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FILM AND PAPER-FILM CAPACITORS
CATALOGUE
Saint- Petersburg
2005
Index capacitors
Polyester film capacitors 73-11 73-13 73-14 74-7 73-15 73-17 73-17 73-21 73-21 73-24 73-31 73-39 73-43,, 73-46 73-50 73-54 73-56 73-57 73-59 73-62 ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... . Page 4 11 13 16 17 20 24 27 30 32 37 41 47 50 53 58 61 64 67 68
Polypropylene film capacitors 78-2 78-5 78-10 78-12 78-16 78-19 78-20 78-21 78-29 78-37 78-39 78-41 78-42 ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... 70 75 77 84 88 91 94 95 98 102 107 109 113
Paper - film capacitors 75-15 75-29A 75-40 75-48M 75-49 75-54 75-59 75-60 75-63 75-65 75-69 75-74 75-80 75-81 75-82 75-83 75-84 75-85 75-86 75-88 75-89 75-90 75-91 ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... ....................................................................... 117 120 122 126 128 129 132 134 135 140 142 143 148 152 156 157 161 162 163 165 169 171 174
Paper capacitors .......................................................................
176
2
:
194223, -, . , 10, ""
Address:
"ELCOD" Joint-stock company, 10 Kurchatov str., St Petersburg, 194223, Russia.
: (812) 552-97-39 : -mail: capacitors@elcod.spb.ru Internet: http://www.elcod.spb.ru
Fax: (812) 552-9739 Teletype: Omega E-mail: capacitors@elcod.spb.ru Internet: http://www.elcod.spb.ru
: .: (812) 552-98-05 : .: (812) 552-96-81 .: (812) 552-97-52 : .: (812) 552-94-58 ./: (812) 552-95-03
General director: SAK Viktor leksandrovitch l.: (812) 552-98-05 Chief designers: DEMIDENKO Galina Romanovna l.: (812) 552-96-81 KHAETZKI Vladimir Stepanovitch l.: (812) 552-97-52 Chief of sales department: MITINA Nina Konstantinovna l.: (812) 552-94-58 l./fax: (812) 552-95-03
3
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K73-11

METALLIZED POLYESTER FILM CAPACITORS
: .673633.013 , , . 73-16, , , , 42-2. : , .
Specifications: .673633.013 Designed to operate in DC, AC and ripple current circuits and in pulse mode. Can be used instead of K73-16, , , , 42-2. Design: wrapped with adhesive tape; capacitor ends sealed with epoxy compound.
D max
32 +5
L max
( -60oC ...+85oC) f = 1 0,33 U = 63, 100 U 160 > 0,33 U = 63, 100 U 160 U = 250 , 2,7 125oC 70oC
0,001 .... 22 63; 100; 160; 250; 400; 630; 1000; 1600 5; 10; 20 % 0,012
Rated capacitance Rated voltage (temperature range -60oC...+85oC) Capacitance tolerance Dissipation factor at f = 1 kHz Insulation resistance at r 0,33 F Ur = 63,100 V Ur 160 V Time constant at r > 0,33 F Ur = 63, 100 V Ur 160 V Operating temperature range at Ur = 250 V, r 2,7 F Capacitance change within positive temperature range Operating time operating temperature up to 125oC operating temperature up to 70oC Shelf life Climatic categories
d
0,001 ... 22 F 63; 100; 160; 250; 400; 630; 1000; 1600 V 5; 10; 20 % 0,012
12 000 MO 30 000 MO
12 000 MOhm 30 000 MOhm
4000 MO* 10 000 MO* -60...+125oC -60...+85oC 18% 10 000 15 000 10 , (933% . 402oC, 21 )
4000 MOhm*F 10 000 MOhm*F -60...+125oC -60...+85oC 18% 10 000 hours 15 000 hours 10 years RH 933%, 402oC, 21 days
: 73-11 - 250 - 1,5 10%
Ordering example: Capacitor K73-11 - 250 V - 1,5 F 10%
4
, Cr, F 0.047 0.056 0.068 0.082 0.10 0.12 0.15 0.18 0.22 0.27 0.33 0.39 0.47 0.56 0.68 0.82 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2 10 12 15 18 22
U=63 / Ur=63 V Dmax, mm Lmax, mm d, mm , Mass, g max
U=100 / Ur=100 V Dmax, mm Lmax, mm d, mm , Mass, g max
U=160 / Ur=160 V Dmax, mm 6 Lmax, mm d, mm , Mass, g max 1.5
7 14 6 1.5 6 14 1.5 1.8 7 1.8 8 9 10 8 9 10 11 12 13 14 10 11 12 13 14 15 16 14 16 17 19 21 44 1.0 30 0.8 18 1.9 2.0 2.2 2.5 3.0 3.5 5.0 5.5 6.5 5.0 6.0 7.0 8.0 9.0 10 11 12 15 18 21 26 9 10 11 12 8 9 10 11 9 10 11 12 13 15 17 19 21 44 1.0 28 0.8 4.5 5.0 6.0 7.0 9.0 10 11 12 14 18 21 26 16 0.6 2.0 8 9 10 8 9 10 11 12 13 10 11 12 13 14 12 13 14 15 17 19 44 1.0 30 0.8 0.6
1.7
1.8 1.9 2.0 2.2 2.5 3.0 3.5 4.5 5.0 5.5 5.0 6.0 7.0 8.0 9.0 11 12 13 14 18 21
7 14 0.6
1.7
8
2.2 2.5 3.0 3.5 4.0
18
5
U=250 / Ur=250 V , Cr, F Dmax, mm Lmax, mm d, mm , Mass, g max Dmax, mm 7
U=400 / Ur=400 V Lmax, mm d, mm , Mass, g max 1.5
0.022 0.027 0.033 0.039 0.047 0.056 0.068 0.082 0.10 0.12 0.15 0.18 0.22 0.27 0.33 0.39 0.47 0.56 0.68 0.82 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8 8.2 10.0 8 9 10 8 9 10 11 12 13 14 10 11 12 13 14 15 17 14 16 17 19 20 22 26 28 44 1.0 30 0.8 18 14 0.6 1.6 1.7 1.8 2.0 2.4 2.8 3.0 5.0 5.5 6.0 6.5 7.0 7.5 8.0 9.0 10 11 12 12 15 18 21 24 28 40 46 7 1.5
8
14
0.6
2.0
9 10 8 9 10 11 12 13 14 15 10 11 12 13 14 15 30 0.8 18
2.2 2.4 2.5 3.0 3.5 4.0 4.5 5.0 6.0 4.0 5.0 6.0 7.0 8.0 9.0
6
U=630 / Ur=630 V , Cr, F Dmax, mm Lmax, mm d, mm , Mass, g max 1.0 1.2
U=1000 / Ur=1000 V Dmax, mm Lmax, mm d, mm , Mass, g max
U=1600 / Ur=1600 V Dmax, mm Lmax, mm d, mm , Mass, g max
0.0010 0.0012 0.0015 0.0018 0.0022 0.0027 0.0033 0.0039 0.0047 0.0056 0.0068 0.0082 0.010 0.012 0.015 0.018 0.022 0.027 0.033 0.039 0.047 0.056 0.068 0.082 0.10 0.12 0.15 0.18 0.22 0.27 0.33 0.39 0.47 11 12 13 15 10 11 12 13 14 16 30 0.8 9 10 18 9 10 8 8 7 14 0.6 6
1.3 1.4 1.5 1.6 1.7 10 11 12 1.9 9 10 2.0 2.2 2.4 11 12 13 8 9 2.5 10 3.0 3.5 4.0 4.5 6.0 5.0 5.5 6.0 8.0 9.0 10 15 17 18 14 18 21 13 44 1.0 12 11 12 10 11 30 5.0 6.0 7.0 9.0 10 16 18 19 21 15 21 23 26 0.8 18 2.5 3.0 3.5 4.0 4.5 4.0 4.5 11 12 10 11 12 13 15 44 1.0 6.0 7.0 9.0 10 11 12 14 13 9 9 10 30 0.8 18 3.0 3.5 4.0 4.5 4.5 4.5 5.0
1.8
7
Ut Permissible voltage Ut as a function of ambient temperature
Ut U 100 % 80 60 40 20 -60 -40 -20 0 20 40 60 80
8 5 5 0
o
100
125
t C
Uf f Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage Uf as a function of frequency f
U, Uf
630 1000 1600 63 100 160 250 400 800 600 400 200 100 80 60 40 20 10 8 6 4 2 1 0,8 0,6 0,4 0,2 0,001 0,0047 0,01 0,1 0,47 1,0 4,7 10 22 Uf
U
t T=1/f
C
10
2 5
f
10
2
2
5
10
3
2
5
10
4
2
5
10
5
2
5
10
6
: Uf Ut Uf 350 B U = 400 B; 630 B Uf 700 B U = 1000 B; 1600 B Uf: : f = 10 , U=630 B, C=1 : Uf = 120 B
3
Limits: Uf Ut Uf 350 V for Ur = 400 V; 630 V Uf 700 V for Ur = 1000 V; 1600 V Example of calculation of Uf: Given: f = 10 Hz , Ur = 630 V, Cr = 1F Finding: Uf = 120 V
3
8
U F, , , Permissible peak-to-peak pulse voltage U as a function of pulse repetition frequency F, minimal temporal sector , corresponding pulse leading edge slope or pulse trailing edge slope and rated capacitance r
U ,
Uu 400 630 1000 1600 63 100 160 250
600 400 200
,c=10 - 3 c
U
Uu
c
t
T=1/f
100 80 60 40
,c=10
-4
c
20 10 8 6 4
,c=10 - 5 c
2 1 0,8 0,6 0,4
,c=10
-6
c
0,2 0,001 0,0047 0,01 0,1 0,47 1,0 4,7 10 22
C
2 5
F
10 10
22 5
10
32
5
10
4
2
5
10
52
5
10
6
:
Limits:
U Ut
U: : F = 10 , ,c = 10 c, U = 250 B, C = 0,47
4 -6
U Ut
Example of calculation of U: Given: F = 10 Hz , , = 10 s, Ur = 250 V, Cr = 0,47 F
4 -6
: U = 13 B
Finding: U = 13 V
9

Im dU/dt
Maximum permissible amplitude of pulse current Im and rate of the voltage change dU/dt
U, Ur, V
, Cr, F 0,1...0,47
Im, max, A
1,5...7,0 5,0...18,8 6,7...20,5 15...33 1,5...7 5...10,5 7...36 1,2...4,5 3,3...12,3 8,0...17,6 16,2...41 1,4...3,6 3,0...11,2 6,8...22 13,5...50 0,9...2,7 2,0...8,2 5,1...13 0,05...1,5 1,1...5,3 3,6...9,4 0,2...1,6 1,5...5,0 0,2...1,1 1,0...4,4
dU/dt, max, V/s 15 9 2,5 1,5 15 7 3 25 15 8 6 30 20 10 5 40 25 13 55 35 20 24 15 35 20
63
0,56...2,2 2,7...8,2 10...22 0,1...0,56
100
0,68...1,8 2,2...12 0,047...0,18
160
0,22...0,82 1,0...2,2 2,7...6,8 0,047...0,12
250
0,15...0,56 0,68...2,2 2,7...10,0 0,022...0,068
400
0,082...0,33 0,39...1,0 0,001...0,027
630
0,033...0,15 0,18...0,47
1000
0,01...0,068 0,082...0,33
1600
0,0047...0,033 0,039...0,22
10
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K73-13

POLYESTER FILM FOIL CAPACITORS
: .461.102 , . : , .
Specifications: .461.102 Designed to operate in DC, AC and ripple current circuits. Design: wrapped with adhesive tape; capacitor ends sealed with epoxy compound.
D max
l
+5
L max
f = 1
2200 10; 12,5; 20 10; 20 % 0,008 100 000 MO -60...+70oC 10 000 12 (933% . 402oC, 4 )
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f = 1 kHz Insulation resistance Operating temperature range Operating time Shelf life Climatic categories
d
2200 pF 10; 12,5; 20 kV 10; 20 % 0,008 100 000 MOhm -60...+70oC 10 000 hours 12 years RH 933%, 402oC, 4 days
: 73-13 - 10 - 2200 10%
Ordering example: Capacitor K73-13 - 10 kV - 2200 pF 10%
C, Cr, pF 2200 2200 2200
U, Ur, kV 10 12,5 20
Dmax, mm 15 16 19
Lmax, mm 28 29 58
d, mm 0,6 0,6 0,8
l, mm 32 32 25
M, Mass, g max 10 10 25
11
Uf f. Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage Uf as function of frequency f.
6
%
5 1 4,2 4 2
3 3
Uf U
2
1
0
f 10
1
10
2
10
3
10
4
10
5
1 - U = 10 2 - U = 12,5 3 - U = 20
1 - Ur = 10 kV 2 - Ur = 12,5 kV 3 - Ur = 20 kV
12
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K73-14

