times magnification microscope, from the programming voltage input pin of the connection tracking in, to find protection fuse. If there is no microscope, the use of different parts of the chip is exposed to ultraviolet light and observe the results under the simple search mode. Operation applied opaque paper cover to protect the program memory chips are not erased by ultraviolet light. Will protect the fuse exposed under UV light 5 to 10 minutes to destroy the protection bit of the protective effect, use a simple programmer can directly read the contents of program memory.
The use of the protective layer to protect the MCU EEPROM cell, using ultraviolet light reset protection circuit is not feasible. For this type of MCU, the general use of micro-probe technology to read the memory contents. In the chip package is opened, the chip placed under the microscope can easily find from the memory circuit connected to other parts of the data bus.
For some reason, the chip lock-bit programming mode is not locked in the memory of the visit. Advantage of this flaw on the data lines to probe the above data can be read all you want. In programming mode, restart the process of reading and connect probe to the other data can be read online program and data memory, all of the information.
There is also a possible means of attack is the use of microscopy and laser cutting machines and other equipment to find the fuse protection to this part of the circuit tracing and linking all the signal lines. Because of the design defects, so long as cut off from other circuit protection fuse to a one signal line, you can ban the entire protection. For some reason, this thread is very far from the other line, so the use of laser cutting machine can cut the wire
without affecting the adjacent line. In this way, using a simple programmer can directly read the contents of program memory.
Although the most common single chip microcontroller has fuse blown inside the code protection features, but because of general low-end MCU is not positioning the production of safe products, so they often do not provide targeted preventive measures and the low level of security. MCU applications with a broad, large sales volume, commission processing and transfer of technology between firms frequently spilled a lot of technical data, making use of loopholes in the design of such chips and test interface manufacturer, and by modifying the invasive type fuse protection bits, etc. means of attack or invasion-type attack to read MCU's internal procedures have become easier.
About common single chip
STC microcontroller
STC's mainly based on the 8051 microcontroller core is a new generation of enhanced MCU, the instruction code is fully compatible with the traditional 8051, 8 to 12 times faster, with ADC, 4 Road, PWM, dual serial ports, a global unique ID, encryption of good, strong anti-interference.
PIC Microcontroller:
MICROCHIP's products is its prominent feature is a small, low power consumption, reduced instruction set, interference, reliability, strong analog interface, the code of confidentiality is good, most of the chip has its compatible FLASH program memory chips. EMC SCM:
Elan's products in Taiwan, with much of the PIC 8-bit microcontroller compatible, and compatible products, resources, compared to the PIC's more, cheap, there are many series of options, but less interference.
ATMEL microcontroller (MCU 51):
ATMEl company's 8-bit microcontroller with AT89, AT90 two series, AT89 series is the 8-bit Flash microcontroller 8051 is compatible with the static clock mode; AT90 RISC MCU is to enhance the structure, all static methods of work, containing the line can be Flash MCU programming, also known A VR microcontroller.
