(最新版)_毕业设计英文文献51单片机中英文文献翻译_

AT89C51的概况

The General Situation of AT89C51

Chapter 1 The application of AT89C51

Microcontrollers are used in a multitude of commercial applications such as modems, motor-control systems, air conditioner control systems, automotive engine and among others. The domains also require that these microcontrollers are be ensured by a robust testing process and a proper tools environment for the validation of these microcontrollers both at the component and at the system level. Intel Plaform Engineering department developed an object-oriented multi-threaded test environment for the validation of its AT89C51 automotive microcontrollers. The goals of thisenvironment was not only to provide a robust testing environment for the AT89C51 automotive microcontrollers, but to develop an environment which can be easily extended and reused for the validation of several other future microcontrollers. The environment was developed in conjunction with Microsoft Foundation Classes (AT89C51). The paper describes the design and mechanism of this test environment, its interactions with various

The 8-bit AT89C51 CHMOS microcontrollers are designed to engine-control systems, airbags, suspension systems, and antilock braking systems (ABS). The AT89C51 is especially well suited to applications that benefit from its processing speed and enhanced on-chip peripheral functions set, such as automotive power-train control, vehicle dynamic suspension, antilock braking, and stability control applications. Because of these critical applications, the market requires a reliable cost-effective controller with a low interrupt latency response, ability to service the integrated peripherals needed

in real time applications, and a CPU with above average processing power in a single package. The financial and legal risk of the market, particularly in mission criticalapplications such as an autopilot or anti-lock braking system, mistakes are financiallyprohibitive. Redesign costs can run as flaw. In addition, field replacements of components is extremely expensive, as the devices are typically sealed in modules with a total value several times that of the component. To mitigate these problems, it is essential that comprehensive testing of the controllers be carried out at both the component level and system level under worst case environmental and voltage conditions.This complete and thorough validation necessitates not only a well-defined process but also a proper environment and tools to facilitate and execute the mission successfully.Intel Chandler Platform Engineering group provides post silicon system validation (SV) of various micro-controllers and processors. The system validation process can be broken into three major parts.The type of the device and its application requirements determine which types of testing are performed on the device.

1.2 The AT89C51 provides the following standard features:

4Kbytes of Flash, 128 bytes of RAM, 32 IO lines, two 16-bittimercounters, a five vector two-level interrupt architecture,a full duple ser -ial port, on-chip oscillator and clock circuitry.In addition, the AT89C51 is designed with static logic for operation down to zero frequency and supports two software selectable power saving modes. The Idle Mode stops the CPU while allowing the RAM, timercounters,serial port and interrupt sys -tem to continue functioning. The Power-down Mode saves the RAM contents but freezes the oscil –lator disabling all other chip functions until the next Description

VCC Supply voltage.

GND Ground.

Port 0：Port 0 is an 8-bit open-drain bi-directional IO port. As an output port, each pin cansink eight TTL inputs. When 1s are written to port 0 pins, the pins can be used as this mode P0 . External pullups are required during programverification.

Port 1：Port 1 is an 8-bit bi-directional IO port with internal pullups.The Port 1 output buffers can sinkso -urce four TTL inputs.When 1s are written to Port 1 pins they are pulled be used as inputs. As inputs, Port 1 pins that are externally being pulled low will source current (IIL) because of the internal pullups.Port 1 also receives the low-order address bytes during Flash programming and verification.

Port 2：Port 2 is an 8-bit bi-directional IO port with internal pullups.The Port 2 outputbuffers can sinksource four TTL inputs.When 1s are written to Port 2 pins they arepulled be used as inputs. As inputs, Port 2 pins that are externally being pulled low will source current (IIL) because of the internal pullups. Port 2 emits the this application, it uses strong internal pull-ups when emitting 1s. During accesses to external data memory that use 8-bit addresses (MOVX @ RI), Port 2 emits the contents of the P2 Special Function Register.Port 2 also receives the Flash programming and verification.

Port 3：Port 3 is an 8-bit bi-directional IO port with internal pullups.The Port 3 outputbuffers can sinksou -rce four TTL inputs.When 1s are written to Port 3 pins they are pulled be used as inputs. As inputs,Port 3 pins that are externally being pulled low will source current (IIL) because of the pullups.

Port 3 also serves the functions of various special featuresof the AT89C51 as listed below:

RST：Reset input. A this pin for two machine cycles while the oscillator is running resets the device.

ALEPROG：Address Latch Enable output pulse for latching the low byte of the address duringaccesses to external memory.This pin is also the program pulse input (PROG) during Flash programming.In normal operation ALE is emitted at a constant rate of 16 the oscillator frequency,and may be used for external timing or clocking purposes. Note, be disabled by setting bit 0 of SFR location 8EH. With the bit set, ALE is active onlyduring a MOVX or MOVC instruction. Otherwise, the pin is weakly pulled external execution mode.

PSEN：Program Store Enable is the read strobe to external program memory. When theAT89C51 is executing code from external program memory, PSEN is activated twiceeach machine cycle, except that two PSEN activations are skipped during each access toexternal data memory.

EAVPP：External Access Enable. EA must be strapped to GND in order to enable the deviceto fetch code from external program memory locations starting at 0000H up to FFFFH.Note, alsreceives the 12-volt programming enable voltage (VPP) during Flash programming, forparts that require 12-volt VPP.

XTAL1：Input to the inverting oscillator amplifier and input to the internal clock operatingcircuit.