POLYESTER FILM FOIL CAPACITORS
: .673633.015 , . : , .
Specifications: .673633.015 Designed to operate in DC, AC and ripple current circuits. Design: wrapped with adhesive tape; capacitor ends sealed with epoxy compound.
D max
25
+5
L max
( -60oC ...+70oC) U = 4 U = 10 ...25 f = 1
0,00047 .... 0,1 4; 10; 16; 25
Rated capacitance Rated voltage (temperature range -60oC...+70oC) Capacitance tolerance Ur = 4 kV Ur = 10 ... 25 kV Dissipation factor at f = 1 kHz Insulation resistance Operating temperature range Operating time Shelf life Climatic categories
d
0,00047 ... 0,1 F 4; 10; 16; 25 kV
5; 10; 20 % 10; 20 % 0,008 100 000 MO -60...+85oC 10 000 12 (933% . 402oC, 21 )
5; 10; 20 % 10; 20 % 0,008 100 000 MOhm -60...+85oC 10 000 hours 12 years RH 933%, 402oC, 21 days
: 73-14 - 4 - 0,1 10%
Ordering example: Capacitor K73-14M - 4 kV - 0,1 F 10%
13
U, , Cr, F Ur, kV 0.0033 0.0039 0.0047 0.0056 0.0068 0.0082 0.010 0.012 0.015 4 0.018 0.022 0.027 0.033 0.039 0.047 0.056 0.068 0.082 0.10
Dmax, mm
Lmax, mm
d, mm
, Mass, g max 4 4
U, , Cr, F Ur, kV 0.0022 0.0033 0.0047 10 0.0068 0.010 0.015 0.022 0.00047 0.00068 0.0010 0.0015 16 0.0022 0.0033 0.0047 0.0068 0.010 0.00047 0.00068 25 0.001 0.0015 0.0022 0.0033
Dmax, mm 19 21 17 20 23 28 27 16 18 20 17 20 23 26 26 29 16 18 20 24 23 27
Lmax, mm
d, mm
, Mass, g max 13 17 20
11 12 13 14 15 16 17 19 15 16 17 18 19 21 23 24 26 28 48 0.8 28 0.6
28
0.6
5 6 7 8 9 10 13 15 17 19 21 24 29 35 38 44 50
48
27 0.8 35 50
68
65 9
28
0.6
11 15 20
48 0.8
27 35 44
68
62 75 17
48 0.8
21 27 40
68
50 65
Ut Permissible voltage Ut as a function of ambient temperature
100 Ut % U 75 50 -60 -40 -20 0 20 40 60 80 100
t
14
Uf f Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage Uf as a function of frequency f
U, 10
4
4
10
16
25 U
Uf
8 6 4 2 103 8 6 4
t
U = 25 U = 16 T=1/f
U = 10 U = 4
Uf
2 10 2 8 6 4 2 10
4,7 2 1 46 2 2 46 246 24 6 246
10
-3
2,2
4,7
10-2
2,2
10-1 10
4,7
10
103 f
104
10 5
10
6
C
: Uf Ut Uf 350 B Uf 600 B Uf 1400 B Uf 2100 B U = 4 B; U = 10 B; U = 16 B; U = 25 B
Limits: Uf Ut Uf 350 V Uf 600 V Uf 1400 V Uf 2100 V for Ur = 4 V; for Ur = 10 V; for Ur = 16 V; for Ur = 25 V;
Uf : : 4 f = 10 , -2 C = 3.3*10 1) U = 4 B 2) U = 10 B 3) U = 16 B 4) U = 25 B :
Example of calculation of Uf : Given: 4 f = 10 Hz , -2 Cr = 3.3*10 F 1) Ur = 4 kV 2) Ur =10 kV 3) Ur =16 kV 4) Ur = 25kV Finding:
1) Uf = 200 2) Uf = 290 3) Uf = 316 4) Uf = 355
1) Uf = 200 V 2) Uf = 290 V 3) Uf = 316 V 4) Uf = 355 V
15
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K74-7

POLYESTER FILM FOIL CAPACITORS
: .673633.016 , . : , .
Specifications: .673633.016 Designed to operate in DC, AC and ripple current circuits. Design: wrapped with adhesive tape; capacitor ends sealed with epoxy compound.
D max
25
+5
25
+3
f 1 f = 1
150, 390 16 20 % 500 0,008 1 000 000 MO -60...+70 C 5000 12 (933% . 402oC, 21 )
o
Rated capacitance Rated voltage Capacitance tolerance Permissible voltage amplitude at f 1 kHz Dissipation factor at f = 1 kHz Insulation resistance Operating temperature range Operating time Shelf life Climatic categories
d=0,6
150, 390 pF 16 kV 20 % 500 V 0,008 1 000 000 MOhm -60...+70oC 5000 hours 12 years RH 933%, 402oC, 21 days
: 74-7 - 16 - 150 20%
Ordering example: Capacitor K74-7 - 16 kV - 150 pF 20%
, Cr, pF 150 390
Dmax, mm 10 13
, Mass, g max 3.5 5.5
16
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K73-15M

POLYESTER FILM FOIL CAPACITORS
: .673633.017 , , . 73-15, 40-9, , : , .
Specifications: .673633.017 Designed to operate in DC, AC and ripple current circuits and in pulse mode. Can be used instead of K73-15, 40-9, , Design: wrapped with adhesive tape; capacitor ends sealed with epoxy compound.
D max
25
+5
L max
( -60oC ...+85oC) f = 1 < 0,33 > 0,33
0,00047 .... 0,47 100; 160; 250; 400; 630 5; 10; 20 % 0,01 30 000 MO 10 000 MO* -60...+100 C +10% -2% 10 000 10 (933% . 402oC, 21 )
o
Rated capacitance Rated voltage (temperature range -60oC...+85oC) Capacitance tolerance Dissipation factor at f = 1 kHz Insulation resistance at r 0,33F Time constant at r > 0,33F Operating temperature range Capacitance change within positive temperature range Operating time Shelf life Climatic categories
d
0,00047 ... 0,47 F 100; 160; 250; 400; 630 V 5; 10; 20 % 0,01 30 000 MOhm 10 000 MOhm*F -60...+100oC +10%
-2% 10 000 hours 10 years RH 933%, 402oC, 21 days
: 73-15 - 400 - 0,1 10%
Ordering example: Capacitor K73-15M - 400 V - 0,1 F 10%
17
C, Cr, F 0.0033 0.0047 0.0068 0.010 0.015 0.022 0.033 0.047 0.068 0.10 0.15 0.22 0.33 0.47
U=100 / Ur=100 V Dmax, mm Lmax, mm d, mm , Mass,g max
U=160 / Ur=160 V Dmax, mm Lmax, mm d, mm , Mass, max
U=250 / Ur=250 V Dmax, mm 5 Lmax, mm d, mm 0.6 0.8 0.6 22 0.8 26 1.0 , Mass, max 0.9 16 1.2 1.5 1.8 2.0 2.5 4.5 5.0 6.0 8.0 13
5 6 6 7 6 7 8 10 26 12 14 32 1.0 22 16 0.6 1.2 1.5 2.0 2.5 4.5 0.8 5.0 6.0 7.0 11 12 14 10 26 32 40 1.0 0.8 7 6 7 8 22 16 0.6
0.9 1.2 1.5 2.0 2.5 4.5 5.0 5.5 7.0 13
6 7 8 7 8 10 9 10 12 14
40
C, Cr, F 0.00047 0.00068 0.0010 0.0015 0.0022 0.0033 0.0047 0.0068 0.010 0.015 0.022 0.033 0.047 0.068 0.10 0.15 0.22
U=400 / Ur=400 V Dmax, mm Lmax, mm d, mm , Mass, max Dmax, mm
U=630 / Ur=630 V Lmax, mm d, mm , Mass, max
5
16 0.6
0.9
5 6 7 6 8 10 11 12 14 16 40 26 32 1.0 22 16 0.6
0.9 1.2 1.5 2.5 4.5 0.8 5.0 6.0 7.0 11 13 15 12 13 14 16 40 32 10 26 6 7 8 22
1.2 1.5 2.0 2.5 4.5 5.0 5.5 7.0 8.0 13 15
0.8
1.0
Ut Permissible voltage Ut as a function of ambient temperature
Ut U 100 % 80 50
t
oC
-60 -40 -20
0
20
40 60 80 85 100 120
18
Uf f. Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage Uf as a function of frequency f.
70 % 60 50 40 30 Uf Ut 20 10 5 10 10 5 10 2 10 f
4
U =100, 160, 250
U = 400
U = 630
2
3
10
5
U F, , , U Permissible peak-to-peak pulse voltage U as a function of pulse repetition frequency F, minimal temporal sector , corresponding pulse leading edge slope or pulse trailing edge slope , rated capacitance r and rate voltage Ur
U,
400 630 250 2 160 100
10 %8 6 4 2 10 1 8 6 Uu 4 Ut 2 10
0
U
Uu
Tu
c u=10 -4 C u=10-5 C
8 6 4 2 C
0
u=10 -6 C
F 10 6
10 -1
10
4,7 -4
4,7
4,7
10
-3
10
-2
10
2,2 4,7 -1
5
5
10
10
1
10
2
10
3
5
5
5
10 4
10 5
U: : F = 10 , = 10 c, Cr = 0,1
4 -5
Example of calculation of U: Given: F = 10 Hz, = 10 s, Cr = 0,1 F
4 -5
: U = 100 U = 160 U = 250 U = 400 U = 630
U=38,0% U=38 B U=25,0% U=40 B U=17,5% U=44 B U=11,5% U=46 B U= 8,3% U=52 B
Finding: at Ur = 100 V at Ur = 160 V at Ur = 250 V at Ur = 400 V at Ur = 630 V
U=38,0% of Ur=38 V U=25,0% of Ur=40 V U=17,5% of Ur=44 V U=11,5% of Ur=46 V U= 8,3% of Ur=52 V
19
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K73-17

METALLIZED POLYESTER FILM CAPACITORS
: .673633.020 , , . : .
Specifications: .673633.020 Designed to operate in DC, AC and ripple current circuits and in pulse mode. Design: dipped.
A
3 max
d
H max
16
+4
L max
B max
( -60oC ...+85oC) 1250 f = 1 0,33 U = 63 U 160 > 0,33 U = 63 U 160
0,01 .... 4,7 63; 160; 250; 400; 630 0,5 U 5; 10; 20 % 0,008
Rated capacitance Rated voltage (temperature range -60oC...+85oC) Working voltage at 1250 Capacitance tolerance Dissipation factor at f = 1 kHz Insulation resistance at r 0,33F Ur = 63 V Ur 160 V Time constant at r > 0,33 F Ur = 63 V Ur 160 V Operating temperature range Capacitance change within positive temperature range Operating time Shelf life Climatic categories
0,01 .... 4,7 F 63; 160; 250; 400; 630 V 0,5 Ur 5; 10; 20 % 0,008
12 000 MO 30 000 MO
12 000 MOhm 30 000 MOhm
4000 MO* 10 000 MO* -60...+125oC 18% 15 000 12 , (933% . 402oC,21 )
4000 MOhm*F 10 000 MOhm*F -60...+125oC 18% 15 000 hours 12 years RH 933%, 402oC, 21 days
: 73-17 - 250 - 0,47 10%
Ordering example: Capacitor K73-17 - 250 V - 0,47 F 10%
20
U, Ur, V
, r, F 0.18 0.22 0.33 0.47 0.68 1.0 1.5 2.2 3.3 4.7 1.5 2.2 0.047 0.068 0.1 0.15 0.22 0.33 0.47 0.68 1.0 0.022 0.033 0.047 0.068 0.1 0.15 0.22 0.33 0.47 0.68 1.0 0.01 0.015 0.022 0.033 0.047 0.068 0.1 0.15 0.22 0.33 0.47
Lmax, mm
Bmax, mm 6 6 6.3 8 6.3 8 8.5 8.5 10.5 12 12 15.5 6.3 6 8 6 7 8.5 8 9 10.5 6 6 7 5 6 8 7 8.5 10 11 14 6 6 7 6 7 8 7 8.5 10.5 11.5 15.5
Hmax, mm 10 10 13 15 13 15 19 19 21 25 25 25 11 14 15 13 14 16 18 19 21 10.5 13 15 13 14 15 18 19 21 24 27 10.5 13 15 13 14 15 18 19 21 24 25
A, mm
d, mm 0.6
12
10
63
18 23 24 25 12
15
0.8
20 1.0 20 10 1.0 0.6
160
250
18
15 0.8 20 0.6
23
12
10
18
15 0.8
400
23 24 12
20 1,0 10 0.6
18
15 0.8
630
23 25
20 1.0
, Mass, g max 1.4 1.4 2.5 3 3.5 4 5.5 7 9 12 12 14 2 2.5 3 3.5 4 5 5.5 7 9 1.4 1.8 2.5 3 3.5 4 5 6 8 10 12 1.4 1.8 2.5 3 3.5 4 5 6 8 10 12
Ut Permissible voltage Ut as a function of ambient temperature
100 % 80 60 Ut U
50
40 20 t 0 20 40 60
85
-60 -40 -20
100
125
oC
21
Uf f. Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage Uf as a function of frequency f.
U,
160 63
250 400
630
4
2
U Uf t
T=1/f
10
2
8 6 4
2
10
8 6 4
Uf
2
10
0
8 6 4
2
10
-1
C
1,5 2,2 3,3 4,7 6,8 1,5 2,2 3,3 4,7 6,8 1,5 2,2 3,3 4,7 6,8 1,5 2,2 3,3 4,7
f
2 4 68 2 4 68 2 4 68 2 4 68 2 4 68 2
10
-3
10
-2
10
-1
10
0
10
1
10
2
10
3
10
4
10
5
10
6
Uf: : f = 10 ; C=0,47 . : Uf=15 U=63 ; Uf=17,4 U=250 ; Uf=19 U=400 ; Uf=23 U=630 .
Example of calculation of Uf : Given: f=10kHz; Cr=0,47 F. Finding: Uf=15 V for Ur=63 V; Uf=17,4 V for Ur=250 V; Uf=19 V for Ur=400 V; Uf=23 V for Ur=630 V.
22
U F, , , Permissible peak-to-peak pulse voltage U as a function of pulse repetition frequency F, minimal temporal sector, corresponding pulse leading edge slope or pulse trailing edge slope and rated capacitance r
U,
630 400 250 160 63
2 Uu 1 Ut 10 8 6 4 2 10 8 6 4 2 10
-1 2,2 4,7 2,2 4,7 2,2 4,7 24 6 2 46 0

