Embedded Processor Based Automatic Temperature
Control of VLSI Chips
Abstract
This paper presents embedded processor based automatic temperature control of VLSI chips, using temperature sensor LM35 and ARM processor LPC2378. Due to the very high packing density, VLSI chips get heated very soon and if not cooled properly, the performance is very much affected. In the present work, the sensor which is kept very near proximity to the IC will sense the temperature and the speed of the fan arranged near to the IC is controlled based on the PWM signal generated by the ARM processor. A buzzer is also provided with the hardware, to indicate either the failure of the fan or overheating of the IC. The entire process is achieved by developing a suitable embedded C program.
Keywords: Temperature sensor, ARM processor, VLSI chips, Brushless DC motor
1.Introduction
With the phenomenal developments in VLSI technology, the ambitious IC designers are trying to put more transistors in to smaller packages. So, the ICs run at higher speeds and produce large amount of heat which creates the problem of thermal management. For example, nowadays the CPU chips are becoming smaller and smaller with almost no room for the heat to escape. The total power dissipation levels now reside on the order of 100 W with a peak power density of 400-500 W/Cm2, and are still steadily climbing.
As the chip temperature increases its performance is very much degraded by parameters shift, decrease in operating frequencies and out-of specification of timings. So the high speed chips must be cooled to maintain good performance for the longest possible operating time and over the widest possible range of environmental conditions. The maximum allowable temperature for a high speed chip to meet its parametric specifications depends on the process and how the chip is designed.
Among the various cooling techniques, heat sinks, heat pipes, fans and clock throttling are usually employed. Among these techniques, fans can dramatically reduce the temperature of a high speed chip,but they also generate a great deal of acoustic noise. This noise can be reduced significantly by varying ,the fans speed based on temperature i.e. the fan can turn slowly when the temperature is low and canspeed up as the temperature increases.The other prominent method is clock throttling i.e. reducing the clock speed to reduce power dissipation. But it also reduces the system performance and the systems functionality is lost.So, the objective of the present work is, to design a hardware system consisting of a brushless DC motor fan whose speed is controlled based on the temperature of the chip, sensed by the sensor LM35.The LM35 series are precision integrated-circuit temperature sensors, whose output voltage is linearly proportional to the Celsius (Centigrade) temperature. The LM35 thus has an advantage over linear temperature sensors calibrated in Kelvin, as the user is not required to subtract a large constant voltage from its output to obtain
convenient Centigrade scaling. The LM35 does not require anyexternal calibration or trimming to provide typical accuracies of ±1?4°C at room temperature and ±3?4°C over a full ?55 to +150°C temperature range. Low cost is assured by trimming and calibration at the wafer level. The LM35’s low output impedance, linear output, and precise inherent calibration make interfacing to readout or control circuitry especially easy. It can be used with single power supplies, or with plus and minus supplies. As it draws only 60 μA from its supply, it h as very low selfheating, less than 0.1°C in still air. The LM35 is rated to operate over a ?55° to +150°C temperature range, while the LM35C is rated for a ?40° to +110°C range (?10° with improved accuracy). The LM35 series is available packaged in hermetic TO-46 transistor packages, while the LM35C, LM35CA, and LM35D are also available in the plastic TO-92 transistor package. The LM35D is also available in an 8-lead surface mount small outline package and a plastic TO-220 package. To monitor the voltage at the terminals of the DC motor fan, the PWM signal is generated by the ARM7TDMI processor. This PWM signal is changed in accordance to the output of the LM35temperature sensor. So the important component of this entire project is the temperature sensor.
2. Description
In ARM processor based automatic temperature control system, the output of the temperature sensor is fed to the on chip ADC and the output of the ADC is given to the L293D driver IC which in turn is fed to DC motor fan as shown in the block diagram in Fig. 1. A graphic LCD (128x64 pixels) is interfacedto the ARM LPC 2378 processor to display the temperature of the IC and the speed of the fan. A buzzer is also connected to the processor which gives an indication, in case of the failure of the fan or overheating of the chip beyond some level. The entire circuit diagram is shown in Fig. 2.
Fig. 1.Block diagram.
Fig. 2. Circuit Diagram.
3. Software Description
The present work is implemented using ARM IAR Workbench IDE and the necessary embedded C program is developed and dumped into the embedded processor using Flash magic ISP Utility. The ARM IAR Workbench IDE is a very powerful Integrated Development Environment (IDE) that allows you to develop and manage complete embedded application projects. In-System Programming is programming or reprogramming the on-chip flash memory, using the boot-loader software and a serial port. The LPC2387 microcontroller is based on a 16-bit/32-bit ARM7TDMI-S CPU with real-time emulation that combines the microcontroller with 512 kB of embedded high-speed flash memory.
A 128-bit wide memory interface and unique accelerator architecture enable 32-bit code execution at the maximum clock rate. For critical performance in interrupt service routines and DSP algorithms, this increases performance up to 30 % over Thumb mode. For critical code size applications, the alternative 16-bit Thumb mode reduces code by more than 30 % with minimal performance penalty.The LPC2387 is ideal for multi-purpose serial communication applications. It incorporates a 10/100 Ethernet Media Access Controller (MAC), US
B full speed device with 4 kB of endpoint RAM,four UARTs, two CAN channels, an SPI interface, two Synchronous Serial Ports (SSP), threeI2
C interfaces, and an I2S interface. This blend of serial communications interfaces combined with an on-chip 4 MHz internal oscillator, 64 kB SRAM, 16 kB SRAM for Ethernet, 16 kB SRAM for USB and general purpose use, together with 2 kB battery powered SRAM makes this device very well suited for communication gateways and protocol converters. Various 32-bit timers, an improved 10-bit ADC, 10-bit DAC, one PWM unit, a CAN control unit, and up to 70 fast GPIO lines with up to 12 edge or level sensitive external interrupt pins make this microcontroller particularly suitable for industrial control and medical systems.