XTAL2：Output from the inverting oscillator amplifier.Oscillator CharacteristicsXTAL1 and XTAL2 are the input and output, respectively, of an inverting amplifierwhich can be configured for use as an on-chip oscillator, as shown in Figure 1. Either aquartz crystal or ceramic resonator may be used. To drive the device from an externalclock source, XTAL2 should be left unconnected while XTAL1 is driven as shown in Figure 2.There are no requirements on the duty cycle of the external clock signal, since the input to the internal clocking circuitry is through a divide-by-two flip-flop, but minimum and maximum voltage idle mode, the CPU puts itself to sleep while all the onchip peripherals remain active.

The mode is invoked by software. The content of the on-chip RAM and all the special functions registers remain unchanged during this mode. The idle mode can be terminated by any enabled interrupt or by a idle is terminated by a ,from where it left off, up to two machine cycles before the internal reset algorithm takes control. On-chip this event, but access to the port pins is not inhibited. To eliminate the possibility of an unexpected write to a port pin when Idle is terminated by reset, the instruction following the one that invokes Idle should not be one that writes to a port pin or to external memory.

Power-down Mode

In the power-down mode, the oscillator is stopped, and the instruction that invokes power-down is the last instruction executed. The on-chip RAM and Special Function Registers retain their values until the power-down mode is terminated. The only exit from power-down is a -chip RAM. The reset should not be activated before VCC is restored to its normal operating level and must be either programming mode. To program any nonblank byte in the on-chip Flash Memory, the entire memory must be erased using the Chip Erase Mode.

2 Programming Algorithm

Before programming the AT89C51, the address, data and control signals should be set up according to the Flash programming mode table and Figure 3 and Figure 4. To program the AT89C51, take the following steps.1. Input the desired memory location on the address lines.2. Input the appropriate data byte on the data lines. 3. Activate the correct combination of control signals. 4. Raise EAVPP to 12V for the the Flash array or the lock bits. The byte-write cycle is self-timed and typically takes no more than 1.5 ms. Repeat steps 1 through 5, changing the address and data for the entire array or until the end of the object file is reached. Data Polling: The AT89C51 features Data Polling to indicate the end of a write

cycle. During a write cycle, an attempted read of the last byte written will result in the complement of the written datum on PO.7. Once the write cycle completed, true data are valid on all outputs, and the next cycle may begin. Data Polling may begin any time after a write cycle initiated.

2.1ReadyBusy:

The progress of byte programming can also be monitored by the RDYBSY output signal. P3.4 is pulled low after ALE goes when programming is done to indicate READY.

Program Verify:

If lock bits LB1 and LB2 programmed, the programmed code data can be read back via the address and data lines for verification. The lock bits cannot be verified directly. Verification of the lock bits is achieved by observing that their features are enabled.

Figure 2-1-1 Programming the Flash Figure 2-2-2 Verifying the Flash

2.2 Chip Erase:

The entire Flash array is erased electrically by using the proper combination of control signals and by with all “1”s. The chip erase operation must be executed before the code memory can be re-programmed.

2.3 Reading the Signature Bytes:

The signature bytes are read by the same procedure as a normal verification of locations 030H, 031H, and 032H, except that P3.6 and P3.7 must be pulled to a logic low. The values returned areas follows.

(030H) = 1EH indicates manufactured by Atmel

(031H) = 51H indicates 89C51

(032H) = FFH indicates 12V programming

(032H) = 05H indicates 5V programming

2.4 Programming Interface

Every code byte in the Flash array can be written and the entire array can be erased by using the appropriate combination of control signals.

The write operation cycle is selftimed and once initiated, will automatically time itself to completion. A microcomputer interface converts information between two forms. Outside the microcomputer the information electronic system exists as a physical signal, but within the program, it is represented numerically. The function of any interface can be broken down into a number of operations which modify the data in some way, so that the process of conversion between the external and internal forms is carried out in a number of steps. An analog-to-digital converter(ADC) is used to convert a continuously variable signal to a corresponding digital form which can take any one of a fixed number of possible binary values. If the output of the transducer does not vary continuously, no ADC is necessary. In this case the signal conditioning section must convert the incoming signal to a form which can be connected directly to the next part of the interface, the inputoutput section of the microcomputer itself. Output interfaces take a similar form, the obvious difference being that is in the opposite direction; it is passed from the program to the outside world. In this case the program may call

an output subroutine which supervises the operation of the interface and performs the scaling numbers which may be needed for digital-to-analog converter(DAC). This subroutine passes information in turn to an output device which produces a corresponding electrical signal, which could be converted into analog form using a DAC. Finally the signal is conditioned(usually amplified) to a form suitable for operating an actuator. The signals used within microcomputer circuits are almost always too small to be connected directly to the outside world” and some kind of interface must be used to translate them to a more appropriate form. The design of section of interface circuits is one of the most important tasks facing the engineer wishing to apply microcomputers. We that in microcomputers information is represented as discrete patterns of bits; this digital form is most useful when the microcomputer is to be connected to equipment which can only be switched on or off, where each bit might represent the state of a switch or actuator. To solve real-world problems, a microcontroller must just a CPU, a program, and a data memory. In addition, it must contain from the outside world. Once the CPU gathers information and processes the data, it must also be able to effect change on some portion of the outside world. These microcontrollers is the general purpose I70 port. Each of the IO pins can be used as either an input or an output. The function of each pin is determined by setting or clearing corresponding bits in a corresponding data direction register during the initialization stage of a program. Each output pin may be driven to either a logic one or a logic zero by using CPU instructions to pin may be viewed (or read.) by the CPU using program instructions. Some type of serial unit is included on microcontrollers to allow the CPU to communicate bit-serially with external devices. Using a bit serial format instead of bit-parallel format requires fewer IO pins to perform the communication function,

which makes it less expensive, but slower. Serial transmissions are performed either synchronously or asynchronously.