,c=10-4 c
Uu
10 %8 6 4
2
,c=10-3 c
U
c
t
-5 ,c=3 * 10 c
,c=10-5 c
,c=10-6 c
F 10-1 C 10 0 10 1 101 102 103
246
10-2
10
4
246
10
5
2
46
106
2
46
10 7
U: :
3
F = 10 , = = 10 c, C = 0,47 U = 250 B, U = 630 B, : U = 250 B U = 31% 250 B = 77,5 B U = 630 B U = 19% 630 B = 119,7 B :
-6
Example of calculation of U: Given:
3 -6
F = 1,6*10 , = = 3*10 c, U = 400 B, C = 1,0
4 -5
F = 10 Hz , = = 10 s, Ur = 250 V, Ur = 630 V, Cr = 0,47 F Finding: at Ur = 250 V Ur=31% of 250 V =77,5V at Ur = 630 V Ur=19% of 630 V =119,7V Given: F = 1,6*10 Hz , = = 3*10 c, Ur = 400 V, r = 1,0 F
4 -5
: U = 10% 400 B = 40 B
Finding: U = 10% of 400 V=40 V
Im dU/dt Maximum permissible amplitude of pulse current Im and rate of the voltage change dU/dt
U, Ur, V 63 160 250 , Cr, F 0,18...0,47 0,68...1,5 2,2...4,7 1,5...2,2 0,047...0,1 0,15...0,33 0,47...1,0 0,022...0,047 0,068...0,15 0,22...1,0 0,01...0,022 0,033...0,068 0,1...0,47
Im, max,
A 2,4...6,1 5,4...12,0 8,8...18,8 19,5...28,6 1,2...2,5 2,2...5,0 6,1...13,0 0,8...1,6 1,4...3,0 3,5...16,0 0,5...1,1 1,0...2,0 2,5...11,7
dU/dt, max, V/s 13 8 4 13 25 15 13 35 20 16 50 30 25
400
630
23
_________________________________________________________________________
K73-17

MINIATURE METALLIZED POLYESTER FILM CAPACITORS
: .673633.005 , , . : .
A
3 max
Specifications: .673633.005 Designed to operate in DC, AC and ripple current circuits and in pulse mode. Design: dipped.
d
H max
16
+4
L max
B max
( -60oC ...+85oC) f = 1 0,33 > 0,33 U = 400 U = 630 U = 400 U = 630
0,0047 .... 0,47 400; 630*
Rated capacitance Rated voltage (temperature range -60oC...+85oC) Capacitance tolerance Dissipation factor at f = 1 kHz Insulation resistance at r 0,33 F Time constant at r > 0,33 F Operating temperature range at Ur = 400 V at Ur = 630 V Capacitance change within positive temperature range at Ur = 400 V at Ur = 630 V Operating time Shelf life Climatic categories
0,0047 .... 0,47 F 400; 630* V
5; 10; 20 % 0,008 30 000 MO 10 000 MO* -60...+125oC -60...+85oC
5; 10; 20 % 0,008 30 000 MOhm 10 000 MOhm*F -60...+125oC -60...+85oC
18% (+10% ... -2%) 15 000 12 (933% . 402oC, 21 )
18% (+10% ... -2%) 15 000 hours 12 years RH 933%, 402oC, 21 days
* U=630 ( 10 , 2 ) 1500 50 .
* Capacitors with Ur = 630 V are tolerated to short-term (over 10 s , overall not more than 2 minutes) action of AC 1500 Veff, 50 Hz.
: 73-17 - 400 - 0,1 10%
Ordering example: Capacitor K73-17 - 400 V - 0,1 F 10%
24
, Cr, F 0.022 0.033 0.047 0.068 0.10 0.15 0.22 0.33 0.47 0.0047 0.01
U, Ur, V
Lmax, mm 12 12 12 12
Bmax, mm 5 6 6 6 7 4 7 8 8 6 6
Hmax, mm 10 10 11 14 15 12 14 16 18 9 9
A, mm
d, mm 0.6 0.6
, Mass, g max 1.4 1.6 2.0 2.5 3.0 3.5 4.0 5.0 5.5 5.0 5.5
10
0.6 0.6 0.6
400
12 15.5 18 18 23 10 18
14 15 20 8 16.5
0.6 0.8 0.8 0.8 0.6 0.6
630
Ut U = 400 Permissible voltage Ut as a function of ambient temperature (Ur = 400 V)
100 % 80 60 Ut U 40 20 -60 -40 -20 0 20 40 60
85 50
t 100 125
oC
Uf f. Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage Uf as a function of frequency f
100 % 90 80 2 70 60 Uf U (Ut) 40 30 20 10 0 10
1 2 3 4 5
50
1
10
10 f
10
10
1 - U= 400B 2 - U= 630B.
Uf: : f=4*10 , U=400 : Uf=2,5% 400 B=10
4
1 - Ur = 400 V 2 - Ur = 630 V
Example of calculation of Uf: Given: f=4*10 Hz , Ur=400 V Finding: Uf=2,5% of 400 V=10 V
4
25
U F, , Permissible peak-to-peak pulse voltage U as a function of pulse repetition frequency F, minimal temporal sector , corresponding pulse leading edge slope or pulse trailing edge slope
2
10 %8 6 4 2 10 Uu Ut
1
U
u =10 C
Uu
-4
u =3*10-5 C u =10-5 C
c
t
8 6 4 2 10
0
u =10 -6 C
8 6 4 2 10
-1
F 10
1
10
2
10
3
10
4
10
5
10
6
10
7
U : : F = 10 , , = 10 , Ut = U : U = 2,1% 400 B = 8,4
5 -6
Example of calculation of U : F = 10 Hz , , = 10 s, Ut = Ur Finding: U = 2,1% 400 V = 8,4 V
5 -6
Given:

Im dU/dt
Maximum permissible amplitude of pulse current Im and rate of the voltage change dU/dt
U, Ur, V
, Cr, F 0,022...0,1
Im, max,
A 0,55...2,5 2,15...4,7 6,1 0,24...0,5
dU/dt, max, V/s 25 14,3 13 50
400
0,15...0,33 0,47
630
0,0047...0,01
26
___________________________________________________________________________________________
K73-21

METALLIZED POLYESTER FILM CAPACITORS
: . 673633.021 0,1 ... 100 . : , .
0,5
Specifications: . 673633.021 Designed for interference suppression at frequency 0,1 ... 100 Hz. Design: wrapped with adhesive tape; capacitor ends sealed with compound.
2
H max
1 2 2 1 1
2 10
+3 -1
1 L max 10 -1
+3
B max
3-1
2,6
f = 1 0,33 > 0,33 U = 50 U = 160 ... 500
0,1 .... 10 50_; 160_; 250_/127~; 500_ /250~ 4; 6.3; 10 A 10; 20 % 0,012 30 000 MO
1,6
Rated capacitance Rated voltage Rated current Capacitance tolerance Dissipation factor at f = 1 kHz Insulation resistance at r 0,33 F Time constant at r > 0,33 F Ur = 50 V Ur = 160 ... 500 V Operating temperature range Operating time Shelf life Climatic categories
0,1 .... 10 F 50_; 160_; 250_/127~; 500_ /250~ V 4; 6.3; 10 A 10; 20 % 0,012 30 000 MOhm 4000 MOhm*F 10 000 MOhm*F -60...+100oC 10 000 hours 12 years RH 933%, 402oC, 21 days
4000 MO* 10 000 MO* -60...+100oC 10 000 12 (933% . 402oC, 21 )
: 73-21 - 500_/250~ -10 - 1 20%
Ordering example: Capacitor K73-21 - 500_/250~ V - 10 A - 1F 20%
27
U_, Ur_, V
U~, Ur~, Veff (50Hz)
, r, F 0.47 0.68 1.0 1.5
I, Ir, A
, Lmax 15 19 19 19 26 26 33 33 33 19
Dimensions, mm Bmax 5 4 5 6.7 6 7.5 6.7 7.1 10 5 6 7.1 7.1 8 8.5 5 6 5 6 6.1 6.7 6.7 8 10 5.5 6.7 7.5 8.5 7.1 8.5 9.5 13 16.5 Hmax 12 13 14 16 18 20 24 26 28 14 16 18 19 22 22 12 14 14 15 15 17 18 21 24 17 19 20 22 25 28 30 34 36
, Mass, g max 3 3 4 5 6 7 9 11 15 4 5 6 7 9 11 3 3 4 5 6 7 8 9 12 5 7 8 9 11 15 25 32 40
4.0
50
-
2.2 3.3 4.7 6.8 10 0.33 0.47 4.0 0.68 1.0 1.5 2.2 0.10 0.15 0.22 0.33 4.0 6.3 6.3
19 19 26 26 33 15 15 19 19 26 26
160
-
250
127
0.47 0.68 1.0 1.5 2.2 0.10 0.15 0.22 0.33 0.47 0.68 1.0 1.5 2.2 10 6.3 6.3
33 33 33 28 28 28 28 39 39 45 45 45
500
250
Ut Permissible voltage Ut as a function of ambient temperature
% 100 Ut U 75 50 -60 -40 -20 0 20 40 60 80 100 t
o
It Permissible current It as a function of ambient temperature
% 100 It 75 I 50 -60 -40 -20 0 20 40 60 t
80 100
o
28
f "" ( 50 ) Insertion loss as a function of frequency f for the capacitors with index "" (measured by the use of asymmetric circuit with rated input resistance 50 Ohm)
1 - r=0,1-0,15 F 2 - r=0,22-0,33 F 3 - r=0,47-0,68 F 4 - r=1,0-1,5 F 5 - r=2,2-3,3 F 6 - r=4,7-6,8 F 7 - r=10 F f Permissible amplitude of AC sinusoidal voltage or working amplitude of AC sinusoidal component of ripple voltage as a function of frequency f
U ,
50 160 250_/127 500_/250
310
400 180
U=500_/250
U=250_/127 U=160
U=50
U=500 U<500
U
Uf
112 80 60 40 20 10 8 6 4 2 1 0,8 0,6 0,4 0,2 0,1 0,1 0,15 0,22 0,33 0,47 0,68 1,0
t
T=1/ f
Uf
1,5
2,2
2
3,3
4,7
6,8
10
10
2
4 68
10 2
2
f
468
10 3
2
4684 10
U : : f=3*10 , =1,5 , U=250_/127 2 Example of calculation of Uf : given: f=3*10 Hz, r=1,5 F, Ur=250_/127 V
: Uf =110 Finding : Uf =110 V
29
___________________________________________________________________________________________
K73-21

