电机与拖动基础 复习曾小燕

电机与拖动基础总复习试题类型一、填空题（每题2分，共20分）二、判断题（每题2分，共20分）三、单项选择题（每题2分，共20分）四、简答题（三题，共15分）五、计算题（三题，共25分）第一章电机的基本原理1．按电机供电电源的不同，可以分为直流电机和交流电机两大类。

第二章电力拖动系统动力学基础1．电力拖动系统一般由电动机、生产机械的传动机构、工作机构、控制设备和电源组成，通常又把传动机构和工作机构称为电动机的机械负载。

☆2由电动机的电磁转矩T e与生产机械的负载转矩T L的关系：1）当T e = T L时，d n/d t = 0，表示电动机以恒定转速旋转或静止不动，电力拖动系统的这种运动状态被称为静态或稳态；2）若T e＞T L时，d n/d t＞0，系统处于加速状态；3）若T e＜T L时，d n/d t＜0，系统处于减速状态。

也就是一旦d n/d t≠0 ，则转速将发生变化，我们把这种运动状态称为动态或过渡状态。

☆3．生产机械的负载转矩特性：☆4．拖动系统稳定运行的充分必要条件: T e =T L 且 5 电动机工作在电动状态飞轮矩的折算☆第三章 直流电机原理1．直流电动机主要由定子、转子、电刷装置、端盖、轴承、通风冷却系统等部件组成。

