Holzer sensor is a kind of magnetic field sensor based on the Holzer effect. Hall effect is a magnetoelectric effect a, this phenomenon is hall (A.H.Hall 1855 - 1938) in 1879 in the conductive mechanism of metal research found. Later this effect was observed in the semiconductor and conductive fluid, and semiconductor Hall effect than metal much stronger, the use of this phenomenon from the hall element and widely application in the field of industrial automation technology, detection technology, information processing. Holzer effect is a basic method to study the properties of semiconductor materials. The Holzer coefficient, which is determined by the Holzer effect experiment, can determine the conductive type, carrier concentration and carrier mobility of the semiconductor materials.

由霍尔效应的原理知，霍尔电势的大小取决于：Rh为霍尔常数，它与半导体材质有关；I为霍尔元件的偏置电流；B为磁场强度；d为半导体材料的厚度。

The principle of Holzer effect is known, the size of Holzer electric potential depends on: Rh for the Holzer constant, it is related to the semiconductor material; I for the Holzer component bias current; B for the magnetic field strength; D for the thickness of the semiconductor material.

对于一个给定的霍尔器件，当偏置电流 I 固定时，UH将完全取决于被测的磁场强度B。

For a given Holzer device, when the bias current I is fixed, the UH will depend entirely on the measured magnetic field strength B.

霍尔效应

Hall effect

一个霍尔元件一般有四个引出端子，其中两根是霍尔元件的偏置电流 I 的输入端，另两根是霍尔电压的输出端。如果两输出端构成外回路，就会产生霍尔电流。一般地说，偏置电流的设定通常由外部的基准电压源给出；若精度要求高，则基准电压源均用恒流源取代。为了达到高的灵敏度，有的霍尔元件的传感面上装有高导磁系数的坡莫合金；这类传感器的霍尔电势较大，但在0.05T左右出现饱和，仅适用在低量限、小量程下使用。

A Holzer component generally has four lead terminals, two of which are Holzer components of the bias current I input, and the other two are the output of Holzer voltage. If the two output constitutes the outer loop, it will produce Holzer current. Generally speaking, the bias current is usually given by the external reference voltage source. If the precision demand is high, the reference voltage source is replaced by the constant current source. In order to achieve high sensitivity and some of the hall element sensor surface with high permeability permalloy; this kind of sensor Hall potential larger, but at about 0.05T saturated, only for in low volume limit, small range use.

在半导体薄片两端通以控制电流I，并在薄片的垂直方向施加磁感应强度为B的匀强磁场，则在垂直于电流和磁场的方向上，将产生电势差为UH的霍尔电压。

At both ends of the semiconductor wafer through to control current I, and in the direction perpendicular to the sheet applied magnetic induction B uniform magnetic field, in the perpendicular to the direction of the current and the magnetic field, the potential difference is uh Hall voltage.

磁场中有一个霍尔半导体片，恒定电流I从A到B通过该片。在洛仑兹力的作用下，I的电子流在通过霍尔半导体时向一侧偏移，使该片在CD方向上产生电位差，这就是所谓的霍尔电压。

There is a Holzer semiconductor chip in the magnetic field, a constant current I from A to B through the film. In under the action of the Lorentz force, I of the electron flow through the semiconductor Hall to the side of the offset to the film in the CD direction have a potential difference, this is called the Hall voltage.

霍尔电压随磁场强度的变化而变化，磁场越强，电压越高，磁场越弱，电压越低，霍尔电压值很小，通常只有几个毫伏，但经集成电路中的放大器放大，就能使该电压放大到足以输出较强的信号。若使霍尔集成电路起传感作用，需要用机械的方法来改变磁感应强度。下图所示的方法是用一个转动的叶轮作为控制磁通量的开关，当叶轮叶片处于磁铁和霍尔集成电路之间的气隙中时，磁场偏离集成片，霍尔电压消失。这样，霍尔集成电路的输出电压的变化，就能表示出叶轮驱动轴的某一位置，利用这一工作原理，可将霍尔集成电路片用作用点火正时传感器。霍尔效应传感器属于被动型传感器，它要有外加电源才能工作，这一特点使它能检测转速低的运转情况。