PHLIPIS 51PLC Microcontroller (MCU 51):
PHILIPS company's MCU is based on the 80C51 microcontroller core, embedded power-down detection, simulation and on-chip RC oscillator and other functions, which makes 51LPC in highly integrated, low cost, low power design to meet various applications performance requirements.
HOLTEK SCM:
Sheng Yang, Taiwan Semiconductor's single chip, cheap more categories, but less interference for consumer products.
TI company microcontroller (MCU 51):
Texas Instruments MSP430 provides the TMS370 and two series of general-purpose microcontroller. TMS370 MCU is the 8-bit CMOS MCU with a variety of storage mode, a variety of external interface mode, suitable for real-time control of complex situations; MSP430 MCU is a low power, high functionality integrated 16-bit low-power microcontroller, especially for applications that require low power consumption occasions Taiwan Sonix's single, mostly 8-bit machines, some with PIC 8-bit microcontroller compatible, cheap, the system clock frequency may be more options there PMW ADC internal noise filtering within the vibration. Shortcomings RAM space is too small, better anti-interference.
从无线电世界到单片机世界
现代计算机技术的产业革命,将世界经济从资本经济带入到知识经济时代。在电子世界领域,从20世纪中的无线电时代也进入到21世纪以计算机技术为中心的智能化现代电子系统时代。现代电子系统的基本核心是嵌入式计算机系统(简称嵌入式系统),而单片机是最典型、最广泛、最普及的嵌入式系统。
一、无线电世界造就了几代英才
在20世纪五六十年代,最具代表的先进的电子技术就是无线电技术,包括无线电广播、收音、无线通信(电报)、业余无线电台、无线电定位、导航等遥测、遥控、遥信技术。早期就是这些电子技术带领着许多青少年步入了奇妙的电子世界,无线电技术展示了当时科技生活美妙的前景。电子科学开始形成了一门新兴学科。无线电电子学、无线通信开始了电子世界的历程。
无线电技术不仅成为了当时先进科学技术的代表,而且从普及到专业的科学领域,吸引了广大青少年,并使他们从中找到了无穷的乐趣。从床头的矿石收音机到超外差收音机;从无线电发报到业余无线电台;从电话、电铃到无线电操纵模型。无线电技术成为当时青少年科普、科技教育最普及、最广泛的内容。至今,许多老一辈的工程师、专家、教授当年都是无线电爱好者。无线电技术的无穷乐趣、无线电技术的全面训练,从电子学基本原理、电子元器件基础到无线电遥控、遥测、遥信电子系统制作,培养出了几代科技英才。
二、从无线电时代到电子技术普及时代
早期的无线电技术推动了电子技术的发展,其中最主要的是真空管电子技术向半导体电子技术的发展。半导体电子技术使有源器件实现了微小型化和低成本,使无线电技术有了更大普及和创新,并大大地开阔了许多非无线电的控制领域。
半导体技术发展导致集成电路器件的产生,形成了近代电子技术的飞跃,电子技术从分立器件时代走进了电路集成时代。电子设计工程师不再用分立的电子元器件设计电路单元,而直接选择集成化的电路单元器件构成系统。他们从电路单元设计中解放出来,致力于系统设计,大大地解放了科技生产力,促进了电子系统更大范围的普及。
半导体集成电路首先在基本数字逻辑电路上取得突破。大量数字逻辑电路,如门电路、计数器、定时器、移位寄存器以及模拟开关、比较器等,为电子数字控制提供了极佳的条件,使传统的机械控制转向电子控制。功率电子器件以及传感技术的发展使原先以无线电为中心的电子技术开始转向工程领域中的机械系统的数字控制,检测领域中的信息采集,运动机械对象的电气伺服驱动控制。
半导体及其集成电路技术将我们带入了一个电子技术普及时代,无线电技术成为电子技术应用领域的一个部分。
进入20世纪70年代,大规模集成电路出现,促进了常规的电子电路单元的专用电子系统发展。许多专用电子系统单元变成了集成化器件,如收音机、电子钟、计算器等,在这些领域的电子工程师从电路、系统的精心设计、调试转变为器件选择、外
围器件适配工作。电子技术发展了,电子产品丰富了,电子工程师的难度减少了,但与此同时,无线电技术、电子技术的魅力却削弱了。半导体集成电路的发展使经典电子系统日趋完善,留在大规模集成电路以外的电子技术日益减少,电子技术没有了往昔无线电时代的无穷乐趣和全面的工程训练。
三、从经典电子技术时代到现代电子技术时代
进入20世纪80年代,世纪经济中最重要的变革是计算机的产业革命。而计算机产业革命的最重要标志则是计算机嵌入式应用的诞生。近代电子计算机是应数值计算要求诞生的。在很长的时间内,电子计算机都是以发展海量数值计算为己任。但是电子计算机表现出的逻辑运算、处理、控制能力,吸引了电子控制领域的专家,他们要求发展能满足控制对象要求,实现嵌入式应用的计算机系统。如果将满足海量数据处理的计算机系统称为通用计算机系统,那么则可把嵌入到对象体系(如舰船、飞机、机车等)中的计算机系统称作嵌入式计算机。显而易见,两者的技术发展方向是不同的。前者要求海量数据存储、吞吐、高速数据处理分析及传输;而后者要求在对象环境中可靠运行,对外部物理参数的高速采集、逻辑分析处理和对外部对象的快速控制等。早期人们将通用计算机加上数据采集单元、输出驱动电路勉为其难地构成一个热处理炉的温控系统。这样的通用计算机系统不可能为大多数电子系统采用,而且要使通用计算机系统满足嵌入式应用要求,必然影响高速数值处理技术的发展。为了解决计算机技术发展的矛盾,在20世纪70年代,半导体专家另辟蹊径,完全按照电子系统的计算机嵌入式应用要求,将一个微型计算机的基本系统集成在一个芯片上,形成了早期的单片机(Single Chip Microcomputer)。单片机问世后,在计算机领域中开始出现了通用计算机系统和嵌入式系统的两大分支。此后,无论是嵌入式系统,还是通用计算机系统都得到了飞速的发展。
早期虽然有通用计算机改装而成的嵌入式计算机系统,而真正意义上的嵌入式系统始于单片机的出现。因为单片机是专门为嵌入式应用设计的,单片机只能实现嵌入式应用。单片机能最好地满足嵌入式应用的环境要求,例如,芯片级的物理空间、大规模集成电路的低价位、良好的外围接口总线和突出控制功能的指令系统。
单片机有计算机系统内核,嵌入到电子系统中,为电子系统智能化奠定了基础。因此,当前单片机在电子系统中的广泛使用,使经典电子系统迅速过渡到智能化的现代电子系统。
四、单片机开创了现代电子系统时代
1单片机与嵌入式系统
