SU455291A1 - Power meter dissipated on a quartz resonator - Google Patents

Description

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The invention relates to the field of electrical measuring equipment.

Known power meters dissipated in a Quarian resonator, containing a sensor thermo-e. dc, inside which the quartz resonator under test, heat absorber, thermal insulation and indicator device is numbered.

The proposed power meter differs from the known ones in that it is equipped with a differentiating link, a modulator, a demodulator and an alternating voltage generator, the output of the sensor being thermal emf. connected to series-connected modulator, differentiating link, demodulator and pidikatorno device, and the outputs of the generator are connected to the control inputs of the modulator and differentiating link.

This makes it possible to increase the accuracy and speed of the power meter.

The drawing shows a diagram of a power meter. The meter contains a sensor 1 thermo-emf. (for example, semiconductor thermopile), inside which test quartz resonator 2 is numbered, heat absorber 5 (for example, copper cup), heat insulator 4, differentiating element 5, indicator 6, amplifiers 7 and 5, modulator 9, alternating voltage generator 10 and demodulator //,

The meter works as follows.

When the quartz oscillator is turned on, the circuit in which the electrolyte quartz resonator is electrically turned on, after a relatively short (about one hundred periods of the generated frequency) of the transition process, the power dissipated on the quartz resonator under test. Reaches a stationary value. The resonator is heated, and the output of the thermo-oe sensor. d. appears. Speed izmeiopi tsrmo-e. d. ironornonalnogo greatness I1s myiysti. a scattered quartz resonator.

Increase 1, ss the output voltage of the sensor / is converted by the modulator 9, ui1) by the alternating generator 10 alternating generator, into an alternating voltage, the amplitude of which is proportional to thermal emf. sensor). This evaporation is amplified by an alternating voltage amplifier 7 and differentiated. As a link 5 can be used any differentiator operating on alternating current. The amplitude of the voltage at the output of differentiator 5 is proportional to the power. dissipated on a quartz resonator 2.

The output voltage of the differentiator) 5 is amplified by the amplifier 8 of the alternating voltage and the demodulator // is supplied, converting the alternating voltage to io and iioe. In this case, the DC voltage at the output of the demodulator, proportional to the magnitude of the junction dissipated at the quartz resonator, is measured by the indicator 1. The demodulator J1 can be a key circuit controlled by an alternating voltage generator 10 or rectifier.

The main advantage of the proposed device is the short pzmpepp time, practically not exceeding the time of setting the arrow of the idcator and the time of reading the displays of the latter. This not only improves the performance of the meter, but also significantly reduces the requirements for the quality of the thermal insulator 4 and absorber 1, as well as the properties of the heat absorber 3, i.e., its heat capacity, which ensures the temperature of the thermal side of the thermoelectric sensor. with. Due to this, the meter can be made sufficiently miniature and iridescent for measuring power in mass-produced quartz oscillators.

The speed of the proposed meter allows it to be used as a regulator of the roto mode of ter. 1, the rest of the fused quartz oscillator, to stabilize the power to be graded. In this case, the output signal of the meter (from the amplifier 8) must come from the elements of the oscillator circuit, ensuring the latter's operation mode.

11 days. J ete and z ob JD e te e and u

The 11 monomest dispersed in a quartz resonator contains a thermoelectric sensor. The inside of which the test quartz resonator, heat-loggle fir-tree, thermal isolator and indicator device are placed, are different in that, in order to determine the accuracy and speed of the gauge, it is equipped with a diaphragm, modulator, demodulator and gerator and a rendered panel. , and the output of the thermo-emf sensor. connected to a serially connected module, a differential module, a demodulator and an instrument indicator, and the generator outputs are connected to the control inputs of the modulator and D11 (|) of the circuit / i1 | sui () of the module.