步进电机的单片机控制外文翻译

Step of electric machine universal controller realizes which based on the MSP430F149 Single Chip Microcomputer.Abstract：With the infiltration in the social field of the computer in recent years, the application of the one-chip computer is moving towards deepening constantly, drive tradition is itmeasure crescent benefit to upgrade day to control at the same time. In measuring in real time andautomatically controlled one-chip computer application system, the one-chip computer often usesas a key part, only one-chip computer respect knowledge is not enough, should also follow thestructure of the concrete hardware , and direct against and use the software of target'scharacteristic to combine concretely, in order to do perfectly.This article mainly introduced realizes a step of machine universal controller based on the MSP430F149 monolithic integrated circuit. This controller may simultaneously control the multi-tablecloths machine according to the curve way movement, including adds and subtracts fast, the localization and the commutation function and so on. In the article discussed with emphasis step machine has risen to low the speed and the curve design proposal and its the realization method.1. a preface：based on the step of machine control system, except step machine generally also needs the special actuation power source, actuates the power source merely to complete the power actuation part, the user certainly cannot cause the entire control system according to prearrange, the expectation active status movement, must control to its actuation power source, the user needs to develop once more.In view of this, has designed a step of machine universal controller which realizes based on the MSP430F149 monolithic integrated circuit, may satisfy the majority controllingfield originally request. The controller main function is:(1) May control the multi- wraps step of machine actuation system; At present may simultaneously control 3 sets of systems.(2) work way is flexible, may according to the hypothesis curve movement, the curve most reach 8 sections; May according to the control signal movement which exterior examines; May according to the simulation adjustment test function movement;2. Systems designs2.1 systems structureThis controller has mainly realized thematic- tablecloths machine in the multistage curve operating control.2.2 microprocessors choiceThis design has selected MSP which Incorporation produces series monolithic integrated circuit MSP430F149.The goal is applies its rich connection resources and the formidable timer function, the MSP430F149 performance characteristic as follows:(1) 6 eight bit parallel connections; Definitely may realize this system all signals input, the output, does not need the hardware to expand, P1, the P2 eight bit parallel ports each mouth line all has the severance function, softly causes the keyboard, the hardware design to change is extremely simple.(2) 12 A/D switch ADC; Completes the simulation hypothesis function.(3) Formidable timer function; TIMER-A3, TIMER-B7 respectively be have3 and 7 captures/compares the register 16 timers, may satisfy the system speed the hypothesis and the curve fixed time request.(4)Liquid crystal actuation module;(5) In sets at 2KB RAM, 60KB FLASH;MSP430F149 provides the rich resources, the periphery hardware expands only must do thevery few work, not only designs changes extremely imply, and moreover this controller volume small, the reliability is high.2.3 steps of machine starting and add/decelerate the control planThe step of motive highest starting frequency (step frequency) generally is 0.1KHz arrives 3-4KHz, but the highest movement frequency may achieve N*102 KHz. Surpasses the highest starting frequency the frequency direct-on starting, will appear\" Falls out of step \" Phenomenon, even is unable to start.The more ideal starting curve should be according to the index rule starting. But the practical application to starts the section processing to be possible to use according to the fitting a straight Line method, namely \" Steps and ladders law \”. May according to two kind of situations processing, (1) known frequency press the frequency partition to start, the partition counts n=f/f q.(2) Unknown frequency, then to assigns according to the section. Uses \" Steps and ladders law \" Continuously raises the speed the speed which needs, then locking, according to pre-placed curve movement. Fitting the starting frequency, after each section of frequencies hand over the increase (to call steps and ladders frequency) △f=f/8, namely uses 8 sections of fitting. In the operating control process, (frequency) divides into the outset speed n minute achievement steps and ladders frequency, When 2.4 steps of machine commutation questions step of machine commutation, certainly must stop in the electrical machinery or fall commutates again to the frequency range in, in order to avoid has a bigger impact to damage the electrical machinery. The commutation signal certainly must last the CP pulse finish after the preceding direction as well as in front of the next direction first CP pulse sends out.2.4 steps of machine commutation questionsStep of machine commutation, certainly must stop in the electrical machinery or fall commutates again to the frequency range in, in order to avoid has a bigger impact to damage the electrical machinery. The commutation signal certainly must last the CP pulse finish after the preceding direction as well as in front of the next direction first CP pulse sent out in some highspeed under, the reverse cut essence has contained -> the commutation -> three processes2.5 speeds and the timer starting value transformationThis system speed control is the dependence fixed time produces; the hypothesis speed which the CP pulse completes with has the CP pulse timer starting value to have the certain relations. The MSP430F149 timer work way has many kinds of, this design timer work under continual way. In the continual pattern, the timer starts from its current value to count, after counts to 0FFFFH from \" 0\" Starts redo count. Under this way, compares the timer current value and comparison register CCRX, if equal has the severance, and May the time which has the next event add to in this interrupt service is on comparison register CCRX.Fixed time the starting value = must fixed time the value/count the cycle; Often assigns regarding the step of machine its speed value by the frequency form, such as movement under 20KHZ, therefore the previous type may transform is: Fixed time the starting value = counts the frequency/speed value. (Counts frequency for system clock frequency)3. ConcludingRemark this controller may realize step machine under the multistage hypothesis curve operating control, has the hardware simply, the reliable high characteristic, has used in on the electric wire production line platoon line control section it, has obtained the satisfying effect. This topic funds the project for the north industry big school scientific research foundation.译文译文基于MSP430F149单片机实现的步进电机通用控制器。

