阅读说明：本技术 一种集成的探针诊断系统电路模块、诊断系统及诊断方法 (Integrated probe diagnosis system circuit module, diagnosis system and diagnosis method ) 是由 汤海滨 刘一泽 鲁超 章喆 王一白 任军学 于 2019-07-19 设计创作，主要内容包括：本发明属于等离子体诊断领域,涉及一种集成的探针诊断系统电路模块、诊断系统及诊断方法。等离子体诊断是用实验方法测定等离子体参量的技术,是研究等离子体物理性质的重要手段。诊断的方法有探针法、微波法、激光法、光谱法、光学法和粒子束法,其中探针法最为常用。通过探针法可以获得等离子体的电子温度、电子浓度、离子浓度、饱和离子电流密度、空间电位等等离子体参数。常用的探针包括Langmuir探针,及其变体——Faraday探针、发射探针。本发明提出一种集成的探针诊断系统电路模块,该模块将上述探针电路整合到一起,并且统一对信号进行屏蔽,可以大大简化探针的使用流程。(The invention belongs to the field of plasma diagnosis, and relates to an integrated circuit module of a probe diagnosis system, a diagnosis system and a diagnosis method. Plasma diagnosis is a technology for measuring plasma parameters by an experimental method, and is an important means for researching the physical properties of plasma. The diagnostic methods include a probe method, a microwave method, a laser method, a spectroscopic method, an optical method and a particle beam method, among which the probe method is most commonly used. The electron temperature, the electron concentration, the ion concentration, the saturated ion current density, the space potential and other plasma parameters of the plasma can be obtained by a probe method. Commonly used probes include Langmuir probes, and variants thereof-Faraday probes, emission probes. The invention provides an integrated probe diagnosis system circuit module, which integrates the probe circuits together and uniformly shields signals, and can greatly simplify the use flow of the probe.)

1. The circuit module comprises a metal shell, a plurality of BNC connectors and a circuit board, wherein the circuit board is fixed inside the metal shell, the inside of the module is isolated from the outside by the metal shell, the circuit board comprises at least two probe circuits, each probe circuit is provided with a switch fixedly connected with the shell and a multi-path resistor, the diagnosis requirements of different parameter ranges are met by adjusting gears through the switches, a shielding layer of each BNC connector is connected with the metal shell to realize the whole-course shielding of signals, and the BNC connectors are respectively connected with a probe power supply, a data acquisition instrument, at least two probes and a ground wire through an interface with a shielding layer when in use.

2. The plasma probe diagnostic system circuit module of claim 1, wherein: the circuit board includes three probe circuits.

3. the plasma probe diagnostic system circuit module of claim 2, wherein: the first probe circuit is a Langmuir probe circuit, the second probe circuit is a Faraday probe circuit, the third probe circuit is a transmitting probe circuit, the circuits of three electrostatic probes, namely the Langmuir probe, the Faraday probe and the transmitting probe, are integrated on one module, and the three circuits are independent and have no signal interference.

4. the plasma probe diagnostic system circuit module of claim 3, wherein: the Langmuir probe circuit is capable of adapting to the following probe configurations: cylindrical Langmuir probes, planar Langmuir probes, spherical Langmuir probes and variants based thereon; the Faraday probe and transmission probe module is capable of adapting to existing basic probe configurations.

5. an integrated probe diagnostic system circuit module as claimed in claim 2, wherein: the three probes can adjust the resistance gear of the sampling resistor through a manual switch, each probe corresponds to four resistance gears of 0.5K omega, 0.67K omega, 1K omega and 2K omega, and a proper resistance value is selected according to the signal magnitude during use.

6. An integrated plasma probe diagnostic system comprising the probe diagnostic system circuit module of any of claims 1-5, further comprising: the probe diagnosis system comprises a direct current probe power supply, a data acquisition instrument and at least two probes, wherein the probe diagnosis system circuit module is connected with the direct current probe power supply, the data acquisition instrument, the at least two probes and a ground wire through BNC connectors.

7. A diagnostic method using the plasma probe diagnostic system of claim 6, characterized in that: the sampling resistor gears of the first probe, the second probe and the third probe are respectively provided with four gears which respectively correspond to the resistance values of 0.5K omega, 0.67K omega, 1K omega and 2K omega, the current collection of the three probes is obtained by collecting and converting voltage signals, and when the current collection device is used, the actual current signals can be obtained by multiplying the reciprocal of the resistance values by the collected voltage signals by using the conversion multiplying power of the signals according to the resistance values corresponding to the selected sampling resistor gears of the probes.