The LPC2378 Microcontroller provides on-chip boot-loader software that allows programming of the internal flash memory over the serial channel. Philips provides a utility program for In-System programming called Flash magic Software.
4. Results and Conclusions
Embedded ARM processor based automatic speed control DC motor fan is designed and implemented.To test the validity of the design, the temperature sensor is kept inside a small oven and its temperature is increased beyond the room temperature. Now the fan is operated to run with full speed and the temperature is found to comeback to normal temperature. This is repeated with various VLSI chips like Pentium processor, FPGA chips etc. Now the temperature sensor is kept very near to the Pentium processor of the computer and it is observed that, as the time lapses the speed of the fan is automatically increased and the temperature of the chip is found to be controlled. These results are displayed on LCD panel. Though the present system is working well in the given environment, still it is worthwhile to highlight the following conclusions.
Normally, controlling fan speed or clock throttling based on temperature requires that the temperature of the high speed chip should be first measured. This is done by placing a temperature sensor close to the target chip either directly next to it or in some cases, under it or on the heat sink. The temperature measured in this way corresponds to that of the high speed chip, but can be significantly lower and the difference between measured temperature and the actual die temperature increases as the power dissipation increases. So, the temperature of the circuit board or heat sink must be correlated to the die temperature of the high speed chip. Of course a better alternative is possible with a number of high speed chips. Many CPUs, FPGAs and other high speed ICs include a thermal diode which is actually a diode connected bipolar transistor, on the die. Using a remote diode temperature sensor connected to this thermal diode, the temperature of the high speed IC’s die can be measured directly with an excellent accuracy. This not only eliminates the large temperature gradients involved in measuring temperature outside the target IC’s package, but it also eliminates the long thermal time constants,from several seconds to minutes, that cause delays in responding to die temperature changes.
There is also a drawback in fan speed control. Normally the fan speed is
controlled by adjusting the power supply voltage of the fan. This is done by a low-frequency PWM signal, usually in the range of about 50 Hz, whose duty cycle is varied to adjust the fan’s speed. This is inexpensive and also efficient. But the disadvantage of this method is that it makes the fan somewhat nosier because of the pulsed nature of the power supply. The PWM waveforms fast edges cause the fans mechanical structure to move, which is easily audible.
In some systems, it is also important to limit the rate of change of the fan speed. This is critical when the system is in close proximity to users. Simply switching a fan on and off or changing speed immediately as temperature changes is acceptable in some environments. But when users are in nearby, the sudden changes in fans noise are highly annoying. So to avoid these effects the fan’s drive signal must be limited to an acceptable level.
5. Future Scope of the Work
In the present work temperature is sensed using the temperature sensor LM35 and the speed of the motor is controlled by varying the width of PWM generated by the processor. But the temperature sensed by the IC LM35 is not very accurate even though we keep the IC very near to the processor orVLSI chip. So, we can use a remote diode temperature sensor connected to the thermal diode which measures the temperature of the high speed ICs directly with excellent accuracy.