About stepper motor and drive systemStep characteristics for machine for angular displacement for entering the electrical engineering is first kind will give or get an electric shocking the pulse signal conversion cowgirl or line potential moving battery carry outing a piece, having the fast stopping, accurate step entering and directly accepting the arithmetic figure measuring, because of but got the extensive application.Such as in the drafting machine, print the machine and optical instrument inside, and all adopt the inside of a place control system for entering the electrical engineering to positioning to paint the pen print head or optical prinipal, especially indrstry process the type control, and move to spread to feel the to can immediately attain the precision fixed position because of its precision and need not potential, and control the technique along with the calculator of continuously deveolp, applied to would be more and more extensive.Control and can is divided into the simple control sum the complicacy to control to motor two kind.The simple control points to proceeds to start to motor, the system move, positive and negative revolution and sequential plicacy the control point to the motor's revolving speed, screw angle, turning moment, tension, electric current etc. physics quantisty progress control.Control technique that the development that motor get force is in latest development achievement that micro-electronics technique, electric power electronics, spread to feel the the technique, automatic control the technique, tiny machine the application technique to wait.Exactly the advance of these techniques make the motor control the technique at near two 10-year insides change for turn overing the ground of day is take placed.Among them the motor's control division have already been controled by emulation gradually let locate to regard single flake machine as principle of microprocessor control, formation the mix control system of the arithmetic figure and emulation and the application of the pure arithmetic figure control system, combine control the direction to total amount word to quickly deveolp.The motor's drive part of power forusing the piece experienced a few renewals to change the on behalf, current switch speed sooner, more simple whole type power piece of control the MOSFET become the main current with IGBT.Stepper motors have the following benefits:•Low cost•Ruggedness•Simplicity in construction•High reliability•No maintenance•Wide acceptance•No tweaking to stabilize•No feedback components are needed•They work in just about any environment•Inherently more failsafe than servo motors.There is virtually no conceivable failure within the stepper drive module that could cause the motor to run away. Stepper motors are simple to drive and control in an open-loop configuration. They only require four leads. They provide excellent torque at low speeds, up to 5 times the continuous torque of a brush motor of the same frame size or double the torque of the equivalent brushless motor. This often eliminates the need for a gearbox. A stepper-driven-system is inherently stiff, with known limits to the dynamic position error.Stepper Motor DisadvantagesStepper motors have the following disadvantages:•Resonance effects and relatively long settlingtimes•Rough performance at low speed unless amicrostep drive is used•Liability to undetected position loss as a result ofoperating open-loop•They consume current regardless of loadconditions and therefore tend to run hot•Losses at speed are relatively high and can causeexcessive heating, and they are frequently noisy(especially at high speeds).•They can exhibit lag-lead oscillation, which isdifficult to damp. There is a limit to their availablesize, and positioning accuracy relies on themechanics (e.g., ballscrew accuracy). Many ofthese drawbacks can be overcome by the use ofa closed-loop control scheme.Note: The Compumotor Zeta Series minimizes orreduces many of these different stepper motor disadvantages.There are three main stepper motor types:•Permanent Magnet (P.M.) Motors•Variable Reluctance (V.R.) Motors•Hybrid MotorsWhen the motor is driven in its full-step mode, energizing two windings or “phases”at a time (see Fig. 1.8), the torque available on each step will be the same (subject to very small variations in the motor and drive characteristics). In the half-step mode, we are alternately energizing two phases and then only one as shown in Fig. 1.9. Assuming the drive delivers the same winding current in each case, this will cause greater torque to be produced when there are two windings energized. In other words, alternate steps will be strong and weak. This does not represent a major deterrent to motor performance—the available torque is obviously limited by the weaker step, but there will be a significant improvement in low-speed smoothness over the full-step mode.Applications in hazardous environmentsor in a vacuum may not be able to use a brushed motor. Either a stepper or a brushless motor is called for, depending on the demands of the load. Bear in mind that heat dissipation may be a problem in a vacuum when the loads are excessive.continuous duty applications suit the servo motor, and in fact a step motor should be avoided in such applications because the high-speed losses can cause excessive motor heating.are the natural domain of the stepper due to its high torque at low speeds, good torque-to-inertia ratio and lack of commutation problems.The brushes of the DC motor can limit its potential for frequent starts, stops and direction changes.continuous duty applications are appropriate to the step motor. At low speeds it is very efficient in terms of torque output relative to both size and input power. Microstepping can be used to improve smoothness in lowspeed applications such as a metering pump drive for very accurate flow control.Stepper motor is a stepper motor for precise electrical and mechanical actuators, which are widely used in industrial machinery, digital control, for the system reliability, interoperability, maintainability, and cost-optimal, according to the control system functional requirements and Control system through the microcontroller memory, I/O interface, interrupt, keyboard, LED display of the expansion of the annular distributor stepping motor, drive and protection circuit, man-machine interface circuit, interrupt system and reset circuit, a single voltage drive circuit, etc.designed to achieve a four-phase stepper motor rotating, and emergency stop functions.To achieve the stepping motor system in NC Machine Tools, system design, two external interrupts, in order to achieve within a certain period of time stepper motor repeated Reversible function, ie, the turret CNC automatic feed movement. With the continuous development of single chip microcomputer, microcontroller in household electronic products widely applied, since the since the early sixties, the stepper motor applications are greatly enhanced.People use it to drive the clock and other instruments with pointers, printers, plotters, disk CD-ROM drive, a variety of automatic control valves, various tools, as well as robots and other mechanical devices.In addition,as the acIn addition, as the actuator, stepper motor is one of mechanical and electrical integration of the key products are widely used in a variety of automatic control systems, microelectronics and computer technology with the development of its requirements with the Japanese fear of growing in all the field of application of the national economy has. Stepper motor digital control system of electromechanical actuators commonly used, due to its high precision, small size, flexible to control, so the smart meter and position control hasbeen widely used in large-scale integrated circuits technology development, and SCM The increasing popularity of design features, the lowest price of the stepper motor control driver provides advanced technology and adequate resources.步进电机及其驱动系统简介步进电机是一种将电脉冲信号转换成相应的角位移或线位移的机电执行元件，具有快速启停、精确步进以及直接接受数字量的特点，因而得到了广泛的应用。

