CS237649B1 - Wiring diagram for temperature measuring and regulation with vibrating magnetometer - Google Patents

Abstract

The purpose of the connection is measurement and control temperature using a platinum resistor directly in the vibration magnetometer sample holder, connected and other circuits that enable preset, measure, and control temperature of the sample to be measured. This allows achieving high accuracy of sample temperature measurement. This purpose is achieved by placement platinum resistance directly in the sample holder and its connection to a linearized converter, temperature preselection, comparator, digital with a voltmeter and a reading switch preset and measured sample temperatures a control unit for furnace temperature control and cryostat.

Description

The invention also relates to a circuit for measuring and controlling temperature in measuring the temperature dependences of the magnetic properties of materials by means of a vibrating magnetometer.

The prior art methods of temperature measurement in a vibrating magnetometer utilize thermocouples to measure at low diode temperatures, over a larger temperature range above 150 ° C. These sensors are located outside the vibrating measured sample, which increases the measurement error. In the case of thermocouples, disturbing thermoelectric voltages also increase the error.

The above-mentioned drawbacks are eliminated by the temperature measurement and control circuit according to the invention, which is based on the use of a sample holder with a platinum abrasion as a temperature sensor placed directly in the holder immediately next to the sample to be measured. The platinum resistor is connected to a line-to-line converter, which is further connected to a digital voltmeter and a temperature preset, which is connected to a comparator. The comparator is further connected to a control unit which controls the temperature of the furnace and the cryostat.

In this way, it is possible to achieve a higher accuracy and reproducibility of the temperature measurement of the measured sample at the vibrating magnetometer, since the platinum resistance is located directly at the measured sample in its holder and oscillates with it. The use of a platinum resistor having a well-defined resistance-to-temperature relationship in conjunction with a line-shaped transmitter that linearizes this non-linear dependence allows a temperature measurement accuracy of -195 ° C to +600 ° C better than 1%. With the preset temperature, you can not set the temperature at which the sample is measured, display it digitally, and maintain the preset temperature in the furnace or cryostat through the control unit throughout the measurement.

The attached figure shows an example of a circuit for measuring and regulating the temperature according to the invention. It consists of a sample holder with a platinum resistor 1, a linearized converter 2, comparators 3, a temperature preselection A, a switch i, a digital voltmeter St, a control unit Z, a furnace 6 and a cryostat 6.

The sample holder with platinum resistance J is electrically connected to a linearization transducer 2 having a linear dependence of the output voltage on the temperature of the sample to be measured. The temperature preselection circuit 1 allows presetting and using the digital voltmeter £ to display the temperature at which the sample is measured. The digital voltmeter £ is switched to temperature measurement mode or temperature preset using the switch £. In the comparators 3, the measured sample heat is compared with the preset temperature and the temperature of the furnace 8 or the cryostat 1 is controlled by the control unit Z so that the temperature of the measured sample is equal to the temperature preset.

Claims (1)

Circuit for measuring and regulating the temperature of a vibrating magnetometer, characterized in that the sample holder with a platinum resistor (1) is connected by a β-line transducer (2) connected to a comparator (3) and a switch (5) connected to a digital voltmeter ( 6), first with a temperature preselection (4), which is further connected to a comparator (3) connected to a control unit (7), which is connected to a furnace (8) and a cryostat (9).