嵌入式系统源于计算机的嵌入式应用,早期嵌入式系统为通用计算机经改装后嵌入到对象体系中的各种电子系统,如舰船的自动驾驶仪,轮机监测系统等。嵌入式系统首先是一个计算机系统,其次它被嵌入到对象体系中、在对象体系中实现对象要求的数据采集、处理、状态显示、输出控制等功能,由于嵌入在对象体系中,嵌入式系统的计算机没有计算机的独立形式及功能。单片机完全是按照嵌入式系统要求设计的,因此单片机是最典型的嵌入式系统。早期的单片机只是按嵌入式应用技术要求设计的计算机单芯片集成,故名单片机。随后,单片机为满足嵌入式应用要求不断增强其控制功能与外围接口功能,尤其是突出控制功能,因此国际上已将单片机正名为微控制器(MCU,Microcontroller Unit)。
2单片机构成的现代电子系统将成为主流电子系统
单片机是器件级计算机系统,它可以嵌入到任何对象体系中去,实现智能化控制。小到微型机械,如手表、助听器。集成器件级的低价位,低到几元、十几元,足以使单片机普及到许多民用家电、电子玩具中去。单片机构成的现代电子系统已深入到各
家各户,正改变我们的生活,如家庭中的音响、电视机、洗衣机、微波炉、电话、防盗系统、空调机等。单片机革新了原有电子系统,如微波炉采用单片机控制后,可方便地进行时钟设置、程序记忆、功率控制;空调机采用单片机后不但遥控参数设置方便,运行状态自动变换,还可实现变频控制。目前许多家用电器如VCD、DVD只有单片机出现后才可能实现其功能。
3嵌入式系统带动了整个电子产业
目前电子元器件产业除了微处理器、嵌入式系统器件外,大多是围绕现代电子系统配套的元器件产业,例如满足人机交互用的按键,LED/LCD显示驱动、LED/LCD 显示单元、语音集成器件等,满足数据采集通道要求的数字传感器、ADC、数据采集模块、信号调理模块等,满足伺服驱动控制的DAC、固体继电器、步进电机控制器、变频控制单元等,满足通信要求的各种总线驱动器、电平转换器等。
世界电子元器件在嵌入式系统带动下,沿着充分满足嵌入式应用的现代电子系统要求发展。这就使原来经典电子系统的天地愈来愈小。电子系统中的各类从业人员应尽早转向现代电子系统的康庄大道。
五、单片机将造就新一代电子精英
如果说五十年代起,无线电世界造就了几代精英,那么当今的单片机世界将会造就出新一代电子精英。
1单片机带你进入智能化电子领域
若将经典电子系统当作一个僵死的电子系统,那么智能化的现代电子系统则是一个具有“生命”的电子系统。单片机应用系统的硬件结构给予电子系统“身躯”,单片机应用系统的应用程序赋予其“生命”。例如,在设计智能化仪器显示器的显示功能时,可在开机时显示系统自检结果,未进入工作时显示各种待机状态,仪器运行时显示运行过程,工作结束后可显示当前结果、自检结果、原始数据、各种处理报表等。在无人值守时,可给定各种自动运行功能。
电子系统的智能化为无止境境界,常常不需硬件资源的增添就能实现各种翻新功能。这也是当前许多家用电器功能大量增设的因素之一。
2单片机带你进入计算机工控领域
21世纪是全人类进入计算机时代的世纪,许多人不是在制造计算机便是在使用计算机。在使用计算机的人们中,只有从事嵌入式系统应用的人才真正地进入到计算机系统的内部软、硬件体系中,才能真正领会计算机的智能化本质并掌握智能化设计的知识。从学习单片机应用技术入手是当今培养计算机应用软、硬件技术人才的最佳道路之一。
3单片机带你进入最具魅力的电子世界
独具魅力的单片机能使你体会到电脑的真谛,你可以用单片机亲自动手设计智能玩具,可以设计不同的应用程序实现不同的功能。既有硬件制作又有软件设计,既动脑、又动手。初级水平可开发智能玩具,用宏指令编程。中级水平可开发一些智能控制器,如电脑鼠、智能车、各种遥控模型。高级水平可开发机器人,如机器人足球赛,开发工业控制单元,网络通信等,并用汇编语言或高级语言设计应用程序。围绕单片机及嵌入式系统形成的电子产业的未来,将会为电子爱好者提供广阔的天地,一个比当年无线电世界更广阔、更丰富、更持久、更具魅力的电子世界。投身到单片机世界来,将使你一生受益。
单片机攻击技术
目前,攻击单片机主要有四种技术,分别是:
(1)软件攻击
该技术通常使用处理器通信接口并利用协议、加密算法或这些算法中的安全漏洞来进行攻击。软件攻击取得成功的一个典型事例是对早期ATMELAT89C系列单片机的攻击。攻击者利用了该系列单片机擦除操作时序设计上的漏洞,使用自编程序在擦除加密锁定位后,停止下一步擦除片内程序存储器数据的操作,从而使加过密的单片机变成没加密的单片机,然后利用编程器读出片内程序。
(2)电子探测攻击
该技术通常以高时间分辨率来监控处理器在正常操作时所有电源和接口连接的模拟特性,并通过监控它的电磁辐射特性来实施攻击。因为单片机是一个活动的电子器件,当它执行不同的指令时,对应的电源功率消耗也相应变化。这样通过使用特殊的电子测量仪器和数学统计方法分析和检测这些变化,即可获取单片机中的特定关键信息。
(3)过错产生技术
该技术使用异常工作条件来使处理器出错,然后提供额外的访问来进行攻击。使用最广泛的过错产生攻击手段包括电压冲击和时钟冲击。低电压和高电压攻击可用来禁止保护电路工作或强制处理器执行错误操作。时钟瞬态跳变也许会复位保护电路而不会破坏受保护信息。电源和时钟瞬态跳变可以在某些处理器中影响单条指令的解码和执行。
(4)探针技术
该技术是直接暴露芯片内部连线,然后观察、操控、干扰单片机以达到攻击目的。为了方便起见,人们将以上四种攻击技术分成两类,一类是侵入型攻击(物理攻击),这类攻击需要破坏封装,然后借助半导体测试设备、显微镜和微定位器,在专门的实验室花上几小时甚至几周时间才能完成。所有的微探针技术都属于侵入型攻击。另外三种方法属于非侵入型攻击,被攻击的单片机不会被物理损坏。在某些场合非侵入型攻击是特别危险的,但是因为非侵入型攻击所需设备通常可以自制和升级,因此非常廉价。
大部分非侵入型攻击需要攻击者具备良好的处理器知识和软件知识。与之相反,侵入型的探针攻击则不需要太多的初始知识,而且通常可用一整套相似的技术对付宽范围的产品。
单片机侵入型攻击的一般过程
侵入型攻击的第一步是揭去芯片封装。有两种方法可以达到这一目的:第一种是完全溶解掉芯片封装,暴露金属连线。第二种是只移掉硅核上面的塑料封装。第一种方法需要将芯片绑定到测试夹具上,借助绑定台来操作。第二种方法除了需要具备攻击者一定的知识和必要的技能外,还需要个人的智慧和耐心,但操作起来相对比较方便。
芯片上面的塑料可以用小刀揭开,芯片周围的环氧树脂可以用浓硝酸腐蚀掉。热的浓硝酸会溶解掉芯片封装而不会影响芯片及连线。该过程一般在非常干燥的条件下进行,因为水的存在可能会侵蚀已暴露的铝线连接。
接着在超声池里先用丙酮清洗该芯片以除去残余硝酸,然后用清水清洗以除去盐分并干燥。没有超声池,一般就跳过这一步。这种情况下,芯片表面会有点脏,但是不太影响紫外光对芯片的操作效果。最后一步是寻找保护熔丝的位置并将保护熔丝暴露在紫外光下。一般用一台放大倍数至少100倍的显微镜,从编程电压输入脚的连线跟踪进去,来寻找保护熔丝。若没有显微镜,则采用将芯片的不同部分暴露到紫外光下并观察结果的方式进行简单的搜索。操作时应用不透明的纸片覆盖芯片以保护程
序存储器不被紫外光擦除。将保护熔丝暴露在紫外光下5~10分钟就能破坏掉保护位的保护作用,之后,使用简单的编程器就可直接读出程序存储器的内容。
对于使用了防护层来保护EEPROM单元的单片机来说,使用紫外光复位保护电路是不可行的。对于这种类型的单片机,一般使用微探针技术来读取存储器内容。在芯片封装打开后,将芯片置于显微镜下就能够很容易的找到从存储器连到电路其它部分的数据总线。
由于某种原因,芯片锁定位在编程模式下并不锁定对存储器的访问。利用这一缺陷将探针放在数据线的上面就能读到所有想要的数据。在编程模式下,重启读过程并连接探针到另外的数据线上就可以读出程序和数据存储器中的所有信息。
还有一种可能的攻击手段是借助显微镜和激光切割机等设备来寻找保护熔丝,从而寻查和这部分电路相联系的所有信号线。由于设计有缺陷,因此,只要切断从保护熔丝到其它电路的某一根信号线,就能禁止整个保护功能。由于某种原因,这根线离其它的线非常远,所以使用激光切割机完全可以切断这根线而不影响临近线。这样,使用简单的编程器就能直接读出程序存储器的内容。
虽然大多数普通单片机都具有熔丝烧断保护单片机内代码的功能,但由于通用低档的单片机并非定位于制作安全类产品,因此,它们往往没有提供有针对性的防范措施且安全级别较低。加上单片机应用场合广泛,销售量大,厂商间委托加工与技术转让频繁,大量技术资料外泻,使得利用该类芯片的设计漏洞和厂商的测试接口,并通过修改熔丝保护位等侵入型攻击或非侵入型攻击手段来读取单片机的内部程序变得比较容易。
常用单片机芯片简介
STC单片机
STC公司的单片机主要是基于8051内核,是新一代增强型单片机,指令代码完全兼容传统8051,速度快8~12倍,带ADC,4路PWM,双串口,有全球唯一ID号,加密性好,抗干扰强.