定子由机座、主磁极、换向极、电刷装置等组成。

转子（又称电枢）由电枢铁心、电枢绕组、换向器、转轴和风扇等组成。

2．直流电机的绕组有五种形式：单叠绕组、单波绕组、复叠绕组、复波绕组和蛙绕组（叠绕和波绕混合绕组）。

3 极距、绕组的节距（第一节距、第二节距、合成节距）的概念和关系。

4 单叠绕组把每个主磁极下的元件串联成一条支路，因此其主要特点是绕组的并联支路对数a 等于极对数n p 。

5 电枢反应：直流电机在主极建立了主磁场，当电枢绕组中通过电流时，产生电枢磁动势，也在气隙中建立起电枢磁场。

这时电机的气隙dn dT dn dT L e <c L L L c L L ηωηj T T T '='=中形成由主极磁场和电枢磁场共同作用的合成磁场。

电机与拖动基础复习资料（主）De motor de motor 1. Fill in the blanks: fill in the blanksThe stationary part of the de motor is called, its main function is made up of, and, etc・ The rotational part is called, its function is the sum, the sum, and so on. In the case of two, single and single wave winding, the logarithmic is p, and the parallel branches are respectively. 3, de motor armature winding and two basic modes of connection, usually with large current and low voltage de motor, the armature winding winding should be adopted・ 4, the de motor armature reaction is defined as, when the brush in the neutral 1 ine geometry, the armature reaction of nature, its and as a result, the motor, the physical neutral wire armature rotation direction deviation. The induction electromotive force of the armature winding is called the armature electromotive force・The armature electromotive force is the induction electromotive force, which is the induction electromotive force・ The electromagnetic torque of a de motor is generated by and combined. De power generation, de motor electromagnetic torque and armature rotation direction. The direction of the magnetic torque and the armature rotation direction Transfer from one branch to another branch, 7, a component in the de motor armature winding is called after a change in the direction of the process・There are two ways to improve the commutation method・The excitation method of de motor has, and.,,,・ 9, shunt de generator self-excited pressure condition is 10 refers to the operating characteristics of motor, de motor under the condition of,,,,,, and the relationship between. Next, the motor is used to determine the state of the de motor when it is in the state of the motor ・ The steering of a de motor is made up of anddeterm in ed, and there are two ways of changing the turn.Jane: reaction when the brush is in the geometric neutral line? What kinds of excitation methods are available for the de generator? Try drawing instructions ・ How do you determine the polarity of thecommutator pole, and why is it connected to the armature winding? What is the self-excitation of the excited generator? What are the conditions for self-excitation?Power drag of de motor for direct current motorFill in the blanks: fill in the blanks:1, the mechanical characteristics of the de motor, refers to the motor, as under the condition of constant value, namely the stable operation of the motor, the motor and the relationship between, can be expressed as. The inherent mechanical properties of the direct current motor are the relation of under conditions. To limit the starting current, he usually has two kinds of starting methods for the de motor. If the brake resistance is not in series, the armature current of the reverse brake the pitch, the winding stack, second pitch, synthetic pitch, wavewinding armature reaction, Polar distance, reversing pitch, the working characteristic of de motor, de motor commutator, the reversible de motor principle 2.Briefly working principle of de motor, de generator? winding, single wave winding characteristics armature reaction? What is the characteristic describes the Single stack4. What i sof the armaturemoment is about twice as much as the armature current when the electric state runs・ When the speed of the motor exceeds, the feedback brake occurs・There are four aspects to evaluating the performance of speed regulating performance, namely, and・ And three・ Seven, eight of de motor speed control method, drag the constant transfer load speed, shall adopt speed method, and drag the constant power load control method should be adopted.Two. Description:The equation of motion of the power drag system 3. What is the load torque characteristic? What are the conditions for the stable operation of the power drag system? Starting requirements for direct current motorTransformer of transformerFill in the blanks: fill in the blanks:1, the transformer is to use the principle of transfer from one circuit to another circuit or transmission of a kind of electric equipment, the two circuits with the same frequency but different voltage and current, also can have different number・The main parts of the transformer are the sum・ The running of a transformer is the alternating current of a transformer and the secondary winding・ The size of the main flux of the transformer is determined・4, a received power frequency transformer, fixed under the condition of ignoring leakage impedance voltage, its main magnetic flux is determined by the size of the size, and has nothing to do with the magnetic circuit of the basic, and its main magnetic flux field current into a relationship・ 5, the power factor of a transformer is low whenit is run. It is known by magnetic circuit ohm's law and magnetization curve that the size of the electric current of the transformer is about the size of the current, and it is the saturation of the magnetic path ・ The better the magnetic performance of transformer core, the more excitation reactance, the more excitation current ・ On the ac power supply, the secondary windings of 8 and transformer are connected The running state is called the load run of the transformer ・ Reactance, Rm is the resistance ・ In the transformer equivalent circuit the Xm is corresponding to the greater the short circuit impedance of thetransformer, the voltage change rate is the short circuit current ・ If, operation of the transformer on load, load increase, will its iron loss and copper loss will (and the influence of leakage impedance voltage drop slightly)・ 12, when the transformer load must be 2 > 0 ° (phi), power supply voltage drops, the no-load current 10, PFe iron loss ・ P 13, A 2kV A, 400/100V single-phase transformer, low pressure side plus 100V, and high pressure side open. 0 = 20 w; When the high pressure side plus 400V, the low pressure side opens, the 10 二 A, P0 二W. The connection of the three-phase transformer is not only related to the winding, but also to the three-phase winding ・ The factors affecting the connection of the three-phase transformer are, and ・ The main 16 and thetransformer first transformer short-circuit impedance is worth the second ・TaiwanTwo. Description:performance characteristics of the transformer performance are the same ・ Transformer parallel operation operation mode ・ And the ideal conditions operation are, and ・ The two transformers parallel and the first one is fully loaded, refers to thefor the combined are running inindicating that theWhat is the main part of the transformer? How to determine the parameters of a transformer? Brief explanation of the transformer J s external properties and voltage change rate? The efficiency and efficiency of the transformer・ What is the condition of parallel operation of transformer? Which condition is strictly strict?Three-phase asynchronous motor with three-phase asynchronous motorFill in the blanks: fill in the blanks:The stator parts of the three-phase asynchronous motor are mainly composed of three parts・ The rotor part is mainly composed of three parts・ The three-phase asynchronous motor is divided into two types according to the structure of the rotor・ The magnetic field of the rotating field of ac motor is the magnetic field・ 3, a 6 three-phase asynchronous motor on 50 hz power supply, its slip is S 二0. 