Technical Field

The invention belongs to the field of plasma diagnosis, and relates to an integrated circuit module of a probe diagnosis system, a diagnosis system and a diagnosis method.

Background

plasma diagnosis is a technology for measuring plasma parameters by an experimental method, and is an important means for researching the physical properties of plasma. The diagnostic methods include a probe method, a microwave method, a laser method, a spectroscopic method, an optical method and a particle beam method, among which the probe method is most commonly used. The probe method is a means for inserting a probe into the plasma to obtain the internal structure and parameter distribution of the plasma. The electron temperature, the electron concentration, the ion concentration, the saturated ion current density, the space potential and other plasma parameters of the plasma can be obtained by a probe method. Commonly used probes include the Langmuir probe, and its variants-the Faraday probe and the emission probe. The probe circuit determines the quality of data acquired by the probe, and in actual use, the circuit is often required to be temporarily built according to experimental requirements, so that data inaccuracy is often caused, and a large amount of time is required to investigate the circuit. The invention provides an integrated probe diagnosis system circuit module, which integrates probe circuits together and uniformly shields signals, and can greatly simplify the use flow of a probe.

Disclosure of Invention

In order to simplify the use of the probe and reduce the error of the probe data, the invention provides an integrated probe diagnosis system circuit module, a diagnosis system and a diagnosis method.

The technical scheme of the invention is as follows:

The circuit of three electrostatic probes, namely the Langmuir probe, the Faraday probe and the emission probe, is integrated on one module, and when the device is used, a probe power supply, a data acquisition instrument, the probes and a ground wire are connected to the device through an interface with a shielding layer, so that the device can be normally used. The gear can be adjusted through a manual switch so as to adapt to the diagnosis requirements of different parameter ranges.

The circuit module comprises a metal shell, a plurality of BNC connectors and a circuit board, wherein the circuit board is fixed inside the metal shell, the inside of the module is isolated from the outside by the metal shell, the circuit board comprises at least two probe circuits, each probe circuit is provided with a switch fixedly connected with the shell and a multi-path resistor, the diagnosis requirements of different parameter ranges are met by adjusting gears through the switches, a shielding layer of each BNC connector is connected with the metal shell to realize the whole-course shielding of signals, and the BNC connectors are respectively connected with a probe power supply, a data acquisition instrument, at least two probes and a ground wire through an interface with a shielding layer when in use.

Further, the circuit board includes three probe circuits.

Furthermore, the first probe circuit is a Langmuir probe circuit, the second probe circuit is a Faraday probe circuit, the third probe circuit is a transmitting probe circuit, the Langmuir probe, the Faraday probe and the transmitting probe are integrated on one module, and the three circuits are independent and have no signal interference.

Further, the Langmuir probe circuit is capable of adapting to the following probe configurations: cylindrical Langmuir probes, planar Langmuir probes, spherical Langmuir probes and variants based thereon; the Faraday probe and transmission probe module is capable of adapting to existing basic probe configurations.

Furthermore, three kinds of probes can all adjust sampling resistance value gear through manual switch, and every kind of probe corresponds four resistance value gears of 0.5K omega, 0.67K omega, 1K omega, 2K omega, chooses suitable resistance according to the signal magnitude during the use.

The invention also provides an integrated plasma probe diagnosis system, which comprises the probe diagnosis system circuit module, and further comprises equipment, a direct current probe power supply, a data acquisition instrument and at least two probes, wherein the probe diagnosis system circuit module is connected with the direct current probe power supply, the data acquisition instrument, the at least two probes and a ground wire through a BNC joint, preferably comprises three probes, namely a Langmuir probe, a Faraday probe and a transmitting probe.

The invention also provides a diagnostic method of the plasma probe diagnostic system, the sampling resistance gears of the first probe, the second probe and the third probe respectively have four gears, which respectively correspond to the resistance values of 0.5K omega, 0.67K omega, 1K omega and 2K omega, the current acquisition of the three probes is obtained by acquiring and converting voltage signals, when in use, the actual current signals can be obtained by multiplying the conversion multiplying power of the signals by the acquired voltage signals by the reciprocal of the resistance values according to the resistance values corresponding to the selected sampling resistance gears of the probes.