PIC单片机:
是MICROCHIP公司的产品,其突出的特点是体积小,功耗低,精简指令集,抗干扰性好,可靠性高,有较强的模拟接口,代码保密性好,大部分芯片有其兼容的FLASH程序存储器的芯片.
EMC单片机:
是台湾义隆公司的产品,有很大一部分与PIC 8位单片机兼容,且相兼容产品的资源相对比PIC的多,价格便宜,有很多系列可选,但抗干扰较差.
ATMEL单片机(51单片机):
ATMEl公司的8位单片机有AT89、AT90两个系列,AT89系列是8位Flash单片机,与8051系列单片机相兼容,静态时钟模式;AT90系列单片机是增强RISC结构、全静态工作方式、内载在线可编程Flash的单片机,也叫AVR单片机.
PHLIPIS 51PLC系列单片机(51单片机):
PHILIPS公司的单片机是基于80C51内核的单片机,嵌入了掉电检测、模拟以及片内RC振荡器等功能,这使51LPC在高集成度、低成本、低功耗的应用设计中可以满足多方面的性能要求.
HOLTEK单片机:
台湾盛扬半导体的单片机,价格便宜,种类较多,但抗干扰较差,适用于消费类产品. TI公司单片机(51单片机):
德州仪器提供了TMS370和MSP430两大系列通用单片机.TMS370系列单片机是8位CMOS单片机,具有多种存储模式、多种外围接口模式,适用于复杂的实时控制场合;MSP430系列单片机是一种超低功耗、功能集成度较高的16位低功耗单片机,特别适用于要求功耗低的场合
是台湾松翰公司的单片,大多为8位机,有一部分与PIC 8位单片机兼容,价格便宜,系统时钟分频可选项较多,有PMW ADC 内振内部杂讯滤波。缺点RAM空间过小,抗干扰较好
2.英文翻译格式和要求
英文 小四号字,单倍行距,首行缩进2个字符,不能定义文档网格。约3千英文单词。 MCU Description SCM is also known as micro-controller (Microcontroller Unit), commonly used letters of the acronym MCU MCU that it was first used in industrial control. Only a single chip by the CPU chip developed from a dedicated processor. The first design is by a large number of peripherals and CPU on a chip in the computer system, smaller, more easily integrated into a complex and demanding on the volume control device which. INTEL's Z80 is the first designed in accordance with this idea processor, then on the development of microcontroller and dedicated processors have parted ways. 一、SCM history SCM was born in the late 20th century, 70, experienced SCM, MCU, SoC three stages. SCM the single chip microcomputer (Single Chip Microcomputer) stage, mainly seeking the best of the best single form of embedded systems architecture. "Innovation model" success, laying the SCM and general computer completely different path of development. In the open road of independent development of embedded systems, Intel Corporation contributed. MCU the micro-controller (Micro Controller Unit) stage, the main direction of technology development: expanding to meet the embedded applications, the target system requirements for the various peripheral circuits and interface circuits, highlight the object of intelligent control.It involves the areas associated with the object system, therefore,the development of MCU's responsibility inevitably falls on electrical, electronics manufacturers. From this point of view, Intel faded MCU development has its objective factors. In the development of MCU, the most famous manufacturers as the number of Philips Corporation. Philips company in embedded applications, its great advantage, the MCS-51 single-chip micro-computer from the rapid development of the micro-controller. Therefore, when we look back at the path of development of embedded systems, do not forget Intel and Philips in History. 二、Embedded Systems Embedded system microcontroller is an independent development path, the MCU important factor in the development stage, is seeking applications to maximize the solution on the chip; Therefore, the development of dedicated single chip SoC trend of the natural form. As the microelectronics, IC design, EDA tools development, application system based on MCU SoC design have greater development. Therefore, the understanding of the microcontroller chip microcomputer can be, extended to the single-chip micro-controller applications. 三、MCU applications SCM now permeate all areas of our lives, which is almost difficult to find traces of the field without SCM. Missile navigation equipment, aircraft, all types of instrument control, computer network communications and data transmission, industrial automation, real-time process control and data processing, extensive use of various smart IC card, civilian luxury car security system, video recorder, camera, fully automatic washing machine control, and program-controlled toys, electronic pet, etc., which are inseparable from the microcontroller. Not to mention the area of robot control, intelligent instruments, medical equipment was. Therefore, the MCU learning, development and application of the large number of computer applications and
简历的英文翻译1
简历的英文翻译 Richard Anderson, 1234, West 67 Street, Carlisle, MA 01741, (123)-456 7890. Qualifications: Enterprising business student with high GPA, growing professional experience, and desire to move into consulting and investment banking. Professional achievement include developing marketing campaigns, streamlining procedures, researching corporate strategy, and managing staff. Reduced salary expenses by 14% in MDDT Call Center. Received outstanding Performance and Human Relations Awards at Dale Carnegie Training. Fluent in verbal and written English, Mandarin, and Cantonese. Technical proficiency includes, MS Excel, Word, PowerPoint, SPSS, FrontPage, and HTML. Education: Indiana State University, Terre Haute, Indiana Bachelor of Science in Business Administration, expected 2004 Academic and Professional Experience ITMT University, Terre Haute, Indiana 2001 - Present Research Assistant, Corporate Strategy and International Business ?Explore firm attributes and market-specific factors influencing globalization process of Chit Chat Corporation. ?Charted Chit Chat's expansion into Asia by analyzing global franchising industry in eight Asian countries. ?Researched expansion patterns and governance mechanisms of other globalization franchises. All Talk Radio, Terre Haute, Indiana 2000 - Present Vice President of Marketing ?Developed publicity and promotional campaigns to support market initiatives.