05, the rotor speed at this time, relative to the stator rotating magnetomotive force of rotor speed, stator rotating magnetomotive force relative to the turn the speed of the rotating magnetomotive force for children・ 4, a three-phase duplex winding motor, the number of poles 二4, the slot number Z = 36, Y = 8, the distance is equal to the slot nu mb er of each phase, the slot spacing An gle is. The three-phase asynchronous motor which is running at constant torque load, which can be run reliably in the range of the differentia 1. When S is in the range, the three-phase asynchronous motor operates in the state of the motor, which is the electromagnetic torque・ When S is in the range, the three-phase asynchronous motor operates in the generator state・ The property of electromagnetic torque is zeroThe constituting principle of the three-phase winding is,・ Athree-phase symmetric alternating current winding, 2p 二2, and athree-phase symmetrical alternating current with f 二50Hz, and its synthetic flux potential is magneto. The subharmonic component can be eliminated by the short pitch winding of the pitch yl 二.The use of winding and winding can effectively weaken the harmonic component and make the base wave (add less)・ The component 11, a pulse vibration flux can be decomposed into two and the same, and the opposite rotation is magnetomotive・ When a phase current reaches a maximum, the amplitude of a three-phase winding is made up of the rotating flux potentia 1.1? The additional resistance s in the equivalent circuit of s r ' 2, 13 and three-phase asynchronous motors are simulatedWhen the three phase asynchronous motors are running at the rated load, the differential rate s is generally inThe equivalent resistance・ Within the scope・Two. Description:1. 2. 3. 4. 5. 6. Slip, a rotating magnetic field, slot pitch Angle, facies belt Per each phase of the slot number The basic working principle of three phase asynchronous motor Try to briefly explain the characteristics of the three-phase asynchronous motor three-phase synthetic magnetomotive force? Three-phase asynchronous motor and transformer electromagnetic relationship of differences Shows that three-phase asynchronous motor power relations, draw power diagram, write power balance equation. Three phase asynchronous electrical work characteristicsThe power drag of three-phase asynchronous motor with three-phaseasynchronous motorFill in the blanks: fill in the blanks:The three-phase asynchronous motor that is running at constant torque load will be able to keep the motor stable in the range・ The overload ability of a three-phase asynchronous motor means・ 3, a three-phase asynchronous motor with constant torque load running, if the power is broken down, the speed of the motor, the stator current, the maximum torque, critical slip・ Stator current・ 4, three-phase asynchronous motor power supplyvoltage must be, when the load torque increases, the speed of 5, for wound rotor three-phase asynchronous motor, if the supply voltage must be, appropriate rotor loop resistance increases, the starting torque, maximum torque・ The starting current and the torque are reduced to double the starting point when the star one triangle is down. When the three-phase asynchronous motor is used for braking, the larger the de excitation current, the more the initial braking torque・Adjust the speed of the asynchronous motor・In order to ensure the overload capacity and the flux invariance, the U1 should be adjusted with fl in order to ensure the overload capacity and the flux change・ Change the logarithm of the asynchronous motor stator, usually by changing the connection method of the stator winding. The two common methods are the sum.Two. Description:The mechanical properties of the three-phase asynchronous motor. The reverse braking of the ac motorBriefly explain the starting method of the three-phase asynchronous motor・4. A brief introduction of three-phase asynchronous motor speedregulation method 5. Deep groove and double squirrel-cage asynchronous motor why big starting torque and efficiency is not low 6. Qualitative analysis of three-phase wound rotor asynchronous motor rotor loop concatenated resistanee suddenly slow down after the electromagnetic process, assume that drag is a constant torque load.Computing: computing:1, the power rating of a de generator PN 二10 kw, UN 二230 v rated voltage, rated speed n, n = 2850 r/min, the frontal efficiency eta n 二85%, rated current of the generator and rated power input at run-time? 2, a de motor rated power of the PN 二17 kw, UN 二220 v rated voltage, rated speed n, n 二1500 r/min, the forehead on eta n 二83% efficiency, find the rated current and rated load of the motor input power? 3, the de generator is rated as follows: P N = 6 kw, U N 二230 V, nN 二1450 r/min. Armature back to the way a total resistance R 二0. 57 Q , exciting circuit the total resistance R 二177, rated running, PFe 二234 w, Pmec 二61 w, armature reaction. Try to find: (1) the output torque TN at the rated run time and the electromagnetic torque Tem;(2) the efficiency at the rated run time・4,the data on his motivation for de motor: P N = 7・ 5 kw, U N 二110 V, I N 二85. 2 A, nN 二750 r/min. Armature loop total resistance R a =0. 13 Q, if use level 3 starting, starting current biggest limit is 2I N, o paragraphs starting resistance・5,shunt de motor rated data is as follows: P, N = 96 kW, U N 二440 V, 255 A, I N 二I fN 二5 A, nN 二500 r/min. Armature loop total resistance R a = 0. 078 Q , armature reaction. Try to find: (1) the output torque TN at the rated run time and the electromagnetic torque Tem; (2) keepthe runtime TZ 二total load torque rating TN + TO unchanged, the R series Q 二0・122 Q and stable after the armature electric current and rotating speed respectively?6,there is a three-phase transformer, SN 二500kva, U1N/U2N 二10/6.3 kV, Y, d join, try to find: (1) the rated voltage and the rated current of the transformer・(2) the rated voltage and the rated current of the transformer, the secondary winding・7,two single-phase transformer, one side is equal to the number of turns, but the no-load current 101 二2 i02, today wi 11 give two transformer primary winding polarity together, one side plus 440 v voltage, ask two transformer secondary side is no-load voltage the same? Such as,How much for each?8, a three-phase transformer rated capacity of SN 二5600 kva, 1 n/U2N 二6000/3300 v, d, U Y, no-load loss P0 二18 kW, short circuit loss PSN 二56 kW, sought to: (1) when the output current 12 二I2N, cos phi 2 二0.8 (lag) the efficiency of the eta? (2) the highest efficiency eta Max when the highest efficiency is beta m and cosine phi 2 二0. 8 (lagging)・A three-phase transformer, SN 二5600kVA, U1N/U2N 二6000/3300V, Y, d, fN 二50Hz, short circuit test on the high voltage side: Us 二2610V, Is 二92. 3 A, Ps 二53kW. When the U1 二U1N, 12 二I2N measured voltage of the secondary to ratings, U2 二U2N, namely for the load power factor Angle, and explains the nature of the load (regardless of the temperature conversion)・10, a three phase six pole induction motor rating data is as follows: PN 二55 kW, UN 二380 v, eta N 二91. 5%, cos phi N 二0. 8& nN 二970 r/min,f = 50 HZ, stator winding delta connection・The rated slip rate, rated current and rated current・11,quadrupole three-phase asynchronous motor, stator winding for star connection, power rating of 10 KW, rated voltage 380 V, 11. 6 A constant current, rated running, PCU1 二560 W, PCU2 = 310 W, PFe = 270 W, Pmec = 70 W, Pad = 200 W, try A rated runtime: (1) the rated speed; (2) the idle torque; (3) the output torque; (4) electromagnetic torque・A three-phase winding asynchronous motor・ PN 二22 KW, nN 二723r/min, E2N 二197V, I2N 二70. 5 A, lambda T = 3. If the drag operation of the rated load, using the reverse parking brake, brake at the beginning of the maximum braking torque for 2 tn, strives for the rotor series with each phase of brake resistance・13, a three-phase cage induction motor, the rated power of 3 KW, rated voltage 380 V, rated speed of 957 r/min, the stator winding for star connection, the motor parameters are as follows: rl 二2.08 Q, r2 = 1. 525 Q, nn 二4. 12 Q, XI 二3. 12 Q, X2 二'4. 25 Q, Xm Q = 62. The output power and efficiency of the stator current, rotor current, power factor, input power and motor output at the rated speed・ The mechanical loss and added losses are 60W, and the electromagnetic power and electromagnetic torque are tried.14, a three-phase quadrupole windingThe line asynchronous motor・PN 二150KW, U1N 二380V, nN 二1460r/min, KT，s inherent mechanical properties 二2, try to find: (1) the machineexpression; (2) the inherent torque of the machine;(3) the speed at which the load is the constant torque load and TZ 二755N.。