Another important aspect is a variety of remote temperature sensors with up to five sensing channels is available that can detect the die temperature of the high speed chip and transmit temperature data to a microcontroller.Fan speed regulators with multiple channels of fan tachometer monitoring can provide reliable control of fan RPM or supply voltage based on commands from an external microcontroller.
For this simple ICs are provided by MAXIM MAX6660 and MAX6653. The first IC can sense the remote temperature and controls the fan speed based on that temperature. It produces a DC supply voltage for the fan through an internal power transistor. The second IC also performs a similar function but drives the fan with a PWM waveform through an external pass transistor. Both include complete thermal
fault monitoring with over temperature outputs, which can be used to shut down the system if the high speed chips get too hot. So, the present work can be improved further by using the above mentioned techniques.
基于嵌入式处理器的VLSI芯片的温度自动控制
摘要
本文介绍了基于嵌入式处理器的VLSI芯片的温度自动控制,同时利用温度传感器LM35和ARM处理器LPC2378来完成设计。由于VLSI芯片密度非常高,同时芯片在工作时很快得到加热,如果不能研制出能是它快速冷却的方法,芯片的性能将会受到很大影响。在目前的工作中,将传感器放置在非常接近接近到IC 集成电路的位置来采集芯片的温度,通过由ARM处理器产生的PWM信号来控制集成电路旁风扇的转速。在硬件电路中也提供了一个蜂鸣器,在无法控制风扇或者IC集成电路的过热的情况下都会发出警报。整个过程的实现需要制定一个合适的嵌入式C程序。
关键词:温度传感器,ARM处理器,超大规模集成电路芯片,无刷直流电动机
1.介绍
随着VLSI超大规模集成电路技术的惊人发展,雄心勃勃的IC设计师正试图将更多的晶体管用更小的体积实现更多的功能。因此,该集成电路运行速度更快,产生更多的热量而造成的新的问题。举例来说,现在世界上的的CPU芯片变得越来越小,几乎没有空间散热。若消耗100 W的功率的话,峰值功率密度为400-500 W/Cm2,并可能持续上升。随着芯片温度的升高会影响性能的参数变化,从而减少芯片的工作频率和影响时序的规范。因此,在允许的条件范围内,为了让高速芯片能得到最好的工作效率和最长的运行时间,必须要让芯片在短时间内冷却下来。高速芯片所能允许的最高温度,取决于程序的参数规格,以及芯片的设计。
在各种不同的冷却技术中,人们通常使用散热片,热管,风扇以及时钟节流。在这些技术中,风扇可以快速高效的降低高速芯片的温度,但它们也产生大量的噪音。这种噪声可以通过不同的方法来降低,根据风扇转速是由温度来控制,当温度低时,风扇的转速降低;随着温度的提高,风扇的速度会随着提升。另一个有效地的方法是时钟节流,即减少了时钟速度,降低功耗。但它也降低了系统性能和系统运行速度。本工作的目标是,设计一个硬件系统能控制直流无刷电机风扇的转速,芯片的温度则由传感器LM35进行采集.。
LM35系列是精密的集成电路温度传感器,其输出电压与采集到的摄氏的温度成线性比。因此,LM35系列比一般的传感器拥有优势,因为我们可以直接通过电压值来确定摄氏温度值。LM35不需要校准或微调,便可以提供提供在室温±0.25 ℃精度和-55 ℃ ~ +150℃温度范围。由于LM35系列不需要校准,所以该传感器比较经济,低成本。LM35的低输出阻抗,线性输出和精确的校准的特点使固有接口的读数和控制电路特别容易。它同时可用于单电源输出和多电源输出。由于它只需要60微安的电流供应,所以它自身产生的热量较低,在真空中约升温0.1 ℃。LM35 在-55 ℃ ~ +150℃温度范围内可以正常的工作,而LM35C 可工作的温度范围为-40 ℃ ~ +110℃。LM35系列可封装在密封的TO - 46晶体管内,而LM35C,LM35CA和LM35D也可用塑胶TO-92晶体管封装。LM35D也可以用8引脚小型封装和塑料的TO - 220封装。由ARM7TDMI处理器所产生的PWM 信号来控制直流风扇电动机两端的电压。PWM信号的变化与LM35温度传感器的电压输出同步。因此,这整个项目的重要组成部分是温度传感器。
2 描述
在ARM处理器为基础的温度自动控制系统,温度传感器输出是由芯ADC来控制。而ADC的输出是与IC相连,IC L293D的驱动信号直接送到直流风扇电机中,系统框图如图1所示。LCD图形液晶显示器(128x64像素)的接口与ARM LPC 2378
处理器相连,来显示该集成电路的温度和风扇转速。蜂鸣器同样是连接ARM处理器,在无法控制风扇和芯片过热的情况下会发出警报,整个电路图如图2所示。
图1 系统框图
图2电路图
3 软件介绍
目前的工作是使用ARM IAR工作台IDE,嵌入式C程序和使用Flash ISP工具处理器进行嵌入式开发。ARM IAR的工作台IDE是一个非常强大的集成开发环境(IDE),允许开发和管理完整的嵌入式应用项目。在系统编程这一环境下我们可以采用引导加载器软件和使用一个串行端口进行编程或重新编程闪存记忆体中的程序。LPC2387单片机是基于16/32位的ARM7TDMI-S CPU的实时仿真,它
同时结合了512 kB嵌入式闪存单片机的特点。128位宽度的存储器接口和独特的加速结构使32位代码执行在最大时钟频率下运行。在Thumb模式下,中断服务程序和DSP算法的关键性能能提高30%以上。对于重要代码应用,其他16位代码在Thumb模式性能损失可减少超过30%。LPC2387是多用途串行通信应用的理想选择。它由一10/100以太网媒体访问控制器(MAC),4个端点的USB全速设备内存,4个UART,两个CAN通道,一个SPI接口,两个同步串行端口(SSP)的,3 个I2C接口,和一个I2S接口组成。这种融合了串行通信接口与频率为4 MHz内部振荡器,64 KB的SRAM记忆体,16个以太网,16 KB的USB ,连同2 KB 的电池供电SRAM的功能非常适合于协议转换器的转换。32位定时器,10位DAC,一个PWM单元,一个CAN控制装置,以及多达70个的GPIO线路和12个外部中断引脚使这个单片机特别适合应用在工业控制和医疗系统等。LPC2378单片机提供芯片的引导加载器软件,允许在串行通道的内部快闪记忆体内编程。飞利浦提供了一个在系统实用程序即所谓闪光魔术软件编程。
4 结果与结论
基于嵌入式ARM处理器的温度控制系统的设计和实施已经完成了。为了验证设计的有效性,温度传感器被放在一个比室内温度高的烤箱内。这时风扇在全速运行并发现温度重返正常温度。我们重复的用各种不同的超大规模集成电路来做这个实验,像奔腾处理器芯片,FPGA芯片等。我们将温度传感器放在接近奔腾处理器的计算机的位置,慢慢的我们观察到风扇的速度自动增加,芯片的温度被控制。这些结果在LCD液晶显示面板上可以看见。虽然目前的系统在特定环境下是行之有效的,但以下结论仍然是值得强调。
