SU939967A1 - Frequency measuring converter - Google Patents

Description

(5) FREQUENCY MEASURING CONVERTER

Claims (2)

The invention relates to a measuring technique and is intended for the simultaneous measurement of two non-electric quantities, for example, temperature and force. A piezoelectric transducer is known that provides simultaneous measurement of temperature and force effects, containing two piezoresonators mounted on an end elastic element and connected to two autogenerators, two frequency code converters, a computing unit and a memory device Ci. However, the piezoelectric transducer has insufficient measurement accuracy. The closest in technical essence to the present invention is a frequency transducer containing a two-parameter frequency sensor, the first and second oscillators, the inputs of which are connected to the output of the frequency sensor, and the outputs are connected to the inputs of two mixers, a reference oscillator 2J. The converter allows determining the value of the measured parameters with high accuracy, however, it has a low speed, since it gives the measurement result at discrete points in time. The device cannot be used in cases where information about the measured parameters must be continuously available. The purpose of the invention is to increase speed and obtain information on measured parameters in a continuous form. The goal is achieved by introducing a third mixer into the frequency converter, Two frequency converters and a divider, the input of which is connected to the output of the first mixer, and the output to the third mixer, and the outputs of the first and second autogenerators through the frequency converters are respectively connected to the second and the first mixer, and the output of the reference generator is connected to the input of the third mixer. The drawing shows the functional diagram of the frequency measuring converter. Frequency measurement transducer contains a two-parameter frequency sensor 1, oscillators 2 and 3, frequency converters and 5, first and second mixers 6 and 7, divider 8, third mixer 9 reference oscillator 10. The frequency sensor is made in the form of two piezoquartz resonators 11 and 12. Frequency The measuring transducer works as follows: Frequencies at the outputs of the autogenerators, in case one of the sensitivity coefficients is negative, which is ensured by an appropriate choice of piezoquartz resonator , can be written as 1 VP. vy I - zo i-1 Р + ijT where f, f -. initial reenertion frequencies; a, a „2 - thermosensitivity coefficients; a / 1-1 strength-sensitivity factors. A change in the information parameters causes a change in the generation frequencies fj and f. The first and second frequency converters i and 5 convert frequencies f and f. respectively, the frequency conversion operation may be analog or impulse. In the latter case, a certain number of pulses is added (or subtracted) to the pulse train, determined by the conversion factors K and Cd. The frequencies f and are given to the first mixer 6. At the output of the mixer 6, the total frequency f + K is allocated in analog or pulse form, which is then divided by a factor n 2 in the division 8. The resulting average frequency fjp is fed to the input the third mixer 3, to another input of which the reference frequency f is applied to the output of the reference generator 10. The differential frequency signal allocated at the output of the third mixer 9 depends only on the temperature parameter T. F, (T) t (Vza.) T 2 Signals with frequencies given to the inputs of the second mixer 7, at the output of which It highlights a difference frequency fj - K f. The received frequency depends only on the pressure parameter P. F (P) (a ..,) The presence in the converter of new elements - the third mixer, divider and two frequency converters - distinguishes it favorably from the prototype, as it allows to obtain information about the measured parameters in continuous form at any given time. The invention includes a frequency transducer containing a two-parameter frequency sensor, first and second oscillators, the inputs of which are connected to the output of the frequency sensor and the outputs are connected to the inputs of two mixers, a reference oscillator, characterized in that, in order to improve speed and obtain information on the measured parameters in continuous form, the third mixer is entered into it, two frequency converters and a divider, the input of which is connected to the output of the first mixer, and the output to the input of the third mixer mixer, and the outputs of the first and second oscillators through frequency converters, respectively, are connected to the second and first mixer, and the output of the reference generator is connected to the input of the third mixer. Sources of information taken into account during the examination 1. USSR author's certificate W 777482, cl. G 01 K 7/32, 1978. 2. Certificate of CCCf according to application No. 28 3216 / 18-10, cl. G 01 K 7/32. 1979 (prototype).