翻译

AT89C51的概况

1 AT89C51应用

单片机广泛应用于商业：诸如调制解调器，电动机控制系统，空调控制系统，汽车发动机和其他一些领域。这些单片机的高速处理速度和增强型外围设备集合使得它们适合于这种高速事件应用场合。然而，这些关键应用领域也要求这些单片机高度可靠。健壮的测试环境和用于验证这些无论在元部件层次还是系统级别的单片机的合适的工具环境保证了高可靠性和低市场风险。Intel 平台工程部门开发了一种面向对象的用于验证它的AT89C51 汽车单片机多线性测试环境。这种环境的目标不仅是为AT89C51 汽车单片机提供一种健壮测试环境，而且开发一种能够容易扩展并重复用来验证其他几种将来的单片机。开发的这种环境连接了AT89C51。本文讨论了这种测试环境的设计和原理，它的和各种硬件、软件环境部件的交互性，以及如何使用AT89C51。

1.1 介绍

8 位AT89C51 CHMOS 工艺单片机被设计用于处理高速计算和快速输入输出。MCS51 单片机典型的应用是高速事件控制系统。商业应用包括调制解调器，电动机控制系统，打印机，影印机，空调控制系统，磁盘驱动器和医疗设备。汽车工业把MCS51 单片机用于发动机控制系统，悬挂系统和反锁制动系统。AT89C51 尤其很好适用于得益于它的处理速度和增强型片上外围功能集，诸如：汽车动力控制，车辆动态悬挂，反锁制动和稳定性控制应用。由于这些决定性应用，市场需要一种可靠的具有低干扰潜伏响应的费用-效能控制器，服务大量时间和事件驱动的在实时应用需要的集成外围的能力，具有在单一程序包中高出平均处理功率的中央处理器。拥有操作不可预测的设备的经济和法律风险是很高的。一旦进入市场，尤其任务决定性应用诸如自动驾驶仪或反锁制动系统，错误将是财力上所禁止的。重新设计的费用可以高达500K 美元，如果产品族享

有同样内核或外围设计缺陷的话，费用会更高。另外，部件的替代品领域是极其昂贵的，因为设备要用来把模块典型地焊接成一个总体的价值比各个部件高几倍。为了缓和这些问题，在最坏的环境和电压条件下对这些单片机进行无论在部件级别还是系统级别上的综合测试是必需的。Intel Chandler 平台工程组提供了各种单片机和处理器的系统验证。这种系统的验证处理可以被分解为三个主要部分。系统的类型和应用需求决定了能够在设备上执行的测试类型。

1.2 AT89C51提供以下标准功能：

4k 字节FLASH 闪速存储器，128 字节内部RAM，32 个IO 口线，2 个16 位定时计数器，一个5 向量两级中断结构，一个全双工串行通信口，片内振荡器及时钟电路。同时，AT89C51 降至0Hz 的静态逻辑操作，并支持两种可选的节电工作模式。空闲方式体制CPU 的工作，但允许RAM，定时计数器，串行通信口及中断系统继续工作。掉电方式保存RAM 中的内容，但振荡器体制工作并禁止其他所有不见工作直到下一个硬件复位。

图1-2-1 AT89C51 方框图

1.3引脚功能说明

·Vcc：电源电压

·GND：地

·P0 口：P0 口是一组8 位漏极开路型双向IO 口，也即地址数据总线复用。作为输出口用时，每位能吸收电流的方式驱动8 个TTL 逻辑门电路，对端口写“1”可作为高阻抗输入端用。在访问外部数据存储器或程序存储器时，这组口

线分时转换地址（低8 位）和数据总线复用，在访问期间激活内部上拉电阻。在Flash 编程时，P0 口接受指令字节，而在程序校验时，输出指令字节，校验时，要求外接上拉电阻。

·P1 口：P1 是一个带内部上拉电阻的8 位双向IO 口，P1 的输出缓冲级可驱动（吸收或输出电流）4 个TTL 逻辑门电路。对端口写“1”，通过内部的上拉电阻把端口拉到高电平，此时可作输入口。作为输入口使用时，因为内部存在上拉电阻，某个引脚被外部信号拉低时会输出一个电流（IIL）。Flash 编程和程序校验期间，P1 接受低8 位地址。

·P2 口：P2 是一个带有内部上拉电阻的8 位双向IO 口，P2 的输出缓冲级可驱动（吸收或输出电流）4 个TTL 逻辑门电路。对端口写“1”，通过内部的上拉电阻把端口拉到高电平，此时可作输入口。作为输入口使用时，因为内部存在上拉电阻，某个引脚被外部信号拉低时会输出一个电流（IIL）。在访问外部程序存储器或16 位四肢的外部数据存储器（例如执行MOVX @DPTR指令）时，P2 口送出高8 位地址数据，在访问8 位地址的外部数据存储器（例如执行MOVX @ RI 指令）时，P2 口线上的内容（也即特殊功能寄存器（SFR）区中R2 寄存器的内容），在整个访问期间不改变。Flash 编程和程序校验时，P2 也接收高位地址和其他控制信号。