Compared with the prior art, the invention mainly has the following advantages:

The use is simple, convenient and quick, and the time and labor for designing, building and checking the circuit are saved;

The probe gear can be adjusted through a manual switch so as to cover a wider parameter diagnosis range;

The interface and the module shell are designed to be electromagnetically shielded, so that the whole-process shielding from the probe to the data acquisition instrument is realized, and more accurate probe data can be obtained.

drawings

Fig. 1 is a circuit diagram of an integrated circuit module (including external devices) of a probe diagnostic system according to the present invention.

In the figure:

1. data acquisition instrument-voltage channel 2. DC power supply 3.BNC connects

4. hand switch 5, resistance 6, earth wire

Langmuir Probe 8 Faraday Probe 9 emission Probe

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

An embodiment of the present invention will be described with reference to fig. 1.

An integrated probe diagnostic system circuit module of the present invention. The dashed lines represent metal enclosures that isolate the interior of the module from the outside. The module is connected with the outside through the BNC joint, can control probe circuit gear through manual switch. The module comprises a circuit with three probes, namely a Langmuir probe, a Faraday probe and a transmitting probe, no signal interference exists among the three probes, and a user can use the three probes according to actual requirements.

The circuit is soldered to the printed circuit board as shown in fig. 1, the circuit board is fixed inside the metal housing of the module, and the shield layer of the BNC connector is connected to the metal housing, so that the signal can be shielded in the whole process. The invention can be implemented by fixedly connecting the external switches of the manual switches S1-S6 with the shell.

1. Circuit element number description:

The integrated probe diagnosis system circuit module of the invention adopts BNC connectors as interfaces with external power supply and data acquisition instruments, wherein the shielding layer of the BNC connectors is connected with a metal shell (indicated by a dotted line in figure 1).

The element number prefixes in FIG. 1 are illustrated below: v represents a signal acquisition channel of the data acquisition instrument; b represents a direct current power supply; s represents a manual switch; p represents a BNC port; langmuir probe stands for Langmuir probe; faraday probe stands for Faraday probe; emulsion probe stands for Emission probe.

specific functions of the respective elements are given below;

The sampling resistor of each probe has four gears, which correspond to the following resistance values (taking S1 and S2 switches corresponding to the Langmuir probe as an example, the Faraday probe and the emission probe are the same);

Gear position	Switch combination	Corresponding resistance value
			1	Full communication between S1 and S2	0.5KΩ
2	S1 off + S2 on	0.67KΩ
			3	S1 on + S2 off	1KΩ
4	Full cut of S1 and S2	2KΩ

In addition, the current collection of the three probes is obtained by collecting and converting voltage signals, and when the current collection device is used, according to the resistance value corresponding to the selected probe sampling resistor gear, the actual current signal can be obtained by multiplying the acquired voltage signal by the inverse of the resistance value as the conversion multiplying factor of the signal.

2. External device conditions:

The invention needs to be matched with the following three kinds of external equipment when in use: (1) a DC probe power supply; (2) a data acquisition instrument; (3) and (3) a probe.

The following describes the external device conditions required to implement this patent:

(1) DC probe power supply

The Langmuir probe scanning power supply B1 needs to provide sawtooth wave or sine wave voltage with amplitude of 50-100V and scanning frequency of 0.8-2 Hz;

the Faraday probe collecting power supply B2 and the Faraday protection collecting power supply B3 need to provide voltage output of at least 30V;

The emission probe scanning power supply B4 needs to provide sawtooth wave or sine wave voltage with amplitude of 50-100V and scanning frequency of 0.8-2 Hz;

the emission probe heating power supply B5 must provide a current output of 1-3A.

(2) data acquisition instrument

The voltage acquisition needs to at least meet the sampling rate of 100KHz, and in actual use, 500KHz can meet the basic requirement.

(3) Probe needle

The present invention can be adapted to Langmuir probes, Faraday probes, and several common variants of emission probes. The Langmuir probe module can be adapted to the following probe configurations: cylindrical Langmuir probes, planar Langmuir probes, spherical Langmuir probes, and variants based on the above configurations; the Faraday probe and transmission probe module can be adapted to existing common basic probe configurations.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.