《电机原理与拖动基础》复习大纲第一章绪论1. 电机及电力拖动的发展史，电机的制造材料？P1~P4第二章直流电机1.直流电机的主要结构结? P7~P102.何为电枢反应？电枢反应的性质有什么决定？P193.什么是电机的可逆原理？P74.直流电动机有几种励磁方式？P235.改善换向的基本方法有哪些？P39第三章电力拖动系统的动力学基础1. 什么是电力拖动系统它包括哪几部分？P412. 多轴系统为什么要折算成等效单轴系统? P453.电力拖动系统稳定运行的条件是什么？P51第四章直流电动机的电力拖动1.什么叫固有机械特性？什么叫人为机械特性? P57~P582.他励直流电动机有几种调速方法，各有什么特点？P66~P743.什么叫恒转矩调速方式和恒功率调速方式？他励直流电动机的三种调速方法各属于哪种调速方式？P71~P744.怎样减少过度过程中的能量损耗？P885.他励电动机的机械特性指什么？P446.调速技术的指标有几种？各是怎样的定义？P66~P73第五章变压器1. 变压器的原理及其结构？P962. 试分析变压器的运行？P1013. 变压器按铁芯形式如何分类? P984.什么叫标幺值，使用标幺值计算变压器有何优势？P116第六章交流电机基础1. 试分析三相单层绕组？P1352. 削弱谐波电势有哪些方法？P143~P145第七章三相异步电动机原理1. 三项异步电动机转子不转的电磁关系？P1602. 三相异步电动机转子旋转的电磁关系？P1673. 三相异步电动机的工作特性及参数测定？P176~177第八章同步电机1. 什么叫同步电动机？P1842. 为什么同步电动机只能运行在同步转速下，而异步电动机不能在同步转速下运行？P1863. 说明功角的物理意义？P199第九章控制电机1. 说明罩极启动的工作原理。