一般情况下,使用控制风扇速度或时钟节流的方式来控制温度的条件是必须及时的检测出目标芯片的温度。这个实验中通过放置一个温度传感器在目标芯片旁边,在某些情况下,也可以放在被测物体下方或者是散热器下。以这种方式检测高速芯片的温度与实际温度较为接近,但也有可能测量温度比管芯温度上升时温度要低。因此,电路板或散热片温度和高速芯片管芯的温度必须相关。当然如果有很多高速芯片是更好的选择。许多CPU,FPGA和其他高速集成电路包含一个热二极管,其实是一个连接双极晶体管的二极管。使用远程二极管温度传感器连接到这个热二极管,得出的结果可以与直接测量VLSI芯片一样精确。这不仅消除了目标IC的封装与室外温度有较大的温差所产生的误差,它也消除了芯片从几秒钟到几分钟内由于温度变化作出反应的延误。
还有一个缺点,有关风扇转速控制。一般情况下,风扇转速通过调整风扇的电源电压来控制。这是通过调整一个低频约50 Hz的PWM信号的占空比变化来调整风扇的速度。这种方法价格低廉,也很有效率。但是,这种方法的缺点是由
于脉冲电压的性质,它使风扇的噪音有点大。PWM波形的快速触发沿导致风扇机械结构产生移动,这是产生噪音的一个原因。
在一些系统中,限制风扇的速度变化率也是重要的。如果该系统与用户接近的话这一点是很关键的。在某些环境中,只需切换风扇的开关或改变速度可以让温度变化。但是,当用户在系统附近时,在风扇的速度的突然变化会产生非常恼人的噪音。因此,为了避免这些影响,风扇的驱动器信号必须限制在一个可接受范围内。
5.未来的工作前景
在目前的工作温度是由温度传感器LM35来采集,电机的转速是通过改变控制的处理器产生的PWM脉宽来控制。但LM35温度传感器并不能做到非常精确地采集温度,即使我们让LM35温度传感器非常接近集成电路处理器或 VLSI芯片。因此,我们可以使用一个远程二极管温度传感器连接到热二极管,这种措施的直接测出高速集成电路的温度,检测出的结果非常精确。
另一个重要方面是各种传感器的远程温度高达五个传感渠道,可以将检测到的高速芯片的温度数据传送到微控制器。风扇转速的监测与多渠道风扇转速调节器可以有效的控制温度。外部微控制器的命令可提供可靠的控制电源电压来监测风扇转速与调节多渠道风扇转速。
对于这个简单的由MAXIM MAX6660和MAX6653组成的集成电路。第一个IC可以检测到远程温度然后通过温度来控制风扇风速。它由内部晶体管产生一个直流电源电压给风扇供电。第二个IC也执行类似的功能,但驱动器由外部晶体管产生PWM波形。两个集成电路都包含完整的热故障监测系统,如果高速芯片太热,系统会自动关闭。因此,目前的工作可以使用上述技术进一步提高。
PCB 专业术语中英文翻译 很多PCB 的书上使用的是英文,但是大多数的人又看不懂英文, 这时候怎么办呢,我们需要翻译,但是如果每看到一个不会的词 儿就去翻译,那么就太耗费时间了,所以我们捷多邦总结了一些 常用的专业术语的中英文对照,希望能对大家有用。 1.印制电路:printed circuit 2.印制线路:printed wiring 3.印制板:printed board 4.印制板电路:printed circuit board (pcb) 5.印制线路板:printed wiring board(pwb) 6.印制元件:printed component 7.印制接点:printed contact 8.印制板装配:printed board assembly 9.板:board 1 10.表面层合电路板:surface laminar circuit (slc) 11.埋入凸块连印制板:b2it printed board 12.多层膜基板:multi-layered film substrate(mfs) 13.层间全内导通多层印制板:alivh multilayer printed board 14.载芯片板:chip on board (cob) 15.埋电阻板:buried resistance board 16.母板:mother board 17.单面印制板:single-sided printed board(ssb) 、管路敷设技术通过管线不仅可以解决吊顶层配置不规范高中资料试卷问题,而且可保障各类管路习题到位。在管路敷设过程中,要加强看护关于管路高中资料试卷连接管口处理高中资料试卷弯扁度固定盒位置保护层防腐跨接地线弯曲半径标等,要求技术交底。管线敷设技术中包含线槽、管架等多项方式,为解决高中语文电气课件中管壁薄、接口不严等问题,合理利用管线敷设技术。线缆敷设原则:在分线盒处,当不同电压回路交叉时,应采用金属隔板进行隔开处理;同一线槽内强电回路须同时切断习题电源,线缆敷设完毕,要进行检查和检测处理。、电气课件中调试对全部高中资料试卷电气设备,在安装过程中以及安装结束后进行 高中资料试卷调整试验;通电检查所有设备高中资料试卷相互作用与相互关系,根据生产工艺高中资料试卷要求,对电气设备进行空载与带负荷下高中资料试卷调控试验;对设备进行调整使其在正常工况下与过度工作下都可以正常工作;对于继电保护进行整核对定值,审核与校对图纸,编写复杂设备与装置高中资料试卷调试方案,编写重要设备高中资料试卷试验方案以及系统启动方案;对整套启动过程中高中资料试卷电气设备进行调试工作并且进行过关运行高中资料试卷技术指导。对于调试过程中高中资料试卷技术问题,作为调试人员,需要在事前掌握图纸资料、设备制造厂家出具高中资料试卷试验报告与相关技术资料,并且了解现场设备高中资料试卷布置情况与有关高中资料试卷电气系统接线等情况 ,然后根据规范与规程规定,制定设备调试高中资料试、电气设备调试高中资料试卷技术电力保护装置调试技术,电力保护高中资料试卷配置技术是指机组在进行继电保护高中资料试卷总体配置时,需要在最大限度内来确保机组高中资料试卷安全,并且尽可能地缩小故障高中资料试卷破坏范围,或者对某些异常高中资料试卷工况进行自动处理,尤其要避免错误高中资料试卷保护装置动作,并且拒绝动作,来避免不必要高中资料试卷突然停机。因此,电力高中资料试卷保护装置调试技术,要求电力保护装置做到准确灵活。对于差动保护装置高中资料试卷调试技术是指发电机一变压器组在发生内部故障时,需要进行外部电源高中资料试卷切除从而采用高中资料试卷主要保护装置。
电子信息工程专业课程名称中英文翻译对照 (2009级培养计划)
实践环节翻译 高等数学Advanced Mathematics
大学物理College Physics 线性代数Linear Algebra 复变函数与积分变换Functions of Complex Variable and Integral Transforms 概率论与随机过程Probability and Random Process 物理实验Experiments of College Physics 数理方程Equations of Mathematical Physics 电子信息工程概论Introduction to Electronic and Information Engineering 计算机应用基础Fundamentals of Computer Application 电路原理Principles of Circuit 模拟电子技术基础Fundamentals of Analog Electronics 数字电子技术基础Fundamentals of Digital Electronics C语言程序设计The C Programming Language 信息论基础Fundamentals of Information Theory 信号与线性系统Signals and Linear Systems 微机原理与接口技术Microcomputer Principles and Interface Technology 马克思主义基本原理Fundamentals of Marxism 思想、理论和“三个代表” 重要思想概论 Thoughts of Mao and Deng 中国近现代史纲要Modern Chinese History 思想道德修养与法律基 础 Moral Education & Law Basis 形势与政策Situation and Policy 英语College English 体育Physical Education 当代世界经济与政治Modern Global Economy and Politics 卫生健康教育Health Education 心理健康知识讲座Psychological Health Knowledge Lecture 公共艺术课程Public Arts 文献检索Literature Retrieval 军事理论Military Theory 普通话语音常识及训练Mandarin Knowledge and Training 大学生职业生涯策划 (就业指导) Career Planning (Guidance of Employment ) 专题学术讲座Optional Course Lecture 科技文献写作Sci-tech Document Writing 高频电子线路High-Frequency Electronic Circuits 通信原理Communications Theory 数字信号处理Digital Signal Processing 计算机网络Computer Networks 电磁场与微波技术Electromagnetic Field and Microwave Technology 现代通信技术Modern Communications Technology