·P3 口：P3 是一个带有内部上拉电阻的8 位双向IO 口，P3 的输出缓冲级可驱动（吸收或输出电流）4 个TTL 逻辑门电路。对端口写“1”，通过内部的上拉电阻把端口拉到高电平，此时可作输入口。作为输入口使用时，因为内部存在上拉电阻，某个引脚被外部信号拉低时会输出一个电流（IIL）。P3 口还接收一些用于Flash 闪速存储器编程和程序校验的控制信号。

·RST：复位输入。当振荡器工作时，RST 引脚出现两个机器周期以上高电平将使单片机复位。

·ALEPROG：当访问外部程序存储器或数据存储器时，ALE（地址锁存允许）输出脉冲用于锁存地址的低8 位字节。即使不访问外部存储器，ALE 仍以时钟振荡频率的16 输出固定的正脉冲信号，因此它可对外输出时钟或用于定时目的。要注意的是，每当访问外部数据存储器时将跳过一个ALE 脉冲。对Flash 存储器编程期间，该引脚还用于输入编程脉冲（PROG）。如有必要，可通过对特

殊功能寄存器（SFR）区中的8EH 单元D0 位置位，可禁止ALE 操作。该位置位后，只有一条MOVX 和MOVC 指令ALE 才会被激活。此外，该引脚会被微弱拉高，单片机执行外部程序时，应设置ALE 无效。

·PSEN：程序存储允许输出是外部程序存储器的读选通型号，当89C51 由外部存储器取指令（或数据）时，每个机器周期两次PSEN 有效，即输出两个脉冲。在此期间，当访问外部数据存储器，这两次有效的PSEN 信号不出现。

·EAVPP：外部访问允许。欲使CPU 仅访问外部程序存储器（地址为

0000H—FFFFH），EA 端必须保持低电平（接地）。需注意的是：如果加密位LB1 被编程，复位时内部会锁存EA 端状态。如EA 端为高电平（接Vcc 端），CPU 则执行内部程序存储器中的指令。Flash 存储器编程时，该引脚加上+12v 的编程允许电源Vpp，当然这必须是该器件使用12v 编程电压Vpp。

·XTAL1：振荡器反相放大器及内部时钟发生器的输入端。

·XTAL2：振荡器反相放大器的输出端。89C51 中有一个用于构成内部振荡器的高增益反相放大器，引脚XTAL1 和XTAL2分别是该放大器的输入端和输出端。这个放大器与作为反馈元件的片外石英晶体或陶瓷谐振器一起构成自激振荡器，振荡电路参见图5。外接石英晶体或陶瓷谐振器及电容C1、C2 接在放大器的反馈回路中构成并联振荡电路。对电容C1、C2 虽没有十分严格的要求，但电容容量的大小会轻微影响振荡频率的高低、振荡器工作的稳定性、起振的难易程度及温度稳定性，如果使用石英晶体，我们推荐电容使用30Pf±10 Pf，而如使用陶瓷谐振器建议选择40Pf±10Pf。用户也可以采用外部时钟。这种情况下，外部时钟脉冲接到XTAL1 端，即内部时钟发生器的输入端XTAL2 则悬空。

·掉电模式：

在掉电模式下，振荡器停止工作，进入掉电模式的指令是最后一条被执行的指令，片内RAM 和特殊功能寄存器的内容在终止掉电模式前被冻结。推出掉电模式的唯一方法是硬件复位，复位后将重新定义全部特殊功能寄存器但不改变RAM 中的内容，在Vcc 恢复到正常工作电平前，复位应无效，且必须保持一定时间以使振荡器重启动并稳定工作。89C51 的程序存储器阵列是采用字节写入方式编程的，每次写入一个字符，要对整个芯片的EPROM 程序存储器写入一个非空字节，必须使用片擦除的方法将整个存储器的内容清楚。

2 编程方法

编程前，设置好地址、数据及控制信号，编程单元的地址加在P1 口和P2 口的P2.0—P2.3（11 位地址范围为0000H——0FFFH），数据从P0口输入，引脚P2.6、P2.7 和P3.6、P3.7 的电平设置见表6，PSEB 为低电平，RST保持高电平，EAVpp 引脚是编程电源的输入端，按要求加上编程电压，ALEPROG引脚输入编程脉冲（负脉冲）。编程时，可采用4—20MHz 的时钟振荡器，89C51 编程方法如下：在地址线上加上要编程单元的地址信号在数据线上加上要写入的数据字节。激活相应的控制信号。在高电压编程方式时，将EAVpp 端加上+12v 编程电压。每对Flash 存储阵列写入一个字节或每写入一个程序加密位，加上一个ALEPROG 编程脉冲。改变编程单元的地址和写入的数据，重复1—5 步骤，知道全部文件编程结束。每个字节写入周期是自身定时的，通常约为1.5ms。·数据查询89C51 单片机用数据查询方式来检测一个写周期是否结束，在一个写周期中，如需要读取最后写入的那个字节，则读出的数据的最高位（P0.7）是原来写入字节的最高位的反码。写周期开始后，可在任意时刻进行数据查询。

2.1ReadyBusy:

字节编程的进度可通过ReadyBusy 输出信号检测，编程期间，ALE 变为高电平“H”后P3.4（ReadyBusy）端被拉低，表示正在编程状态（忙状态）。编程完成后，P3.4 变为高电平表示准备就绪状态。