【关键字】资料SELECTING THE MOTOR THAT SUITS YOUR APPLICATION Motion control, in its widest sense, could relate to anything from a welding robot to the hydraulic system in a mobile crane. In the field of Electronic Motion Control, we are primarily concerned with systems falling within a limited power range, typically up to about 10HP (7KW), and requiring precision in one or more aspects. This may involve accurate control of distance or speed, very often both and sometimes other parameters such as torque or acceleration rate. In the case of the two examples given, the welding robot requires precise control of both speed and distance; the crane hydraulic system uses the driver as the feedback system so its accuracy varies with the skill of the operator. This wouldn’t be considered a motion control system in the strict sense of the term. Our standard motion control system consists of three basic elements:Fig. 1 Elements of motion control systemThe motor，This may be a stepper motor (either rotary or linear), a DC brush motor or a brushless servo motor. The motor needs to be fitted with some kind of feedback device unless it is a stepper motor.Fig. 2 shows a system complete with feedback to control motor speed. Such a system is known as a closed-loop velocity servo system.Fig. 2 Typical closed loop (velocity) servo systemThe drive，this is an electronic power amplifier that delivers the power to operate the motor in response to low-level control signals. In general, the drive will be specifically designed to operate with a particular motor type –you can’t use a stepper drive to operate a DC brush motor, for instance.Application Areas of Motor TypesStepper MotorsStepper Motor BenefitsStepper motors have the following benefits:• Low cost• Ruggedness• Simplicity in construction• High reliability• No maintenance• Wide acceptance• No tweaking to stabilize• No feedback components are needed• They work in just about any environment• Inherently more failsafe than servo motors.There is virtually no conceivable failure within the stepper drive module that could cause the motor to run away. Stepper motors are simple to drive and control in an open-loop configuration. They only require four leads. They provide excellent torque at low speeds, up to 5 times the continuous torque of a brush motor of the same frame size or double the torque of the equivalent brushless motor. This often eliminates the need for a gearbox. A stepper-driven-system is inherently stiff, with known limits to the dynamic position error.Stepper Motor DisadvantagesStepper motors have the following disadvantages:• Resonance effects and relatively long settling times• Rough performance at low speed unless a micro step drive is used• Liability to undetected position loss as a result of operating open-loop• They consume current regardless of load conditions and therefore tend to run hot• Losses at speed are relatively high and can cause excessive heating, and they are frequently noisy (especially at high speeds).• They can exhibit lag-lead oscillation, which is difficult to damp. There is a limit to their available size, and positioning accuracy relies on the mechanics (e.g., ball screw accuracy). Many of these drawbacks can be overcome by the use of a closed-loop control scheme. Note: The Comp motor Zeta Series minimizes or reduces many of these different stepper motor disadvantages. There are three main stepper motor types:• Permanent Magnet (P.M.) Motors• Variable Reluctance (V.R.) Motors• Hybrid MotorsWhen the motor is driven in its full-step mode, energizing two windings or “phases” at a time (see Fig. 3), the torque available on each step will be the same (subject to very small variations in the motor and drive characteristics). In the half-step mode, we are alternately energizing two phases and then only one as shown in Fig. 4. Assuming the drive delivers the same winding current in each case, this will cause greater torque to be produced when there are two windings energized. In other words, alternate steps will be strong and weak. This does not represent a major deterrent to motor performance—the available torque is obviously limited by the weaker step, but there will be a significant improvement in low-speed smoothness over the full-step mode.Clearly, we would like to produce approximately equal torque on every step, and this torque should be at the level of the stronger step. We can achieve this by using a higher current level when there is only one winding energized. This does not over dissipate the motor because the manufacturer’s current rating assumes two phases to be energized the current rating is based on the allowable case temperature). With only one phase energized, the same total power will be dissipated if the current is increased by 40%. Using this higher current in the one-phase-on state produces approximately equal torque on alternate steps (see Fig. 5).Fig. 3 Full step currentFig. 4 Half step currentFig.5 Half step current, profiledWe have seen that energizing both phases with equal currents produces an intermediate step position half-way between the one-phase-one positions. If the two phase currents are unequal, the rotor position will be shifted towards the stronger pole. This effect is utilized in the micro stepping drive, which subdivides the basic motor step by proportioning the current in the two windings. In this way, the step size is reduced and the low-speed smoothness is dramatically improved. High-resolution micro step drives divide the full motor step into as many as 500 micro steps, giving 100,000 steps per revolution. In this situation, the current pattern in the windings closely resembles two sine waves with a 90°phase shift between them (see Fig. 6). The motor is now being driven very much as though it is a conventional AC synchronous motor. In fact, the stepper motor can be driven in this way from a 60 Hz-US (50Hz-Europe) sine wave source by including a capacitor inseries with one phase. It will rotate at 72 rpm.Fig. 6 Phase currents in micro step modeStandard 200-Step Hybrid MotorThe standard stepper motor operates in the same way as our simple model, but has a greater number of teeth on the rotor and stator, giving a smaller basic step size. The rotor is in two sections as before, but has 50 teeth on each section. The half-tooth displacement between the two sections is retained. The stator has 8 poles each with 5 teeth, making a total of 40 teeth (see Fig. 7).Fig.7 200-step hybrid motorIf we imagine that a tooth is placed in each of the gaps between the stator poles, there would be a total of 48 teeth, two less than the number of rotor teeth. So if rotor and stator teeth are aligned at 12 o’clock, they will also be aligned at 6 o’clock. At 3 o’clock and 9 o’clock the teeth will be misaligned. However, due to the displacement between the sets of rotor teeth, alignment will occur at 3 o’clock and 9 o’clock at the other end of the rotor.The windings are arranged in sets of four, and wound such that diametrically-opposite poles are the same. So referring to Fig. 7, the north poles at 12 and 6 o’clock attract the south-pole teeth at the front of the rotor; the south poles at 3 and 9 o’clock attract the north-pole teeth at the back. By switching current to the second set of c oils, the stator field pattern rotates through 45°. However, to align with this new field, the rotor only has to turn through 1.8°. This is equivalent to one quarter of a tooth pitch on the rotor, giving 200 full steps per revolution.Note that there are as many detent positions as there are full steps per rev, normally 200. The detent positions correspond with rotor teeth being fully aligned with stator teeth. When power is applied to a stepper drive, it is usual for it to energize in the “zero phase” state in which there is current in both sets of windings. The resulting rotor position does not correspond with a natural detent position, so an unloaded motor will always move by at least one half steps at power-on. Of course, if the system was turned off other than in the zero phase state, or the motor is moved in the meantime, a greater movement may be seen at power-up.Another point to remember is that for a given current pattern in the windings, there are as many stable positions as there are rotor teeth (50 for a 200-step motor). If a motor isde-synchronized, the resulting positional error will always be a whole number of rotor teeth or a multiple of 7.2°. A motor cannot “miss” individual steps – position errors of one or two steps must be due to noise, spurious step pulses or a controller fault.Fig. 8 Digital servo driveDigital Servo Drive OperationFig.8 shows the components of a digital drive for a servo motor. All the main control functions are carried out by the microprocessor, which drives a D-to-A converter to produce an analog torque demand signal. From this point on, the drive is very much like an analog servo amplifier.Feedback information is derived from an encoder attached to the motor shaft. The encoder generates a pulse stream from which the processor can determine the distance traveled, and by calculating the pulse frequency it is possible to measure velocity.The digital drive performs the same operations as its analog counterpart, but does so by solving a series of equations. The microprocessor is programmed with a mathematical model (or “algorithm”) of the equivalent analog system. This model predicts the behavior of the system. It also takes into account additional information like the output velocity, the rate of change of the input and the various tuning settings.To solve all the equations takes a finite amount of time, even with a fast processor –this time is typically between 100ms and 2ms. During this time, the torque demand must remain constant at its previously-calculated value and there will be no response to a change at the input or output. This “update time” therefore becomes a critical factor in the performance of a digital servo and in a high-performance system it must be kept to a minimum.The tuning of a digital servo is performed either by pushbuttons or by sending numerical data from a computer or terminal. No potentiometer adjustments are involved. The tuning data is used to set various coefficients in the servo algorithm and hence determines the behavior of the system. Even if the tuning is carried out using pushbuttons, the final values can be uploaded to a terminal to allow easy repetition.Some applications, the load inertia varies between wide limits – think of an arm robot that starts off unloaded and later carries a heavy load at full extension. The change in inertia may well be a factor of 20 or more, and such a change requires that the drive isre-tuned to maintain stable performance. This is simply achieved by sending the new tuning values at the appropriate point in the operating cycle.步进电机和伺服电机的系统控制运动控制，在其最广泛的意义上说，可能与任何移动式起重机中焊接机器人液压系统有关。