P205~2062. 说明交流测速发电机的原理。

P209~2103. 说明直线异步电动机的原理。

P2244. 说明两相交流伺服电动机的控制方法。

《电机与电力拖动》复习提纲一、填空题1．刀开关是一种结构简单，应用广泛的低压电器，常用的有开启式负荷开关、封闭式负荷开关和组合开关。

2.断路器又称自动空气开关，可以实现短路保护、过载保护和欠压保护3.熔断器主要在低压配电和电力拖动系统中作为短路保护。

4.接触器是一种电气行业通用的电磁式电器，主要用来频繁的接通或断开交流主电路，并可实现远距离控制。

5.热继电器是一种利用电流的热效应来切换电路的保护电路，它主要在电路中用作电动机的过载保护。

6．熔断器主要由熔体、熔管和熔座三大部分构成。

7.时间继电器按照延时的方式可以分为通电延时型和断电延时型两种。

8.按钮是一种手动操作的指令电器，在控制电路电路中发出“指令”，控制接触器、继电器等电器。

9．低压电器按照用途分，可以划分为_低压配电电器和低压控制电器；按照动作方式分，可以划分为自动切换电器和非自动切换电器；按照触点类型分，可以划分为_有触点_电器和_无触点电器；10．根据工用状态指示和工作情况要求选择按钮颜色和带指示灯按钮颜色，紧急停止按钮选用红色。