·程序校验：如果加密位LB、LB2 没有进行编程，则代码数据可通过地址和数据线读回原编写的数据，采用下图的电路，程序存储器的地址由P1 口和P2 口的P2.0—P2.3 输入，数据由P0 口读出，P206、P2.7 和P3.6、P3.7 的控制信号见表6，PSEN 保持低电平，ALE、EA 和RST 保持高电平。校验时，P0 口必须接上10k 左右的上拉电阻。

图2-1-1 编程电路图2-2-2 校验电路

2.2芯片擦除:

利用控制信号的正确组合(表6)并保持ALEPROG 引脚10ms 的低电平脉冲宽度即可将EPROM 阵列(4k 字节)和三个加密位整片擦除,代码阵列在片擦除操作中将任何非空单元写入”1”,这步骤需在编程之前进行。

2.3读片内签名字节:

89C51 单片机内有3 个签名字节,地址为030H、031H 和032H。于声明该器件的厂商、号和编程电压。读签名字节的过程和单元030H、031H 和032H的正常校验相仿，只需要将P3.6 和P3.7 保持低电平，返回值意义如下：(030H) = 1EH 声明产品由ATMEL 公司制造。

(031H) = 51H 声明为89C51 单片机。

(032H) = FFH 声明为12V 编程电压。

(032H) = 05H 声明为5 编程电压。

2.4 编程接口：

采用控制信号的正确组合可对Flash 闪速存储阵列中的每一代码字节进行写入和存储器的整片擦除，写操作周期是自身定时的，初始化后它将自动定时到操作完成。微机接口实现两种信息形式的交换。在计算机之外，由电子系统所处理的信息以一种物理信号形式存在，但在程序中，它是用数字表示的。任

一接口的功能都可分为以某种形式进行数据库变换的一些操作，所以外部和内部形式的转换是由许多步骤完成的。模拟-数字转换器（ADC）用来将连续变化信号变成相应的数字量，这数字量可是可能性的二进制数值中的一固定值。如果传感器输出不是连续变化的，就不需模拟-数字转换。这种情况下，信号调理单元必须将输入信号变换成为另一信号，也可直接与接口的下一部分，即微计算机本身的输入输出单元相连接。输出接口采用相似的形式，明显的差别在于信息流的方向相反；是从程序到外部世界。这种情况下，程序可称为输出程序，它监督接口的操作并完成数字-模拟转换器（DAC）所需数字的标定。该子程序依次送出信息给输出器件，产生相应的电信号，由DAC 转换成模拟形式。最后，信号经调理（通常是放大）以形成适应于执行器操作的形式。在微机电路中使用的信号几乎总是太小而不能被直接地连到“外部世界”，因而必须用某种形式将其转换成更适宜的形式。接口电路部分的设计是使用微机的工程师所面临最重要的任务之一。我们已经了解到微机中，信号以离散的位形式表示。当微机要与只有打开或关闭操作的设备相连时，这种数字形式是最有用的，这里每一位都可表示一开关或执行器的状态。为了解决实际问题，一个单片机不仅包括CPU，程序和数据存储器，另外，它必须含有通过CPU 访问外部信息的硬件。一旦CPU 收集到数据信息和流程，它必须能够改变外部领域的一部分，这些硬件设备称作外围设备，它们是CPU 通往外部的窗口。

单片机可利用外围设备中最基本的用于一般用途的IO 接口，每个IO 接口既可作为输入端又可作为输出端，每个IO 接口的功能取决与程序初始化阶段对数据方位寄存器相应位进行置一和清零操作，通过CPU 指令对数据寄存器相应位进行置一和清零来置一和清零输出端口，同样输入端口逻辑位也可以通过CPU 指令访问。一些类型的串行口单元允许CPU 与外部设备进行串口通信，用串口位代替平行位进行通信需要少许的IO 口，这样使通信费用降低但速度也相对慢些。串口传送可以同步也可以异步。

AT89C51单片机外文翻译

AT89C51外文翻译 Description The AT89C51 is a low-power, high-performance CMOS 8-bit microcomputer with 4K bytes of Flash Programmable and Erasable Read Only Memory (PEROM). The device is manufactured using Atmel’s high density nonvolatile memory technology and is compatible with the industry standard MCS-51? instruction-set and pinout. The on-chip Flash allows the program memory to be reprogrammed in-system or by a conventional nonvolatile memory programmer. By combining a versatile 8-bit CPU with Flash on a monolithic chip, the Atmel AT89C51 is a powerful microcomputer which provides a highly flexible and cost effective solution to many embedded control applications. Features ? Compatible with MCS-51? Products ? 4K Bytes of In-System Reprogrammable Flash Memory – Endurance: 1,000 Write/Erase Cycles ? Fully Static Operation: 0 Hz to 24 MHz ? Three-Level Program Memory Lock ? 128 x 8-Bit Internal RAM ? 32 Programmable I/O Lines ? Two 16-Bit Timer/Counters ? Six Interrupt Sources ? Programmable Serial Channel ? Low Power Idle and Power Down Modes The AT89C51 provides the following standard features: 4K bytes of Flash,128 bytes of RAM, 32 I/O lines, two 16-bit timer/counters, a five vector two-level interrupt architecture, a full duplex serial port, on-chip oscillator and clock circuitry. In addition, the AT89C51 is designed with static logic for operation down to zero frequency and supports two software selectable power saving modes. The Idle Mode stops the CPU while allowing the RAM, timer/counters, serial port and interrupt system to continue functioning. The Power-down Mode saves the RAM contents but freezes the oscillator disabling all other chip functions until the next hardware reset.