步进电机的振荡、不稳定以及控制摘要：本文介绍了一种分析永磁步进电机不稳定性的新颖方法。

结果表明，该种电机有两种类型的不稳定现象：中频振荡和高频不稳定性。

非线性分叉理论是用来说明局部不稳定和中频振荡运动之间的关系。

一种新型的分析介绍了被确定为高频不稳定性的同步损耗现象。

在相间分界线和吸引子的概念被用于导出数量来评估高频不稳定性。

通过使用这个数量就可以很容易地估计高频供应的稳定性。

此外，还介绍了稳定性理论。

广义的方法给出了基于反馈理论的稳定问题的分析。

结果表明，中频稳定度和高频稳定度可以提高状态反馈。

关键词：步进电机，不稳定，非线性，状态反馈。

1. 介绍步进电机是将数字脉冲输入转换为模拟角度输出的电磁增量运动装置。

其内在的步进能力允许没有反馈的精确位置控制。

也就是说，他们可以在开环模式下跟踪任何步阶位置，因此执行位置控制是不需要任何反馈的。

步进电机提供比直流电机每单位更高的峰值扭矩;此外，它们是无电刷电机，因此需要较少的维护。

所有这些特性使得步进电机在许多位置和速度控制系统的选择中非常具有吸引力，例如如在计算机硬盘驱动器和打印机，代理表，机器人中的应用等.尽管步进电机有许多突出的特性，他们仍遭受振荡或不稳定现象。

这种现象严重地限制其开环的动态性能和需要高速运作的适用领域。

这种振荡通常在步进率低于1000脉冲/秒的时候发生，并已被确认为中频不稳定或局部不稳定[1]，或者动态不稳定[2]。

此外，步进电机还有另一种不稳定现象，也就是在步进率较高时，即使负荷扭矩小于其牵出扭矩，电动机也常常不同步。

该文中将这种现象确定为高频不稳定性，因为它以比在中频振荡现象中发生的频率更高的频率出现。

高频不稳定性不像中频不稳定性那样被广泛接受，而且还没有一个方法来评估它。

中频振荡已经被广泛地认识了很长一段时间，但是，一个完整的了解还没有牢固确立。

这可以归因于支配振荡现象的非线性是相当困难处理的。

大多数研究人员在线性模型基础上分析它[1]。

外文文献：Knowledge of the stepper motorWhat is a stepper motor：The stepping motor as executing components, electromechanical integration is one of the key products, widely used in a variety of automatic control systems. With the development of microelectronics and computer technology, the stepper motor demand grow with each passing day, has been applied in various fields of the national economy.Stepping motor is a kind of electrical pulses into angular displacement of the implementing agencies. When stepping drive receives a pulse signal, it drives stepper motor rotate in the direction set by a fixed angle ( called the " step " ), it is the rotation at a fixed angle step by step operation. The number of pulses to control the amount of angular displacement through the control, so as to achieve the purpose of accurate positioning; also can control the pulse frequency to control motor rotation speed and acceleration, so as to achieve the purpose of speed. Special motor stepper motor control can be used as a, using its no accumulation of error ( accuracy of 100% ) characteristics, widely used in all kinds of open-loop control.Now more commonly used step motor comprises stepper motor ( VR ), permanent magnet stepper motor ( PM ), hybrid stepping motor ( HB ) and single-phase stepping motor.Permanent magnet stepper motor for general two-phase, torque and small volume, the step angle is 7.5 degree or 15 degree;Reaction stepping motor is generally three-phase, can achieve a high torque output, step angle is 1.5 degrees, but the noise and vibration are great. The rotor magnetic circuit made of soft magnetic material reaction stepper motor, a multi-phase excitation winding stator, using magnetic torque changes.Hybrid stepping motor is mixed the advantages of permanent magnet type andreaction type. It is divided into two phase and five phase: two-phase stepper angle is 1.8 degree and five phase stepper angle is 0.72 degrees. Application of the stepping motor is the most widely, is also this subdivision driving of stepper motor selection scheme.Some of the basic parameters of step motor:The natural step motor:It says every hair a step pulse signal control system, motor rotation angle. Motor factory is a step angle values, such as type 86BYG250A motor is given a value of 0.9°/1.8 °( said a half step of work is 0.9 °, the whole step of work is 1.8 °), this step can be called ' motor fixed step ', it doesn't have to be the actual motor work when the real step angle, angle and drive the real steps.Stepper motor phase number:Is the number of coils inside the motor, commonly used in a two-phase, three-phase, four phase, five phase stepper motor. The number of motor phase is different, the step angle is also different, the general two-phase motor step angle is 0.9°/1.8 °, three-phase 0.75 °/1.5 °, five phase of 0.36 °/0.72 °. In the absence of subdivision drive, users mainly rely on different phases of the stepper motor to meet their own requirements of step angle. If you use a subdivision driver, is ' phase ' will become meaningless, users only need to change the fine fraction in the drive, you can change the step angle.Keep the torque ( HOLDINGTORQUE ):Is the stepper motor power but there is no rotation, the stator locked rotor torque. It is one of the most important parameters of step motor, usually stepper motor in the low-speed torque to keep the torque. Because of the larger output torque stepper motor with speed and continuous decay, increases the output power with the speed of change, so keep the torque becomes one of the most important parameters of step motor. For example, when people say 2N.m stepper motor, in the absence of exceptional circumstances described in that refers to keep the torquemotor for the 2N.m step.DETENTTORQUE:DETENTTORQUE:Refers to the stepper motor is not energized condition, the stator locked rotor torque. DETENTTORQUE does not have a unified way of translation in China, easy to make people misunderstand; as the rotor reaction stepper motor is not permanent magnetic material, so it has no DETENTTORQUE.Some of the characteristic of step motor:The 1 stepper motor step angle accuracy for 3-5%, and no accumulation.2 stepper motor appearance allows the maximum temperature.Stepper motor temperature is too high will first make the motor magnetic material demagnetization, resulting in lower torque and loss, so the highest temperature of motor appearance allows should depend on the different motor demagnetization magnetic materials; generally speaking, demagnetization point magnetic material in 130 degrees Celsius above, some even as high as 200 degrees Celsius stepping motor, so the surface temperature at 80-90 degrees Celsius completely normal.3 stepper motor torque will decrease with the increase of rotational speed.When the stepper motor rotates, the electrical inductance of the winding will form a reverse electromotive force; the higher the frequency, the greater the reverse emf. Under the influence of it, the motor with frequency ( or speed ) increase and the phase current is reduced, resulting in lower torque.4 stepper motor speed can be normal operation, but if it is more than a certain speed will not start, and accompanied by howling.Stepper motor is a technical parameter: no-load start frequency, namely the stepper motor under no-load condition can pulse frequency start, if the pulsefrequency is higher than the value, the motor can not start properly, may have lost step or stall. In under the condition of the load, start frequency should be less. If you want to enable the motor to rotate at high speed, pulse frequency should accelerate the process is started, the lower frequency, and then according to certain acceleration up to high frequency desired ( motor speed from low speed to high speed ).Characteristics of stepper motor with its significant, play an important purpose in the era of digital manufacturing. With the different development of digital technology and stepper motor itself technology improves, the stepper motor will be applied in more fields.How to determine the stepper motor driver DC power supply：A. Determination of the voltageHybrid stepping motor driver power supply voltage is generally a wide range (such as the IM483 supply voltage of 12 ~ 48VDC), the supply voltage is usually based on the work of the motor speed and response to the request to choose. If the motor operating speed higher or faster response to the request, then the voltage value is high, but note that the ripple voltage can not exceed the maximum input voltage of the drive, or it may damage the drive.B. Determination of CurrentPower supply current is generally based on the output phase current drive I to determine. If a linear power supply, power supply current is generally preferable 1.1 to 1.3 times the I; if we adopt the switching power supply, power supply current is generally preferable to I, 1.5 to 2.0 times.The main characteristics of stepping motor：A stepper motor drive can be added operate pulse drive signal must be no pulse when the stepper motor at rest, such asIf adding the appropriate pulse signal, it will to a certain angle (called the step angle) rotation. Rotation speed and pulse frequency is proportional to.2 Dragon step angle stepper motor version is 7.5 degrees, 360 degrees around,takes 48 pulses to complete.3 stepper motor has instant start and rapid cessation of superior characteristics. Change the pulse of the order of 4, you can easily change the direction of rotation. Therefore, the current printers, plotters, robotics, and so devices are the core of the stepper motor as the driving force.Stepper motor control exampleWe use four-phase unipolar stepper motor as an example. The structure shown in Figure 1:Four four-phase winding leads (as opposed to phase A1 A2 B1 phase phase B2) and two public lines (to the power of positive). The windings of one phase to the power of the ground. So that the windings will be inspired. We use four-phase eight-beat control, ie, 1 phase 2 phase alternating turn, would enhance resolution.0.9 °per step can be transferred to control the motor excitation is transferred in order as follows:If the requirements of motor reversal, the transmission excitation signal can be reversed. 2 control schemeControl system block diagram is as followsThe program uses AT89S51 as the main control device. It is compatible with the AT89C51, but also increased the SPI interface and the watchdog module, which not only makes the debugging process becomes easy and also more stable. The microcontroller in the program mainly for field signal acquisition and operation of the stepper motor to calculate the direction and speed information. Then sent to the CPLD.CPLD with EPM7128SLC84-15, EPM7128 programmable logic device of large-scale, for the ALTERA company's MAX7000 family. High impedance, electrically erasable and other characteristics, can be used for the 2500 unit, the working voltage of +5 V. CPLD receives information sent from the microcontroller after converted to the corresponding control signal output to the stepper motor drive. Put the control signal drives the motor windings after the input, to achieve effective control of the motor.2.1 The hardware structure of the motor driveMotor drive using the following circuit:R1-R8 in which the resistance value of 320Ω. R9-R12 resistance value 2.2KΩ. Q1-Q4 as Darlington D401A, Q5-Q8 for the S8550. J1, J2 and the stepper motor connected to the six-lead。