大学各专业名称英文翻译——文科方面ARTS 澳门历史研究Study of the History of Macao 办公管理Office Management 办公设备运用Using Desktop Publishing in Business 比较管理学Comparative Management 比较诗学Comparative Poetics 比较文化学Comparative Cult urology 比较文学研究Study of Comparative Literature 必修课4-10学分Restricted (4-10 Credits needed) 病理生理学Pathological Physiology 财务报告介绍An Introduction to Financial Accounting Statements 财务报告运用Using Financial Accounting Statements 财务管理学Financial Management 财务会计学Financial Accounting 财务理论与方法Finance Theory & Methods 财政与金融Finance 财政与金融学研究Study of Finance 财政预算Preparing Financial Forecasts 产业经济学Industrial Economics 传统文化与现代化Tradition Culture and Modernization 当代国际关系研究Contemporary International Relations Studies 当代世界发展研究Contemporary World Development Studies 当代中国外交与侨务专题研究Monographic Studies of Diplomacy and Overseas C hinese Affairs of Contemporary China
西安翻译学院各专业主要课程一览表 类型 层次开设院系专 业 名 称 专业代码主要课程 计划内本科外国语学院英 语 050201 基础英语、英语听 力、英语口语、英 语写作、英语泛 读、高级英语、英 汉、汉英翻译、英 语语言学、英美文 学等。 日 语 050207 基础日语、高级日 语、日语视听、日 语口语、日汉翻 译、日语写作、日 本文学选读、日本 概况等。 德 语 050203* 基础德语、语言训 练、德语听说、德 语写作、德语泛 读、德语国家概 况、德语语法难 点、高级德语、德 汉-汉德翻译、口 译、德国文学作品 选读等。 #p#分页标题#e# 计划内本科经济管理学院财 务 管 理 110204 基础会计学、微观 经济学、宏观经济 学、统计学、管理 学、审计学、市场 营销、中级财务会 计、中级财务管 理、高级财务管 理、资产评估、财 务分析、管理信息 系统、投资学等。国 际 020102 微观经济学、宏观 经济学、国际经济
经济和贸易学、计量经济学、世界经济概论、国际贸易、国际贸易实务、国际金融、国际结算、货币银行学、会计学、统计学等。 人力 资源管理110205 管理学、人力资源 管理学、微观经济 学、宏观经济学、 统计学、基础会计 学、社会保障制 度、经济法、财务 管理、劳动关系管 理、市场营销学 等。 市 场营销110202 微观经济学、宏观 经济学、管理学、 货币银行学、经济 法、基础会计学、 统计学、财务管 理、市场营销学、 消费者行为学、广 告管理、市场调查 和预测、服务营销 学、物流管理等。 计划内 #p#分页标题#e# 本科信息工程学院 电 子 信 息 科 学 和 技 术 071201 电路原理、模拟电 子线路、高频电子 线路、数字电路及 逻辑设计、通信原 理、信号和系统、 微机原理和接口 技术、数字信号处 理、自动控制原 理、计算机网络和 通信、天线和电波 传播等 计 算 机 科 学 和 技 080605 电路原理、线性代 数、模拟电子线 路、概率论和数理 统计、数据结构、 计算机组成原理、 数字电路和逻辑 设计、汇编语言程
Analog computers are analog devices.That is,they have continuous states rather than discrete numbered states.An analog computer can represent fractional or irrational values exactly, with no round-off.Analog computers are almost never used outside of experimental settings.模拟计算机是模拟设备。也就是说,他们是连续状态而不是离散的有限状态。一个模拟计算机可以精确代表小数或无理数,没有舍入。模拟计算机几乎从不被使用在实验设置以外。 A processor typically contains an arithmetic/logic unit(ALU),control unit(including processor flags,flag register,or status register),internal buses,and sometimes special function units(the most common special function unit being a floating point unit for floating point arithmetic). 一个处理器通常包含一个算术/逻辑单元(运算器),控制单元(包括处理器标志,标志寄存器,或状态寄存器),内部总线,有时特殊功能单元(最常见的特殊功能单元作为一个浮点单元用于浮点运算)。 CISC stands for Complex Instruction Set Computer.Mainframe computers and minicomputers were CISC processors,with manufacturers competing to offer the most useful instruction sets.Many of the first two generations of microprocessors were also CISC. CISC代表复杂指令集计算机。大型计算机和小型计算机是CISC处理器,与制造商竞争提供最有用的指令集。微处理器的前两代中许多也是CISC。 Lesson2 Supercomputer is a broad term for one of the fastest computers currently available. Supercomputers are very expensive and are employed for specialized applications that require immense mounts of mathematical calculations(number crunching). 超级计算机是一个广泛的术语,因为它是目前可用的最快的计算机之一。超级计算机是非常昂贵的,并且它被用于需要大量的数学计算(数字运算)的专门应用。 It is a midsize computer.In the past decade,the distinction between large minicomputers and small mainframes has blurred,however,as has the distinction between small minicomputers and workstation.But in general,a minicomputer is a multiprocessing system capable of supporting up to200users simultaneously. 它是一个中型计算机。在过去的十年中,大的小型机和小的大型机之间的区别已经模糊,然而,有小的小型机和工作站之间的区别。但在一般情况下,一个小型机是一个能够同时支持多达200个用户的多处理系统。 Workstations generally come with a large,high-resolution graphics screen,a large amount of RAM,built-in network support,and a graphical user interface.Most workstations also have a mass storage device such as disk drive,but a special type of workstation,called a diskless workstation,comes without a disk drive. 工作站一般都配有一个大的,高分辨率的图形屏幕,大量的内存,内置网络支持以及一个图形用户界面。大多数工作站也有一个大容量存储设备如磁盘驱动器,但是一种特殊类型的工作站,被称为无盘工作站,是不带磁盘驱动器的。