毕业设计外文翻译附原文

外文翻译 专业机械设计制造及其自动化学生姓名刘链柱 班级机制111 学号1110101102 指导教师葛友华

外文资料名称： Design and performance evaluation of vacuum cleaners using cyclone technology 外文资料出处：Korean J. Chem. Eng., 23(6), (用外文写) 925-930 (2006) 附件： 1.外文资料翻译译文 2.外文原文

应用旋风技术真空吸尘器的设计和性能介绍 吉尔泰金，洪城铱昌，宰瑾李， 刘链柱译 摘要：旋风型分离器技术用于真空吸尘器 - 轴向进流旋风和切向进气道流旋风有效地收集粉尘和降低压力降已被实验研究。优化设计等因素作为集尘效率，压降，并切成尺寸被粒度对应于分级收集的50％的效率进行了研究。颗粒切成大小降低入口面积，体直径，减小涡取景器直径的旋风。切向入口的双流量气旋具有良好的性能考虑的350毫米汞柱的低压降和为1.5μm的质量中位直径在1米3的流量的截止尺寸。一使用切向入口的双流量旋风吸尘器示出了势是一种有效的方法，用于收集在家庭中产生的粉尘。 摘要及关键词：吸尘器; 粉尘; 旋风分离器 引言 我们这个时代的很大一部分都花在了房子，工作场所，或其他建筑，因此，室内空间应该是既舒适情绪和卫生。但室内空气中含有超过室外空气因气密性的二次污染物，毒物，食品气味。这是通过使用产生在建筑中的新材料和设备。真空吸尘器为代表的家电去除有害物质从地板到地毯所用的商用真空吸尘器房子由纸过滤，预过滤器和排气过滤器通过洁净的空气排放到大气中。虽然真空吸尘器是方便在使用中，吸入压力下降说唱空转成比例地清洗的时间，以及纸过滤器也应定期更换，由于压力下降，气味和细菌通过纸过滤器内的残留粉尘。 图1示出了大气气溶胶的粒度分布通常是双峰形，在粗颗粒（>2.0微米）模式为主要的外部来源，如风吹尘，海盐喷雾，火山，从工厂直接排放和车辆废气排放，以及那些在细颗粒模式包括燃烧或光化学反应。表1显示模式，典型的大气航空的直径和质量浓度溶胶被许多研究者测量。精细模式在0.18?0.36 在5.7到25微米尺寸范围微米尺寸范围。质量浓度为2?205微克，可直接在大气气溶胶和 3.85至36.3μg/m3柴油气溶胶。

毕业设计英文翻译

使用高级分析法的钢框架创新设计 1．导言 在美国，钢结构设计方法包括允许应力设计法(ASD)，塑性设计法(PD)和荷载阻力系数设计法(LRFD)。在允许应力设计中，应力计算基于一阶弹性分析，而几何非线性影响则隐含在细部设计方程中。在塑性设计中，结构分析中使用的是一阶塑性铰分析。塑性设计使整个结构体系的弹性力重新分配。尽管几何非线性和逐步高产效应并不在塑性设计之中，但它们近似细部设计方程。在荷载和阻力系数设计中，含放大系数的一阶弹性分析或单纯的二阶弹性分析被用于几何非线性分析，而梁柱的极限强度隐藏在互动设计方程。所有三个设计方法需要独立进行检查，包括系数K计算。在下面，对荷载抗力系数设计法的特点进行了简要介绍。 结构系统内的内力及稳定性和它的构件是相关的，但目前美国钢结构协会（AISC）的荷载抗力系数规范把这种分开来处理的。在目前的实际应用中，结构体系和它构件的相互影响反映在有效长度这一因素上。这一点在社会科学研究技术备忘录第五录摘录中有描述。 尽管结构最大内力和构件最大内力是相互依存的（但不一定共存），应当承认，严格考虑这种相互依存关系，很多结构是不实际的。与此同时，众所周知当遇到复杂框架设计中试图在柱设计时自动弥补整个结构的不稳定（例如通过调整柱的有效长度）是很困难的。因此，社会科学研究委员会建议在实际设计中，这两方面应单独考虑单独构件的稳定性和结构的基础及结构整体稳定性。图28.1就是这种方法的间接分析和设计方法。

在目前的美国钢结构协会荷载抗力系数规范中，分析结构体系的方法是一阶弹性分析或二阶弹性分析。在使用一阶弹性分析时，考虑到二阶效果，一阶力矩都是由B1,B2系数放大。在规范中，所有细部都是从结构体系中独立出来，他们通过细部内力曲线和规范给出的那些隐含二阶效应，非弹性，残余应力和挠度的相互作用设计的。理论解答和实验性数据的拟合曲线得到了柱曲线和梁曲线，同时Kanchanalai发现的所谓“精确”塑性区解决方案的拟合曲线确定了梁柱相互作用方程。 为了证明单个细部内力对整个结构体系的影响，使用了有效长度系数，如图28.2所示。有效长度方法为框架结构提供了一个良好的设计。然而，有效长度方法的

步进电机及单片机英文文献及翻译

外文文献： Knowledge of the stepper motor What is a stepper motor： Stepper motor is a kind of electrical pulses into angular displacement of the implementing agency. Popular little lesson: When the driver receives a step pulse signal, it will drive a stepper motor to set the direction of rotation at a fixed angle (and the step angle). You can control the number of pulses to control the angular displacement, so as to achieve accurate positioning purposes; the same time you can control the pulse frequency to control the motor rotation speed and acceleration, to achieve speed control purposes. What kinds of stepper motor sub-： In three stepper motors: permanent magnet (PM), reactive (VR) and hybrid (HB) permanent magnet stepper usually two-phase, torque, and smaller, step angle of 7.5 degrees or the general 15 degrees; reaction step is generally three-phase, can achieve high torque output, step angle of 1.5 degrees is generally, but the noise and vibration are large. 80 countries in Europe and America have been eliminated; hybrid stepper is a mix of permanent magnet and reactive advantages. It consists of two phases and the five-phase: two-phase step angle of 1.8 degrees while the general five-phase step angle of 0.72 degrees generally. The most widely used Stepper Motor. What is to keep the torque (HOLDING TORQUE) How much precision stepper motor? Whether the cumulative： The general accuracy of the stepper motor step angle of 3-5%, and not cumulative.