中英文资料对照外文翻译外文文献：Knowledge of the stepper motorWhat 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.Stepper motor to allow the minimum amount of surface temperatureStepper motor to allow the minimum amount of surface temperature：Stepper motor causes the motor temperature is too high the first magnetic demagnetization, resulting in loss of torque down even further, so the motor surface temperature should be themaximum allowed depending on the motor demagnetization of magnetic material points; Generally speaking, the magnetic demagnetization points are above 130 degrees Celsius, and some even as high as 200 degrees Celsius, so the stepper motor surface temperature of 80-90 degrees Celsius is normal.How to determine the stepper motor driver DC power supply：A. Determination of the voltageHybrid stepping motor driver power supply voltage is generally a wide range (such as the IM483 supply voltage of 12 ~ 48VDC), the supply voltage is usually based on the work of the motor speed and response to the request to choose. If the motor operating speed higher or faster response to the request, then the voltage value is high, but note that the ripple voltage can not exceed the maximum input voltage of the drive, or it may damage the drive.B. Determination of CurrentPower supply current is generally based on the output phase current drive I to determine. If a linear power supply, power supply current is generally preferable 1.1 to 1.3 times the I; if we adopt the switching power supply, power supply current is generally preferable to I, 1.5 to 2.0 times.The main characteristics of stepping motor：A stepper motor drive can be added operate pulse drive signal must be no pulse when the stepper motor at rest, such asIf adding the appropriate pulse signal, it will to a certain angle (called the step angle) rotation. Rotation speed and pulse frequency is proportional to.2 Dragon step angle stepper motor version is 7.5 degrees, 360 degrees around, takes 48 pulses to complete.3 stepper motor has instant start and rapid cessation of superior characteristics.Change the pulse of the order of 4, you can easily change the direction of rotation. Therefore, the current printers, plotters, robotics, and so devices are the core of the stepper motor as the driving force.Stepper motor control exampleWe use four-phase unipolar stepper motor as an example. The structure shown in Figure 1: Four four-phase winding leads (as opposed to phase A1 A2 B1 phase phase B2) and twopublic lines (to the power of positive). The windings of one phase to the power of the ground. So that the windings will be inspired. We use four-phase eight-beat control, ie, 1 phase 2 phase alternating turn, would enhance resolution. 0.9 ° per step can be transferred to control the motor excitation is transferred in order as follows:If the requirements of motor reversal, the transmission excitation signal can be reversed. 2 control schemeControl system block diagram is as followsThe program uses AT89S51 as the main control device. It is compatible with the AT89C51, but also increased the SPI interface and the watchdog module, which not only makes the debugging process becomes easy and also more stable. The microcontroller in the program mainly for field signal acquisition and operation of the stepper motor to calculate the direction and speed information. Then sent to the CPLD.CPLD with EPM7128SLC84-15, EPM7128 programmable logic device of large-scale, for the ALTERA company's MAX7000 family. High impedance, electrically erasable and other characteristics, can be used for the 2500 unit, the working voltage of +5 V. CPLD receives information sent from the microcontroller after converted to the corresponding control signal output to the stepper motor drive. Put the control signal drives the motor windings after the input, to achieve effective control of the motor. 2.1 The hardware structure of the motor drive Motor drive using the following circuit:R1-R8 in which the resistance value of 320Ω. R9-R12 resistance value 2.2KΩ. Q1-Q4 as Darlington D401A, Q5-Q8 for the S8550. J1, J2 and the stepper motor connected to the six-lead。