各种职业英文翻译1
精品文档
各种职业英文翻译 职职高职客职职理 客职职理 Senior Account Account Manager 职算机行职 Manager: 行政职职,职主管 售职用职件程序职 Sales AdministratorApplications 首席职 行官 地职职职理 区售 Chief Executive Regional Sales Programmerb5E2RGbCAP 职职操作主管 OfficerManagerComputer Operations 部职职理 地客职职理 区 Branch ManagerRegional Account Supervisorp1EanqFDPw 市职行政职职 职职技职职 Executive Marketing ManagerComputer TechnicianDXDiTa9E3d 房地职职职 估职职工程职 DirectorReal Estate AppraiserDevelopmental Engineer 国职职管 采职职理 信息服职主管 Controller(International)Merchandising ManagerDirector of 运职职职 市职职职 Director of OperationsMarketing ConsultantInformation Services 职出口职理 市 职助理 信息分析 Import/Export ManagerMarketing AssistantInformation Analyst 商店职理助理 市职职职职职 与售局域管理职 网 Assistant Store Marketing and Sales LAN AdministratorRTCrpUDGiT 网职管理职理 ManagerDirectorManager of Network 操作职理 市职职职分析职 Operations ManagerMarket Research Administration 房地职职理 职品支持职理 Property ManagerAnalystProduct Support 首席职官 运厂家代表 Chief Operations Manufacturer's Manager5PCzVD7HxA
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英文翻译格式要求
河北建筑工程学院 毕业设计(论文)外文资料翻译 系别:机械工程系 专业:机械电子工程 班级:机电(本)091 姓名:张少强 学号: 2009322110 外文出处:English in Mechanical and Electrical Engineering 附件:1、外文原文;2、外文资料翻译译文。 指导教师评语: 签字: 年月日 金属热处理 普遍接受的金属和金属合金的热处理定义是“在某种程度上加热和冷却金属或金属合金,以获得特定的条件和属性。”加热的唯一目的是进行热加工,锻造操作是被排除在这个定义之外的。热处理有时候也用产品表示,同样玻璃和塑料也被排除在这个定义之外。 变换曲线 热处理的基础是在一个单一的图表上绘制的包含三个所有的等温转变曲线或TTT曲线。因为曲线的形状,他们有时候也称为c曲线或s曲线。 TTT曲线绘制,特定的钢在给定的条件下和预定的时间间隔内记录以检查的组织结构转换的
数量。众所周知共析钢(T80)在超过723℃形成的是奥氏体,在此温度下形成的是珠光体。为了形成珠光体碳原子应该分散形成渗碳体。扩散是一个过程需要足够的时间来完成奥氏体向珠光体的转变。我们可以注意到在不同的样本内在任何的温度下数量都在发生变化。这些点被绘制在以时间和温度为轴的坐标内。通过这些点共析钢的变换曲线如图1所示。曲线的左极端代表在任何给定的温度下奥氏体向珠光体的转变。同样的右极端代表完成所需要的时间。这两个曲线之间转换的点代表部分转换。水平线条s M和f M发代表开始和完成的马氏体转变。 热处理工艺的分类 在某些情况下,热处理在技术和使用程序上是分开的。而在其他情况下,,描述或简单的解释是不够的,因为相同的技术常常可以获得不同的目标。例如,应力消除和回火需要相同的设备和利用相同时间和温度循环。然而这是两个不同的过程。 图8.1 T80钢在等温间隔下的热处理图 以下对热处理的描述主要是根据他们之间的关系来安排的。正火指加热铁合金到高于它转变温度上的一个合适温度(通常是50°F到100°F或28℃到56℃)。接下来是在精致空气至少是在低于其转变温度范围下冷却。由此产生的结构和性能和通过完全退火是一样的。对大多数铁合金来说正火和退火是不一样的。 正火通常被用作调节处理,尤其是没有经过高温锻造或其他热加工的精炼粒钢。正火的成功通常由另一个热处理来完成如奥氏体化的淬火、退火或回火。 退火是一个通用术语,它表示一个热处理,包括加热和保持在一个合适的温度后以一个合适的冷却速度冷却。它主要用来软化金属材料,但它同时也会产生其他属性或期望的微观结构。
汉译英格式规范
汉译英翻译格式规范 I 格式规范 1. 正文标题、机构名称、图表格名称和表头中所有单词(除虚词外)的首字母均大 写;但标题为句子的情况除外; 2. 译文中出现的标准、规范名称,单独出现时每个单词首字母均应大写并斜体,不 加引号;在表格中出现时不用斜体; 3. 摄氏度符号统一从“符号”“Times new roman”中找到“°”(位于最右一列)插 入,然后在后面加上大写“C”,即“°C”; 4. 排比和并列的内容,标点应统一。一般做法是中间采用“;”,最后一个采用“.”, 最后一个与倒数第二个之间用“; and”; 5. 数值范围的表示形式应是:110-220 kV,而不是110 kV~220 kV;注意:数字和 连字符之间没有空格,数字和单位之间有空格数字与单位之间要加一个空格,但“°C”、“°F”和“%”除外; 6. 在英文中,百分号应采用英文半角“%”,而不可采用中文全角“%”; 7. 公式中的符号从“插入公式”中选择; 8. 文本框中第一个单词首字母大写; 9. 1号机组和2号机组、一期和二期的表示方法:Unit 1 & 2;Phase I & II; 10. 第x条(款、项)和第y条(款、项)的表示方法:Article x and Article y,即表 示条(款、项)的词不能省略; 11. 文件中出现公式时,公式后说明性文字的“其中”、“式中”统一译为“Where:”, 注意其后加冒号;对公式中的字母和符号进行解释时,采用“-”,其前后均不空格,“-”后的首字母为小写;公式后的说明要用分号,最后采用句号。例如: Where: F sc-short circuit current force (lb/ft); V-velocity; P-gas density. 12. 冒号后首字母小写; 13. 大于号、小于号、等号两边均有空格; 14. 表格的标题和标题栏字体加粗; 15. 注意上下标与原文一致; 16. 直径符号φ的输入方法:插入,符号,字体选择Symbol,然后选择输入φ,并采用 斜体;
英语翻译(1)
After winning the important game they hoisted their captain to their shoulders in shouting triumph. 赢得那场重要的比赛之后,他们把队长抬到肩膀上欢呼着胜利。 Anyone who picks up this novel and reads the first paragraph will be hard pressed to put it down. 任何人只要拿起这本小说读了第一段,就会发现很难把它放下。 A true hero possesses has courage, a noble purpose and a willingness to make sacrifices. 一个真正的英雄有勇气,有高尚的目标,而且乐于奉献。 For now, it remains to me to thank you once more for joining us and wish you good luck in your work. 且让我再次感谢大家的参与,祝你们工作顺利。 He took a gamble on starting a factory with all the money his parents had left him. 他孤注一郑,用父母留给他的所有钱来开一家工厂。 He decided to channel his energies into something useful, instead of being glued to sitting in front of the TV set all day long. 