51单片机英文翻译

Single chip brief introduction The monolithic integrated circuit said that the monolithic micro controller, it is not completes some logical function the chip, but integrates a computer system to a chip on. Summary speaking: A chip has become a computer. Its volume is small, the quality is light, and the price cheap, for the study, the application and the development has provided the convenient condition. At the same time, the study use monolithic integrated circuit is understands the computer principle and the structure best choice. The monolithic integrated circuit interior also uses with the computer function similar module, SCM basic component is a central processing unit (CPU in the computing device and controller), read-only memory (usually expressed as a ROM), read-write memory (also known as Random Access Memory MRAM is usually expressed as a RAM) , input / output port (also divided into parallel port and serial port, expressed as I / O port), and so composed. In fact there is also a clock circuit microcontroller, so that during operation and control of the microcontroller, can rhythmic manner. In addition, there are so-called "break system", the system is a "janitor" role, when the microcontroller control object parameters that need to be intervention to reach a particular state, can after this "janitor" communicated to the CPU, so that CPU priorities of the external events to take appropriate counter-measures. what is different is its these part performance is opposite our home-use computer weak many, but the price is also low, generally does not surpass 10 Yuan then ......Made some control electric appliance one kind with it is not the 'very complex work foot, We use now the completely automatic drum washer, the platoon petti-coat pipe: VCD and so on Inside the electrical appliances may see its form! ......It is mainly takes the control section the core part It is one kind of online -like real-time control computer, online -like is the scene control, needs to have the strong antijamming ability, the low cost, this is also and the off-line type computer (for instance home use PC,) main difference The monolithic integrated circuit is depending on the procedure, and may revise. Realizes the different function through the different procedure, particularly special unique some functions, this is other component needs to take the very big effort to be able to achieve, some are the flowered big strength is also very difficult to achieve. One is not the very complex function, if develops in the 50s with the US 74 series, or the 60s's CD4000 series these pure hardware do decides, the electric circuit certainly arc a big PCB board ! But if, if succeeded in the 70s with the US puts in the market the series monolithic integrated circuit, the result will have the huge difference. Because only the monolithic integrated circuit compiles through you the procedure may realize the high intelligence, high efficiency, as well as redundant reliability The CPU is the key component of a digital computer. Its purpose is to decode instruction received from memory and perform transfers, arithmetic, logic, and control operations with data stored in internal registers, memory, or I/O interface units. Externally, the CPU provides one or more buses for transferring instructions, data, and control information to and from components connected to it. A microcontroller is present in the keyboard and in the monitor in the generic computer; thus these components are also shaded. In such microcontrollers, the CPU may be quite different from those discussed in this chapter. The word lengths may be short, the number of registers small, and the instruction sets limited. Performance, relatively speaking, is poor, but adequate for the task. Most

毕业设计_英语专业论文外文翻译

1. Introduction America is one of the countries that speak English. Because of the special North American culture, developing history and the social environment, American English has formed its certain unique forms and the meaning. Then it turned into American English that has the special features of the United States. American English which sometimes also called United English or U.S English is the form of the English language that used widely in the United States .As the rapid development of American economy, and its steady position and strong power in the world, American English has become more and more widely used. As in 2005, more than two-thirds of English native speakers use various forms of American English. The philologists of the United States had divided the English of the United States into four major types: “America n creating”; “Old words given the new meaning”; “Words that eliminated by English”;“The phonetic foreign phrases and the languages that are not from the English immigrates”[1]. Compared to the other languages, American English is much simple on word spelling, usage and grammar, and it is one of the reasons that American English is so popular in the world. The thesis analyzes the differences between American English and British English. With the main part, it deals with the development of American English, its peculiarities compared to that of British English, its causes and tendency. 2. Analyses the Differences As we English learners, when we learning English in our junior or senior school, we already came across some words that have different spellings, different pronunciations or different expressions, which can be represented by following contrasted words: spellings in "color" vs. "colour"; pronunciations in "sec-re-ta-ry" vs. "sec-re-try";

51单片机外文文献

The Introduction of AT89C51 Description The AT89C51 is a low-power, high-performance CMOS 8-bit microcomputer with 4K bytes of Flash programmable and erasable read only memory (PEROM). The device is manufactured using Atmel’s high-density nonvolatile memory technology and is compatible with the industry-standard MCS-51 instruction set. The on-chip Flash allows the program memory to be reprogrammed in-system or by a conventional nonvolatile memory programmer. By combining a versatile 8-bit CPU with Flash on a monolithic chip, the Atmel AT89C51 is a powerful microcomputer which provides a highly-flexible and cost-effective solution to many embedded control applications. Function characteristic The AT89C51 provides the following standard features: 4K bytes of Flash, 128 bytes of RAM, 32 I/O lines, two 16-bit timer/counters, one 5 vector two-level interrupt architecture, a full duplex serial port, one-chip oscillator and clock circuitry. In addition, the AT89C51 is designed with static logic for operation down to zero frequency and supports two software selectable power saving modes. The Idle Mode stops the CPU while allowing the RAM, timer/counters, serial port and interrupt system to continue functioning. The Power-down Mode saves the RAM contents but freezes the oscillator disabling all other chip functions until the next hardware reset. Pin Description VCC：Supply voltage. GND：Ground.