单片机控制步进电机外文原文Stepping motor application and control stepper motor is an electrical pulse will be converted into angular displacement of the implementing agencies. Put it in simple language-speaking: When the stepper drive pulse signal to a receiver, it drives stepper motor rotation direction by setting a fixed point of view (and the step angle). You can control the number of pulses to control the amount of angular displacement, so as to achieve the purpose of accurate positioning; At the same time, you can by controlling the pulse frequency to control the motor rotation speed and acceleration,so as to achieve the purpose of speed.Stepper motor directly from the AC-DC power supply,and must use special equipment - stepper motor drive. Stepper motor drive system performance, in addition to their own performance with the motor on the outside, but also to a large extent depend on the drive is good or bad. A typical stepper motor drive system is operated by the stepper motor controller, stepper motor drives and stepper motor body is composed of three parts. Stepper motor controller stepper pulse and direction signal, each made of a pulse, stepper motor-driven stepper motor drives a rotor rotating step angle, that is, step-by-step further. High or low speed stepper motor, or speed, or deceleration, start or stop pulses are entirely dependent on whether the level or frequency.Decide the direction of the signal controller stepper motor clockwise or counterclockwise rotation. Typically, the stepper motor drive circuit from the logic control, power driver circuit, protection circuit and power components.Stepper motor drive controller, once received from the direction of the signal and step pulse, the control circuit on a pre-determined way of the electrical power-phase stepper motor excitation windings of the conduction or cut-off signal. Control circuit output signal power is low,can not provide the necessary stepping motor output power, the need for power amplifier, which is stepper motor driven power drive part. Power stepper motor drive circuit to control the input current winding to form a space for rotating magnetic field excitation, the rotor-driven movement.Protection circuit in the event of shortcircuit, overload, overheating, such as failure to stop the rapid drive and motor. Motor is usually for the permanent magnet rotor, when the current flows throughthe stator windings, the stator windings produce a magnetic field vector.The magnetic field will lead to a rotor angle of rotation, making a pair of rotor and stator magnetic field direction of the magnetic field direction. When the stator rotating magnetic field vector from a different angle. Also as the rotor magnetic field to a point of view. An electrical pulse for each input, the motor rotation angle step. Its output and input of the angular displacement is proportional to the pulses, with pulse frequency proportional to speed. Power to change the order of winding,the electrical will be reversed. We can, therefore, control the pulse number, frequency and electrical power windings of each phase to control the order of rotation of stepper motor.Stepper motor types:Permanent magnet (PM). Magnetic generally two-phase stepper, torque and are smaller and generally stepping angle of 7.5 degrees or 15 degrees; put more wind for air-conditioning.Reactive(VR), the domestic general called BF, have a common three-phase reaction, step angle of 1.5 degrees; also have five-phase reaction. Noise, no torque has been set at a large number of out.Hybrid (HB), common two-phase hybrid, five-phase hybrid, three-phase hybrid, four-phase hybrid, two-phase can be common with the four-phase drive, five-phase three-phase must be used with their drives;Two-phase, four-phase hybrid step angle is 1.8 degrees more than a small size, great distance,and low noise;Five-phase hybrid stepping motor is generally 0.72, the motor step angle small, high resolution, but the complexity of drive circuits, wiring problems, such as the 5- phase system of 10 lines.Three-phase hybrid stepping motor step angle of 1.2 degrees, but according to the use of 1.8 degrees, the three-phase hybrid stepping motor has a two-phase mixed than the five-phase hybrid more pole will help electric folder symmetric angle, it can be more than two-phase, five-phase high accuracy, the error even smaller, run moresmoothly.Stepper motor to maintain torque: stepper motor power means no rotation, the stator locked rotor torque. It is a stepper motor, one of the most important parameters, usually in the low-speed stepper motor torque at the time of close to maintain the torque. As the stepper motor output torque increases with the speed of constant attenuation, the output power also increases with the speed of change,so as to maintain torque on the stepper motor to measure the parameters of one of the most important. For example, when people say that the stepper motor 2N.m, in the absence of special circumstances that means for maintaining the torque of the stepper motor 2N.m.Precision stepper motors:stepper motor step angle accuracy of 3-5%, not cumulative.Stepper motor to allow the minimum amount of surface temperature：Stepper motor causes the motor temperature is too high the first magnetic demagnetization, resulting in loss of torque down even further, so the motor surface temperature should be the maximum allowed depending on the motor demagnetization of magnetic material points; Generally speaking,the magnetic demagnetization points are above 130 degrees Celsius, and some even as high as 200 degrees Celsius, so the stepper motor surface temperature of 80-90 degrees Celsius is normal.Start frequency of no-load: the stepper motor in case of no-load to the normal start of the pulse frequency, if the pulse frequency is higher than the value of motor does not start, possible to lose steps or blocking.In the case of the load, start frequency should be lower. If you want to achieve high-speed rotation motor, pulse frequency should be to accelerate the process, that is, the lower frequency to start, and then rose to a certain acceleration of the desired frequency (motor speed from low rise to high-speed).Step angle:that is to send a pulse,the electrical angle corresponding to rotation.Torque positioning: positioning torque stepper motor does not refer to the case of electricity,locked rotor torque stator.Operating frequency:step-by-step stepper motor can run without losing thehighest frequency.Subdivision Drive: stepper motor drives the main aim is to weaken or eliminate low-frequency vibration of the stepper motor to improve the accuracy of the motor running. Reduce noise. If the step angle is 1.8 °(full step) the two-phase hybrid stepping motor, if the breakdown of the breakdown of the number of drives for the 8, then the operation of the electrical pulse for each resolution of 0.072 °, the precision of motor can reach or close to 0.225 °, also depends on the breakdown of the breakdown of the drive current control accuracy and other factors, the breakdown of the number of the more difficult the greater the precision of control.How to determine the stepper motor driver DC power supply：A.Determination of the voltage: Hybrid stepping motor driver power supply voltage is generally a wide range (such as the IM483 supply voltage of 12 ~ 48VDC), the supply voltage is usually based on the work of the motor speed and response to the request to choose.If the motor operating speed higher or faster response to the request, then the voltage value is high, but note that the ripple voltage can not exceed the maximum input voltage of the drive,or it may damage the drive.B.Determination of CurrentPower supply current is generally based on the output phase current drive I to determine. If a linear power supply, power supply current is generally preferable 1.1 to 1.3 times the I; if we adopt the switching power supply, power supply current is generally preferable to I,1.5to 2.0 times.The main characteristics of stepping motor：1. A stepper motor drive can be added operate pulse drive signal must be no pulse when the stepper motor at rest, such as If adding the appropriate pulse signal, it will to a certain angle (called the step angle) rotation. Rotation speed and pulse frequency is proportional to.2.permanent magnet step angle stepper motor version is 7.5 degrees, 360 degrees around, takes48 pulses to complete.3.stepper motor has instant start and rapid cessation of superior characteristics. Change the order of the pulse4．you can easily change the direction of rotation.Therefore, the current printers, plotters, robotics, and so devices are the core of the stepper motor as the driving force.Stepper motors have the following benefits: （1）Low cost （2）Ruggedness （3）Simplicity in construction （4）High reliability（5）No maintenance（6）Wide acceptance（7）No tweaking to stabilize （8）No feedback components are neededThey work in just about any environment Inherently more failsafe than servo motors. There isvirtually no conceivable failure within the stepper drive module that could cause the motor to run away. Stepper motors are simple to drive and control in an open-loop configuration. They only require four leads. They provide excellent torque at low speeds, up to 5 times the continuous torque of a brush motor of the same frame size or double the torque of the equivalent brushless motor. This often eliminates the need for a gearbox. A stepper-driven-system is inherently stiff, with known limits to the dynamic position error.Stepper Motor Disadvantages：Stepper motors have the following disadvantages:1.Resonance effects and relatively long settling times.1.Rough performance at low speed unless a microstep drive is used.2.Liability to undetected position loss as a result of operating open-loop .4.They consume current regardless of load conditions and therefore tend to run hot5.Losses at speed are relatively high and can cause excessive heating, and they are frequently noisy (especially at high speeds).1.They can exhibit lag-lead oscillation, which is difficult to damp.There is a limit to their available size, and positioning accuracy relies on the mechanics(e.g., ballscrew accuracy).Many of these drawbacks can be overcome by the use of a closed-loop control scheme.外文资料翻译译文步进电机应用和控制步进电机是将电脉冲转换成角位移的执行机构。