11．一般情况下，热继电器整定电流为被保护电动机额定电流的 0.95 ～1.05倍。

12．热继电器的三相热元件应分别串接在电动机的三相主电路中，常闭触头串接在控制电路的接触器线圈回路中。

13．交流接触器电磁系统主要由线圈、静铁芯、动铁芯三部分组成。

14．电磁系统的主要作用是利用线圈的通电或断电，使动铁芯和静铁芯释放，从而带动触头与静触头闭合或分断，实现电路接通或断开。

15．交流接触器的静铁芯和动铁芯一般用E形硅钢片叠压铆成，其目的是减少工作时交磁场在铁芯中产生的涡流，避免铁芯过热。

16．为了减少接触器吸合时产生的振动和噪声，在静铁芯上装有一个铜短路环。

17．点动控制主要应用于设备的快速移动和校正装置，由于它是短时断续工作，因而不需要过载保护。

18．电路图一般分电源电路、主电路、控制电路三部分绘制。

19．接触器选用时，主触点的额定工作电流应大于或_等于负载电路的电流，吸引线圈的额定电压应与控制回路_电压相等_。

《电机原理及拖动》复习1一、名词解释1、绕组元件：是两端分别与两个换向片相连接的单匝或多匝线圈。

2、直流电机的电磁转矩：是指电机在正常运行时，电枢绕组流过电流，这些载流导体在磁场中受力所形成的总转矩。

3、电力拖动系统的过渡过程：就是指拖动系统从一个稳定状态到另一个稳定状态中间的过程。

4、整流变压器：是作为整流装置的电源变压器，用来把电网电压转换成整流装置所需的电压。

5、能耗制动：能耗制动是指利用转子惯性转动切割磁力线而产生制动转矩，就是说把转子的能量消耗在转子回路的电阻上。

6、第一节距：一个元件两个有效边之间的距离，以所跨槽数表示。

7、直流电机的电枢电动势：是指直流电机正常工作时绕组切割气隙磁通产生的刷间电动势。

8、电力拖动系统：是由电动机、机械传动机构、生产机械的工作机构、电动机的控制设备以及电源等五部分组成的综合机电装置。

9、变压器的额定容量：是变压器的额定视在功率，三相变压器指的是三相总容量。

10、反接制动：反接制动是利用改变电动机定子绕组的电源相序、产生反向的制动转矩，而迫使电动机迅速停止转动的方法。

二、填空题1、直流电动机改变线圈中电流方向是换向器和电刷完成的。

2、直流发电机把机械能转换成直流电能。

3、他励直流电动机的调速方法有电阻串电阻调速降低电源电压调速减弱磁通调速。

4、三相变压器的原、副绕组都可以接成星形或三角形。

5、国际上规定标志三相变压器高、低压绕组线电势的相位关系用时钟表示法。

6、交流异步电动机的转子绕组有鼠笼型和绕线型两种。

7、定子三相绕组中通过三相对称交流电时在空间会产生旋转磁场。

8、同步电机可分为同步发电机、同步电动机、同步补偿机三类。

9、对于同步发电机，按拖动它的原动机来分有水轮和汽轮发电机等。

10、通常采用平均损耗法、等效电流法、等效转矩法和等效功率法等方法来校验电动机的发热。

11、主磁极的作用是产生主磁通。

它由主磁极铁心和励磁绕组组成。

12、初始值、稳态值和机电时间常数是决定机械过渡过程的三要素。

电机与拖动基础复习资料一、单一选择填空1.电动机经过速比j=5的减速器拖动工作机构,工作机构的实际转矩为20N・m,飞轮矩为1N・m2,不计传动机构损耗,折算到电动机轴上的工作机构转矩与飞轮矩依次为 D 。

A.20N・m,5N・m2 B.4N・m,1N・m2 C.4N・m,0.2N・m2 D.4N・m,0.04N・m2 E.0.8N・m,0.2N・m2 F.100N・m,25N・m22. 恒速运行的电力拖动系统中, 已知电动机电磁转矩为80N・m, 忽略空载转矩, 传动机构效率为0 .8 , 速比为10 , 未折算前实际负载转矩应为 D 。

A . 8N・mB . 64N・mC . 80N・mD . 640N・mE . 800N・mF . 1000N・m3.电力拖动系统中已知电动机转速为1000r/ min , 工作机构转速为100r/ min , 传动效率为0 .9 , 工作机构未折算的实际转矩为120N・m, 电动机电磁转矩为20N・m, 忽略电动机空载转矩, 该系统肯定运行于 A 。

A . 加速过程 B . 恒速C . 减速过程4. 一台他励直流发电机由额定运行状态转速下降到原来的60% , 而励磁电流、电枢电流都不变, 则 A 。

A . Ea 下降到原来的60% B . T 下降到原来的60% C . Ea 和T都下降到原来的60% D . 端电压下降到原来的60%5. 变压器采用从二次侧向一次侧折合算法的原则是 C 。

A . 保持二次侧电流I2 不变 B . 保持二次侧电压为额定电压1C . 保持二次侧磁通势不变D . 保持二次侧绕组漏阻抗不变6.分析变压器时, 若把一次侧向二次侧折合, 则下面说法中正确的是B 。

A . 不允许折合B . 保持一次侧磁通势不变C . 一次侧电压折算关系是U'1 = kU1D . 一次侧电流折算关系是I'1 = k I1 , 阻抗折算关系是Z'1 = k 2Z1 。