市场营销专业术语中英文对照标准翻译 本文为市场营销中经常用到的一些中文与英文互译的标准用语,希望对市场营销从业人员有所帮助。 《财富》杂志Fortune 案头调研Desk Research 奥美公司Ogilvy & Mather 白色商品White Goods 百乐门Parliament 百威啤酒Budweiser 包裹销售法Banded Pack 宝洁公司Procter & Gamble 宝丽来Polaroid 宝马BMW 边际成本Marginal Cost 边际收益Marginal Benefit 标准差,均差Standard Deviation 别克Buick 波立兹调查公司Alfred Politz Research, Inc 波旁王朝Ancient Age Bourbon 波特福洛分析Portefolio Analysis 产品差异Product Differentiation 产品生命周期Product Life Cycle 产品系列Product Line 产品组合Product Mix 阐述Presentation 超级市场Supermarket 成对比较法Paired Comparisons 成功的理想主义者Successful Idealist 承诺型消费者Committed Buyer 程度测试Tachistoscope 橙色商品Orange Goods 冲动购买Impulse Buying 重叠率Duplication 抽样Sampling 传销Pyramid Selling 传阅发行量Pass-on Circulation 词语联想法Word Associaton 刺激营销Incentive Marketing 促销Promotion 达彼思广告公司Ted Bates & Copany 大卫·奥格威David Ogilvy 戴比尔斯De Beers
各专业课程英文翻译(精心整理) 生物及医学专业课程汉英对照表 应用生物学 Applied Biology 医学技术 Medical Technology 细胞生物学 Cell Biology 医学 Medicine 生物学 Biology 护理麻醉学 Nurse Anesthesia 进化生物学 Evolutionary Biology 口腔外科学 Oral Surgery 海洋生物学 Marine Biology 口腔/牙科科学 Oral/Dental Sciences 微生物学 Microbiology 骨科医学 Osteopathic Medicine 分子生物学 Molecular Biology 耳科学 Otology 医学微生物学 Medical Microbiology 理疗学 Physical Therapy 口腔生物学 Oral Biology 足病医学 Podiatric Medicine 寄生物学 Parasutology 眼科学 Ophthalmology 植物生物学 Plant Physiology 预防医学 Preventive Medicine 心理生物学 Psychobiology 放射学 Radiology 放射生物学 Radiation Biology 康复咨询学 Rehabilitation Counseling 理论生物学 Theoretical Biology 康复护理学 Rehabilitation Nursing 野生生物学 Wildlife Biology 外科护理学 Surgical Nursing 环境生物学 Environmental Biology 治疗学 Therapeutics 运动生物学 Exercise Physiology 畸形学 Teratology 有机体生物学 Organismal Biology 兽医学 Veterinary Sciences 生物统计学 Biometrics 牙科卫生学 Dental Sciences 生物物理学 Biophysics 牙科科学 Dentistry 生物心理学 Biopsychology 皮肤学 Dermatology 生物统计学 Biostatistics 内分泌学 Endocrinology 生物工艺学 Biotechnology 遗传学 Genetics 生物化学 Biological Chemistry 解剖学 Anatomy 生物工程学 Biological Engineering 麻醉学 Anesthesia 生物数学 Biomathematics 临床科学 Clinical Science 生物医学科学 Biomedical Science 临床心理学 Clinical Psychology 细胞生物学和分子生物学 Celluar and Molecular Biology 精神病护理学 Psychiatric Nursing 力学专业 数学分析 Mathematical Analysis 高等代数与几何 Advanced Algebra and Geometry 常微分方程 Ordinary Differential Equation 数学物理方法 Methods in Mathematical Physics 计算方法 Numerical Methods 理论力学 Theoretical Mechanics 材料力学 Mechanics of Materials 弹性力学 Elasticity 流体力学 Fluid Mechanics 力学实验 Experiments in Solid Mechanics 机械制图 Machining Drawing 力学概论 Introduction to Mechanics 气体力学 Gas Dynamics 计算流体力学 Computational Fluid Mechanics 弹性板理论 Theory of Elastic Plates 粘性流体力学 Viscous Fluid Flow 弹性力学变分原理 Variational Principles inElasticity 有限元法 Finite Element Method 塑性力学 Introduction of Plasticity
合肥工业大学各学院、专业名称及其英文翻译仪器科学与光电工程学院School of Instrument Science and Opto-electronic Engineering 1、测控技术与仪器Measurement & Control Technology and Instrument 2、光信息科学与技术 Optic Information Science & Technology 机械与汽车工程学院 School of Machinery and Automobile Engineering 3、车辆工程 Vehicles Engineering 4、工业工程 Industrial Engineering 5、工业设计 Industry Design 6、过程装备与控制工程 Process Equipment & Control Engineering 7、机械设计制造及其自动化 Machine Design & Manufacture & Its Automation 8、交通工程 Transportation Engineering 9、热能与动力工程Thermal Energy & Power Engineering 材料科学与工程学院 School of Material Science and Engineering 10、金属材料工程 Metal Materials Engineering 11、材料物理Materials Physics 12、无机非金属材料工程 Inorganic Non-metallic Materials Engineering 13、材料成型及控制工程 Material Forming & Control Engineering 电气与自动化工程学院 School of Electric Engineering and Automation 14、电气工程及其自动化 Electric Engineering and Automation 15、生物医学工程 