利用单片机控制步进电机［Abstract］ The drive signal of stepmotor is mainly given by some dedication circuit now. To certain extent , this is devoid of dexterity and reliability. So , the author designs a stepmotor control system by using singlechip , which have real-time and interchange. The data can be input the with keyboard , and stepmotor was controlled by these data. According to the demand ，users can set the working model of step motor in real-time。

［Key Words］Singlechip ;Stepmotor;system；control一．引言目前 ,步进电机在工业生产及一些仪器上应用十分广泛 ,但步进电机的驱动信号往往还是用一些专用的模拟芯片控制器或者是信号发生器来产生 ,缺乏灵活性、可靠性。

在一些智能化要求较高的场合 ,用模拟芯片控制器及信号发生器来控制步进电机有一定的局限 ,可以采用单片机控制步进电机以改进其性能。

以步进电机为驱动装置构成的控制系统 ,具有价格低、控制简单、容易维护等优点。

且步进电机作为离散化执行元件 ,在数控及其它自动化设备中得到广泛应用。

但由于步进电机常工作在开环状态 ,其失步或过冲直接影响控制精度。

因此 ,如何控制步进电机使其避免失步或过冲是提高步进驱动系统控制精度的有效方法。

步进电机是一种能将电脉冲信号转换成角位移和线位移的执行元件 ,步进驱动器是由缓冲寄存器.环行分配器、控制逻辑及正反转控制门组成 ,能把输入的电脉冲转换成环行脉冲 ,以便控制步进电机 ,功率放大器提高其驱动能力。

