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Êðàòêîå ðóêîâîäñòâî ïî ýêñïëóàòàöèè

Îñíîâíûå ñâåäåíèÿ îá èçäåëèè

Âûêëþ÷àòåëü àâòîìàòè÷åñêèé ÂÀ88 ñ ýëåêòðîííûì ðàñöåïèòåëåì 

ñåðèè 

KARAT

 òîâàðíîãî çíàêà 

IEK

 (äàëåå – âûêëþ÷àòåëü) ïðåäíàçíà÷åí äëÿ 

ïðîâåäåíèÿ òîêà â íîðìàëüíîì ðåæèìå è îòêëþ÷åíèÿ ñâåðõòîêîâ ïðè 
êîðîòêèõ çàìûêàíèÿõ  è ïåðåãðóçêàõ, à òàêæå äëÿ íå÷àñòûõ (äî 30 ðàç â ñóòêè) 
îïåðàòèâíûõ âêëþ÷åíèé è îòêëþ÷åíèé ýëåêòðè÷åñêèõ öåïåé â òðåõôàçíûõ 
ýëåêòðè÷åñêèõ ñåòÿõ ïåðåìåííîãî òîêà, íàïðÿæåíèåì äî 400  è ÷àñòîòîé 
50 Ãö.

Âûêëþ÷àòåëü ñîîòâåòñòâóåò òðåáîâàíèÿì òåõíè÷åñêèõ ðåãëàìåíòîâ 

ÒÐ ÒÑ 004/2011, ÒÐ ÅÀÝÑ 037/2016, ÃÎÑÒ IEC 60947-2 è ÃÎÑÒ Ð 50030.2.

Âûêëþ÷àòåëü ìîæåò ýêñïëóàòèðîâàòüñÿ ïðè ñëåäóþùèõ óñëîâèÿõ, 

îñòàëüíûå ïàðàìåòðû ñîîòâåòñòâóþò êëèìàòè÷åñêîìó èñïîëíåíèþ ÓÕË3 
ïî ÃÎÑÒ 15150:

– äèàïàçîí ðàáî÷èõ òåìïåðàòóð îò ìèíóñ 25 

°

Ñ äî ïëþñ 40 

°

Ñ;

– ãðóïïà ìåõàíè÷åñêîãî èñïîëíåíèÿ Ì3 ïî ÃÎÑÒ 17516.1;

– êàòåãîðèÿ ïðèìåíåíèÿ ïî ÃÎÑÒ IEC 60947-2 – Â (âîçìîæíî 

èñïîëüçîâàíèå äëÿ îáåñïå÷åíèÿ ñåëåêòèâíîñòè);

Âûêëþ÷àòåëü ïðåäíàçíà÷åí äëÿ èñïîëüçîâàíèÿ â ñðåäå ñî ñòåïåíüþ 

çàãðÿçíåíèÿ 3 (âîçìîæíû òîêîïðîâîäÿùèå çàãðÿçíåíèÿ èëè ñóõèå, 
íå òîêîïðîâîäÿùèå çàãðÿçíåíèÿ, ñòàíîâÿùèåñÿ òîêîïðîâîäÿùèìè 
âñëåäñòâèå îæèäàåìîé êîíäåíñàöèè).

– ìàêñèìàëüíîå çíà÷åíèå îòíîñèòåëüíîé âëàæíîñòè – 90 % è òåìïå-

ðàòóðå ïëþñ 20 

°

Ñ;

– ãðóïïà óñëîâèÿ îêðóæàþùåé ñðåäû ïî ÃÎÑÒ IEC 60947-1 – A, B*;

– îòñóòñòâèå íåïîñðåäñòâåííîãî âîçäåéñòâèÿ ñîëíå÷íîé ðàäèàöèè;

– âûñîòà íàä óðîâíåì ìîðÿ – íå áîëåå 1000 ì, äîïóñêàåòñÿ 

ýêñïëóàòàöèÿ íà âûñîòå äî 2000 ì ïðè ñíèæåíèè íîìèíàëüíîãî òîêà íà 10 %;

– îêðóæàþùàÿ ñðåäà íåâçðûâîîïàñíàÿ, íå ñîäåðæàùàÿ àãðåññèâíûõ 

ãàçîâ è ïàðîâ â êîíöåíòðàöèÿõ, ðàçðóøàþùèõ ìåòàëëû è èçîëÿöèþ, 
íå íàñûùåííàÿ òîêîïðîâîäÿùåé ïûëüþ è âîäÿíûìè ïàðàìè.

Ñòåïåíü çàùèòû îáîëî÷êè âûêëþ÷àòåëåé 

IP

30, çàæèìîâ äëÿ 

ïðèñîåäèíåíèÿ âíåøíèõ ïðîâîäíèêîâ – 

IP

00.