他决定把自己的精力用到有益的事上,而不是整天守在电视机前。 He teaches in a middle school, but he does some translation work on the side to bring in extra cash money. 他在中学教书,但也兼职做些翻译来赚取外快。 He travelled from one village to another, dropping in on families and listening to their complaints and problems. 他从一个村子来到另一个村子,走家串户,听他们诉苦。 His words were drowned out by loud cheers from the crowd. 他的话被群众的大声欢呼所淹没。 He may promise to change, but it’s the same old story of saying one thing and doing another.他也许会答应改变,但无非又是说一套做一套罢了。 I racked my brains about how to break the terrible news to him. 我苦苦思索该怎样把这可怕的消息告诉他。 It will be impossible for me to repay my parents for everything they have done for me. 我将永远无法报答父母为我所做的一切。 I said right from the beginning that he would cause us trouble. 我一开始就说过,他会给我们惹麻烦的 In a sense, life is like swimming; if you keep holding on to the sides of the pool, you (will) never learn. 从某种意义上说,生活就像游泳。如果你总是扶住池边,就永远也学不会。 I just can’t figure her out, she’s a mystery to me. 我简直摸不透他,他对我是个迷 I looked at the printed page but the words made no sense. 我看着那印满字的书页,但不知上面写些什么 In the rush to go for globalization, we should watch out for collision of cultures. 在全球化热潮中,我们要堤防不同文化的冲突 In the circumstances it was not surprising that there was trouble. 在这种情况下,出现麻烦是不足为奇的 It’s good to be confident (about yourself), but there’s a difference betwe en (self-)confidence and conceit. 自信是件好事,但自信与自负是有区别的。 Jim always sides with John in an arg ument. 在答辩中吉姆总是站在约翰那一边。 Only those who have lived through a similar experience can fully appreciate this. 只有那些有过类似经历的人,才能够完全理解这一点。 Only those who stick it out can achieve success. Those who give up halfway will never realize their dreams. 只有坚持到底的人才会成功。半途而废的人永远也无法实现梦想。
专业英语翻译1
专业英语翻译1
Basic Chemistry 1. Atomic Structure Matter has mass and takes up space. Atoms are basic building blocks of matter, and cannot be chemically subdivided by ordinary means. Both the protons and neutrons reside in the nucleus. Protons have a positive (+) charge, neutrons have no charge --they are neutral. Electrons reside in orbitals around the nucleus. They have a negative charge (-). It is the number of protons that determines the atomic number. The number of protons in an element is constant but neutron number may vary, so mass number (protons + neutrons) may vary. 1。原子结构 物质有质量,占空间。原子是物质的基本组成物,不能用普通的方法进行化学细分。 质子和中子都驻留在原子核中。质子有一个正电荷,中子是不带电的,它们是中性的。电子在原子核周围的轨道上。他们有一个负电荷(-)。 它是确定原子序数的质子数。在一个元素中的质子的数量是恒定的,但中子数可能会有所不同,所以质量数(质子+中子)可能会有所不同。 The same element may contain varying numbers of neutrons; these forms of an element are called isotopes. The chemical properties of isotopes are the same, although the physical properties of some isotopes may be different. Some isotopes are radioactive-meaning they "radiate" energy as they decay to a more stable form, perhaps another element half-life: time required for half of the atoms of an element to decay into stable form. Another example is oxygen, with atomic number of 8 can have 8, 9, or 10 neutrons. 相同的元素可能含有不同数量的中子,这些元素
翻译时间格式新要求(必看)
一,翻译时间 1,试译文件需在发布任务的2天之内上传,我们将根据提交上来的试译文件选出中标作品,并发站内信通知,注意查收。为方便联系,可以在提交试译文件时留下联系方式(QQ,邮箱,最好是手机) 2,提交作品到指定的邮箱,不能按时交任务的话,要及时通知我。 5,如果稿件由于质量问题被退回,要求从退回日期算起一天之内发回。 二,翻译格式要求 1.应为纯文本格式,编码UTF-8, 统一使用Editplus 3。见附件 介于Editplus界面,左右宽度很大,总的拉动下面那个Bar,可以调整。找到左上Document,点击下拉出现菜单,选择Word-wrap Options...再选择enable word-wrap,然后下面那个format 选80,应该就可以了。 2.格式采用一段英文一段中文的方式(不是一句一句对应,而是一段一段),英 文下面跟中文,可以按照自然段的格式,不要把英文删掉。 使用中文标点,包括逗号(,),句号(。),省略号(……),引号(“”),破折号(——)等都用专门的全角中文标点,而不要使用英文标点。 3. <>表示一条评论的开始,要求一条一条翻译。不要搞混。<>中的内容保留, 不要做任何变动。 4,翻译文本应为纯文本格式,在保存翻译文件的时候点下拉框选编码UTF-8,不要更改原文件名。 三,翻译内容注意事项 1.TripAdvisor 一定要翻译成“到到网”,这个是网站的中文名字。 2.题目括号<>里面的酒店名不需要翻译,正文中的地名,酒店名尽量要翻译(可 在到到网和携程网上找),正文中的人名不需要翻译。 3.Review 里会有一些带感情色彩的话,特别是褒义的,在翻译的时候一定要把 这种感情给表现出来,语气也可以强烈些。比如说,“Amazing Value”有些人把它翻成“物有所值”,但也有些人把它翻成“物超所值”,肯定是后者表达的感情色彩更强烈,也更贴切。
