WO1981001335A1 - Method of measuring root-mean-square value of voltage - Google Patents

Abstract

A method of measuring the root-mean-square value of voltage consists in converting the measured voltage into a heat flow, converting a reference voltage into a cooling flow, adjusting the reference voltage so that the heat flow resulting from the measured voltage is compensated by way of its absorption in the cooling flow resulting from the reference voltage, under the conditions of thermal insulation from the influence of the environmental medium, and in determining the root-mean-square value of the measured voltage on the value of the reference voltage.

Description

 SP0S0B IZZIYA SΡΕDΗΕΚΒDPΡΑΤICHΗΟGΟ ZΗΑSHIA WELCOME ACCESSORIES The current invention is not available anymore.

5 thermostatic and, in particular, the means of measuring the average value of the battery for its safe operation,

Eτtτ ΤΤ ^{η ρ ρ} .c vuyushy uροven τeχyaiκi Izvesτny sποsοby izmeρeshya sρedyaeκvadρaτyachyaοgο

Yu zyaacheniya yaalρyazheyayaya πο τeπlοvοmu deysτviyu izmeρyaemοgο sigyaala, zaκlyuchayuschiesya in πρeοbρazοvayaii izmeρyaemοgο signal change τemπeρaτuρy ρezisτivnοgο elemeyaτa I ποsleduyuschem izmeρenshι τemleρaτuρy uποmyanuτοgο ρezisτivnοgο elemeyaτa with ποmοschyu τeρmοyaaρy. By size

15 has stabilized the thermometers in such ways, they determine the average quadratic value of the measured signal. (The original certificate of the CCC ϊk Ι6076 β, class β 01 I, 19/24, published in the bulletin “Transactions, inventions, second paragraphs, October ¹ , 64).

20 Τaκie sποsοby not οbesπechivayuτ προvedeyayae izmeρeyayai in shiροκοm diyaamichesκοm diaπazοne izmeneyaiya izmeρyaemοgο signal τaκ κaκ πρya increase izmeρyaemοgο sigyaala τem- πeρaτuρa ρezisτivyaοgο elemeyaτa uvelichivaeτsya πο κvadρagich- yaοmu zaκοnu, chτο πρivοdiτ κ πeρegορayaiyu ρezisτivnοgο 5 elemenτa. This limits the range of measurable signals to the rate of increase. If you are able to input a signal from a resistive element, it is slower to turn off, but the signal is slower

Ηeοb ^χ οdimym uslοviem πρi izmeρenii τaκimi sποsοbami yavlyaeτsya ρazοgρev ρezisτivnοgο elemeyaτa dο τemπeρaτuρy, πρevyshayuschey gemπeρaτuρu οκρuzhayuschey sρedy, chτο πρivοdiτ κ ποgρeshnοsτi izmeρeyaiya vsledsτvie eφφeκτοv Pelτe and Τοm- 5 sοyaa. Uniformity of the material of the resistive element, the presence in the chain of the measured signal of the remittances from the various

ΟΜΡΙ - 2 - Other metals are not affected by the inconvenience of a recession of a non-measuring element, which is impervious to The temperature of the installed components is deteriorated, and, consequently, the output of the signals is determined by the condition of the devices, which are subject to Pοeτοmu vρemya izmeρe- Nia τaκiχ sποsοbοv zavyasiτ οτ πaρameτροv οκρuzhayuschey sρedy Izvesτyay τaκzhe sποsοby izmeρeyaiya sρedneκvadρaτyachnοgο znacheyayaya naπρyazheniya, islοlzugoschie ρabοτu ρezisτyavnοgο elemenτa in yazοτeρmichesκοm ρezhyame, πρya κοτοροm izmeρyaemy sigyaal ποdayuτ Ha ρezyasτivny elemenτ cheρez usshιiτel with ρeguliρuemym κοeφφitsienτοm gain Ρeguliροvκοy κο- eφφitsieyaτa usyaleyaiya usilyaτelya lοddeρzhivayuτ The temperature of the resistive element, which can be divided by the load * of the temperature sensor, is measurable, while the meaning of the measured, weakened, makes the load I mean the performance of the overshoot of the extender (Scientific and Technical Improvement, Measurement, Automation, Issue 1 (5), issued on Tuesday, June 6, 1976 Β.Β. Beshkarev, “Cases of Accuratement of the Meaningful Meaning of the Variable Frequency”, see page 34, section). In general, the warm-laden frequency range is variable due to the increased luminous-range range. Otherwise, in the event of a malfunctioning element and giving a tamper, it is not susceptible to malfunctioning.

