SU866545A1 - Method of switching-on differential thermocouple - Google Patents

Description

(54) FOCUS ON INCLUDING DIFFERENTIAL TERMOSARS

The invention relates to scientific research apparatus, in particular, to automatic systems for controlling the temperature of a sample in magnetic resonance spectrometers. Systems are known for automatically controlling the temperature of a sample in a radio spectrometer. The limescale sensor of automatic systems consists of a thermocouple, a measuring device with polarity switches for the input and output signals, and a thermostat for thermostating the non-working junctions of the thermocouple. A polarity switch at the input of the measuring device is necessary in connection with polarity inversion of the thermocouple EMF temperature when the sample temperature passes through the thermostatting point of the non-working thermocouple junctions (usually or rooms to temperature), when passing through this point, the thermocouple ends must be switched to the input of the measuring device til. The disadvantage of these automatic temperature control systems is that the switch in the thermocouple circuit causes random errors in the measurement and control of the temperature. Switching makes it impossible; continuous automatic programming of temperature over time in the desired temperature range. The closest in technical essence to the present invention is a method for incorporating a differential thermocouple into a measuring circuit in series with a source of EMF 121. A disadvantage of the known method is low accuracy. The purpose of the invention is to improve accuracy. The goal is achieved by choosing a source EMF that is smaller in magnitude than the emf of a thermocouple on one of the faces of the range, with the emf of a thermocouple on this boundary and the emf of a source opposing. FIG. Figure 1 shows schematically the sensor of an automatic temperature control system, -. in fig. Terkyu-EMF, shear emf and their sums are 2 and 3. A sensor that implements the proposed method consists of a thermocouple 1, a compensation type, measuring sample temperature 2, a thermostat 3 for thermostating, a non-working spa 4

Claims (1)

The method of including a differential thermocouple in the measuring circuit in series with an EMF source, which is characterized by the fact that, in order to increase accuracy, the EMF of the source is chosen no less than the EMF of a thermocouple at one of the boundaries of the range, and the EMF of the thermocouple at this boundary and the EMF of the source are opposite .