Biomedical Engineering 16、自动化 Automation 计算机与信息学院 School of Computer and Information 17、计算机科学与技术 Computer Science & Technology 18、电子信息工程 Electronic Information Engineering 19、电子信息科学与技术 Electronic Information Science & Technology 20、通信工程 Communications Engineering 21、信息安全Information Security 化学工程学院 School of Chemical Engineering 22、高分子材料与工程 Macromolecule Material and Engineering 23、化学工程与工艺Chemical Engineering and Technics 24、制药工程 Pharmacy Engineering 25、应用化学 Applied Chemistry 土木建筑工程学院 School of Civil Engineering 26、给排水工程Water Supply & Drainage Engineering 27、工程力学 Engineering Mechanics 28、水利水电工程 Hydraulic and Hydro-Power Engineering 29、土木工程 Civil Engineering 30、建筑环境与设备工程 Architectural Environment & Equipment Engineering 建筑 与艺术学院 School of Architecture and Arts 31、城市规划 Urban Planning 32、建筑 学 Architecture 33、艺术设计 Artistic Design 资源与环境学院 School of Resources and Environment 34、地理信息系统 Geographic Information System 35、环境工程
南京艺术学院第二册英语课文翻译(1~10) 第一单元 你去过古玩店吗?如果你能像买家那样博学,你就有可能买到不同凡响但又很便宜的东西。 幸运的发现 古玩店对许多人来说有一种特殊的魅力。高档一点的古玩店为了防尘,把文物漂亮地陈列在玻璃柜子里,那里往往令人望而却步。而对不太装腔作势的古玩店,无论是谁都不用壮着胆子才敢往里进。人们还常常有希望在发霉,阴暗,杂乱无章,迷宫般的店堂里,从杂乱地摆放在地面上的,一堆堆各式各样的破烂货里找到一件稀世珍品。 无论是谁都不会一下子就发现一件珍品。一个到处找便宜货买的人必须具有耐心,而且最重要的是看到珍品时要有鉴别珍品的能力。要做到这一点,他至少要像古董商一样懂行。他必须像一个专心致志进行探索的科学家一样抱有这样的希望,即终有一天,他的努力会取得丰硕的成果。 我的老朋友弗兰克哈利戴正是这样一个人。他多次向我详细讲他如何只花50英镑便买到一位名家的杰作。一个星期六的上午,弗兰克去了我家附近的一家古玩店。由于他从未去过那儿,结果他发现了许多有趣的东西。上午很快过去了,弗兰克正准备离去,突然看见地板上放着一只体积很大的货箱。古董商告诉他那只货箱刚到不久,但他嫌麻烦不想把它打开。经弗兰克恳求,古董商才勉强把货箱撬开了。箱内东西令人失望。除了一柄式样别致、雕有花纹的匕首外,货箱内装满了陶器,而且大部分都已破碎。弗兰克轻轻地把陶器拿出箱子,突然发现在箱底有一幅微型画,画面构图与线条使他想起了一幅他所熟悉的意大利画,于是他决定将画买下来。古董商漫不经心看了一眼那幅画,告诉弗兰克那画值50英镑。弗兰克几乎无法掩饰自己兴奋的心情,因为他明白自己发现了一件珍品。那幅不大的画原来是柯勒乔的一幅未被发现的杰作,价值几十万英镑。 第二单元 无论是男人、女人还是儿童,都可以从他们的衣着和外表的其他方面感受到时尚的影响。 时装流行的原理 时尚一直在变化和发展。时尚的五条基本原理是识别时尚及其流行趋势的基础。这些时尚原理保持不变。尽管时尚在变,但是这些原理却不变。他们是识别和预测时尚流行趋势的坚实基础。时尚流行的基本原理包括以下几条: 1.时尚的流行一般采取渐进的方式,很少采取突变的方式。时尚通常从一种风格逐渐地向另一种风格进化,是进化式的,而不是快速地变化。这一点经常可以从女裙长度的变化中得到体现。在一个季节中人们不希望裙子的长度有较大的变化。一般裙长要在几个季节甚至几年时间里缓慢地增加或减少。在20世纪50年代后期以及以后的10年里,裙子的长度开始以每年约1英寸的速度缩短,直至变成20世纪60年代后期的超短式样。在整个70年代,裙子的长度又逐渐增加。 2.消费者创造时尚。是消费者通过接受一种款式而抛弃另一种款式来决定流行的时尚,而不是设计师或制造商。尽管设计师、制造商、销售商可以促进或减缓新时尚的流行,但最终对时尚的接受与否还要取决于消费者。 3.价格不会影响时尚的流行。时尚的流行与否并不取决于价格。尽管一个新款式推出的价格会很高,但很快会有各种价格变化。一件向设计师定做的服装售价可能会高达几千美元,但是一旦此款式被仿制并以成衣批量生产,就会出现不同的价格以适合不同层次消费者的要
大学各专业名称英文翻译——理科SCIENCE 理科 SCIENCE 课程中文名称课程英文名称 矩阵分析 Matrix Analysis 面向对象程序设计方法 Design Methods of Object oriented Program 李代数 Lie Algebra 代数图论 Algebraic Graph Theory 代数几何(I) Algebraic Geometry(I) 泛函分析 Functional Analysis 论文选读 Study on Selected Papers Hoof代数 Hoof Algebra 基础代数 Fundamental Algebra 交换代数 Commutative Algebra 代数几何 Algebraic Geometry Hoof代数与代数群量子群 Hoof Algebra , Algebraic Group and Qua numb G roup 量子群表示 Representation of Quantum Groups 网络算法与复杂性 Network Algorithms and Complexity 组合数学 Combinatorial Mathematics 代数学 Algebra
半群理论 Semigroup Theory 计算机图形学 Computer Graphics 图的对称性 Graph Symmetry 代数拓扑 Algebraic Topology 代数几何(II) Algebraic Geometry(II) 微分几何 Differential Geometry 多复变函数 Analytic Functions of Several Complex Varian les 代数曲面 Algebraic Surfaces 高维代数簇 Algebraic Varieties of Higher Dimension 数理方程 Mathematics and Physical Equation 偏微分方程近代方法 The Recent Methods of Partial Differential Equatio ns 激波理论 The Theory of Shock Waves 非线性双曲型守恒律解的存在性 The Existence of Solutions for Non-linea r Hyperbolic Conservation Laws 粘性守恒律解的稳定性 Stability of Solutions for Viscous Conservation Laws 微分方程数值解 Numerical Methods for Differential Equations 小波理论与应用 Wavelet Theory and Application 非线性方程组的数值解法 Numerical Methods for No-linear System s of Eq uations 网络算法与复杂性 Network Algorithms and Complexity Graph Theory 60
中文学科、专业名称英文学科、专业名称哲学Philosophy 哲学Philosophy 马克思主义哲学Philosophy of Marxism xx 哲学Chinese Philosophy xx 哲学Foreign Philosophies 逻辑学Logic 伦理学Ethics 美学Aesthetics 宗教学Science of Religion 科学技术哲学Philosophy of Science and Technology 经济学Economics 理论经济学Theoretical Economics 政治经济学Political Economy 经济思想史History of Economic Thought 经济史History of Economic