单片机_英文参考文献

Structure and function of the MCS-51 series Structure and function of the MCS-51 series one-chip computer MCS-51 is a name of a piece of one-chip computer series which Intel Company produces. This company introduced 8 top-grade one-chip computers of MCS-51 series in 1980 after introducing 8 one-chip computers of MCS-48 series in 1976. It belong to a lot of kinds this line of one-chip computer the chips have,such as 8051, 8031, 8751, 80C51BH, 80C31BH,etc., their basic composition, basic performance and instruction system are all the same. 8051 daily representatives- 51 serial one-chip computers . An one-chip computer system is made up of several following parts: ( 1) One microprocessor of 8 (CPU). ( 2) At slice data memory RAM (128B/256B),it use not depositting not can reading /data that write, such as result not middle of operation, final result and data wanted to show, etc. ( 3) Procedure memory ROM/EPROM (4KB/8KB ), is used to preserve the procedure , some initial data and form in slice. But does not take ROM/EPROM within some one-chip computers, such as 8031 , 8032, 80C ,etc.. ( 4) Four 8 run side by side I/O interface P0 four P3, each mouth can use as introduction , may use as exporting too. ( 5) Two timer / counter, each timer / counter may set up and count in the way, used to count to the external incident, can set up into a timing way too, and can according to count or result of timing realize the control of the computer. ( 6) Five cut off cutting off the control system of the source . ( 7) One all duplexing serial I/O mouth of UART (universal asynchronous receiver/transmitter (UART) ), is it realize one-chip computer or one-chip computer and serial communication of computer to use for. ( 8) Stretch oscillator and clock produce circuit, quartz crystal finely tune electric capacity need outer. Allow oscillation frequency as 12 megahertas now at most. Every the above-mentioned part was joined through the inside data bus .Among them, CPU is a core of the one-chip computer, it is the control of the computer and command centre, made up of such parts as arithmetic unit and controller , etc.. The arithmetic unit can carry on 8 persons of arithmetic operation and unit ALU of logic operation while including one, the 1 storing device temporarilies of 8, storing device 2 temporarily, 8's accumulation

外文翻译--AT89C51单片机的介绍

专业文献翻译 题目: AT89C51单片机的介绍 姓名: 学院: 专业: 电子信息科学与技术 班级: 班 学号: 指导教师: 职称: 20 年月日

原文： The Introduction of AT89C51 Description The AT89C51 is a low-power, high-performance CMOS 8-bit microcomputer with 4K bytes of Flash programmable and erasable read only memory (PEROM). The device is manufactured using Atmel’s high-density nonvolatile memory technology and is compatible with the industry-standard MCS-51 instruction set. The on-chip Flash allows the program memory to be reprogrammed in-system or by a conventional nonvolatile memory programmer. By combining a versatile 8-bit CPU with Flash on a monolithic chip, the Atmel AT89C51 is a powerful microcomputer which provides a highly-flexible and cost-effective solution to many embedded control applications. Function characteristic The AT89C51 provides the following standard features: 4K bytes of Flash, 128 bytes of RAM, 32 I/O lines, two 16-bit timer/counters, one 5 vector two-level interrupt architecture, a full duplex serial port, one-chip oscillator and clock circuitry. In addition, the AT89C51 is designed with static logic for operation down to zero frequency and supports two software selectable power saving modes. The Idle Mode stops the CPU while allowing the RAM, timer/counters, serial port and interrupt system to continue functioning. The Power-down Mode saves the RAM contents but freezes the oscillator disabling all other chip functions until the next hardware reset. Pin Description VCC：Supply voltage. GND：Ground.

java毕业论文外文文献翻译

Advantages of Managed Code Microsoft intermediate language shares with Java byte code the idea that it is a low-level language witha simple syntax , which can be very quickly translated intonative machine code. Having this well-defined universal syntax for code has significant advantages. Platform independence First, it means that the same file containing byte code instructions can be placed on any platform; atruntime the final stage of compilation can then be easily accomplished so that the code will run on thatparticular platform. In other words, by compiling to IL we obtain platform independence for .NET, inmuch the same way as compiling to Java byte code gives Java platform independence. Performance improvement IL is actually a bit more ambitious than Java bytecode. IL is always Just-In-Time compiled (known as JIT), whereas Java byte code was ofteninterpreted. One of the disadvantages of Java was that, on execution, the process of translating from Javabyte code to native executable resulted in a loss of performance. Instead of compiling the entire application in one go (which could lead to a slow start-up time), the JITcompiler simply compiles each portion of code as it is called (just-in-time). When code has been compiled.once, the resultant native executable is stored until the application exits, so that it does not need to berecompiled the next time that portion of code is run. Microsoft argues that this process is more efficientthan compiling the entire application code at the start, because of the likelihood that large portions of anyapplication code will not actually be executed in any given run. Using the JIT compiler, such code willnever be compiled.

单片机外文翻译--STC89C52处理芯片

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