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INVENŢII MD - <strong>BOPI</strong> 7/2012<br />
ток из натянутых параллельно проводов.<br />
На провода эмиттера (E) нанесены изоляционные<br />
покрытия с перфорациями со<br />
стороны коллектора (C). Перфорации изоляционного<br />
покрытия эмиттера (E) выполнены<br />
длиной равной 0,2…0,5 от длины<br />
окружности провода. С верхней стороны<br />
ступеней на проводах коллектора (C) нанесены<br />
изоляционные покрытия на 0,2…0,5<br />
от длины окружности провода. В изоляционных<br />
покрытиях проводов коллектора (C)<br />
выполнены перфорации в виде прорезей,<br />
поперечно проводу, на всю длину изоляционного<br />
покрытия и с шириной 0,02…0,5<br />
мм. Отношение расстояния между перфорациями<br />
коллектора (C) к зазору между<br />
эмиттером (E) и коллектором (C) одной<br />
ступени равно 0,4…1,0.<br />
П. формулы: 1<br />
Фиг.: 3<br />
(11) 534 (13) Y<br />
(51) Int. Cl.: G01R 27/02 (2006.01)<br />
G01R 27/16 (2006.01)<br />
(21) s 2011 0189<br />
(22) 2011.12.12<br />
(71)(73) INSTITUTUL DE INGINERIE ELECTRONICĂ<br />
ŞI NANOTEHNOLOGII "D. GHIŢU" AL AŞM,<br />
MD<br />
(72) PENIN Alexandr, MD; SIDORENKO Anatol,<br />
MD<br />
(54) Procedeu de măsurare la distanţă a conductanţei<br />
active a rezistorului<br />
(57) Invenţia se referă la tehnica de măsurare şi<br />
poate fi utilizată la reglarea temperaturii în<br />
depozite cu ajutorul termorezistoarelor; în<br />
construcţia de maş<strong>in</strong>i, în construcţii pentru<br />
studiul durabilităţii acestora cu ajutorul tenzorezistoarelor.<br />
Procedeul de măsurare la distanţă a conductanţei<br />
active a rezistorului constă în<br />
aceea că pr<strong>in</strong> rezistorul măsurat cu conductanţa<br />
activă Y şi rezistorul de proporţie, exe-<br />
1<br />
s<br />
cutat ca un set format d<strong>in</strong> trei rezistoare cu<br />
diferite valori prestabilite ale conductanţelor<br />
Y 0 , Y 1 , Y ∞ , se trec curenţi cont<strong>in</strong>ui<br />
s<br />
( ) ( ) ( )<br />
s<br />
s<br />
<strong>in</strong>dividuali pr<strong>in</strong>tr-o l<strong>in</strong>ie de conexiune cu c<strong>in</strong>ci<br />
conductoare, unul d<strong>in</strong>tre conductoare fi<strong>in</strong>d utilizat<br />
ca un conductor comun. La <strong>in</strong>trarea în l<strong>in</strong>ia<br />
de conexiune se măsoară curenţii cont<strong>in</strong>ui <strong>in</strong>dividuali<br />
respectivi I (0), I , I (1), I ( ∞)<br />
1<br />
,<br />
<strong>in</strong><br />
care trec pr<strong>in</strong> aceste rezistoare, şi se calculează<br />
conductanţa activă Y a rezistorului<br />
măsurat după formula dată.<br />
Revendicări: 2<br />
Figuri: 2<br />
*<br />
* *<br />
(54) Method for remote measurement of resistor<br />
active conductance<br />
(57) The <strong>in</strong>vention relates to measur<strong>in</strong>g technique<br />
and can be used to regulate the temperature <strong>in</strong><br />
storages us<strong>in</strong>g thermistors; <strong>in</strong> mechanical eng<strong>in</strong>eer<strong>in</strong>g,<br />
<strong>in</strong> construction for study of structures<br />
strength by means of resistance stra<strong>in</strong><br />
gages.<br />
The method for remote measurement of resistor<br />
conductance consists <strong>in</strong> that through the<br />
measured resistor with active conductance<br />
and the scal<strong>in</strong>g resistor, made as a set of three<br />
resistors with different given values of conduc-<br />
Y 0 , Y 1 , Y ∞ , are passed <strong>in</strong>di-<br />
tances ( ) ( ) ( )<br />
s<br />
s<br />
s<br />
vidual constant currents through a connect<strong>in</strong>g<br />
five-wire l<strong>in</strong>e, us<strong>in</strong>g one of the wires as a<br />
common wire. At the <strong>in</strong>put of the connect<strong>in</strong>g<br />
l<strong>in</strong>e are measured the appropriate <strong>in</strong>dividual<br />
1<br />
constant currents I (0), I , I (1), I ( ∞)<br />
,<br />
<strong>in</strong><br />
pass<strong>in</strong>g through these resistors, and is calculated<br />
the active conductance Y of the measured<br />
resistor accord<strong>in</strong>g to the given formula.<br />
Claims: 2<br />
Fig.: 2<br />
*<br />
* *<br />
<strong>in</strong><br />
<strong>in</strong><br />
1<br />
s<br />
1<br />
s<br />
<strong>in</strong><br />
<strong>in</strong><br />
<strong>in</strong><br />
<strong>in</strong><br />
Y<br />
1<br />
s<br />
31
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