For increased sensitivity, I reduce the risk of errors associated with a high working temperature element, the proposed method is, explained

ΟΜΡΙ

^* ^? ΝΑΤΙ - 3 - binders yazmeρenyae τemπeρaτuρy ρezisτivnοgο elemenτa with lοmοschyu mnοgοelemenτyayχ τeρmοπaρ (τeρmοbaτaρey) πρya eτοm on account lοvysheyayaοy chuvsτviτelyaοsτya daτchyaκa τemπeρaτuρy dοsτyagalοs neκοτοροe snyazheyayae ρabοchey τeglπe- ρaτuρy ρezyasτyavnοgο elemenτa οτnοsiτelyaο τemleρaτuρy οκρuκayuschey sρedy (avτορsκοe szideτelsτvο SSSΡ 755Ι4, κl.6 01 Κ , 7/02, Publication in the bulletin of "Transactions, Inventions, Conventional Models, Speakers", 1975,} £ 18). 0 By varying the volt- age, an increase in the volt- age between the inexplicable element and the increase is inaccurate. 5 For neκοgοροy sτabyalizatsiya uslοvii τeπlοοbmeyaa ρezisτyavnοgο elemeyaτa with οκρuzhayuschey sρedοy lρedlagalis ^* sποsοby izmeρenyaya in κοτορyχ ρezisτivny elemenτ I daτchyaκ τemπeρaτuρy lοmeschalis in meτallichesκy geρmegiziροvayanyya κορlus with vysοκοy sτelenyu τellοπροvοdnοsτya (Β.S.Pοποv0 "Μegallichesκie ποdοgρevaeshe sοπροτivleyayaya in eleκτρο- yazmeρiτelyaοy τeχnyaκe and avτοmaτyaκe" , Published in 1964, the publication "Science", (Russia), see pages 67-68, Fig. 14).

A good resolution causes an increase in the value of 25. As a result of the output of a resistive element, it is very volatile and it is more volatile.

Ηaibοlee blizκyam κ zayavleyayaοmu slοsοbu yavlyaeτsya slοsοb izmeρenyaya sρedneκvadρaτichnοgο values yaayaρyazhe-0 JAJAJA in κο-τοροm yaslοlzuyuτsya two ρezisgivnyχ elemenτa, οdiya lang κοτορyχ ρazοgρevaeτsya izmeρyaemym syagyaalοm and dρugοy - signalοm οbρaτnοy szyazya. Κzmeyaeyayae yazmeρyaemοgο syagyaala vyzyvaeτ change τeπlοvοy mοschnοsτi, ρasseyavae- mοy in οdyaοm lang ρezisgivnyχ elemenτοv, lρi eτοm signal5 οbρaτnοy communication yazmenyaeτsya τaκyam οbρazοm, chτο yazmeyayaeτsya τeπlοvaya mοschnοsτ, ρasseyavaemaya in dρugοm ρezisτivnοm

ΟΜΡΙ ι ^{/ ΡΟ '} - 4 - to the element, as a result, the total thermal capacity and that of the process of the general resident elements remain unavailable.

According to the value of the signal, the connections determine the magnitude

IZΜeρyaemθGΟ SIGΗala ( "ΕΕΕ Τgaιϊ8as ^* Yοη οη ^• Ι ^η s-gshae ^η ^ a-Yο aηά Μeaaigeteη-b", νοϊ. ΙΜ-Ιb, n2 ₉ ρiϋzΙιesΙ "Τi ⁿ e 1967

)Οгк), Ρ.Ь. ΗΙсЬтаη, "Α ΙГеν τgeаеЬаηά Τгие - bο άс сο ^η ег '

It is not unreasonable for this method to keep the circuitry in contact with the components and to keep the temperature of the circuitry in a safe condition. Existence of an elevated temperature leads to the appearance of various thermo-electromotive forces and causes a loss of measurement. Pρi sluchaynyχ πeρe gρuzκaχ ρezisτivnοgο elemenτa izmeρyaemym signalοm ρazοg- ρev ρezisτivnοgο elemenτa προisχοddτ οτ dοsτaτοchnο vysο- κοgο values ρabοchey τesheρaτuρy dο τesheρaτuρy, πρi κο τοροy προisχοdyaτ znachiτelnye yaeοbρaτimye izmeneyaiya πaρameτροv ρezisτivnοgο elemenτa libο egο ρazρushenie. Χaρaκτeρnym for vseχ ρassmοτρennyχ sποsοbοv izmeρe- UDE sρedneκvadρaτichnοgο values naπρyazheyaiya yavlyaeτsya neρeguliρuemy τeπlοοbmen ρezisτivnyχ elemenτοv with οκρu- zhayuschea sρedοy, lο * τοmu change uslοvy τeπlοοbmena -. Τeπlοπροvοdnοsτzh οκρuzhayuschey sρedy, pressure vlazhyaοsgi Well sοsτava gas izmeyaenie sτeπeni zagρyazneyaiya ρezisτiv- yayχ elemenτοv πρivοdiτ κ miscalculations.

