SU621971A1 - Temperature measuring device - Google Patents

Claims (2)

go-digital converter 2 to the unit code N, Kf (Q), where O is the measured temperature; / C is the conversion factor of the block 2. The selector 9 is closed for the pulses of the geyerator 10 to pass by the signal from the output of the control unit. For most commonly used thermometers, IPPs (platinum resistance thermometers, thermoelectric thermometers, some frequency sensors), the f (6) conversion function is described by a non-linear dependence of the form f (@) ao + a, Q + a, Q, where ao, ui, uz - constant coefficients. If the initial setpoint in the reversible counter is NO: Kyo, then the number written in it at the end of the first conversion cycle will be N, -K (a, e + a, Q). (1) In the second conversion cycle, which starts immediately after the end First, the selector 9 transmits the generator pulses to the inputs of the counters 5, 8 and the collecting circuit. If the frequency of the generator is 10-, fo, then during the time rv the second cycle of conversion to the summing input of the reversible counter will pass (fy "+ fo) rf the number of pulses, where / tu ° is the output frequency of the binary frequency multiplier; -the number of common bits counters 5 and 8; - the number recorded in the counter 5. If the initial setting of the counter 5 is the number Nf, then at any given time t of the second cycle N, N, + f, tf / o (s + / oO GUM - - In this case, the CR H / o (5 + / oO, f 1 - 2 -t- Ng f,. U -П - yi 2 «+ i If we put L - the number recorded in counter 8, by the end of the second clock of the converter, we get 7V -S- + AT, 1 - The end of the second clock cycle is set by a reversible counter at the moment of its crossing through zero, i.e. at the moment of fulfilling the equality N, N,. From expressions (1) and (2) we get Ka, Q + Ka, Q + Whence it is seen that if the equalities are observed.,; Definition N "9, where a is a proportionality factor. That is, in counter 8 we get a code equal to the numerical temperature equivalent. At the same time, the linearization error does not exceed the unit of discreteness of measurement. Thus, the introduction of a binary frequency multiplier into the circuit Operating with various types of temperature sensors, thermocouples and resistance thermometers. In addition, the pulse generator does not have high requirements for stability and accuracy, which makes it possible to reduce the measurement error. Claim 1. A temperature measuring device comprising a primary measuring transducer connected to the input of an analog-digital converter, the control input of which is connected to the output of the control unit, and the output connected to the subtractive input of a reversible counter control and pulse generator output, characterized in that, in order to expand the field of application of the device, a binary frequency multiplier is additionally introduced into it, two inputs of which connected to the output of the selector, and the output is connected to the summing input of the reversible counter, the output zero of which is connected to the third input of the selector. 2. A device according to claim 1, characterized in that the binary frequency multiplier comprises two counters, a matching circuit block and a collecting circuit whose output is the multiplier output, and its inputs are connected to the outputs of the coincidence circuit block and to the counter inputs forming the input a multiplier, with the information outputs of the meters connected to the inputs of the coincidence circuit block. Sources of information taken into account in the examination 1. Copyright certificate № 236061, cl. G 01K 7/16, 1967. USSR 2. Ermolov R. S. Digital frequency meters. M., “Mechanical Engineering, 1973, p. 138-140, fig. 5-12.