METALLIZED POLYESTER FILM CAPACITORS
: . 673633.021 0,1 ... 100 . : , .
1 10 10
Specifications: . 673633.021 Designed for interference suppression at frequency 0,1 ... 100 Hz. Design: wrapped with adhesive tape; capacitor ends sealed with compound.
1 1 2 1
1
, Cr, F 0.47
Lmax, mm 26 43
, mass, max 20 30
L max
10
1.0
2
24 m a x
( ) ( -60 oC ... +85 oC) ( -60 oC ... +85 oC) f = 1
0,47; 1,0
Rated capacitance
0,47; 1,0 F
(other rated capacitance are also available)
500 Rated voltage (temperature range -60oC ... +85oC) Alternating voltage (temperature range -60oC ... +85oC) Rated current Capacitance tolerance Dissipation factor at f = 1 kHz Time constant Operating temperature range Operating time Shelf life Climatic categories 500 V
250
250 Veff
4 20 % 0,012 10 000 MO. -60...+100oC 10 000 12 (933% . 402oC, 21 )
4A 20 % 0,012 10 000 MOhm. F -60...+100oC 10 000 hours 12 years RH 933%, 402oC, 21 days
: 73-21 - 500_/250~ - 4 - 1 20%
Ordering example: Capacitor K73-21 - 500_/250~ V - 4 A - 1 F 20%
30
f "" ( 50 ). Insertion loss as a function of frequency f for the capacitors with index "" (measured by the use of asymmetric circuit with rated input resistance 50 Ohm)
1 - r = 1 F
2 - r = 0,47 F
Ut Permissible voltage Ut as a function of ambient temperature
% 100 Ut U 75 50 -60 -40 -20 0 20 40 60 80 100 t
o
It Permissible current It as a function of ambient temperature
% 100 It 75 I 50 t
-60 -40 -20
0
20
40
60
80 100
o
73-21 Permissible voltage as a function of frequency - 73-21
31
___________________________________________________________________________________________
K73-24

METALLIZED POLYESTER FILM CAPACITORS
: .673633.010 , , . 73-34, 73-5. : . 73-17, 73-30,
Specifications: .673633.010 Designed to operate in DC, AC and ripple current circuits and in pulse mode. Can be used instead of K73-17, K73-30, K73-34, K73-5. Design: dipped.
A
3 max
d
H max
l*
L max
B max
*)
l = 20+5 < 20
l = 25+5 > 20
0,001 .... 6,8 63; 100; 160; 250; 400; 630 5; 10; 20 % 0,012 3000 MO 1000 MO* -60...+125 C 10% 15 000 10 (933% . 402oC, 10 )
o
( -60oC ...+85oC) f = 1 C 0,33 >0,33
Rated capacitance Rated voltage (temperature range -60oC...+85oC) Capacitance tolerance Dissipation factor at f = 1 kHz Insulation resistance at Cr 0,33 F Time constant at r >0,33 F Operating temperature range Capacitance change within positive temperature range Operating time Shelf life Climatic categories
0,001 .... 6,8 F 63; 100; 160; 250; 400; 630 V 5; 10; 20 % 0,012 3000 MOhm 1000 MOhm*F -60...+125oC 10% 15 000 hours 10 years RH 933%, 402oC, 10 days
: 73-24 - 100 - 0,1 20% 7,5 ( - )
Ordering example: Capacitor K73-24 - 100 V - 0,1 F 20% 7,5 mm ( - lead spacing)
32
, Cr, F 0.0010 0.0015 0.0022 0.0033 0.0047 0.0068 0.0082 0.010 0.012 0.015 0.018 0.022 0.027 0.033 0.039 0.047 0.056 0.068 0.082 0.10 0.12 0.15 0.15 0.18 0.22 0.22 0.27 0.33 0.39 0.47 0.47 0.56 0.68 0.68 0.82 1.0 1.0 1.2 1.5 1.8 2.2 2.7 3.3 3.9 4.7 5.6 6.8
U=100 / Ur=100 V Lmax, mm Hmax, mm Bmax, mm A, mm d, mm , Mass, g max Lmax, mm
U=250 / Ur=250 V Hmax, mm Bmax, mm A, mm d, mm , Mass, g max
9
9
4.5 11 11 4.5 7.5 2.0 10.5 0.6 7.5
2.0
6 10.5 11.5 0.6 13 7.5 10 3
18 13 4.8 5.0 6.0 13.5 11.5 3.2 6.6 5.6 6.7 19.5 15.5 5.6 6.7 7.8 8.5 6.0 6.7 7.2 8.5 8.0 8.5 10 11 15 3.7 4.0 4.2 4.5 4.7 5.0 5.8 22.5 0.8 27.5 12 6.6 6.8 8.3 23 19.5 23 27 23 10 3.0 13.5 18 19.5
13 11.5 14 16 18
19
6 9.3 11 7 6.1 7.1 8.2 9.4 7.5 9.4 11.2 9.0 8.8 10.5
15 10
0.8 0.6 0.8
15
0.6 0.8 0.6
20 15 20 22.5 20
0.8
21
3.5 3.1 3.4 4.0 3.7 4.3 4.3 4.8 5.5 5.2 5.6 7.0 6.3 6.9 9.0
27
20
33
23
, Cr, F 1.0 1.5 2.2 3.3 4.7
U=63 / Ur=63 V Lmax, mm 18 23 24 Hmax, mm Bmax, mm A, mm 15 0.8 20 1.0 d, mm , Mass, g max 5.5 7.0 9.0 12 Lmax, mm 18 19 21 25 8.5 10.5 12 24
U=160 / Ur=160 V Hmax, mm 15 19 22 Bmax, mm 8 9 10 A, mm 15 20 1.0 d, mm , Mass,g max 4.5 5.8 6.8
33
, Cr, F 0.010 0.015 0.022 0.033 0.047 0.068 0.10 0.15 0.22 0.33 0.47 0.68 1.0
U=400 / Ur=400 V Lmax, mm Hmax, mm Bmax, mm A, mm , d, Lmax, Mass, g mm mm max 13 13 18 23 24 10.5 13 15 13 14 15 18 19 21 24 27 6 7 5 6 8 7 8.5 10 11 14
100 %
U=630 / Ur=630 V Hmax, mm 10.5 13 15 13 14 15 18 19 21 24 25 Bmax, mm 6 7 6 7 8 7 8.5 10.5 11.5 15.5 A, mm 10 d, mm 0.6 , Mass,g max 2.0 3.0 3.4 3.6 4.0 4.7 5.8 6.0 6.8 8.3 12.0
10 15
0.6
0.8
20 1.0
2.0 3.0 3.4 3.6 4.0 4.7 5.8 6.0 6.8 8.3 12.0
18 23 25
15 0.8 20 1.0
Ut
75 Ut 50 U 25
85
Permissible voltage Ut as a function of ambient temperature
o
t
-60
0
20
40
60
80
100 120 125
Uf f Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage Uf as a function of frequency f
U, 630 400 250 160 100 63
%10 2 8 6 4 2 101 8 6 4 2 10 0 8 6 4 2 10
-1 1,5 2,2 3,3 4,7 6,8 1,5 2,2 3,3 4,7 6,8 1,5 2,2 3,3 4,7 6,8 -1 1,5 2,2 3,3 4,7 6,8 0 2 1 5 2 5 2 5 2 5 2 5
Uf Ut
f 10-2 10 C 10 10 10
2
10-3
10
3
10 4
10 5
10 6
Uf : 4 : f=1*10 , Ut=U=630 , =0,1 : Uf =13% U=82 4 : f =1*10 , Ut=U=250 , =1500 : Uf =64,5% U=161
Example of calculation of Uf : 4 Given: f =1*10 Hz , Ut=Ur=630 V, r=0,1 F Finding: Uf =13% of Ur=82 V 4 Given: f =1*10 Hz , Ut=Ur=250 V, r=1500 pF Finding: Uf =64,5% of Ur=161 V
34
U F, , , Permissible peak-to-peak pulse voltage U as a function of pulse repetition frequency F, minimal temporal sector ,corresponding pulse leading edge slope or pulse trailing edge slope and rated capacitance r
U,
630 400 250 160 100 63
10 %8 6
2
Uu
4 2 101 8 6 4 2 10 0 8 6 4 2 10-1
1,5 2,2 3,3 4,7 6,8 1,5 2,2 3,3 4,7 6,8 1,5 2,2 3,3 4,7 6,8 1,5 2,2 3,3 4,7 6,8 2 5 2 5 2 5 2
u
u =10-4 C
U Ut
u =10 -5 C
u =10 -6 C
F 10-2 C 10 -1 100 10 1 10
2
10-3
10
3
5
2
5
10 4
10 5
10 6
U : : F=2*10 , =10 c,
4 -6
Example of calculation of U : Given: F=2*10 Hz , =10 s,
4 -6
Ut=U=630 , =0,22 : U=6% U=37,8 : F=2*10 , =10 c,
4 -6
Ut=Ur=630 V, r=0,22 F Finding: U=6% f Ur=37,8 V Given: F=2*10 Hz , =10 s,
4 -6
Ut=U=63 , =0,01 : U=40% U=25,2
Ut=Ur=63 V, r=0,01 F Finding: U=40% f Ur=25,2 V
35
Im dU/dt Maximum permissible amplitude of pulse current Im and rate of the voltage change dU/dt
U, Ur, V 63
, Cr, F 1,5...4,7 0,001...0,0068 0,0082...0,027
Im, max, A 16,5...51,7 0,14...0,95 0,71...2,35 1,55...4,7 3,36...13,1 8,4...22,5 14,4...54,4 16,0...35,2 0,14...0,95 0,71...4,1 3,0...8,2 4,5 9,9...12,1 5,9 8,6...15 7,5 17,9...21,7 14,9 13,9...17,0 7,3...15,5 6,0...13,6 13,6...62,0 5,0...11,0 4,6...9,6 9,0...42,3
dU/dt, max, V/s 11 140 87 47 28 15 8 16 140 87 55 30 55 27 32 16 32 22 17 330 91 62 500 142 90
100
0,033...0,1 0,12...0,47 0,56...1,5 1,8...6,8
160
1,0...2,2 0,001...0,0068 0,0082...0,047 0,056...0,15 0,15(L=18 mm) 0,18...0,22
250
0,22(L=18 mm) 0,27...0,47 0,47(L=23 mm) 0,56...0,68 0,68(L=23 mm) 0,82...1,0 0,022...0,047
400
0,068...0,15 0,22...1,0 0,01...0,022
630
0,033...0,068 0,1...0,47
36
___________________________________________________
K73-31

METALLIZED POLYESTER FILM CAPACITORS FOR SURFACE MOUNTING
: .673633.012 , , . : .
Specifications: .673633.012 Designed to operate in DC, AC and ripple current circuits and in pulse mode. Design: moulded or unprotected.
1,5 0,5 L 0,5
B 0,5
( -60oC ...+85oC) f = 1
0,001 .... 0,22 63; 100; 250; 400; 630 5; 10; 20 % 0,012 3000 MO -60...+100oC 10% 15 000 12 (933% . 402oC, 21 )
Rated capacitance Rated voltage (temperature range -60oC...+85oC) Capacitance tolerance Dissipation factor at f = 1 kHz Insulation resistance Operating temperature range Capacitance change within positive temperature range Operating time Shelf life Climatic categories for moulded capacitors
H 0,4
0,001 .... 0,22 F 63; 100; 250; 400; 630 V 5; 10; 20 % 0,012 3000 MOhm -60...+100oC 10% 15 000 hours 12 years RH 933%, 402oC, 21 days
: 73-31 - 400 - 0,1 10%
Ordering example: Capacitor K73-31 - 400 V - 0,1 F 10%
37
, Cr, F 0.001 0.0015 0.0022 0.0033 0.0047 0.0068 0.010 0.015 0.022 0.033 0.047 0.068 0.10 0.15 0.22**
U=100 / Ur=100 V L, mm B, mm H, mm
U=250 / Ur=250 V L, mm B, mm H, mm
U=400 / Ur=400 V L, mm B, mm H, mm
U=630 / Ur=630 V L, mm B, mm H, mm
7.1
6.3
4 3.2 10 3.2 10 8 5 3.2 12* 15* 10 4 5 6 12* 5 15* 10 8 5 4 5 6
10 12* 8
5 4 5 10 6
15*
10
8
5
* - ( 150 C. ). * - unprotected (Soldering at temperature not more than 150 C by the use of soldering pastes. Washing by water is forbidden). ** - 63 . ** - rated voltage 63 V.
o
o
Ut
Permissible voltage Ut as a function of ambient temperature
% 100 Ut U 75 50 -60 -40 -20 0 20 40 60 80 100
85
o
t
38
Uf f. Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage Uf as a function of frequency f
U,
630 400 250 100 63
100 % 80 60 40 20 10 8 6 4 Uf Ut 2 1,0 0,8 0,6 0,4 0,2 0,1 0,08 0,06 0,04 0,02 0,01 10-3
C
1,5 2,2 3,3 4,7 6,8
f 101
2 5
10-2
1,5
2,2
3,3
4,7 6,8
10-1
1,5 2,2
10
2
2
5
10
3
2
5
10 4
2
5
105
2
5
106
Uf:
Example of calculation of Uf:
1):
f=10 , Ut=U =250 , C =0,022 : Uf =3% Ut=7,5 2): f=10 , Ut=U =100 , C =0,0033 : Uf =80% Ut=80
4 5
1)Given:
f=10 Hz , Ut=Ur =250 V, Cr =0,022 F Finding: Uf =3% of Ut =7,5 V 2)Given: f=10 Hz , Ut=Ur =100 V, Cr =0,0033 F Finding: Uf =80% of Ut =80 V
4 5
39
U F, , , Permissible peak-to-peak pulse voltage U as a function of pulse repetition frequency F, minimal temporal sector, corresponding pulse leading edge slope or pulse trailing edge slope and rated capacitance r
U,
630 400 250 100 63
100 % 80 60 40 20 10 8 6 4 2 Uu Ut 1,0 0,8 0,6 0,4 0,2 0,1 0,08 0,06 0,04 0,02 0,01 10-3
1,5 2,2 3,3 4,7 6,8 1,5 2,2 3,3 4,7 6,8 -2 1,5 2,2 25 2 5 2
Uu
c
u
u =10-4 C u =10-5 C u =10 -6C u =10 -7 C
F 10 C 10-1 101 10
2
10
3
5
10 4
2
5
105
2
5
106
U : 1) :
4 -5
F=10 , =10 c, Ut=U=400 , C=0,033 : U = 6% Ut=24 2) : F=10 , =10 c, Ut=U=250 , C=0,0022 : U = 85% Ut=212
3 -5
Example of calculation of U : 1)Given:
4 -5
F=10 Hz , =10 s, Ut=Ur=400 V, Cr=0,033 F Finding: U=6% f Ut=24 V 2)Given: F=10 Hz , =10 s, Ut=Ur=250 V, Cr=0,0022 F Finding: U=85% f Ut=212 V
3 -5
Im dU/dt Maximum permissible amplitude of pulse current Im and rate of the voltage change dU/dt
U, Ur, V 63, 100 250 400 630 , Cr, F 0,001...0,068 0,1...0,22 0,015...0,047 0,068...0,15 0,0068...0,022 0,033...0,068 0,0047...0,01 0,015...0,033 Im, max, A 0,02...1,36 1,3...2,86 0,15...0,47 0,41...0,9 0,1...0,33 0,23...0,48 0,12...0,25 0,15...0,33 dU/dt, max, V/s 20 13 10 6 15 7 25 10
40
___________________________________________________________________________________________
K73-39