Ρasκρyτie izοbρeτeniya Β οsnοvu izοbρegeniya ποlezhena task sοzdaτ sπο- sοb izmeρeniya sρedneκvadρaτichnοgο znacheyaiya naπρyazheniya πο τeπlοvοmu deysτviyu izmeρyaemοgο naπρyazheniya, ποlnοe πρeοbρazοvanie τeπlοvοgο ποτοκa in iyaφορmagivyay signal in κοτοροm would yaοzvοlilο ποvysiτ chuvsτviτelnοsg izmeρeniya and ρasshiρiτ diaπazοya izmeρyaemyχ signalοv.

This problem is achieved in that by simply measuring the average quadratic voltage value, which is based on the conversion of the measured voltage in the voltage

ΟΜ - 5 -

. ποτοκ, sοglzsnο izοbρeτeniyu, πρeοbρazuyuτ οπορnοe naπρya- voltage in οχlazhdayuschy ποτοκ, ρeguliρuyuτ χaρaκτeρisτiκi οπορnοgο naπρyazheniya dο κοmπensatsii τeπlο vοgο ποτοκa, vyzvannοgο izmeρyaemym naπρyazheniem, puτem egο ποglοscheniya 5 οχlazhdayuschim ποτοκοm οπορnοgο naπρyazheniya in uslοviyaχ τeπlο- izοlyatsii οτ οκρuzhayuschey sρedy and πο χaρeκτeρisτiκam οπορ- voltage is a measure of the average value of the measured voltage,

It is feasible in the process of compensating for a quick trip caused by a variable voltage. Regulating the voltage is

Tselesοοbρaznο τaκzhe in προtsesse κοmπensatsii τeπlοvο-5 gο ποτοκa, vyzvannοgο izmeρyaemym naπρyazheniem, ρeguliρο- vaτ chasτοτu imπulsοv οπορnοgο naπρyazheniya and πο chasτοτe imπulsοv οπορnοgο naπρyazheniya οπρedelyaτ sρedneκvadρaτich- nοe value izmeρyaemοgο nzπρyazheniya.

Reasonable in the process of voltage compensation, 0 caused by a variable voltage, regulate the voltage and the frequency of voltage

Βοzmοzhnο in προtsesse κοmπensatsii τeπlοvοgο ποτοκa 5 vyzvannοgο izmeρyaemym naπρyazheniem, ρeguliροvaτ length τelnοsτ imπulsοv οπορnοgο naπρyazheniya and πο dliτel- nοsτi imπulsοv οπορnοgο naπρyazheniya οπρedelyaτ sρedne- κvadρaτichnοe value izmeρyaemοgο naπρyazheniya.

Βποlne vοamοzhnο in προtsesse κοmπensatsii τeπlοvοgο 0 ποτοκa, vyzvannοgο izmeρyaemym naπρyazheniem, ρeguliροvaτ dliτelnοsτ imπulsοv οπορnοgο naπρyazheniya and πο sρednemu value οπορnοgο naπρyazheniya οπρedelyaτ sρedneκvadρaτich- nοe value izmeρyaemοgο naπρyazheniya.

The proposed method of measuring the average quarter-value of the 5 voltage value allows you to create a measuring Λ

ΟΜΡΙ νΛ. νгι ^ρ ο, -l. _u ? YU - 6 - devices that have a high sensitivity, which ensure a change in the average values of the arrays in a wide dynamic range.

Brief description of the drawings. Further, the invention is explained by the methods of its execution, which are due to the possibility of a change in the mean value.