西方经济学Western Economics 世界经济World Economics 人口、资源与环境经济学Population, Resources and Environmental Economics 应用经济学Applied Economics 国民经济学National Economics 区域经济学Regional Economics 财政学(含税收学) Public Finance (including Taxation) 金融学(含保险学) Finance (including Insurance) 产业经济学Industrial Economics 国际贸易学International Trade 劳动经济学Labor Economics 统计学Statistics 数量经济学Quantitative Economics 中文学科、专业名称英文学科、专业名称 国防经济学National Defense Economics
预约券reservation ticket 下午茶high tea 微博Microblog/ Tweets 裸婚naked wedding 亚健康sub-health 平角裤boxers 愤青young cynic 灵魂伴侣soul mate 小白脸toy boy 精神出轨soul infidelity 人肉搜索flesh search 剩女3S lady(single,seventies,stuck)/left girls 山寨copycat 异地恋long-distance relationship 性感妈妈yummy mummy 钻石王老五diamond bachelor 时尚达人fashion icon 上相的,上镜头的photogenic 学术界academic circle 哈证族certificate maniac 偶像派idol type 住房公积金housing funds 熟女cougar(源自电影Cougar Club) 挑食者picky-eater 伪球迷fake fans 紧身服straitjacket 团购group buying 奉子成婚shotgun marriage 婚前性行为premarital sex 炫富flaunt wealth 决堤breaching of the dike 上市list share 赌球soccer gambling 桑拿天sauna weather 自杀Dutch act 假发票fake invoice 金砖四国BRIC countries 笑料laughing stock 泰国香米Thai fragrant rice 学历造假fabricate academic credentials 泄洪release flood waters 狂热的gaga eg: I was gaga over his deep blue eyes when I first set eyes on him 防暑降温补贴high temperature subsidy 暗淡前景bleak prospects
大学各专业名称英文翻译理科SCIENCE 理科SCIENCE 课程中文名称课程英文名称 矩阵分析Matrix Analysis 面向对象程序设计方法Desig n Methods of Object orie nted Program 李代数Lie Algebra 代数图论Algebraic Graph Theory 代数几何(I )Algebraic Geometry (I) 泛函分析Functional Analysis 论文选读Study on Selected Papers Hoof 代数Hoof Algebra 基础代数Fundamental Algebra 交换代数Commutative Algebra 代数几何Algebraic Geometry \ /
Hoof 代数与代数群量子群Hoof Algebra , Algebraic Group and Qua numb G roup 量子群表示Representation of Quantum Groups 网络算法与复杂性Network Algorithms and Complexity 组合数学Combinatorial Mathematics 代数学Algebra 半群理论Semigroup Theory 计算机图形学Computer Graphics 图的对称性Graph Symmetry 代数拓扑Algebraic Topology 代数几何(II ) Algebraic Geometry (II ) 微分几何Differential Geometry 多复变函数Analytic Functions of Several Complex Varian les 代数曲面Algebraic Surfaces 高维代数簇Algebraic Varieties of Higher Dimension 数理方程Mathematics and Physical Equation
大学各专业名称英文翻译(一)——工学ENGINEERING 课程中文名称课程英文名称 高等数理方法Advanced Mathematical Method 弹塑性力学Elastic-Plastic Mechanics 板壳理论Theory of Plate and Shell 高等工程力学Advanced Engineering Mechanics 板壳非线性力学Nonlinear Mechanics of Plate and Shell 复合材料结构力学Structural Mechanics of Composite Material 弹性元件的理论及设计Theory and Design of Elastic Element 非线性振动Nonlinear Vibration 高等土力学Advanced Soil Mechanics 分析力学Analytic Mechanics 随机振动Random Vibration 数值分析Numerical Analysis 基础工程计算与分析Calculation and Analysis of Founda tion Engineering 结构动力学Structural Dynamics 实验力学Laboratory Mechanics 损伤与断裂Damage and Fracture 小波分析Wavelet Analysis 有限元与边界元分析方法Analytical Method of Finite Element and Boundary Element 最优化设计方法Optimal Design Method 弹性力学Elastic Mechanics 高层建筑基础Tall Building Foundation 动力学Dynanics 土的本构关系Soil Constitutive Relation 数学建模Mathematical Modeling 现代通信理论与技术Emerging Communications Theory and Technology 数字信号处理Digital Signal Processing 网络理论与多媒体技术Multi-media and Network Technology 医用电子学Electronics for Medicine 计算微电子学Computational Microelectronics 集成电路材料和系统电子学Material and System Electronics for In tegrated Circuits 网络集成与大型数据库Computer Network Integrating Technology and Large scale Database 现代数字系统Modern Digital System 微机应用系统设计Microcomputer Application Design 计算机网络新技术Modern Computer Network Technologies 网络信息系统Network Information System 图像传输与处理Image Transmission and Processing 图像编码理论Theory of Image Coding 遥感技术Remote Sensing Techniques 虚拟仪器系统设计Design of Virtual Instrument System 生物医学信号处理技术Signal Processing for Biology and Medicine 光纤光学Fiber Optics