METALLIZED POLYESTER FILM CAPACITORS
: .673633.000 , , . : .
A
3 max
Specifications: .673633.000 Designed to operate in DC, AC and ripple current circuits and in pulse mode. Design: dipped.
0,6+0,1
H max
20
+5
L max
B max
73-39, , , : * 73-17, 73-30, 73-34, ; * 3""...6"", 10-17"", 10-47"" 30, 50, 90, . ( -60oC ...+85oC) 470 .... 1,5 63; 100; 250; 400; 630 1) 10; 20 % <8200 2) 5; 10; 20 % >8200 0,012 3000 MO 1000 MO* -60...+100 C 10% 15 000 10 (933% . 402oC, 10 )
o
Capacitors K73-39 are produced by the use of effective technology and can be used for complete or partial replacement of: * metallized film capacitors 73-17, 73-30, 73-34 without ranking below them in electric and working parameters; * ceramic capacitors 3""...6"", 10-17"", 10-47"" (X7S, Z5U, Y5V) with significant superiority as regards to capacitance stability and without ranking below them in electric and working parameters. Rated capacitance Rated voltage (temperature range -60oC...+85oC) Capacitance tolerance 470 pF .... 1,5 F 63; 100; 250; 400; 630 V 1) 10; 20 % for <8200 pF 2) 5; 10; 20 % for >8200 pF 0,012 3000 MOhm 1000 MOhm*F -60...+100oC 10% 15 000 hours 10 years RH 933%, 402oC, 10 days
f = 1 0,33 > 0,33
Dissipation factor at f = 1 kHz Insulation resistance at r 0,33F Time constant at r > 0,33F Operating temperature range Capacitance change within positive temperature range Operating time Shelf life Climatic categories
: 73-39 - 630 - 8200 10% 7,5 ()
Ordering example: Capacitor K73-39 - 630 V - 8200 pF 10% 7,5 mm ()
41
Lmax x Hmax x Bmax, mm , / mass, g , Cr, F 63 0.00047 0.0010 0.0012 0.0015 0.0018 0.0022 0.0027 0.0033 0.0039 0.0047 0.0056 0.0068 0.0082 0.010 0.012 0.015 0.018 0.022 0.027 0.033 0.039 0.047 0.056 0.068 0.082 0.10 0.12 0.15 0.18 0.22 0.27 0.33 0.39 0.47 0.68 0.82 1.0 1.5
8106 2.0 8107.5 2.0 11105 2.5 1111.56 3.2 1111.57.5 3.4 1112.58.5 4.2 1113.58.5 4.2 8105 2.0 874 1.2 894 1.5 8105 2.0 11104 2.0 873 1.0 894 1.5 8106 2.0 11104 2.0 8105 2.0 1194 2.0 11104 2.0 11105 2.5 11106 2.7 1111.57.5 3.4 11105 2.5 1111.56 3.2 1111.57.5 3.4 1112.58.5 4.2 1112.57.5 4.0 1112.58.5 4.2 894 1.5 11104 2.0 11 105 2.5 11 106 2.7 11 12.5 7.5 4.2 873 1.0 873 1.0 1194 2.0 1194 2.0 1194 2.0 11 94 2.0
A=5 mm U, / Ur, V 100 250 63 100
A=7.5 mm 250 400 630
8106 2.0 11105 2.5 1111.56 3.2 1111.57.5 3.4 1112.58.5 4.2
42
Lmax x Hmax x Bmax, mm , / mass, g , Cr, F 63 0.010 0.012 0.015 0.018 0.022 0.027 0.033 0.039 0.047 0.056 0.068 0.082 0.10 0.12 0.15 0.18 0.22 0.27 0.33 0.39 0.47 0.68 0.82 1.0 13104 2.0 13105 2.5 1311.56 3.2 1311.57.5 3.6 13104 2.0 13105 2.5 1311.57.5 3.6 1394 2.0 13105 2.5 1394 2.0 1394 2.0 13105 2.5 1394 2.0 100 A=10 mm U, / Ur, V 250 400 630 1395 2.3 13105 2.5 1311.56 3.2
1311.56 3.2 1311.57.5 3.6 1312.57.5 4.0
1311.56 3.2
1311.56 3.2
1311.57.5 3.6
Ut Permissible voltage Ut as a function of ambient temperature
Ut U 75 50
% 100 t
-60 -40 -20
0
20
40
60
80 100
85
o
43
Uf f. Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage Uf as a function of frequency f
U,
630 400 250 100 63
10 %8 6 4 2
2
U Uf t
10 1 8 6 4 2 Uf 10 8 Ut 6 4 2 10 8 6 4
-1 0
T=1/f
2 10
-2 1,5 2,2 3,3 4,7 6,8 1,5 2,2 3,3 4,7 6,8 -3 1,5 2,2 3,3 4,7 6,8 1,5 0 -1
f 10 -2
246 1 2 46 2 46
10
C
10
10
10
10 2
10 3
10
246 4
10
246 5
10
6
Uf: 1) : f =20 , U=63 , C=1 : Uf =8,0% 63 =5,0 2) : f =20 , U=400 , C=0,015 : Uf =9,0% 400 = 36 3) : f =10 , Ut=U=100 , C=0,01 : Uf =58% 100 = 58
Example of calculation of Uf: 1) Given: f =20 kHz , Ur=63 V, Cr=1 F Finding: Uf =8,0% of 63 V=5,0 V 2) Given: f =20 kHz , Ur=400 V, Cr=0,015 F Finding: Uf =9,0% of 400 V = 36 V 3) Given: f =10 kHz , Ut=Ur=100 V, Cr=0,01 F Finding: Uf =58% of 100 V = 58 V
44
U F, , , Permissible peak-to-peak pulse voltage U as a function of pulse repetition frequency F, minimal temporal sector , corresponding pulse leading edge slope or pulse trailing edge slope and rated capacitance r
U,
630 400 250 100 63
% 10 2 8 6 4 2 10 8 6 Uu 4 Ut 2 10 8 6 4 2 10
-1 1,5 2,2 3,3 4,7 6,8 1,5 2,2 3,3 4,7 6,8 1
U
u=10 -3 C
Uu
Tu
c
u=10-4 C
0
u=10-5 C
u=10-6 C
1,5 2,2 3,3 4,7 6,8 1,5 2 4 68 2 4 68 2 2 4 68 3 2 4 68 2 4 68 5
F
10-3
10-2
C
10 -1
1 10 0 10
10
10
10 4
10
10 6
U : 1) : F=10 , =10 c, U=250 , C=0,15 : U=3,4% U=8,5
4 -6 4 -6
Example of calculation of U : 1) Given: F=10 Hz , =10 s, Ur=250 V, Cr=0,15 F Finding: U=3,4% of Ur=8,5 V
4 -6 4 -6
2) :
F=10 , =10 c, U=630 , C=0,001 : U=11% U=69 F=20 , =10 c, Ut=U=63 , C=0,01 : U=30% U=18,9
-5
2) Given:
F=10 Hz , =10 s, Ur=630 V, Cr=0,001 F Finding: U=11% of Ur=69 V F=20 Hz , =10 s, Ut=Ur=63 V, Cr=0,01 F Finding: U=30% of Ur=18,9 V
-5
3) :
3) Given:
45

Im dU/dt
Maximum permissible amplitude of pulse current Im and rate of the voltage change dU/dt
U, Ur, V 63 , Cr, F 0,012...0,056 0,068...0,082 0,1...0,47 0,001...0,0047 5,0 0,0056...0,01 100 0,012...0,039 0,047...0,15 0,001...0,0047 250 0,0056...0,033 0,012 0,015...0,039 63 0,047...0,15 0,18...1,5 0,001...0,0082 0,01...0,018 100 0,022...0,027 0,033...0,47 7,5 0,001...0,0056 0,0068...0,012 250 0,015...0,018 0,022...0,1 0,12...0,15 0,001...0,027 400 0,0033...0,0068 0,0082...0,047 630 0,001...0,015 0,01...0,039 63 0,047...0,18 0,22...1,0 0,01...0,039 10 100 0,047...0,68 0,01...0,039 250 400 630 0,047...0,15 0,01...0,082 0,01...0,022
A, mm
Im, max, A 0,9...4,0 3,0...3,7 5,0...23,5 0,2...1,0 1,4...2,6 1,5...4,8 3,6...11,7 0,2...1,0 1,4...8,2 1,65 1,2...3,0 1,8...6,0 4,8...40,0 0,2...1,45 1,3...2,3 2,2...2,7 1,6...22,0 0,2...1,0 1,0...1,9 1,95...2,3 2,0...9,2 9,3...11,6 0,5...13,7 1,4...2,8 2,7...15,5 0,5...7,5 0,65...2,5 1,5...5,7 4,6...21,0 0,65...2,5 1,4...20,0 0,65...2,5 2,8...9,0 1,68...13,8 2,5...5,5
dU/dt, max, V/s 73 46 50 210 260 125 78 210 250 138 80 40 27 180 130 100 47 180 160 130 92 78 510 420 330 500 65 32 21 65 30 65 60 168 250
46
_______________________________________________________
K73-43 ,,