Ηa φig.Ι ποκazayaο sχemaτzhchesκοe izοbρazheyazhe usτροy- sτva, ρealizuyuschegο sποsοb izmeρenzhya sρedneκvadρaτichyaοgο ^"znacheyaiya yaaπρyazheyaiya in κοτοροm isποlzοvayaο ρeguliροva- Chez amπliτudy οπορnοgο yaaπρyazheyaiya and οπρedelenie sρedyae- κvadρaτichnοgο values izmeρyaemοgο naπρyazheshya πο sρed- thereto value οπορnοgο naπρyazheyaiya, sοglasnο izοbρeτe- NIJ; on Fig. 2 shows a schematic illustration of a device that implements a change in the average value of the square, which was slightly worse than normal οπρedeleyaie sρedneκvadρaτichnοgο znacheyaiya izmeρyaemοgο yaaπρyazheκiya πο chasτοτe imπulsοv οπορyaοgο yaalρyazheyazhya, sοglasnο zhzοb- ρeτeniyu; Ra φig.Z ποκazanο sχemaτzhchesκοe izοbρazheshe usτροy- sτva, ρealizuyuschegο sποsοb izmeρeniya sρedyaeκvadρaτichnοgο znacheshya yaaπρyazheyaiya in κοτοροm isποlzοvayaο ρeguliροva- Chez chasτοτy imπulsοv οπορyaοgο naπρyazheyaiya and οπρedele- Chez sρedyaeκvadρaτichnοgο znachenzhya measurable in πο to the mean value of the яяжοб я я я я я я я яа яаааааяжа я,,,,,,,,,,,,,,,, ,глагла, сглаглаглаглаглаглаглаглаглаглаглаглаглаглаглаглаглагла из, глаπ из из; из из из из из из из из; из из из;;;;;;;;;;;;;;;;;;;;;;;,,,,,, я я я я я я я я я я яалалалалалалалалалалалалалπал яал яалалалал on φig.4 ποκazanο sχemaτzhchesκοe zhzοbρazheyazhe usτροy- sτva, ρealizuyuschegο sποsοb izmeρeyaiya sρedneκvadρaτichnοgο znachenzhya naπρyazheshya in κοτοροm zhsποlzοvanο ρeguliροvashe dliτelnοsτi imlulsοv οπορyaοgο naπρyazheshya Well οπρedelenzhe sρedneκvadρaτichnοgο znacheyazhya zhzmeρyaemοgο naπρyazheyazhya πο dlzhτelnοsτzh imπulsοv οπορyaοgο yaaπρyazheyazhya, sοglasnο

ΟΜΡΙ - 7 - to the invention; on φig.5 ποκazayaο sχemaτzhchesκοe izοbρazhenie usτροy- sτva, ρealizuyuschegο sποsοb izmeρeniya sρedneκvadρagzhchyaοgο zyaacheyaiya nalρyazheyaiya in κοτοροm islοlzοvayaο ρeguliροvashe diτelnοsτy ^'imπulsοv οπορnοgο naπρyazhenzhya and οπρedeleshe sρedyaeκzadρaτichnοgο zyaachenzhya zhzmeρyaemοgο naπρyazheyaiya πο sρednemu value οlορyaοgο nalρyazheshya, sοglasyaο izοb- ^{"ρeτeyazhyu.}

The best options are to use the invention. For zhzmeρeniya sρedneκvadρaτichnοgο znacheyazhya measured ρyaemοgο naπρyazheyazhya AND isποlzueτsya usτροysτvο, izοbρazhen- nοe Ra φig.Ι, vκlyuchayuschee ρezisτzhvnyzh elemeyaτ I, ρazmescheya- κy on τellοπροvοdyaschey ποdlοzhκe 2, 3 τeρmοeleκτρzhchesκzhy οχladiτel having τeπlοvοy κοnτaκτ svοey οχlazhdayuschey ποveρχnοsτyu with ποdlοzhκοy 2 and τeπlοvοzh κοnτaκτ svοey with a heating device 4. Thermo-therapy

5 has a good contact with unit 2, and thermostat 6 is a non-contact contact with the unit 4. Elements 1,2,3,4,5 and

6 ποmescheyay in geρmeτiziροvanny κορlus 7. Izmeρyaemοe nalρyazheshe ποdκlyuchenο κ vyvοdam ρezis- τzhvnοgο elemenτa I, 5 and 6 Τeρmοlaρy sοediyaeyay vsτρechyaο- ποsledοvaτelnο, vyvοdy eτiχ τeρmοπaρ ποdκlyucheny κ galvanοmeτρu 8. Βyχοd ρeguliρuemοgο isτοchshκa 9 οπορ- nοgο nalρyazheyaiya cheρez ρezisτορ 10 πedκlyucheya κ vyvοdam τeρmοeleκτρichesκοgο 3. Creditor II was turned on at the exit of source 9 of a large tax.

A fail-safe element I provides a metal part having a solid contact with a supplementary 2 integrated from the oxide of beryllium. The refrigerant cooler 3 is made from a lolulivnik material on the basis of the glory

. Process 4 was made using an oxide of beryllium. Lounge 7 is made of glass, from the housing 7 air is pumped out for the body to protect the elements from the environment. The galvanometer 8 is a self-contained magnets and electric иллillkolstolmetmeter. Adjustable

ΟΜΡΙ - 8 - source 9 of the rated voltage is carried out in the form of a stabilized source of overloaded voltage with regulated output voltage. Method II provides a custom voltage meter for the magnetoelectric system.

Β The power supply circuit of the thermo-electric cooler 3 / Fig. 2/ through the resistor 10 the output of the generator 12 is switched on pulse. There are 12 pulses that produce a standard, auto-generated generatrix that has regular pulses, which has a large pulse

On the output of the 12 pulses, the frequency of 13 is switched on, as a result of which a quick-disconnect or an overload is used.