Hall voltage changes with changes in the magnetic field strength, magnetic field is stronger, higher voltage, the magnetic field is weaker, lower voltage and Hall voltage value is very small, usually only a few millivolts, but is amplified by the amplifier integrated circuit, can make the voltage amplification to strong signal output. If the Holzer integrated circuit from sensing, need to use a mechanical method to change the magnetic induction intensity. The following figure shows the method is to use a rotating impeller as the control of magnetic flux switch, when the impeller blades in the magnet and Holzer integrated circuit between the air gap, the magnetic field deviation from the integrated chip, Holzer voltage disappear. In this way, the output voltage of the Holzer integrated circuit can be expressed in a certain position of the impeller drive shaft, and the use of the working principle can be used for the action of the Holzer integrated circuit chip. Holzer effect sensor is a passive sensor, it must have an additional power to work, this feature allows it to detect low speed operation.

霍尔效应传感器

Hall Effect Sensor

1-霍尔半导体元件 2-永久磁铁 3-挡隔磁力线的叶片

Holzer leaves 1- semiconductor element 2- permanent magnet 3- blocking lines

霍尔效应

Hall effect

霍尔效应从本质上讲是运动的带电粒子在磁场中受洛仑兹力作用引起的偏转。当带电粒子（电子或空穴）被约束在固体材料中，这种偏转就导致在垂直电流和磁场的方向上产生正负电荷的聚积，从而形成附加的横向电场。对于图一所示的半导体试样，若在X方向通以电流Is，在Z方向加磁场B，则在Y方向即试样A，A′电极两侧就开始聚积异号电荷而产生相应的附加电场。电场的指向取决定于试样的电类型。显然，该电场是阻止载流子继续向侧面偏移，[1]

The Holzer effect is essentially the deflection of the motion of charged particles caused by the Lorentz force in magnetic field. When charged particles (electrons or holes) is constrained in the solid material, the deflection leads to the accumulation of positive and negative charges in the direction of the vertical current and magnetic field, so additional lateral electric field is formed. For shown in figure of the semiconductor sample, if in the X direction through to current is, in the Z direction and magnetic field B, in the Y direction that sample a, a 'electrodes on both sides of the began accumulation heterocharge and produce corresponding to the additional electric field. The direction of the electric field depends on the type of the sample. Obviously, the electric field is to prevent the carrier from continuing to offset to the side, [1]

当载流子所受的横向电场力eEH与洛仑兹力相等时，样品两侧电荷的积累就达到平衡，故有

When the carrier by the transverse electric field force and the Lorentz force is equal to eEH, the sample charge accumulation on both sides can reach equilibrium, it is

⑴

1

其中EH为霍尔电场，V是载流子在电流方向上的平均漂移速度。设试样的宽为b，厚度为d，载流子浓度为n，则

Among them, EH is the Holzer electric field, and V is the average drift velocity of the carrier in the current direction. The width of the sample is B, the thickness is D, and the carrier concentration is n.

⑵

2

由⑴、⑵两式可得

By the two type available

⑶

3

即霍尔电压VH（A、A′电极之间的电压）与ISB乘积正比与试样厚度d成反比。比例系数 称为霍尔系数，它是反映材料霍尔效应强弱的重要参数，只要测出 VH（伏）以及知道IIs（安）、B（高斯）和d（厘 米）可按下式计算RH（厘米3/库仑

Holzer VH (voltage the voltage between A and A 'electrode) and ISB product is proportional to the thickness of the sample is inversely proportional to d. Said the proportion coefficient is the hall coefficient, it is an important parameter to reflect the strength of the material, Hall effect, as long as the measured VH (V) and know IIS (ANN), B (Gaussian) and D (CM) can be calculated by the formula of Rh (cm / Coulomb