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A remote measuring device for seebeck coefficient and resistance of thermoelectric materials and its application

A technology for remote measurement and thermoelectric materials, which is applied in the direction of measurement device, measurement of electricity, measurement of electric variables, etc., can solve the problems of small temperature control range, weak data processing ability, long test time, etc., to improve experimental efficiency, easy installation and use , Actionable and strong effect

Inactive Publication Date: 2016-08-31
SHANDONG UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This method takes a long time to test, and the range of temperature control is small. In the case of limited experimental equipment, it is limited by the experimental time and various conditions, which is not conducive to making full use of the experimental equipment.
With the development of the Internet, the use of computer software to remotely control experimental equipment for experimental operations is becoming more and more widespread, but it is rare to use the Internet to remotely measure the Seebeck coefficient and resistance of thermoelectric materials. In the instrument control system, there are the following shortcomings: (1) The upper computer software uses VB, VC, etc. for programming, the data processing ability is weak, and the professional degree of the experiment or control interface is not high; (2) Most of them do not contain identity authentication and experiment records function, which is not conducive to widespread promotion and use

Method used

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  • A remote measuring device for seebeck coefficient and resistance of thermoelectric materials and its application
  • A remote measuring device for seebeck coefficient and resistance of thermoelectric materials and its application

Examples

Experimental program
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Effect test

Embodiment 1

[0038] Such as figure 1 and figure 2As shown, a remote measurement device for Seebeck coefficient and resistance of thermoelectric materials includes a client computer installed with LabVIEW software, a server and a remote measurement device, and the remote measurement device includes a remote measurement and control instrument, a vacuum chamber 1, and a vacuum chamber The first experimental platform 3 and the second experimental platform 4, the first temperature controller 10, the second temperature controller 11, the third temperature controller 12, the first temperature measuring instrument 7, the second temperature measuring instrument 8, the third Thermometer 9, high-voltage source meter 5 of model KEITHLEY 2410 and high-performance eight-and-a-half-digit multimeter 6 of model KEITHLEY 2002, wherein, the first thermometer 7, the second thermometer 8 and the third The thermometers 9 all use CERNOX resistance thermometers, and a low-temperature chamber 2 is arranged outsi...

Embodiment 2

[0043] Such as figure 1 and figure 2 As shown, a method for remotely measuring the Seebeck coefficient and resistance of bismuth telluride and its alloy thermoelectric materials using the measuring device described in Embodiment 1, the steps are as follows,

[0044] (1) The client computer and the server are connected through the Internet network, and the server is connected with the remote measurement and control instrument and the measuring instrument through the local area network to form a secondary CS network;

[0045] (2) The two ends of the material to be tested 13 are respectively placed on the first test bench 3 and the second test bench 4 in the vacuum chamber, and the two ends of the material to be tested 13 are respectively connected to the high voltage source meter 5 and the digital multimeter 6, the first The test bench 3 is respectively connected to the first temperature controller 10 and the first temperature measuring instrument 7, the second test bench 4 is...

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Abstract

The present invention relates to a remote measurement device for Seebeck coefficient and resistance of thermoelectric materials and its application, including a client computer, a server and a remote measurement device, the client computer and the remote measurement device are connected to the server through the Internet network, and the The device measures the Seebeck coefficient and resistance of the thermoelectric material at the experimental site, and then transmits the measurement data to the server based on TCP / IP technology. The client computer analyzes the experimental results by obtaining the measurement data on the server. At the same time, the present invention can use computer software to Know the usage and idle conditions of the experimental equipment in time, avoid the waiting situation of the on-site experimenters, improve the experimental efficiency, and avoid the waste of personnel and equipment.

Description

technical field [0001] The invention relates to a remote measuring device for Seebeck coefficient and resistance of thermoelectric materials and an application thereof, belonging to the technical field of electrical testing and measuring equipment. Background technique [0002] Thermoelectric materials are functional materials that can convert thermal energy and electrical energy. The Seebeck effect discovered in 1823 and the Peltier effect discovered in 1834 provide a theoretical basis for the application of thermoelectric energy converters and thermoelectric refrigeration. The Seebeck effect, also known as the first thermoelectric effect, refers to the thermoelectric phenomenon of the voltage difference between two substances caused by the temperature difference between two different electrical conductors or semiconductors. The essence of the Seebeck effect lies in two When metals are in contact, a contact potential difference is generated, which depends on the two basic f...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R31/00H04L29/06
Inventor 李茂奎刘剑赵明磊王健王震
Owner SHANDONG UNIV
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