1.直流发电机发出直流电。

其电枢绕组内导体的电势和电流是交流。

2.一台直流发电机。

额定运行状态，转速下降为原来的30%。

而励磁电流及电枢电流不变。

和Ea下降30%。

3.他励直流电动机在电枢回路串电阻调速过程中。

如果负载转距不变则输入功率P1不变。

4.直流电动机带恒转距负载运行。

如果增加它的励磁电流if说明以下各量的变化。

电枢电流ia减小。

电枢电动势Ea增加。

转速n变化不定。

5.直流电动机工作时电枢电流大小主要取决于负载转距大小。

6.一台直流发电机，由额定运行状态转速他降为原来的30%。

而励磁电流及电枢电流不变。

此时Ea下降30%。

7.一台直流电动机拖动一台他励直流发电机。

当电动机的外电压历史电流不变。

增加发电机的负载。

则电动机的电枢，电流ia和转速n将ia增大n降低；8.在直流电动机中，公式ea等于cen和t等于cta five中的five指的是每级合成的磁通。

9.直流电动机的额定功率指转轴上吸收的机械功率。

10.直流电机的电枢绕组的元件中的电动势和电流是交流。

11.直流发电机电磁转接的方向和电枢旋转的方向相反，直流电动机电磁转距的方向和电枢旋转方向相同。

12.单叠和单波绕组。

极对数均为p时，并联支路分别为2p，2。

13.直流电机的电磁转距是由每级气隙磁通量和电枢电流组成的。

14.直流发电机的电磁转距是自动转句。

直流电动机的电磁转距是驱动转矩。

15.一台直流电动机带额定负载直接启动的启动电流大于空载直接启动的启动电流。

错16.直接电动机处于制动状态。

因为的电动于将减速停转。

错17.直流电动机的电磁转距与电机转子方向相同。

18.直流电动机的倒拉反转状态的稳定运行点位于机械特性平面的第四象限。

19.直流电动机的人为特性与固有特性相比。

其理想转速和斜率均发生了变化，那么这条人为特性一定是弱磁的人为特性。

20.直流电动机采用降低电源电压方法启动题目底是为了减小启动电流。

21.当电动机的电枢回路铜损耗比电磁功率或轴机械功率都大时，这时电动机处于反接制动状态22.他励直流电动机拖动恒转距负载，进行串电阻调速。

（壹）参考答案：一、填空题1、直流电机是电能和机械能相互转换的旋转电机之一。

将机械能转换为电能的是直流发电机 ，将电能转换为机械能的是 直流电动机 。

2、直流发电机的工作原理是基于 电磁感应原理 ；直流电动机的工作原理是基于 电磁力定律的 。

3、直流电机的结构可分为定子、转子两部分。

定子主要用于 建立磁场 ，转子主要通过电枢绕组作能量转换 。

4、除容量很小的直流电动机可全压起动外，通常直流电动机的起动方法有：降压和电枢回路串电阻起动。

5、在自动控制中，他励直流电动机的反转实施方法有两种：（1）改变励磁电流方向 ，（2） 改变电枢电压极性 。

6、一台接到电源频率固定的变压器，忽略漏磁阻抗压降的条件下，其主磁通的大小决定于输入电压的大小，而与磁路基本无关。

其主磁通与励磁电流成 正比关系。

7、变压器在能量传递的过程中会产生损耗，由于它是静止的电器，因此变压器的损耗仅有铜耗Cu P 和铁耗Fe P 两类。

其中铜耗Cu P 是 可变损耗 ；铁耗Fe P 是不变损耗 。

8、电压变化率%U ∆是变压器主要性能指标之一，一般电力变压器中，当2cos ϕ接近1时，额定负载时的电压变化率约为 2%~3% ，而当2cos ϕ=0.8（感性）时，额定负载时的电压变化率约为 4%~7% 。

9、三相异步电动机根据转子不同可分为 鼠笼型 和 绕线型 两类。

10、三相异步电动机的定子绕组每相的基波感应电动势公式为11114.4N E fN k =ϕ，其基波绕组因素11,N K <它是以基波电动势略有 减小 为代价使高次谐波大为削弱 。

进而使感应电动势尽可能接近正弦波。

11、从三相异步电动机的T-s 曲线可知，在0＜S ＜1，三相异步电动机运行于 电动状态 ；在S ＜0，运行于发电状态，此时电磁转矩性质为 制动 性质 。

12、单相变压器的变压比为K ，将二次绕组折算到一次绕组时，电流的折算值等于实际值 除以K ，而电阻、漏电抗及阻抗的折算值等于实际值2K 乘以13单相异步电动机常用的起动方法有 分相式起动 和 罩极式起动 。