1~100的英语翻译
1~100英语翻译 1~20: ?1 - one 2 - two 3 - three 4 - four 5 - five ?6 - six 7 - seven 8 - eight 9 - nine ?10 - ten 11 - eleven 12 - twelve ?13 thirteen 14 - fourteen 15 - fifteen ?16 - sixteen 17 - seventeen ?18 - eighteen 19 - nineteen 20twenty 21~40: ?21 twenty-one 22 twenty-two ?23 twenty-three 24 twenty-four ?25 twenty-five 26 twenty-six ?27 twenty-seven sixty ?28 twenty-eight 29 twenty-nine ?30 thirty 31thirty-one ?32 thirty-two 33 thirty-three ?34 thirty-four 35 thirty-five ?36 thirty-six 37 thirty-seven ?38 thirty-eight 39 thirty-nine 40 forty 41~60: ?41 fourty-one 42 fourty-two
?43fourty-three 44fourty-four ?45 fourty-five 46 fourty-six ?47fourty-seven48fourty-eight ?49fourty-nine50fifty51fifty-one ?52 fifty-two 53 fifty-three 54 fifty-four ?55 fifty-five 56 fifity-six 57 fifity-seven ?58 fifty-eight 59 fifity-nine 60 sixty 61~80: ?61 sixty-one 62 sixty-two ?63 sixty-three 64 sixty-four ?65 sixty-five 66 sixty-six ?67 sixty-seven 68 sixty-eight ?69 sixty-nine 70 seventy ?71seventy-one72seventy-two ?73seventy-three74seventy-four ?75seventy-five76seventy-six ?77seventy-seven78seventy-eight ?79 seventy-nine 80 eighty 81~100:
英语翻译(1)(1)
翻译: 摇头丸苦海无崖 I hear a lot of people talking about 我听到许多人谈论摇头丸,说它是一种奇妙无害的麻醉品。对此,我只能暗自感叹,"要是他们知道就好了。 I grew up in a small, rural 我是在宾夕法尼亚的一个乡间小镇长大的。在那个地方,你叫什么名字,你是干什么的,你吃的是什么,以及诸如此类的事儿别人都了如指掌。那时,我是一个门门皆优的好学生,是大家公认的一个乖孩子,人人都喜欢我。毒品与我的生活中根本不沾边,从来也没去想过--我别的事情还忙不过来咧。 I always dreamed of moving 我一直梦想到纽约市去学表演,然后从事舞台表演生涯。后来,我妈带我到那座城市去上表演艺术学校,实现了我的梦想。你能想象得到,这与家里相比可是大不一样。 I was exposed to new people, 我接触到了许多新朋友,新观念,接触到了一种全新的生活方式--这种生活方式也使我开始接触到了毒品。我在艺术学校遇到的那些人多数都已经有多年的吸毒经历。当时我觉得通过吸毒我可以真正融入他们那个世界,可以加深我与他们的友情。我试过大麻,甚至还试过一点可卡因,不过,永远改变了我的生活的是摇头丸。 I remember the feeling I 我还记得我第一次用摇头丸时的感觉:浑身上下飘然若仙。我甚至感受到了宇宙的脉搏,宛如某种神奇世界的铁锁被我豁然开启,让我顿入天界一般。我当时心想,能够让人感到如此美妙的东西怎么可能不好呢? As time went by,随着时间的推移,情况发生了变化。我毕业后开始越来越频繁地吸用毒品,尤其是摇头丸。我自己吸毒并开始看不起那些不吸毒的人。我成天与吸毒者为伍。我已经从一个不沾毒品的女孩变成了一个没有毒品就难以度日的女人。 In five months, 仅五个月的时间,我就从一个追求梦想,对生活还有些责任感的人,变成了一个对一切都无所谓的庸人。而且,我走得越远,我越发陷于黑暗孤寂的深渊。我一旦入睡,便会噩梦连连,颤抖不已。我肤色如灰,头痛欲炸,精神也开始错乱起来。对此我全然没有理会,以为这一切都是正常的,直到有一天夜晚我觉得我就要死了。 On this night, I那天夜晚,我正和几个朋友坐在长沙发上看电影,起初还感觉正常,可是突然我觉得仿佛想要从自己的躯壳里蹦出来似的,各种各样的念头、恐怖无比的景象和扑朔离迷的幻影在脑海里闪烁。当时我觉得我撞见了魔鬼。我不停地问朋友们我是不是已经死了。在发作的高峰,我感觉我仿佛象心脏病发作了一般。半夜时候,我总算拿起了电话,拨通了我妈妈的号码,叫她赶紧来接我。第二天一早她来了,把我从公寓里拽了出来。 I didn't know who I was 在我妈开车带我回宾夕法尼亚州我们的家庭医院的时候,我迷迷糊糊,忘了自己是谁,也不知道自己身在何处。路上的大部分时间,我都卷曲着身子,倒在汽车的后座上,而我妹妹一直在尽力使我安静下来。 I spent most of the 一种极度的迷茫状态之中,我在病房里度过了14天。这就是摇头丸给我带来的结果——还不止如此。医生们给我的大脑作了一次扫描检查。当我看到检查结果的时候,我简直不敢相信自己的眼睛。扫描显示我的脑电图上呈现好几处黑斑。医生们告诉我说,这些黑斑出现的区域正是大脑执行记忆功能的区域,表明我的大脑活动已经产生了某种病变。 I couldn't believe my eyes 自打我看到那张脑电图之后,我的生活就如爬坡上坎似的变得艰难起来。 I hear people say Ecstasy i 我总是听到人们说,摇头丸是一种令人愉悦的无害麻醉品。然而当这种”无害”之药一点一点地侵蚀了我的生命的时候,哪里还有愉悦。摇头丸夺走了我的体力,我的追求,我的梦想,我的朋友,我的公寓,我的钱财,而最为重要的是,它夺走了我的心灵。我每天都在担心自己的未来和健康。我的前面有许多高山险阻。但是,我要不断地翻越攀登,因为我是为数不多的幸运儿之一。 I've been given a second chance 我得到了第二次机会,而这并不是人人都能得到的。
外文文献翻译封面格式及要求(模版)
毕业论文外文文献翻译 院 年级专业: 2009 级XXXXXXXXXXX 姓 名:学 号:附 件: 备注:(注意:备注页这一整页的内容都不需要打印,看懂了即可)
1.从所引用的与毕业设计(论文)内容相近的外文文献中选择一篇或一部分进行翻译(不少于3000实词); 2.外文文献翻译的装订分两部分,第一部分为外文文献;第二部分为该外文文献的中文翻译,两部分之间用分页符隔开。也就是说,第一外文文献部分结束后,使用分页符,另起一页开始翻译。 3.格式方面,外文文献的格式,除了字体统一使用Times new roman 之外,其他所有都跟中文论文的格式一样。中文翻译的格式,跟中文论文的格式一样。 (注意:备注页这一整页的内容都不需要打印,看懂了即可,定稿后,请删除本页.) 范文如下:注意,下面内容每一部份均已用分页符分开了,如果用本模板,请将每一模块单独删除,直接套用到每一模板里面,不要将全部内容一次性删除. 【Abstract】This paper has a systematic analysis on outside Marco-environment of herbal tea beverage industry and major competitors of brands inside the herbal tea market. Based on
