SU1168913A1 - Device for controlling temperature - Google Patents

Abstract

A DEVICE FOR REGULATING TEMPERATURE, containing a sensor and a temperature setter, a subtractor, a sync pulse forerunner, a control unit connected in series and a heater, and the output of the setter is connected to one of the inputs of the reader, which, in order to simplify the device, contains an analog a digital converter and a divider with a variable division factor, an analog-to-digital converter input is connected to the temperature sensor, and the output is connected to another input of a subtractor connected by an output to the input controlling row divider with a variable coefficient divider, the counting input of which is coupled to the output forms (rovatel O clock, and the output - to the input of the control unit (A.

Description

one . The invention relates to automation and can be used to control the temperature of various objects. The purpose of the invention is to simplify the device. FIG. 1 shows a functional diagram of the device} in FIG. Time diagrams of its operation. The device for temperature control contains a setpoint controller 1, representing a dial-in field for setting the maintenance temperature code, a subtractor 2 implemented on the basis of a binary parallel adder, a driver of 3 clock pulses, a temperature sensor 4 and a heater 5 installed on the control object, control unit 6 , a divider with a variable division factor, analog-to-digital converter 8. The device for adjusting the temperature of the controller operates as follows. The signal from temperature sensor 4 is fed to input analog-to-digital converter 8. The analog signal converted into parallel code is fed to one of the inputs of subtractor 2 (group of inputs B, ..., Bf,). When applying to the other inputs (group of inputs A, ... JA), q; and the set control temperature from test point setter 1 compares the codes applied to inputs A and B of the subtractor. The result of the comparison is that the difference between the codes is applied to the control inputs of divider 7 (a group of inputs V - V with a variable division factor, the counting input of which T is given by the sequence U (fig. Of pulses from the generator 3 sync pulses, output pulses at the moment of zero crossing) mains voltage. The signal (Fig. 25, d) from the Z output of the divider 7 is fed to the thyristor control unit. The temperature is controlled by changing the effective voltage on the heater 5. The voltage regulator 32 is controlled the change in the number of half-periods of the mains voltage, i.e., by changing the pulse frequency of a constant duration from the output of the divider 7. The control frequency is determined by the condition f .. УЛР-А-Г where is the output frequency of the divider; rcSiKT is the output pulse frequency generator of sync pulses; A - numerical form of a parallel code from a temperature setpoint generator (inputs A. calculator); B - numerical form of a parallel code from the output of an analog-digital converter (inputs B. subtraction). FIG. 25, g shows a sequence of pulses and at the output of the divider for cases where the control pulse is fed to the inputs V and V. of the divider, respectively, and FIG. 2b, E is the voltage corresponding to these sequences on heater U ,. In the general case, if pulses are applied to several V inputs, the total number of pulses at the divider output will be N 32. l6X, 8Xg + X, where Xz2 is 1 or O, depending on whether or not the logical 1 signal is applied to the corresponding input V Thus, depending on the position of the temperature setpoint and the feedback signal from the temperature sensor converted by the analog-digital converter to the parallel code, the combination of logical 1 and O at the inputs of the divider changes, which leads to a change in the pulse frequency from the output of the divider and their quantities, and, consequently, to a change in voltage on the heater.

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Claims (1)

A TEMPERATURE CONTROL UNIT DEVICE, comprising a temperature sensor and setter, a subtractor, a clock driver, a control unit and a heater connected in series, the setter output being connected to one of the subtractor inputs, characterized in that, in order to simplify the device, it contains an analog-to-digital converter and a divider with a variable division coefficient, the input of an analog-to-digital converter is connected to a temperature sensor, and the output is connected to another input of the subtractor connected to the control input by an output Lenia divider with a variable division factor, the counting input of which is connected with the output of the clock, and the output - to the input of the control unit. Fig} 8 <............ . . . , * 6 tfr h to- oh αο to Μ · * · Sa5