Β The power supply of the thermo-electric cooler 3 / Fig. 3/ through the resistor 10 is turned on the output of the generator 12 is disconnected, and the dry signal is energized by the Smoothing filter 14 is made in the form of a multi-link passive filter.

The output of thermometer 5 / Fig. 4/ and 6 is connected to the output of amplifier 15, the output is connected to the control output of the generator 16 pulses of an accelerated duration

Βyχοd geyaeρaτορa 16 imπulsοv uπρavlyaemοy dliτelnοsτi cheρez ρezisτορ 10 ποdκlyuchen κ tseπi power The τeρmοele- κτρichesκοgο οχladiτelya 3. Izmeρiτel vρemenyayχ inτeρval 17 ποdκlyuchen κ vyχοdu geneρaτορa 16. Usiliτel 15 πρedsτavlyaeτ sοbοy usiliτel ποsτοyan nοgο τοκa, geneρaτορ 16 imπulsοv uπρavlyaemοy dliτelnοsτi vyποlnen as geneρaτορa imπulsοv For a small-format operation, the duration of the voltage changes in the voltage function, which is used to exclude a generator 16. The 7 measuring instrument is free of charge. - 9 - a special digital measuring instrument for intermittent intervals.

Β The power supply circuit of the thermoelectric cooler 3 / Fig. 5/ after the resistor 10 is turned on by the generator 16 of the pulse with the long duration of the output

5 smoothing filter 14 is turned on voltmeter II.

A generator of 16 pulses provides a generic generator with a long pulse with an adjustable pulse duration, a pulse of a fast pulse. Smoothing

Filter 14 provides a selective filter, which is based on the repetition rate of the pulse 16 of the generator 16.

As agreed, the measurement of the average quadratic voltage shall be made

15 following instructions. And Izmeρyaemοe naπρyazhenie /φig.Ι/ ποdκlyuchayut κ vyvοdam ρezisτivnοgο elemenτa I, vsled- sτΕie chegο izmeρyaemοe naπρyazhenie ρazοgρevae-τ ρezis- τivny elemenτ I, τeπlοvοy ποτοκ ρezisτivnοgο elemenτa I προτeκaeτ πο τeπlοπροvοdyaschey ποdlοzhκe 2. Τaκim οb- 0 ρazοm οsuschesτvlyayuτ πρeοbρazοvanie measurable voltage in thermal operation.

Οπορny signal as naπρyazheniya ποsτοyannοgο τοκa ρeguliρuemigο isτοchniκa 9 ποdιshοchayuτ κ tseπi power The τeρmοeleκτρichesκοgο οχladiτelya 3. Pροτeκayuschy πο tseπi 5 τeρmοeleκτρichesκοgο power The οχladiτelya 3 τοκ πρeοbρazu- eτsya in οχlazhdayuschy ποτοκ, προτeκayuschy πο τeπlοπροvο- dyaschey ποdlοΕκe 2. Βsledsτvie τeπlοοbmena τeπlοοτvο- yes 4 οκρuzhayuschey None of its temperature and temperature of the heating element is thermally electrically refrigerated 0 for 3, which is in the body of the device

4, they are supported by the same temperature and environment.

The best sigal of differential inclusive temperatures of 5 and 6, the common difference of temperature of 5 and the second of - 10 - runs on galvanic β 8 and disables its index

Ρeguliρuya amπliτudu vyχοdnοgο naπρyaκeyayaya isτοchniκa 9, ΜΟΕΗΟ izmenyaτ τemπeρaτuρu τeπlοπροvοdyaschey ποdlοκκi 2 τaκ, chτοby οna sτala ρavnοy τemπeρaτuρe οκρuzhaschey sρedy, πρi eτοm ποκazaniya galvanοmeτρa 8 buduτ ρavny zero and πο ποκazaniyam vοlτmeτρa II mοzhyaο οπρedeliτ sρedneκvzdρaτichnοe value izmeρyaemοgο naπρyazheniya.

Landmark Ρ. dissipated by the residual element I, equal

ρ _ ^

where ι is a component of the resistive element I. The cooling capacity Ρ ^ allocated by the thermo-electric cooler 3 is equal

Ρ _b = κ ^• 7

where Κ is the coefficient of conformity taking into account the transmission coefficient of the thermoelectric cooler 3;

- - the average value of the current flowing in the supply circuit of the thermoelectric cooler 3.

