ABB UFC760BE1142 3BHE0Q4573R1142

ABB 电机，俗称“马达”，是指依据电磁感应定律实现电能的转换或传递的一种电磁装置。电动机也称(俗称马达)，在电路中用字母“M”(旧标准用“D”)表示。它的主要作用是产生驱动转矩，作为用电器或各种机械的动力源，发电机在电路中用字母“G”表示。
变压器是一种静止电机，它应用电磁感应原理，可将一种电压的电能转换为另一种电压的电能(一般是交流电)。从电力的生产、输送、分配到各用电户，采用着各式各样的变压器。首先，从电力系统来讲，变压器就是一种主要设备。我们知道，要将大功率的电能输送到很远的地方去，再用较低的电压即相应的大电流来传输是不可能的。这是由于: 一方面大电流将在输电线上引起大的功率损耗 另一方面，大电流还将在输电线上引起较大的电压降落，致使电能根本送不出去。为此，需要变压器来将发电机的端电压升高，相应的电流便可减小 变压器的简介 变压器的功能主要有: 电压变换，电流变换，阻抗变换;隔离;稳压《磁饱和变压器);自变压器;高压变压器(干式和油漫式) 等，变压器常用的铁芯形状一般有E 型和C型铁芯，XED 型，ED 型 CD 型。 变压器按用途可以分为 配电变压器、电力变压器、 全密封变压器、组合式变压器、干式变压器、 单相变压器、电炉变压器、整流变压器、电抗器、抗干扰变压器、防雷变压器、箱式变电器 试验变压器 转角变压器 大电流变压器 励磁变压器。变压器的最基本型式，包括两组绕有导线之线圈，并且彼此以电感方式称合一起。当一交流电流(具有某一已知频率)流于其中之一组线圈时，于另一组线圈中将感应出具有相同频率之交流电压，而感应的电压大小取决于两线圈耦合及磁交链之程度一般指连接交流电源的线圈称之为[一次线圈](Primary coi1);而跨于此线圈的电压称之为[一次电压.]。在二次线圈的感应电压可能大于或小于一次电压，是由一次线圈与二次线圈间的[匝数比]所决定的。因此，变压器区分为升压与降压变压器两种。 大部份的变压器均有固定的铁芯，其上绕有一次与二次的线圈。基于铁材的高导磁性，大部份磁通量局限在铁芯里，因此，两组线圈藉此可以获得相当高程度之磁耦合。在一些变压器中，线圈与铁芯二者间紧密地结合，其一次与二次电压的比值几乎与二者之线圈匝数比相同。因此，变压器之匝数比，一般可作为变压器升压或降压的参考指标。由于此项升压与降压的功能，使得变压器已成为现代化电力系统之一重要附属物，提升输电电压使得长途输送电力更为经济至于降压变压器，它使得电力运用方面更加多元化，可以这样说，没有变压器，现代工业实无法达到目前发展的现况。 电子变压器除了体积较小外，在电力变压器与电子变压器二者之间，并没有明确的分界线。一般提供 60Hz 电力网络之电源均非常庞大，它可能是涵盖有半个洲地区那般大的容量。电子装置的电力限制，通常受限于整流、放大，与系统其它组件的能力，其中有些部份属放大电力者，但如与电力系统发电能力相比较，它仍然归属于小电力之范围。
ABB motor, commonly known as "motor", refers to an electromagnetic device that converts or transmits electrical energy based on the law of electromagnetic induction. Electric motors, also known as motors, are represented by the letter "M" (berly known as "D" in the standard) in circuits. Its main function is to generate driving torque, which serves as a power source for electrical appliances or various machinery. The generator is represented by the letter "G" in the circuit.
A transber is a static motor that applies the principle of electromagnetic induction and can convert electrical energy from one voltage to another voltage (usually AC). From the production, transmission, and distribution of electricity to various consumers, various transbers are used. Firstly, from the perspective of the power system, transbers are a major type of equipment. We know that it is impossible to transmit high-power electrical energy to distant places with a lower voltage or corresponding high current. This is because: on the one hand, high current will cause significant power loss on the transmission line, and on the other hand, high current will also cause significant voltage drop on the transmission line, resulting in the inability to deliver electricity at all. For this reason, a transber is needed to increase the terminal voltage of the generator, and the corresponding current can be reduced. The main functions of a transber include voltage transbation, current transbation, and impedance transbation; Isolation; Stabilized voltage (magnetic saturation transber); self transber; high-voltage transber (dry type and oil diffuse type) The commonly used iron core shapes for transbers include E-type and C-type iron cores, XED type, and ED type CD type. Transbers can be divided into distribution transbers, power transbers, fully sealed transbers, combination transbers, dry transbers, single-phase transbers, furnace transbers, rectifier transbers, reactors, anti-interference transbers, lightning protection transbers, box type transber test transbers, corner transbers, high current transber excitation transbers according to their usage. The most basic type of transber consists of two sets of coils wound with wires, which are inductively combined with each other. When an AC current (with a certain known frequency) flows into one of the coils, an AC voltage with the same frequency will be induced in the other group of coils, and the magnitude of the induced voltage depends on the degree of coupling and magnetic flux bage between the two coils. Generally, the coil connected to the AC power supply is called the primary coil; The voltage across this coil is called the primary voltage. The induced voltage in the secondary coil may be greater or less than the primary voltage, which is determined by the turn ratio between the primary coil and the secondary coil. Therefore, transbers can be divided into two types: step-up and step-down transbers. Most transbers have fixed iron cores with primary and secondary coils wound around them. Based on the high conductivity of iron material, most of the magnetic flux is limited to the iron core, therefore, two sets of coils can achieve a considerable degree of magnetic coupling through this. In some transbers, the coil and iron core are tightly bonded, and the ratio of the primary to secondary voltage is almost the same as the ratio of the turns of the two coils. Therefore, the turn ratio of a transber can generally be used as a reference indicator for boosting or reducing voltage in transbers. Due to the function of boosting and reducing voltage, transbers have become an important accessory of modern power systems. Increasing transmission voltage makes long-distance power transmission more economical. As for step-down transbers, they make power applications more diversified. It can be said that without transbers, modern industry cannot achieve the current development status. There is no b boundary between power transbers and electronic transbers, except for their small size. The power supply of a 60Hz power network is generally very large, and it may cover a capacity as large as half a continent. The power limitation of electronic devices is usually limited by the ability of rectification, amplification, and other components of the system, some of which belong to the power amplification category. However, compared to the power generation capacity of the power system, it still belongs to the scope of small power.