3HAC044516-001/00  ABB  带编码器接口的交流电机

3HAC044516-001/00 ABB 带编码器接口的交流电机

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2023-09-18 07:53:44
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产品ID:3ha 044516-001ABB型号名称:-目录描述:带编码器接口的交流电机

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基本信息:3HAC044516-001/00 ABB 带编码器接口的交流电机

1 编码器分类

1.1 按监测原理分类

1.1.1 光电编码器

光电编码器,是一种通过光电转换将输出轴上的机械几何位移量转换成脉冲或数字量的传感器。这是目前应用最多的传感器,光电编码器是由光源、光码盘和光敏元件组成。

光栅盘是在一定直径的圆板上等分地开通若干个长方形孔。由于光电码盘与电动机同轴,电动机旋转时,光栅盘与电动机同速旋转,经发光二极管等电子元件组成的检测装置检测输出若干脉冲信号,通过计算每秒光电编码器输出脉冲的个数就能反映当前电动机的转速。

此外,为判断旋转方向,码盘还可提供相位相差90°的两路脉冲信号。

1.1.2 霍尔编码器

霍尔编码器是一种通过磁电转换将输出轴上的机械几何位移量转换成脉冲或数字量的传感器。

霍尔编码器是由霍尔码盘(磁环)和霍尔元件组成。

霍尔码盘是在一定直径的圆板上等分地布置有不同的磁极。霍尔码盘与电动机同轴,电动机旋转时,霍尔元件检测输出若干脉冲信号,为判断转向,一般输出两组存在一定相位差的方波信号。

1.2 按输出信号分类

1.2.1 增量式编码器

增量式编码器是将设备运动时的位移信息变成连续的脉冲信号,脉冲个数表示位移量的大 小。其特点如下:

  • 只有当设备运动时才会输出信号。
  • 一般会输出通道A和通道B 两组信号,并且有90° 的相位差(1/4个周期),同时采集这两组信号就可以计算设备的运动速度和方向。

如下图,通道A和通道B的信号的周期相同,且相位相差1/4个周期,结合两相的信号值:

  • 当B相和A相先是都读到高电平(1 1),再B读到高电平,A读到低电平(1 0),则为顺时针
  • 当B相和A相先是都读到低电平(0 0),再B读到高电平,A读到低电平(1 0),则为逆时针
  • 除通道A、通道B 以外,还会设置一个额外的通道Z 信号,表示编码器特定的参考位置

如下图,传感器转一圈后Z 轴信号才会输出一个脉冲,在Z轴输出时,可以通过将AB通道的计数清零,实现对码盘位置的计算。

  • 增量式编码器只输出设备的位置变化和运动方向,不会输出设备的位置。

3HAC044516-001/00

1 Encoder classification

1.1 Classification by monitoring principle

1.1.1 Photoelectric encoder

The photoelectric encoder is a sensor that converts the mechanical geometric displacement on the output shaft into a pulse or a digital quantity by photoelectric conversion. This is currently the most used sensor, photoelectric encoder is composed of light source, optical code disk and photosensitive elements.

The grating disk is a certain diameter of the circular plate on the opening of a number of equal rectangular holes. Because the optical code disc is coaxial with the motor, when the motor is rotating, the grating disc rotates at the same speed as the motor, and the detection device composed of electronic components such as light-emitting diodes detects and outputs several pulse signals, and the current motor speed can be reflected by calculating the number of pulses output by the photoelectric encoder per second.

In addition, in order to determine the direction of rotation, the code disk can also provide two pulse signals with a phase difference of 90°.

1.1.2 Hall encoder

Hall encoder is a kind of sensor that converts the mechanical geometric displacement on the output shaft into a pulse or a digital amount by magnetoelectric conversion.

The Hall encoder is composed of a Hall disk (magnetic ring) and a Hall element.

Hall yards are arranged on a circular plate of a certain diameter with different magnetic poles equally divided. The Hall code plate is coaxial with the motor. When the motor is rotating, the Hall element detects and outputs several pulse signals. In order to judge the direction, the square wave signals with certain phase difference are generally output.

1.2 Classification by output signal

1.2.1 Incremental encoder

Incremental encoder is to change the displacement information of the device into a continuous pulse signal, and the number of pulses indicates the size of the displacement. Its characteristics are as follows:

The signal is only output when the device is in motion.

Generally, two sets of signals of channel A and channel B are output, and there is a phase difference of 90° (1/4 cycle), and the speed and direction of the device can be calculated by collecting these two sets of signals at the same time.

In the figure below, the signal period of channel A and channel B is the same, and the phase difference is 1/4 cycle, combined with the signal value of the two phases:

When phase B and phase A both read A high level (1 1), then B reads a high level, and A reads a low level (10 0), it turns clockwise

When phase B and phase A are both read low (0 0), then B reads high, and A reads low (10 0), it is turned counterclockwise

In addition to channels A and B, an additional channel Z signal is set to indicate the specific reference position of the encoder

As shown in the figure below, the Z-axis signal will output a pulse only after the sensor turns around. When the Z-axis is output, the absolute position of the code disk can be calculated by clearing the count of the AB channel to zero.

Incremental encoders only output the position change and direction of motion of the device, and do not output the absolute position of the device.

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