Like a cack

S,

I am me. where C is the average value of the output voltage of the source 3; I _s - sum.laρnοe sοπροτiΕlenie in tseπi power The τeρmο- eleκτρichesκοgο οχladiτelya 3,

ΟΜΡΙ - II - At the same time, when the indication of the galvanometer 8 is equal to zero, the freezing capacity of Ρ ^, allocated by the resistive element I, is equal to that of which, it is discharged, it is

Ρ, = ^

______

Ы ^2, κ • and "

I, ~ th- ,.

oh where

πρand

- сοηβ

I,

and - κ «ν ^

where =

Εsli πeρed izmeρeniem προizvesτi οπρedelenie κο- eφφitsienτa προπορtsiοnalnοsτi Κ _at πuτem ποdachi vesτnοgο iz ^* values naπρya g.eniya on ρezisτivny elemenτ I and izmeρeniem values naπρyazheniya and πρi nulevyχ ποκazaniyaχ galvanοmeτρa 8, το zaτem mοκnο οπρedeliτ sρedneκvadρaτichκοe value izmeρyaemοgο naπρyaκeniya πο izvesτnοmu value κοeφχitsienτa Κ _u and contraindications

ΟΜΡΙ

^' ΤΙΟΤΙΟ

- 12 - voltmetra II.

Εsli πeρed προvedeniem izmeρeny προizvesτi gρa- duiροvκu πuτey ποdachi izvesτnyχ values naπρyazheyaiya on ρezisτivny elemeyaτ I and application ποdavaemοgο yaaπρyazheyaiya values on shκalu vοlτmeτρa II, το zaτem mοzhyaο προ- izvοdiτ izmeρeniya yaeizvesτyayχ naπρyazheyaπy, οπρedelyaya ρezulτaτy izmeρeny neποsρedsτveyayaο πο shκale vοlτmeτρa II.

Measurement of the mean square value of the armament, as agreed in Fig. 2, is carried out in the following way.

Izmeρyaemyi sigyaal ποdκlyuchayuτ κ ρezisτivnοmu element menτu I, signal οτ geyaeρaτορa 12 imπulsοv cheρez ρezis- τορ 10 ποdκlyuchayuτ κ tseπi power The τeρmοeleκτρichesκοgο οχladiτelya 3 and ρeguliρuyuτ chasτοτu imπulsοv geneρa- τορa 12 dο τeχ πορ, ποκa ποκazanda galvanοmeτρa

8 will not become equal to yulu, i.e. If the temperature of the fuse element I and the thermal cooler 3 fails, the temperature of the fuse is not The unit is a medium-square voltage.

In this case, the sensing of the cooling medium, ^, allocated by the thermoelectric cooler 3, you can develop

where, - the duration of the voltage of the generator 12; Τ - repetition of impulses of the generator 12.

For mοmeyaτa vρemeni, κοgda ποκazaniya galvanο- meτρa 8 ρavyay zero τeπlοvaya mοschyaοsτ Ρ ^, health resources ρezisτivnym elemeyaτοm I, ρavna οχlazhdeyuschey mοschnοsτi ^ _{"vydelyaemοy} τeρmοeleκτρichesκim οχla- diτelem 3 mοzhnο zaπisaτ

ΟΜΡΙ

- thirteen -

Ρ. - Ρa

and ^* κ. • υ, ^•

If you use a generator of 12 pulses, a quick output pulse has a constant amplitude and - a long ≤, a long duration

, you can also record that

*, 2._ _κ • and, • __, • me,

I _:

πρand

where ^* - ^* —- - frequency of the impulses of the generatrix 12, ϋ ι

Therefore, for the indications of frequency 13, it is possible to vary the average value of the measured voltage. Οπρedelenie κοeφssitsienτa K ^ πeρed προvedeniem izmeρeny and gρaduigοvκu shκaln chasτοτοmeρa 13 mοκnο προizvοdiτ τaκzhe, κaκ and πρi isποlzοvanii sχemy φig.Ι.

__ο? ι - 14 - Pρi izmeρenii sρednenvadρzτichnοgο zyaacheniya yaaπρya- zheyaiya, sοglasnο φig.Z for οbesπecheκiya ρavensτva τem- πeρaτuρy ρezisτivyaοgο elemenτa I and τeρmοeleκτρichesκοgο οχladiτelya 3 τesheρaτuρe οκρuzhayuschey sρedy ποsle ποd- κlyucheniya izmeρyaemοgο yaaπρyazheniya κ ρezisτivyaοmu element menτu I ρeguliρuyuτ chasτοτu igshulsοv geneρaτορa 12 dο The current signal of the galvanometer 8 is not equal to zero, the external signal of the generator 12 is averaged by the non-volatile filter.

Since it is true that за _^ Ρ ^ it is possible to record that and κ • and, ^• , I., I.

το

Like the value - 'g' - S ** ÷ - there is the average value of the voltage of the generator 12, you can record

τ.e. For indications of voltmet II, it is possible to determine the average squared value of the measured value.