METALLIZED POLYESTER FILM CAPACITORS FOR EMI SUPPRESSION
: .673633.018 0,15 ... 100 . 75-37, 75-41, 75-61. Y (C2) X (C1). : "" "" - ; "" - , . "" - . "", "" - .
Specifications: .673633.018 Designed for man-made EMI suppression in the frequency range 0,15 ... 100 MHz. Can be used instead of 75-37, 75-41, 75-61. The capacitor is made up of two asymmetrical sections of class Y (C2) and one symmetrical section of class X (C1). Design: "","" - dipped; "" - wrapped with adhesive tape; capacitor ends sealed with epoxy compound. Design "" - with tree terminations. Design "" , "" - with five terminations.
0,8
2
"" Design ""
2 1 3 H
0,8
C2
L
1 C2 3
C1
B
"" Design ""
2 1 3 H B
L
2 C2 1 C2 3
L
2 C1 3
0,8
"" Design ""
2 1 3 H B
2 3: 0,8 ; 20 1: 0,6 ; 16
+4
+5
Leads 2 and 3: diameter 0,8 mm; length 20 Lead 1: diameter 0,6 mm; length 16 mm
+4
+5
mm
47
50 : 1 () 2 ( 50) ( "","") f = 1 0,33 > 0,33
250
Rated AC voltage at 50 Hz Rated test voltage between terminations 1 (DC voltage) 2 (AC voltage 50Hz ) Rated current (design "","") Capacitance tolerance Dissipation factor at f = 1kHz Insulation resistance at r 0,33F Time constant at r > 0,33F Operating temperature range Operating time Shelf life Climatic categories
250 Veff
1100 1500 10 A 20 % 0,012 12 000 MO 4000 MO* -60...+85oC 10 000 12 (933% . 402oC, 21 )
1100 V 1500 V 10 A 20 % 0,012 12 000 MOhm 4000 MOhm*F -60...+85oC 10 000 hours 12 years RH 933%, 402oC, 21 days
: 73-43"" - 250 - (0,47 +2 0,0047 ) 20%
Ordering example: Capacitor K73-43"" - 250 V - (0,47F+2 x 0,0047F) 20%
, Cr, F * C1 0.10 C2 0.0022
, max / Dimensions, mm max
L 33 B 8 H 22
, Mass, g max 9
0.0047
0.22 0.0022
0.0047
0.0022
33
9
30
10
0.47
0.0047
0.0022 0.0047 0.010
33
11
36
16
0.68
33
13
36
20
* : . * Combination of other values of rated capacitance is possible
48
f ( 50 ) Insertion loss as a function of frequency f (measured by the use of asymmetric circuit without operating current; rated input resistance is 50 Ohm)
60 40 1 2 3 4 1,0 f
20
5 6 7 10 30 100
0,1
1:
1) 2) 3) 4) 0,68 0,47 0,22 0,1
1) 2) 3) 4)
Section 1:
0,68 F 0,47 F 0,22 F 0,1 F
2:
5) 0,01 6) 0,0047 7) 0,0022
Section 2:
5) 0,01 F 6) 0,0047 F 7) 0,0022 F
49
K73-46

METALLIZED POLYESTER FILM CAPACITORS
____________________________________________________________________________________
, , . , , . : . . "" Design "a"
0.80.1
Designed to operate in DC, AC and ripple current circuits.
Can be used instead of M, M, M.
Design: cylindrical housing made of polymeric materials. Terminals dimensions are agreed upon with customers. "" Design "v"
0.50.1
"" Design "b"
0.50.1
"" Design "g"
M6-6g
25max
25max
25max
D L
D L L L D D
25max
View A
40.15
20.3 2 . (2 holes)
( ) f = 1
10 ... 470
25max
Rated capacitance (other rated capacitance are also available) Rated voltage Capacitance tolerance Dissipation factor at f=1kHz Time constant Operating temperature range Operating time
10 ... 470 F
315, 400, 500, 630, 1000 +10% <0,012 >2000 MO. -60...+55oC 10000
315, 400, 500, 630,1000 V +10% <0.012 >2000 MOhm.F -60...+55oC 10000 hours
:
73-46 - 500 - 10 10%
Ordering example: Capacitor K73-46a - 500 V - 10F 10%
50
25max
25max
A
A
8min
D, mm Ur, V Cr, F 10 15 22 30 47 68 100 200 470 10 15 22 33 47 68 100 200 10 15 22 33 47 68 100 200 10 15 22 33 47 68 100 200 10 15 22 33 47 68 Rated value 28 32 36 40 45 54 48 68 92 35 40 46 53 46 50 60 82 40 46 53 46 56 65 75 100 45 54 45 55 60 70 87 120 48 57 68 82 97 116 Limit discrepancy 1.65 1.95 2.3 1.95 2.3 2.7 1.95 2.3 1.95 140 2.3 1.95 2.3 1.95 2.3 2.7 1.95 2.3 1.95 2.3 2.7 1.95 2.3 2.7 140 140 72
L, mm Rated value Limit discrepancy
Mass, g max 65 90 110 135 170 250 380 760 1400 100 135 180 250 370 410 600 1100 135 180 250 370 520 700 930 1650 170 260 360 500 600 810 1250 2370 380 550 760 1100 1600 2250
72
2.3
315
140
3.15
72
2.3
400
3.15
2.3
500
3.15
72
2.3
630
3.15
1000
51
Um f Permissible maximum amplitude of AC voltage Um as a function of frequency f
100
Ur=315V Ur=400V Ur=500; 630; 1000V
%
90 80
50
1
Um Ur 24 20 18 15 13 11 10 9 7 10
1. 2. 3. 4. 5. 6. 7.
2 3 4 5 6 7
20 50 100 200 500 1000 f, Hz
10; 15 F x 315 V; 10 F x 400 V; 22; 30 F x 315 V; 15; 22 F x 400 V; 10; 15 F x 500 V; 47 F x 315 V; 33; 47 F x 400 V; 22; 33 F x 500 V; 10 F x 630 V; 68; 100 F x 315 V; 68 F x 400 V; 47 F x 500 V; 15; 22; 33 F x 630 V; 10 F x 1000 V; 200 F x 315 V; 100 F x 400 V; 68 F x 500 V; 47 F x 630 V; 15 F x 1000 V; 200 F x 400 V; 100 F x 500 V; 68 F x 630 V; 22; 33 F x 1000 V; 470 F x 315 V; 200 F x 500 V; 100; 200 F x 630 V; 47; 68 F x 1000 V.
52
___________________________________________________________________________________________
K73-50

METALLIZED POLYESTER FILM CAPACITORS
: .673633.014 , , . 75-24, 73-26 , 73-2,
Specifications: .673633.014 Designed to operate in DC, AC and ripple current circuits and in pulse mode. Can be used instead of , 73-2, 75-24, 73-26 Design: wrapped with adhesive tape; capacitor ends sealed with epoxy compound. Termination: lead wire. Other termination design is possible.
: , . : ; .
D max
25 +5
L max
f = 1 0,33 > 0,33
0,33 .... 150 63; 100; 250; 400; 500; 630; 1000;1600 5; 10; 20 % 0,012 6000 MO 2000 MO* -60...+85 C 8% 10 000 10 (933% . 402oC, 21 )
o
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f = 1 kHz Insulation resistance at r 0,33F Time constant at r > 0,33F Operating temperature range Capacitance change within positive temperature range Operating time Shelf life Climatic categories
dB
0,33 .... 150 F 63; 100; 250; 400; 500; 630; 1000; 1600V 5; 10; 20 % 0,012 6000 MOhm 2000 MOhm*F -60...+85oC 8% 10 000 hours 10 years RH 933%, 402oC, 21 days
: 73-50 - 250 - 22 10%
Ordering example: Capacitor K73-50 - 250 V - 22 F 10%
53
U, Ur, V
, Cr, F 33 47
Dmax, mm 22 28 32 30 32 38 22 22 28 34 32 38 22 28 34 42 40 48 50 15 18 22 22 26 32 38 34 42 50 60 15 18 22 22 26 32 38
Lmax, mm
d, mm
, Mass, g max 42
U, Ur, V
, Cr, F 15
Dmax, mm 34 42 50 60 15 18 22 22 26 32 38 34 42 50 60 18 22 26 30 38 34 40 48 58 62 75 22 26 32 38 34 42 50 58 62 75
Lmax, mm
d, mm
, Mass, g max 180
60
1.0
74 100 140
500
22 33 47 0.68 1.0 1.5 2.2 3.3
102
2.0
250 340 500 14
63
68 100 120 150 15 22
85
1.5
140 200
44
1.0
21 28 42
44
1.0
28 42
100
33 47 68 100 10 15 22
60
1.0
74 100 630
60
1.0
60 100 130 180
4.7 6.8 10 15 22 33 0.47 0.68 1.0 1.5 2.2
85
1.5
140 200 42
102
2.0
250 340 500 30 42
60
1.0
74 115 175 200
250
33 47 68 75 1.5 2.2 3.3 4.7 6.8
85
2.0
270 290 14
60
1.0
60 86 130 180
44
1.0
21 28 42
1000
3.3 4.7 6.8 10 15 22 0.33 0.47 0.68 1.0
102 2.0
220 290 430
400
60
1.0
60 100 130 180
10 15 22 33 47 68 1.0 1.5 2.2
125
580 830 42
102
2.0
250 340 500 14 1600
60
1.0
60 100 130 180
1.5 2.2 3.3 4.7 6.8 10
44
1.0
21 28 42
102 2.0
250 340 460
500
3.3 4.7 6.8 10
60
1.0
60 100 130
125
580 830
54
Uf f Permissible amplitude of AC sinusoidal voltage Uf as a function of frequency f
U, 1000 1600 63 100 250 400 500 630 8 6 4 2 10 8 6 4 2 Uf 10 8 6 4 2 10 8 6 4 2 10
-1 0 1 2
U Uf
t
T=1/f
f
2 5 2 5 2 5 2 5
0,33 0,68 1,5 3,3 6,8 15 33 68 150 101 0,47 1,0 2,2 4,7 10 22 47 100 C
102
103
104
105
: Uf < U Uf < 375 B U = 400 B; 500 B; 630 B Uf < 750 B U = 1000 B; 1600 B Uf 3 : f = 10 , U = 1000 C = 10 : Uf = 40
Limits: Uf < Ur Uf < 375 V for Ur = 400 V; 500 V; 630 V Uf < 750 V for Ur = 1000 V; 1600 V Example of calculation of Uf 3 Given: f = 10 Hz , Ur = 1000 V, Cr = 10 F Finding: Uf = 40 V
55
U F, , , Permissible peak-to-peak pulse voltage U as a function of pulse repetition frequency F, minimal temporal sector , corresponding pulse leading edge slope or pulse trailing edge slope and rated capacitance r
U,
1600 63 100 250 400 500 630 1000
Uu
8 6 4 2 10
2
U
u
c
t
8 6 4
u =10-3 C
2 Uu 10 8 6 4 2 10 8 6 4 2 10
-1 0,33 0,68 1,5 3,3 6,8 15 33 68 150 0,47 1,0 2,2 4,7 10 22 47 100 2 5 2 2 5 0 1
u =10 C
-4
u =10-5 C
F 101 10 10 3
2 5
10 4
2
5
105
C
: U U U: : F = 10 , = 10 C, U = 400 , C = 15
4 -5
Limits: U Ur Example of calculation of U: Given: F=10 Hz, =10 s, Ur=400 V, Cr = 15 F
4 -5
: U = 7
Finding: U = 7 V
56
Im dU/dt Maximum permissible amplitude of pulse current Im and rate of the voltage change dU/dt
U, Ur, V 63
. Cr, F 33...68 100...150 15
Im, max, A 117...230 255...400 87 96...220 220...330 81...260 207...370 26...45 48...165 120...420 18...39 42...141 114...350 15...30 33...108 84...270 27...132 102...315 360...525 28...90 78...219 237...360
dU/dt, max, V/s 3,4 2,5 5,8 4,4 3,3 8,1 4,4 13,6 10,2 5,5 18 12,7 7,5 20 15 8,2 57 31 24 85 47 35
100
22...47 68...100
250
10...33 47...75 1,5...3,3
400
4,7...15 22...68 1,0...2,2
500
3,3...10 15...47 0,68...1,5
630
2,2...6,8 10...33 0,47...2,2
1000
3,3...10 15...22 0,33...1,0
1600
1,5...4,7 6,8...10
57
___________________________________________________________________________________________
K73-54