the theoretic framework, this paper takes WONG LO KAT and JIA DUO BAO herbal tea as an example, and researches the strategy on brand positioning and relevant marketing mix of it. Through analysis on the prevention sense of WONG LO KAT herbal tea, it was positioned the beverage that can prevent excessive internal heat in body, a new category divided from the beverage market. the process of brand positioning of it in Consumers brain was finished. Based on this positioning strategy, WONG LO KAT reasonably organized and arranged its product strategy, price strategy, distribution strategy and promotion strategy, which not only served for and further consolidated the position of preventing excessive internal heat in body, but also elevated the value of brand. The JDB and WONG LO KAT market competition brings us enlightenment. Reference the successful experience from the JDB and lessons from the failure of the WONG LO KAT.,Times New Roman. 【Key Words】Brand positioning; Marketing mix; Positioning Strategy; enlightenment, lessons;ABC (本页为英文文献摘要,关键词两项一起单独一页,字体为:Times New Roman,小四号,1.5倍行距)
外文翻译格式要求
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英语翻译(1)
一、对龙图腾他的崇拜在中国大约已绵延了八千多年。中国龙是古人将鱼、蛇、马、牛等动物与云雾、雷电等自然天象集合而成的一种神物。中国龙的形成与中华民族的多元融合过程同步。在中国人的心目中,龙具有振奋腾飞、开拓变化的寓意和团结凝聚的精神。 Chinese Dragon Dragon totem worship in China has been around for the last 8,000 years. The ancients in China considered the dragon (or loong) a fetish that combines animals including the fish, snake, horse and ox with cloud, thunder, lightning and other natural celestial phenomena. The Chinese dragon was formed in accordance with the multicultural fusion process of the Chinese nation. To the Chinese, the dragon signifies innovation and cohesion. 二、秧歌舞是中国汉族的一种民间传统舞蹈,通常在北方省份表演。秧歌舞者通常穿上明亮多彩的表演服装,他们的表演动作有力迅速。在农历春节、元宵节等节日期间,人们一旦听到锣鼓声,不管外面天气有多冷,他们都会蜂拥到街上看秧歌舞表演。近年来,中国东北某些城市的老年人自发组织了了秧歌队,队员常年通过跳秧歌舞来保持健康,同事他们也乐在其中。 Yangko is one of tradition folk dance of Han in China.It is usually performed in northern provinces. The dancers usually wear colorful and light costumes, and the performance is powerful and rapid. During some festivals such as Spring Festival, Lantein Festival, if people hear the sound of drum and gong, no matter how cold the weather is , they will come to street and appreciate the Yangko. Recent years, the old people in city of east-northern of China organized the team of Yangko by themselves, the teamers keep their health by dancing Yangko the whole year. 三、长城是人类创造的世界奇迹之一。如果你到了中国却没去过长城,就想到了巴黎没有去看看菲尔铁塔,或者就像到了埃及没有去看金字塔一样。人们常说:“不到长城非好汉。”实际上,长城最初只是一些断断续续的城墙,直到秦朝统一中国后才将其连城长城。然而,今天我们看到的长城——东起山海关,西至嘉峪关——大部分都是在明代修建的。 The Great Wall is one of the wonders of the world that created by human beings! If you come to China without climbing the Great Wall, it's just like going Paris without visiting the Eiffel Tower; or going to Egypt without visiting the Pyramids! Men often say, "He who doest not reach the Great Wall is not a true man."In fact, it began as independent walls for different states when it was first built, and did not become the "Great Wall" until the Qin Dynasty. However, the wall we see today, starting from Shanhaiguan Pass in the east to Jiayunguan Pass in the west, was mostly built during the Ming Dynasty. 四、Dumplings Dumplings are one of the Chinese people’s favorite traditional dishes. According to an ancient Chinese legend, dumplings were first made by the medical saint---Zhang Zhongjing. There are three steps involved in making dumplings: 1) make dumpling wrappers out of dumpling flour; 2) prepare the dumpling stuffing; 3) make dumplings and boil them. With thin and elastic dough skin, fresh and tender stuffing, delicious taste, and unique shapes, dumplings are worth eating hun dreds of times. There’s