1

ÂÛÊËÞ×ÀÒÅËü ÀÂÒÎÌÀÒÈ×ÅÑÊÈÉ ÂÀ88 
Ñ ÝËÅÊÒÐÎÍÍÛÌ ÐÀÑÖÅÏÈÒÅËÅÌ  

RU

K

ARA

T

REAL ABILITY

* Ïðè èñïîëüçîâàíèè âûêëþ÷àòåëÿ â îêðóæàþùåé ñðåäå ãðóïïû  íåîáõîäèìî 

ïðèìåíÿòü ñïåöèàëüíûå óñòðîéñòâà äëÿ çàùèòû îò íåæåëàòåëüíûõ ýëåêòðîìàãíèòíûõ ïîìåõ. 

Summary of Contents for BA88-35

Page 1: ...88 KARAT IEK 30 400 50 004 2011 037 2016 IEC 60947 2 50030 2 3 15150 25 40 3 17516 1 IEC 60947 2 3 90 20 IEC 60947 1 A B 1000 2000 10 IP30 IP00 1 88 RU KARAT REAL ABILITY...

Page 2: ...2 5 1 5 6 2 211 211 2 JG DT DL DTL IEK 88 35 5 6 13983 1 5 88 35 3 1 6 7 4 3 4 REAL ABILITY KARAT...

Page 3: ...3 8 10 DIP 8 6 1 3 5 2 4 6 6 7 23216 4 2 15150 1 3 5 1 3 5 90 10434 17441 15 8 211 REAL ABILITY KARAT...

Page 4: ...4 25 C 40 C 15 25 C 40 C 90 20 C 5 REAL ABILITY KARAT...

Page 5: ...90 and at temperature plus 20 no direct exposure to solar radiation non explosive environment not containing aggressive gases and vapors in concentrations that destroy metals and insulation not satur...

Page 6: ...gram of circuit breaker is shown on the figure 3 The normal operating position of the circuit breaker in space is on a vertical plane with terminals 1 3 5 upwards installation on a vertical plane with...

Page 7: ...load current of at least 15 of the rated current even if there is voltage in only one phase The protection unit includes three current transformers a microprocessor module and a trip electromagnet tha...

Page 8: ...Electrical wear resistance ON OFF cycles minimum 2500 2000 2000 1500 Tightening torque of fasteners for connecting external conductors N m 12 1 5 using a wrench using 30 1 5 a wrench 10 0 5 using a wr...

Page 9: ...lied with circuit breaker 2 Cross section of a rigid solid or stranded 2 conductor mm 2 Cross section of flexible conductor 2 mm 2 Cross section dimensions mm of a 2 copper bus mm 2 Cross section dime...

Page 10: ...60 40 4 200 40 5 160 40 4 200 40 5 630 160 40 4 200 40 5 160 40 4 200 40 5 800 160 40 4 240 40 6 160 40 4 200 40 5 88 43 1000 250 50 5 500 50 10 250 50 5 500 50 10 1250 250 50 5 500 50 10 250 50 5 500...

Page 11: ...80 400 88 40 800 320 400 480 560 640 720 760 800 88 43 1000 400 500 600 700 800 900 950 1000 88 43 1250 500 625 750 875 1000 1125 1187 5 1250 88 43 1600 640 800 960 1120 1280 1440 1520 1600 Type I n I...

Page 12: ...it breaker 2 fixed part basement for plug in withdrawable design 3 side elements for withdrawable design 4 interphase barriers 5 plug in contacts 6 terminal covers 7 detachable cover of case 8 circuit...

Page 13: ...13 REAL ABILITY KARAT min 2 Figure 2 Time current characteristics of circuit breakers with electronic release 211 3 Figure 3 Electrical schematic of circuit breaker 1 2 3 4 5 6 1 2 3...

Page 14: ...d mounting dimensions of circuit breaker Dimensions mm 88 35 88 37 88 40 88 43 35 44 70 70 1 35 44 70 70 2 181 214 237 378 3 90 5 105 110 203 105 140 210 210 1 105 105 140 140 218 254 268 420 1 109 12...

Page 15: ...14 20 2 holes 8 5 30 5 18 20 2 7 9 48 adapter lugs for 88 35 adapter lugs for 88 40 adapter lugs for 88 43 adapter lugs for 88 37 Rated current of A 35 mm 63 80 100 125 160 200 4 250 5 Rated current...

Page 16: ...current of A mm 63 80 100 125 160 200 4 250 5 extended outputs for 88 37 Rated current of A mm 250 5 315 400 6 20 30 53 13 33 10 19 40 8 6 10 1 53 33 0 125 10 20 10 1 8 6 18 4 12 20 30 53 13 33 10 19...

Page 17: ...5 500 630 6 800 8 50 80 12 6 47 5 12 22 22 50 50 11 2 53 5 62 5 130 18 H 15 47 5 12 6 53 5 62 5 130 18 H 50 80 12 6 47 5 12 22 22 50 50 11 2 15 47 5 12 6 50 47 5 80 50 47 5 12 22 22 11 2 12 6 12 6 15...

Page 18: ...oard minimum distance between two circuit breakers vertically installed 1 non insulated connection 3 able lugs 2 insulated cable Circuit breaker type Installation in metal earthed switchboard Installa...

Page 19: ...RAT 8 Figure 8 Setting the parameters of the microprocessing release overload curve switch short circuit protection setting switch time current curve overload protection setting switch a 211 tr I 6lr...

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