METALLIZED POLYESTER FILM CAPACITORS
: .673633.006 50 60 , , , . ,K75-10,42-19. : "", "", "", "", "" , , "". "" . "" D25 , "" "" D22 .
"" ""
Specifications: .673633.006 Designed for use as internally mounded built-in components in AC-circuits 50 Hz or 60 Hz, including single-phase asynchronous motors, three-phase asynchronous motors, for power supply from single-phase electric lines and in fluorescent lamps and other discharge lamps. Can be used instead of ,K75-10,42-19. Design: designs "", "", "", "", "" are wrapped with adhesive tape; capacitor ends sealed with compound (with joining pin for design ""). Design "e" is plastic case. Design "" is for D25 mm, design "" and ""is for D22 mm.
"" ""
""
Design ""
Design ""
Design ""
Design ""
0,6+0,1
Design ""
A
160+10
160+10
d
1,6
l
20+5
A
25+5
3,5
L max
L max
L max
L max
25+5
10
M8 D max D max D max
l
L max
D max D max 4+0,15
3min
"" : d=1,0 (L<60 ); 1,5 (L=80 ); 2,0 (L=102 ). "", "", "" "" 2 2 0,5 L<60 0,75 L>60 . "": l=505 L<44 ; l=16010 L>44.
For design "" d=1,0 (L<60 ); 1,5 (L=80 ); 2,0 (L=102 ). For design "", "", "" and "" conductor cross2 2 section is 0,5 mm for L<60 mm and 0,75 mm for L>60 . For design "": l=505 mm for L<44 mm; l=16010mm for L>44mm.
58
() 50...60 450 ~3,75 f = 1
0,47...50 250; 400; 450; 750 B 5; 10; 20% 4; 5; 10; 20% 0,012 2000 MO* -60...+70oC 10 000 10 (933% . 402oC, 21 )
Rated capacitance Rated AC voltage, V eff 50...60 Hz
0,47...50 F 250; 400; 450; 750 Veff 5; 10; 20 4; 5; 10; 20% 0,012 2000 MOhm*F -60...+70oC 10 000 hours 10 years RH 933%, 402oC, 21 days
Capacitance tolerance for 450V~3,75 F Dissipation factor at f = 1kHz Time constant Operating temperature range Operating time Shelf life Climatic categories
: 73-54-250 ~-10-10%-Lmax*
(*Lmax U=250,C =16...30 ) U~, Ur ~ ,V , Cr, F
0.47 0.68 1.0 1.6 2.0 2.5 3.0 3.5 3.75** 4.0 5.0 6.0 7.0 8.0 9 10 12 14 16 18 20 25 30 40 50
Ordering example: Capacitor K73-54-250V~-10F-10%- Lmax * (* Lmax is for Ur=250 V, Cr=16...30 F)
400 ~ 450 ~ , Mass, g max Dmax, mm
18 22 17 20 22 24 26 28 28 30 36 40 44 46 42 45 48 53 56 60 63
250 ~
Dmax, mm Lmax, mm , Mass, g max Dmax, mm
Lmax, mm
Lmax, mm
30
, Mass, g max
20 30 30 36 42 48 60 65 70 70 180 200 230 250 250 280 290 400 420 500 600
12 16 17 19 20 21 20 21 22 24 26 28 30 32 34 36 28 32 30 34 32 36 36 40 38 45 45 50
44
60
102 80 102 80 102 80 102 80 102 80 102 102
12 14 18 23 24 26 36 40 42 48 60 74 90 100 115 120 130 120 160 150 180 170 200 200 230 210 280 340
60
65 60
28 32 34 36 38 40 42 46 42 45 48 53 58
80
100 120 160 180 190 200 220 250 250 280
80
102
102
290 400 460
U~, /Ur ~ ,V ,/Cr, F
0.5 1.0 1.5 2.0
Dmax, mm
22 30 34 38
750 ~ Lmax, mm
60 60 102 102
Mass, g max
42 90 180 210
59
"" Design ""
200+10
U~, Ur~, V
L max
C, Cr, F 3,6 3,75
Dmax, mm
Lmax, mm
, Mass, g max 80
450~
33
63
D max
** "", "", "", "" 1 ** Designs "", "", "", "" can be supplied with built-in discharging resistor 1 MOhm.
60
___________________________________
K73-56
X
METALLIZED POLYESTER FEED THRU EMI SUPPRESSION CAPACITORS, CLASS X
: . 673633.008 0,15 ... 1000 . 73-28, . : , . , (. ).
Specifications: . 673633.008 Designed for man-made radio interference suppression at frequency 0,15...1000 MHz. Can be used instead of 73-28, . Design: cylindrical housing made of insulating materials, resin sealed on the face ends, metallic joining flange is provided. Delivery of capacitors with flange having coordinates of mounting holes compatible with capacitor type is possible (flange with two holes).
/ Design , , , ,
d1 2 . d2 3 . D2 120
O
D3
d
e 20+5 L max 20+5 D1 B
Flange with two holes
L1
D
A
Flange with three holes
. Flange, number of holes 2 2 2 3 3
D, mm 14 18 26 18 26
e, mm 20 20 26 20 26
d1, mm 3.5 3.5 5.5 -
D1, mm 20 25 38 -
L1, mm 32 39 65 -
A, mm 23 28 47,5...53,5 -
d2, mm 4.5 4.5
D2, mm 36 43
D3, mm 28 35
61

0, 022 ... 2,2 160_/ 50~; 250_/ 127~; 500_/250~; 1000_/380~; 1600_/380~ 25; 40; 63 A 10, 20 % 1,5 U 0,012 6000 MO 2000 MO* -60...+85 C 10 000 12 (933% . 402oC, 21 )
o
Rated capacitance Rated voltage
0, 022 ... 2,2 160_/ 50~; 250_/ 127~; 500_/250~; 1000_/380~; 1600_/380~ V 25; 40; 63 A 10, 20 % 1,5 Ur 0,012 6000 MOhm 2000 MOhm*F -60...+85oC 10 000 hours 12 years RH 933%, 402oC, 21 days
f = 1 0,33 >0,33
Rated current Capacitance tolerance Rated test voltage Dissipation factor at f = 1kHz Insulation resistance at r 0,33F Time constant at r >0,33F Operating temperature range Operating time Shelf life Climatic categories
: 73-56-500_/250~ - 25 - 0,22 20% - ( 3- )
Ordering example: apacitor K73-56 - 500_ / 250~ - 25 - 0,22 20% - design (flange with three holes)
0,15 ... 1000 ( 50 ) Insertion loss A in frequency range 0,15 ... 1000 Hz
(measured by the use of asymmetric circuit without operating current; rated input resistance is 50 Ohm) f, C, A, , min 20 0.15...0.5 >0.5...1000 0.5 ... 5 >5...300 0.22; 0.47 30 20 30 20 >300...1000 10 ... 20 >20...1000
1.0; 2.2
0.022; 0.047; 0.1 20 30
62
/ Rated current U_ / U~, / (50 Hz ) , Cr, F D, mm 0.10 0.22 160_ / 50 ~ 0.47 1.0 2.2 250_ / 127 ~ 0.22 0.47 0.022 0.047 0.10 500_ / 250 ~ 0.22 0.47 1.0 0.10 1000_ / 380 ~ 0.22 0.47 0.022 1600_ / 380 ~ 0.047 0.10 0.22 d, Pin diameter d, mm 18 18 26 18 34 2 0,1 48 34 42 36 90 36 26 63 M-4 130 26 63 26 18 34 63 28 14 34 25 18 48 70 120 130 50 100 130 40 34 50 48 100 26 63 M-6 120 130 26 26 63 34 48 63 34 18 80 48 80 120 130 40 120 130 60 34 45 18 34 60 21 14 28 40 28 55 14 34 18 14 34 25 36 25 18 26 34 25 A Lmax, mm 28 , Mass, g 21 14 40 50 100 26 D, mm 40 A Lmax, mm 28 , Mass, g 35 18 34 60 110 28 55 D, mm 63 A Lmax, mm , Mass, g
14 18
/ Design
D 14 18 26 25 ; ; 40 ; ; 63 ; ;
63
_____________________________________________________
K73-57
X
METALLIZED POLYESTER EMI SUPPRESSION CAPACITORS, CLASS X
: . 673633.007 0,15 ... 100 . 75-4, 3. : , . ( "", "") ( "" ""). 22 .
Specifications: . 673633.007 Designed for man-made radio interference suppression at frequency 0,15...100 MHz. Can be used instead of 75-4, 3. Design: cylindrical housing made of insulating materials, resin sealed on the face ends. Joining member b realized as flange (design "","") or as joining pin (design "" ""). For capacitors with diameter 22 mm terminations re threaded.
"" Design ""
1+0,1
"" Design ""
M5
"" Design ""
M5
"" Design ""
1+0,1
25+5
*
20+2
20+2
L max
4,2 2 .
4,2 A 2 . A
20 +2
M6 A D max 8 A D max
20+2 M6 A 8 A
D max
L max
D max
B
*) . "" "" ("") 20 , +4 16 . *)Delivery of a capacitors of design "a" and "" provided with a fuse for maximal current 20 A is possible and length +4 wire outlet 16 mm.
: 73-57 - 500_ / 250~ - 2,2 20% - . "" - ""
Ordering example: Capacitor K73-57 - 500_ / 250~ V - 2,2F 20% - design "" - with a fuse
L max
L max
25+5
64

0, 047 ... 4,7 250_/ 127~; 500_/250~; 800_/380~; 1000_/500~ 10; 20 % 1,5 U 0,012 5000 MO 1500 MO* -60...+85 C 10 000 12 (933% . 402oC, 21 )
o
Rated capacitance Rated voltage
0, 047 ... 4,7 F 250_/ 127~; 500_/250~; 800_/380~; 1000_/500~ V 10; 20 % 1,5 Ur 0,012 5000 MOhm 1500 MOhm*F -60...+85oC 10 000 hours 12 years RH 933%, 402oC, 21 days
f = 1 0,33 > 0,33
Capacitance tolerance Rated test voltage Dissipation factor at f = 1kHz Insulation resistance at r 0,33F Time constant at r >0,33F Operating temperature range Operating time Shelf life Climatic categories
U_ / U ~ , / (50 ) Ur_ / Ur ~ , V/Veff (50 Hz) 250_ / 127 ~
, Cr, F 0.47 1.0 0.22 0.47 1.0 2.2 4.7 0.10 0.22 0.47 0.047 0.10 0.22 0.47 1.0
Dmax, mm 15 18 18 18 26 28 38 18 26 26 20 20 24 28 38
Lmax, mm 20 20 20 25 27 38 38 20 27 32 20 25 32 38 38
, mm 35 40 40 40 48 50 60 40 48 48 40 40 44 50 60
B, mm 20 22 22 22 32 34 44 22 32 32 22 22 28 34 44
A, mm 25 30 30 30 38 40 50 30 38 38 30 30 34 40 50
Design a a a a a,,, a,,, a,,, a a,,, a,,, a a a,,, a,,, a,,,
500_ / 250 ~
800_ / 380 ~
1000_ / 500 ~
f "" ( 50 )
Insertion loss as a function of frequency f for capacitors without a fuse (measured by the use of asymmetric circuit with rated input resistance 50 Ohm)
80 1 60 2 3 4 40 5 6 7
A
20
0 0,1 1,0 f 10 100
1) 4.7 2) 2.2 3) 1.0 4) 0.47 5) 0.22 6) 0.1 7) 0.047 1) 4.7 F 2) 2.2 F 3) 1.0 F 4) 0.47 F 5) 0.22 F 6) 0.1 F 7) 0.047 F
65
f co "" ( 50 )
Insertion loss as a function of frequency f for capacitors with a fuse (measured by the use of asymmetric circuit with rated input resistance 50 Ohm)
80 60 12 3
4
40
5
6
7
20 0 0,1 f 100
1,0
10
1) 4.7 2) 2.2 3) 1.0 4) 0.47 5) 0.22 6) 0.1 7) 0.047 1) 4.7 F 2) 2.2 F 3) 1.0 F 4) 0.47 F 5) 0.22 F 6) 0.1 F 7) 0.047 F f ( 77% , ) U,
1000 800 500
100 9 %8
7 6 5 4 3 2
250
t70
Uf U
10 9
8 7 6 5 4 3 2
701
4,7
10
-1
2,2
4,7
10
0
2,2
4,7
50
100
2
3
4
5 6 789
f
1000
: Uf<192B (U<127B) U=250B; Uf<350 (U<250B) U=500B; Uf<535B (U<380B) U=800B; Uf<700B (U<500B) U=1000B; : : 1) U=250, =1 , t=85oC, f=500; : 1)Uf=56%*U=140; 2) U=1000, =0,47 , t=85oC, f=1000; : 2)Uf=18,8%*U=188; 3) U=800, =0,22 , t=70oC, f=400; : 3)Uf=535(. )

66
_____________________________________________________________
K73-59

METALLIZED POLYESTER FEED EMI SUPPRESSION CAPACITORS
0,01 100 , , . : .
5,2 16
Designed for man-made radio interference suppression at frequency 0,01...100 MHz in D, and ripple current circuits and for car-and-tractor ignition systems. Design: rectangular plastic housing with grounded joining flange plate and flexible lead wire.
12
1
H2 max
H1
6,2 L 70 f = 1 0,22...2,2 100-400 20% 1,5 U 0,012 2000 MO* -60...+100 C 10 000 8 (933% . 402oC, 21 )
o
H
B
Rated capacitance Rated voltage Capacitance tolerance Rated test voltage Dissipation factor at f = 1kHz Time constant Operating temperature range Operating time Shelf life Climatic categories
0,22...2,2 F 100-400 V 20% 1,5 Ur 0,012 2000 MOhm*F -60...+100oC 10 000 hours 8 years RH 933%, 402oC, 21 days
: 73-59 - 160 - 2,2 20%
. . U, Ur, V 100 160 400 C, Cr, F 2,2 2,2 0,22 L, mm 27 32 27 B, mm 14 18 14
Ordering example: Capacitor K73-59 - 160 V - 2,2F 20%
Pilot production. Some parameters can be changed without notice , mm 17 24 17 1, mm 24 30 24 2, mm 30 38 27
67
___________________________________________________________________________________________
K73-62