单片机控制步进电机外文文献翻译单片机控制步进电机外文原文Stepping motor application and controlstepper motor is an electrical pulse will be converted into angular displacement of the implementing agencies. Put it in simple language-speaking: When the stepper drive pulse signal to a receiver, it drives stepper motor rotation direction by setting a fixed point of view (and the step angle). You can control the number of pulses to control the amount of angular displacement, so as to achieve the purpose of accurate positioning; At the same time, you can by controlling the pulsefrequency to control the motor rotation speed and acceleration, so as to achieve the purpose of speed.Stepper motor directly from the AC-DC power supply, and must use special equipment - stepper motor drive. Stepper motor drive system performance, in addition to their own performance with the motor on the outside, but also to a large extent depend on the drive is good or bad.A typical stepper motor drive system is operated by the stepper motor controller, stepper motor drives and stepper motor body is composed of three parts. Stepper motor controller stepper pulse and direction signal, each made of a pulse, stepper motor-driven stepper motor drives a rotor rotating step angle, that is, step-by-step further. High or low speed stepper motor, or speed, or deceleration, start or stop pulses areentirely dependent on whether the level or frequency. Decide the direction of the signal controller stepper motor clockwise or counterclockwise rotation. Typically, the stepper motor drive circuit from the logic control, power driver circuit, protection circuit and power components. Stepper motor drive controller, once received from the direction of the signal and step pulse, the control circuit on a pre-determined way of the electrical power-phase stepper motor excitation windings of the conduction or cut-off signal. Control circuit output signal power is low, can not provide the necessary stepping motor output power, the need for power amplifier, which is stepper motor driven power drive part. Power stepper motor drive circuit to control the input current winding to form a space for rotating magnetic field excitation, the rotor-driven movement. Protection circuit in the event of short circuit, overload, overheating, such as failure to stop the rapid drive and motor.Motor is usually for the permanent magnet rotor, when the current flows through the stator windings, the stator windings produce a magnetic field vector. The magnetic field will lead to a rotor angle of rotation, making a pair of rotor and stator magnetic field direction of the magnetic field direction. When the stator rotating magnetic field vector from a different angle. Also as the rotor magnetic field to a point of view. An electrical pulse for each input, the motor rotation angle step. Its output and input of the angular displacement is proportional to the pulses, with pulse frequency proportional to speed.Power to change the order of winding, the electrical will be reversed. We can, therefore, control the pulse number, frequency and electrical power windings of each phase to control the order of rotation of stepper motor.Stepper motor types:Permanent magnet (PM). Magnetic generally two-phase stepper, torque and are smaller and generally stepping angle of 7.5 degrees or 15 degrees; put more wind for air-conditioning.Reactive (VR), the domestic general called BF, have a common three-phase reaction, step angle of 1.5 degrees; also have five-phase reaction. Noise, no torque has been set at a large number of out.Hybrid (HB), common two-phase hybrid, five-phase hybrid, three-phase hybrid, four-phase hybrid, two-phase can be common with the four-phase drive, five-phase three-phase must be used with their drives;Two-phase, four-phase hybrid step angle is 1.8 degrees more than a small size, great distance, and low noise;Five-phase hybrid stepping motor is generally 0.72, the motor step angle small, high resolution, but the complexity of drive circuits,wiring problems, such as the 5-phase system of 10 lines.Three-phase hybrid stepping motor step angle of 1.2 degrees, but according to the use of 1.8 degrees, the three-phase hybrid stepping motor has a two-phase mixed than the five-phase hybrid more pole will help electric folder symmetric angle, it can be more than two-phase,five-phase high accuracy, the error even smaller, run moresmoothly.Stepper motor to maintain torque: stepper motor power means no rotation, the stator locked rotor torque. It is a stepper motor, one of the most important parameters, usually in the low-speed stepper motor torque at the time of close to maintain the torque. As the stepper motor output torque increases with the speed of constant attenuation, the output power also increases with the speed of change, so as to maintain torque on the stepper motor to measure the parameters of one of the most important. For example, when people say that the stepper motor 2N.m, in the absence of special circumstances that means for maintaining the torque of the stepper motor 2N.m.Precision stepper motors: stepper motor step angle accuracy of 3-5%, not cumulative.Stepper motor to allow the minimum amount of surfacetemperature:Steppermotor causes the motor temperature is too high the first magnetic demagnetization, resulting in loss of torque down even further, so the motor surface temperature should be the maximum allowed depending on the motor demagnetization of magnetic material points; Generally speaking, the magnetic demagnetization points are above 130 degrees Celsius, and some even as high as 200 degrees Celsius, so the stepper motor surface temperature of 80-90 degrees Celsius is normal.Start frequency of no-load: the stepper motor in case of no-load to the normal start of the pulse frequency, if the pulse frequency ishigher than the value of motor does not start, possible to lose steps or blocking. In the case of the load, start frequency should be lower. If you want to achieve high-speed rotation motor, pulse frequency should be to accelerate the process, that is, the lower frequency to start, and then rose to a certain acceleration of the desired frequency (motor speed from low rise to high-speed).Step angle: that is to send a pulse, the electrical angle corresponding to rotation.Torque positioning: positioning torque stepper motor does not refer to the case of electricity, locked rotor torque stator.Operating frequency: step-by-step stepper motor can run without losing thehighest frequency.Subdivision Drive: stepper motor drives the main aim is to weaken or eliminate low-frequency vibration of the stepper motor to improve the accuracy of the motor running. Reduce noise. If the step angle is 1.8 ? (full step) the two-phase hybrid stepping motor, if the breakdown of the breakdown of the number of drives for the 8, then the operation of the electrical pulse for each resolution of 0.072 ?, the precision of motor can reach or close to 0.225 ?, also depends on the breakdown of the breakdown of the drive current control accuracy and other factors, the breakdown of the number of the more difficult the greater the precision of control.How to determine the stepper motor driver DC power supply:A. Determination of the voltage: Hybrid stepping motor driver power supplyvoltage is generally a wide range (such as the IM483 supply voltage of 12 ~ 48VDC), the supply voltage is usually based on the work of the motor speed and response to the request to choose. If the motor operating speed higher or faster response to the request, then the voltage value is high, but note that the ripple voltage can not exceed the maximum input voltage of the drive, or it may damage the drive.B. Determination of CurrentPower supply current is generally based on the output phase current drive I to determine. If a linear power supply, power supply current is generally preferable 1.1 to 1.3 times the I; if we adopt the switching power supply, power supply current is generally preferable to I, 1.5 to 2.0 times.The main characteristics of stepping motor:1. A stepper motor drive can be added operate pulse drive signal must be no pulse when the stepper motor at rest, such as If adding the appropriate pulse signal, it will to a certain angle (called the step angle) rotation. Rotation speed and pulse frequency is proportional to.2. permanent magnet step angle stepper motor version is 7.5 degrees, 360 degrees around, takes 48 pulses to complete.3. stepper motor has instant start and rapid cessation of superior characteristics. Change the order of the pulse4(you can easily change the direction of rotation.Therefore, the current printers, plotters, robotics, and so devices are the core of the stepper motor as the driving force.Stepper motors have the following benefits: (1)Low cost(2)Ruggedness (3)Simplicity in construction (4)High reliability (5)No maintenance (6)Wideacceptance(7)No tweaking to stabilize (8)No feedback components are neededThey work in just about any environment Inherently more failsafethan servo motors. There isvirtually no conceivable failure within the stepper drive module that could cause the motor to run away. Stepper motors are simple to drive and control in an open-loop configuration. They only require four leads. They provide excellent torque at low speeds, up to 5 times the continuous torque of a brush motor of the same frame size or double the torque of the equivalent brushless motor. This often eliminates the need for a gearbox. A stepper-driven-system is inherently stiff, with known limits to the dynamic position error.Stepper Motor Disadvantages:Stepper motors have the following disadvantages:1. Resonance effects and relatively long settling times .2.Rough performance at low speed unless a microstep drive is used .3.Liability to undetected position loss as a result of operating open-loop .4. They consume current regardless of load conditions and therefore tend to run hot5. Losses at speed are relatively high and can cause excessive heating, and they are frequently noisy (especially at high speeds).6.They can exhibit lag-lead oscillation, which is difficult to damp.There is a limit to their available size, and positioning accuracy relies on the mechanics (e.g., ballscrew accuracy).Many of these drawbacks can be overcome by the use of a closed-loop control scheme.外文资料翻译译文步进电机应用和控制步进电机是将电脉冲转换成角位移的执行机构。

步进电机的的基本原理中英文翻译English translation of the stepping motor basic principle步进电机作为执行元件,是机电一体化的关键产品之一,广泛应用在各种自动化控制系统中。

随着微电子和计算机技术的发展,步进电机的需求量与日俱增,在各个国民经济领域都有应用。

The stepping motor as executing components, electromechanical integration is one of the key products, widely used in a variety of automatic control systems. With the development of microelectronics and computer technology, the stepper motor demand grow with each passing day, has been applied in various fields of the national economy.步进电机是一种将电脉冲转化为角位移的执行机构。

当步进驱动器接收到一个脉冲信号,它就驱动步进电机按设定的方向转动一个固定的角度(称为“步距角”),它的旋转是以固定的角度一步一步运行的。

可以通过控制脉冲个数来控制角位移量,从而达到准确定位的目的;同时可以通过控制脉冲频率来控制电机转动的速度和加速度,从而达到调速的目的。

步进电机可以作为一种控制用的特种电机,利用其没有积累误差(精度为100%)的特点,广泛应用于各种开环控制。

Stepping motor is a kind of electrical pulses into angular displacement of the implementing agencies. When stepping drive receives a pulse signal, it drives stepper motor rotate in the direction set by a fixed angle ( called the " step " ), it is the rotation at a fixed angle step by step operation. The number of pulses to control the amount of angular displacement through the control, so as to achieve the purpose of accurate positioning; also can control the pulse frequency to control motor rotation speed and acceleration, so as to achieve the purpose of speed. Special motor stepper motor control can be used as a, using its no accumulation of error ( accuracy of 100% ) characteristics, widely used in all kinds of open-loop control.现在比较常用的步进电机包括反应式步进电机(VR)、永磁式步进电机(PM)、混合式步进电机(HB)和单相式步进电机等。