According to Fig. 4, to measure the average value of the voltage, I disconnect from :. constant voltage to resistive element I, output signal of temperature 5 and 6, after amplification by amplifier 15, starts to control 16 impulses of the input voltage and changes

Ο

- 15 - pulse rate of this generator. Pulses of the output voltage of the generator 16 are switched off during the power supply of the thermocouple 3. It is variable for measuring

Β usτanοvyvsheϊνyuya sοsτοyanii mοschnοsτ, ρasseivae- May ρezisτivnοm elemenτe I (Ρ ^), ρavaa yοschnοsτi, vydelyaemοy in τeρmοeleκτρichesκοm οχladiτele 3 (Ρ ^) ^»τ - ^{e <}

= Ρ.

or ζ κ. ^• S, ^• 1,

". ,, - τ

and ^r = κ • u, ^{• "} , • i"

* ^• τ

where and, are the amplitudes of the impulses of the generator 16; B, - the impulse of the generators 16; Τ - πeρiοd ποΕτορeniya imπulsοv geneρaτορa 16. Pρi isποlzοvanii geneρaτορa imπulsοv 16, y κο- τοροgο amπliτuda shshulsοv ποsτοyayana and = C ΟL Ϊ-, πeρiοd ποzτορeniya iyπulsοv ποsτοyanen Τ = eοηa ^'Ι, mοzh- nο zaπisaτ

s = κ ₃ ι

Where

ΟΜΡΙ νϊΡΟ - . - 16 - . In general, for indications of the digital meter 17, at the same time, it is possible to temporarily switch the average value of the measured signal.

Pρi izmeρenii sρedneκvadρaτichnοgο values yaaπρyazhe Nia, sοglasnο φig.5, ποsle ποdκlyucheniya izmeρyaemοgο HA 5 πρyaκeniya κ ρezisτiznοmu elemenτu I, ρeguliρuyuτ dliτel τ imπulοοv geneρaτορa 16 dο τeχ πορ, ποκa ποκazaniya galvanοmeτρa 8 sτanuτ ρavnymi not zero. After this testimony of voltemperature II, the average value of the measured value is determined. Β steady state πρ

YOU CAN RECORD

and ^λ Κ ^• ,, ^• 1,

I, ^ ^{' '} Ι 5 and κ. • and, ^• ,

I _: 0

- - - ^~ _τ ^* -

There is an average output voltage of the generator 16, тο 5 and - κ, ν and.

τ .е. For the indications of voltmeter II, it is possible to vary the average squared value of the measured voltage.

The proposed method for measuring the average value of the voltage is characterized by the following properties.

This follows from the description in the process of measuring the average negative voltage of the resistive element of the I and the electrical unit

ΟΜΡΙ - 17 - neighbors. This will allow you to expand the range of measurable signals in the direction of the larger ones without worrying about the transfer of the resistive elements, Ι.

Resistive tempera ture of the resistive element I

5 temperature of the emulsifying medium excludes hazards arising from the known malfunctions due to the presence of the discharged moving elec- tric forces Like in the process of measuring

Yu sποsοbu προtsess κοmπensatsii τeπlοvοgο ποτοκa, vyzvaya- nοgο izmeρyaemym naπρyazheniem, οχlazhdavdim ποτοκοm οπορ- nοgο signal προτeκaeτ in uslοviyaχ τeπlοizοlyatsii οτ οκ- ρuzhayuschey sρedy, το if neρavensτva τeshιοvοgο ποτοκa οχlazhdaschemu ποτοκu vκdelyaeτsya or ποglοschaeτsya

15 quantitative thermal energy Μ, equal

Ν - Δ Ρ - Τ> 0 where Ρ- is the variety of capacities allocated by the resistive element I and the thermoelectric cooler 3; I is the duration of the measurement cycle. This is a matter of thermal energy that causes 5 heat (cooling) of the heat supply unit 2 and the components that are in contact with it *. Τemπeρaτuρa τeπlοπρο- vοdyaschey ποdlοzhκi 2 and with it κοnτaκτiρuyuschiχ elemenτοv uvelichivaeτsya (umenyπaeτsya) sο vρemenem, chτο vyzyvaeτ increase (decrease) vο vρemeni vyχοdnοgο signala0 τeρmοπaρ 5 and 6. Increasing τemπeρaτuρy ποdlοzhκi 2 οgρanichenο τοlκο κachesτvοm τeπlοizοlyatsii its οτ οκρu- zhayuschey sρedy. Uτechκi τeπla mοguτ vοzniκaτ πο vyvο- give ρezisτivnοgο elemenτa I, τeρmοeleκτρichesκοgο .οχladiτelya τeρmοπaρ 3 and 5 and 6. By reducing eτi uτechκi5 τeπla πuτem vybορa maτeρialοv elemenτοv with dοsτaτοchnο nizκοy τeπlοπροvοdnοsτyu, οπτimalnym vybοροm ρazme- - 18 - In the case of elements - by reducing their cross-section and increasing the length, it is possible to reduce the loss of heat to a minimum, resulting in damage. κ an increase in the output signal of temperature 5 and 6, i.e. increase the sensitivity of the measurement method. • *

3 known methods Resistive element always works when a high temperature switch is available, and this is an irreplaceable condition Improving the use of a resistive element under these conditions may result in an unresponsive warming up due to an unresponsive process. Therefore, such a path of sensitization may not be used in well-known methods.

Increased sensitivity of the improved method allows the dynamic range of measurable signals to increase to a low state. The ability to operate at low capacities of the resistive element I increases the reserve for the quicker and therefore ensures better reliability.

Maintaining the temperature of the resistive element I and the temperature of the thermal cooler 3 The same temperature is This eliminates the error of measurement, which is known due to a change in the conditions of the heat exchange of elements with a cooling medium. The operation of the elements and the temperature of the environmental medium slows down the processes of the aging of these elements, which increases the stability of the devices used. The intentional use of the device may be used to change the average value of the voltage and currents in προ-

_ _. ΟΜΡΙ - 19 - of mental power networks, in radio installations, operating at high speeds, and also for the elimination of noise from a power source.

Claims

- 20 -ΦΟΒШГΑ ИзΟБΕΕΤΕΗШ.

1. The method of measuring the average arrears of the yazyazheniya, based on the conversion of the variable voltage in the case of a variable, which is different,

5 πρeοbρazuyuτ οπορnοe yaaπρyazhenie in οχlazhdaschy ποτοκ, ρeguliρuyuτ χaρaκτeρisτiκi οπορnοgο naπρyazheniya dο κοm- πensatsii τeπlοvοgο ποτοκa, vyzvannοgο izmeρyaemym HA πρyazheniem, πuτem egο ποglοscheniya οχlazhdayuschim ποτοκοm οπορnοgο naπρyazheniya in uslοviyaχ τeπlοizοlyatsii οτ οκρu-

In case of a shady environment and shock-absorbing voltage, they determine the value of the average value of the measured voltage.

2. The method of measuring the average value of the voltage πο π.Ι, which is different from that in process 5 of compensating for the process of the operation, caused by the measurement

^* By regulating voltage, it regulates the amplitude of the high voltage and the average value of the main voltage relays the average value of the measured voltage. 0 3. Sποsοb izmeρeniya sρedneκvadρaτichnοgο values naπρyazheyaiya πο π .Ι, οτlichaschiysya τem, chτο in προtsesse κοmπensatsii τeπlοvοgο ποτοκa, vyzzannοgο izmeρyaemym naπρyazheniem, ρeguliρuyuτ chasτοτu imπulsοv οπορnοgο naπρyazheyaiya and πο chasτοτe imπulsοv οπορnοgο yaaπρyazheniya5 οπρedelyayug sρedneκvadρaτichnοe zyaachenie izmeρyaemοgο naπρyazheniya.

4. Sποsοb izmeρeniya sρedneκvadρaτichnοgο values naπρyazheniya πο π.Ι, οτlichaschiysya τem, chτο in προtsesse κοmπensatsii τeπlοvοgο ποτοκa, vyzvayanοgο izιmeρyaemym0 naπρyazheniem, ρeguliρuyuτ chasτοτu imπulsοv οπορnοgο naπρyazheniya and πο sρedyaemu zyaacheyaiyu οπορnοgο naπρyazheyaiya οπρedelyayuτ sρedneκvadρaτichnοe value izmeρyaemοgο yaaπρyazheniya.

5. The result of a medium-sized value of 5 voltage is different from that in the process of compensating for a process caused by a variable

omi

. Λ, Υ ΙΡΟ - 2-voltage, regulates the duration of the impulses of a high voltage and the duration of the impulses of a voltage is a variable voltage.

6. Sποsοb izmeρeyaiya sρedneκvadρaτichnοgο values naπρyazheyaiya πο π.τ, οτlichaedyaysya τem, chτο in προtsesse κοmπensatsii τeπlοvοgο ποτοκa, vyzvannοgο izmeρyaemym naπρyazheniem, ρeguliρuyuτ dliτelnοsτ imπulsοv οπορnοgο naπρyazheniya and πο sρednemu znacheniϊ) οπορnοgο yaaπρyazhe- Nia οπρedelyayuτ sρedneκvadρaτichnοe value izmeρyaemοgο naπρyazheniya.