METALLIZED POLYESTER FILM CAPACITORS
: . 673633.019 50 60 . .
: , . : ( "") ( ""). "" 1,0 . "" Design ""
160+10
Specification: . 673633.019 Designed for power factor correction of transformers and electromagnetic chokes of luminescence and other gas-discharge lamps in electrical network with a frequency of 50 or 60 Hz. Can also be used as starting capacitors in single-phase and three-phase asynchronous motors.
Design: wrapped with adhesive tape; capacitor ends sealed with epoxy compound. Terminations: axial (design "") and radial (design ""). Capacitors of design "" can be supplied with built-in discharging resistor 1,0 MOhm.
"" Design ""
L max
L max
: 2 0,5 mm L 60 mm 2 0,75 mm L = 80 mm Conductor cross-section: 2 0,5 mm for L 60 mm 2 0,75 mm for L = 80 mm
D max () 50 ... 60 f = 1
D max 1,0 ... 30 250; 450 4; 5; 10% 0,012 2000 MO* -60...+85 C 10 000 12 (933% . 402oC, 21 )
o
Rated capacitance Rated AC voltage, Veff 50...60 Hz Capacitance tolerance Dissipation factor at f = 1kHz Time constant Operating temperature range Operating time Shelf life Climatic categories
1,0...30 F 250; 450 Veff 4; 5; 10% 0,012 2000 MOhm*F -60...+85oC 10 000 hours 12 years RH 933%, 402oC, 21 days
: 73-62 - 250~ - 10 10%-R*
* R - .
*Letter R - is given for capacitors with built-in resistor.
Ordering example: Capacitor K73-62- 250V~ - 10 F 10% -R*
68
U=250 ~ / Ur=250 V~ C, Cr, F 1.0 1.6 2.0 2.5 3.0 3.5 4.0 5.0 6.0 7.0 8.0 9.0 10 12 14 16 18 20 25 30 Dmax, mm 12 15 17 19 20 21 21 22 24 26 28 30 32 34 36 32 34 36 40 45 80 60 44 Lmax, mm , Mass, g max 12 14 18 23 24 26 40 42 48 60 74 90 100 115 120 130 160 180 200 230 C, Cr, F 1.0 1.6 2.0 2.5 3.0 3.5 3.75 4.0 4.4 5.0 5.9 6.0 7.0 7.2 7.8 8.0 8.7 9.0 10
U=450 ~ / Ur=450 V~ Dmax, mm 17 20 22 24 26 28 29 30 32 34 36 36 34 34 36 36 38 38 40 80 60 Lmax, mm , Mass, g max 30 36 42 48 60 65 70 90 100 115 120 120 160 160 180 180 190 190 200
Ut Permissible voltage Ut and current It as function of ambient temperature
100 % 85
Ut U t C
70
85
69
___________________________________
K78-2

HIGN-FREQUENCY POLYPROPYLENE METALLIZED FILM AND FOILED CAPACITORS
: 0. 461.112 , . : .
Specification: 0. 461.112 Designed to operate in DC, and ripple current circuits and in pulse mode. Design: dipped.
A
3 max
d
H max
20
+5
L max
B max
f = 1 C 0,33 U = 315 U = 250, 1000, 1600, 2000 C > 0,33 U = 250
0,001 .... 2,2 250, 315, 1000, 1600, 2000 5, 10; 20 % 0,001
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f = 1 kHz Insulation resistance at Cr 0,33 F Ur = 315 V Ur = 250, 1000, 1600, 2000 V Time constant at Cr > 0,33 F Ur = 250 V Operating temperature range TC Operating time Shelf life Climatic categories
0,001 .... 2,2 F 250, 315, 1000, 1600, 2000 V 5, 10; 20 % 0,001
100 000 Mo 50 000 Mo 15 000 * -60...+85oC (-500...0)*10
-6 -1
100 000 MOhm 50 000 MOhm 15 000 MOhm*F -60...+85oC (-500 ... 0) ppm/ oC 15 000 hours 12 years RH 933%, 402oC, 21 days
15 000 12 , B (933% . 402oC, 21 )
: 78-2 - 1000 - 0,1 10%
Ordering example: Capacitor K78-2 - 1000 V - 0,1 F 10%
70
U, Ur, V
, Cr, F 0.068 0.10 0.15 0.22 0.33 0.47 0.68 1.0 1.5 2.2 0.010 0.012 0.015 0.018 0.022 0.027 0.033 0.039 0.047 0.056 0.068 0.082 0.10 0.0010 0.0012 0.0015 0.0018 0.0022 0.0027 0.0033 0.0039 0.0047 0.0056 0.0068 0.0082 0.010 0.012 0.015 0.018 0.022 0.027 0.033 0.039 0.047 0.056 0.068 0.082 0.10 0.12 0.15
, / Dimensions, mm
Lmax 21 Bmax 9 9 11 11 14 14 14 18 16 20 7 8 9 10 10.5 9.5 9.5 10 11 12.5 11 11.5 12.5 5.6 6.7 7.1 7.1 8 8 8 8.5 6.7 7.1 7.5 8 8 8.5 7 7.5 8 9 10 10.5 9 10 11 12 14 15 17 Hmax 19 19 21 20 24 24 24 28 28 28 11.5 12.5 14 14.5 15 14.5 16 16.5 18 19.5 20 20.5 22 9 10 10 10 11 11.5 11.5 11.5 13 13 14 15 18 18 17 17 18 19 20 20 21 22 24 25 26 28 30 A 17.5 17.5 17.5 22.5 22.5 22.5 27.5 27.5 37.5 37.5 17.5 17.5 17.5 17.5 17.5 22.5 22.5 22.5 22.5 22.5 27.5 27.5 27.5 d
, Mass, g max 10 10 15 15 20 20 25 30 40 45 3.5 5 5 6 6 7 7 7 8 8 11 11 15 2
0.8
250
27 32 42
1.0
20.5
315
0.8
26
31.5
0.6
3 17.5 4
20
0.8
5 6 6 7
1000
30
27.5
40
37.5
1.0
8 10 12 12 15 18 18 25 28 35
71
U, Ur, V
, Cr, F 0.0010 0.0012 0.0015 0.0018 0.0022 0.0027 0.0033 0.0039 0.0047 0.0056
, / Dimensions, mm
Lmax Bmax 6 20 8 11 Hmax 10 17.5 A d
, Mass, g max 2
4
6 6 12
7
25
8 10 11
16 18 19
22.5
0.8 8
1600
0.0068 0.0082 0.010 0.012 0.015 0.018 0.022 0.027 0.033 0.039 0.047 0.056 0.0010 0.0015 0.0022 27 40 30
10
8
18 27.5
7
10
20
10
12
25 37.5 1.0
18
15
28
28
8
14 22.5 0.8
10
15 11 20 20 32 16 24 27.5 1.0 25
2000
0.0033 0.0047 0.0068 0.010 0.015
72
Uf f. Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage Uf as a function of frequency f.
U, 1600 2000 1000 630 250 315
10
%
2
8 6 4 2
10 8 6 Uf U 4 2 10
0
8 6 4 2 10
-1 -3
1,5 2,2 3,3 4,7 6,8
10
10
-2
1,5 2,2 3,3 4,7 6,8
10
-1
1,5 2,2 3,3 4,7 6,8 10
0
1,5 2,2
10
3
2
5 10 f
4
2
5 10
5
2
5
10
6
: Uf U; Uf 750 U=1000 ; 1600 B Uf 1100 U=2000 Uf: : f=10 , U=2000 , C=0,015 : Uf=18% U = 360 : f=510 , U=315 , C=0,33 : Uf=5,7% U = 18
5 5
Limits: U f U r; Uf 750 V Ur=1000 V; 1600 V Uf 1100 V for Ur=2000 V Example of calculation of Uf: Given: f=10 Hz, Ur=2000 V, Cr=0,015 F Finding: Uf=18% of Ur = 360 V Given: f=510 Hz, Ur=315 V, Cr=0,33 F Finding: Uf=5,7% of Ur = 18 V
5 5
73
U F, , , . Permissible peak-to-peak pulse voltage U as a function of pulse repetition frequency F, minimal temporal sector , corresponding pulse leading edge slope or pulse trailing edge slope and rated capacitance Cr.
U ,
2000 1600
1000
630
250
10
2
%
8 6
315
U
U
4 2
t
10
U
U
8 6
4 2
=10 =5 10
-5 -6
10
0
8 6 4 2
=10
-6
10 10 -3
-1
1,5 2,2 3,3 4,7 6,8
1,5 2,2 3,3 4,7 6,8
1,5 2,2 3,3 4,7 6,8
1,5 2,2
2
=10 =10
-7
=5 10
-7
5
2
5
2
5
10 -2 C
10 -1
10 0
10 3
10 4 F
10 5
10 6
: UU; U1500 U=1600 U: : F=10 , =10 , U=2000 , C=0,015 : U=28% U = 560 : F=10 , =10 ,U=315 , C=0,33 : U=13,5% U = 42,5
5 -7 4 -7
Limits: UU; U1500 for U=1600 Example of calculation of U: Given: F=10 Hz, =10 , Ur=2000 V,Cr=0,0015 F Finding: U=28% of Ur=560 V Given: F=10 Hz, =10 ,Ur=315 V, Cr=0,33 F Finding: U=13,5% of Ur=42,5 V
5 -7 4 -7
Im dU/dt. Maximum permissible amplitude of pulse current Im and rate of the voltage change dU/dt.
U, Ur, V 250 C, Cr, F 0,068...0,15 0,22...0,47 0,68...1,0 1,5...2,2 0,001...0,0039 0,0047...0,012 0,015...0,039 0,047...0,15 0,001...0,0018 0,0022...0,01 0,012...0,022 0,027...0,15 0,001...0,0015 0,0022...0,0033 0,0047...0,015 Im, max, A 6,8...15 15,4...32,9 34...50 45...66 15,5...60,45 51,7...132 75...192 155,1...495 18,5...33,3 22...100 72...132 108...600 25...37,5 66...99 75,2...240 dU/dt, max, V/s 100 70 50 30 15500 11000 5000 3300 18500 10000 6000 4000 25000 30000 16000
1000
1600
2000
74
K78-5

HIGN-FREQUENCY POLYPROPYLENE FILM FOIL CAPACITORS
________________________________________________________________
: 0. 461.144 , . : , . : 3 x 0,5 .
Specification: 0. 461.144 Designed to operate in DC, AC and ripple current circuits. Design: wrapped with adhesive tape; capacitor ends sealed with compound. Terminations: strip 3 x 0,5 mm.
3
3+1
D max
25+5
L max
25
+5
C 1000 C > 1000 f = 1
470 ... 0,047 2 10; 20 % 5, 10; 20 % 0,001 100 000 Mo -60...+85oC (-500...0).10
-6 -1
Rated capacitance Rated voltage Capacitance tolerance at Cr 1000 pF at Cr > 1000 pF Dissipation factor at f = 1 kHz Insulation resistance Operating temperature range TC Operating time Shelf life Climatic categories
0,5+0,1
470 pF .... 0,047 F 2 kV 10; 20 % 5, 10; 20 % 0,001 100 000 MOhm -60...+85oC (-500 ... 0) ppm/ oC 15 000 hours 10 years RH 933%, 402oC, 21 days
15 000 10 , (933% . 402oC, 21 )
: 78-5 - 2 - 0,01 10%
Ordering example: Capacitor K78-5 - 2 kV - 0,01 F 10%
, Cr, F 0.00047 0.00068 0.00082 0.0010 0.0015 0.0022 0.0033
Dmax, mm 9 10 12 12 14 15 16
Lmax mm
, Mass, g max 3 3 4
, Cr, F 0.0047 0.0068 0.010 0.015 0.022 0.033 0.047
Dmax, mm 12 16 16 20 20 20 22
Lmax mm
, Mass, g max 8 12 12 14 20
34
24
4 5 6 8
50
20 25
75
Uf f 5 10 . 5 Permissible amplitude of AC sinusoidal voltage Uf as a function of frequency f in the range up to 10 Hz
280
240
200
Uf
160 2 1
120 3
80
40
f 101 103 104 105 5 105
0
1) C = 470 ... 1000
2) C = 1500 ... 6800 3) C = 0,01 ... 0,047
1) Cr = 470 ... 1000 pF 2) Cr = 1500 ... 6800 pF 3) Cr = 0,01 ... 0,047 F
Uf f 5 8 510 10 . Permissible amplitude of AC sinusoidal voltage Uf as a function of frequency f in the range 5 8 between 510 and 10 Hz
10
1 Uf 1
2
3 0,1 5.105
f 5.10 6 107 5.10 7 108
106
1) C = 470 ... 1000 2) C = 1500 ... 6800 3) C = 0,01 ... 0,047
1) Cr = 470 ... 1000 pF 2) Cr = 1500 ... 6800 pF 3) Cr = 0,01 ... 0,047 F
76
__________________________________________________________________________
K78-10

HIGN-FREQUENCY POLYPROPYLENE FILM CAPACITORS
: . 673635.007 , , . : "" - , "", "" - .
A d
Specification: . 673635.007 Designed to operate in DC, AC and ripple current circuits and in pulse mode. Design: design "" is dipped, design "" , "" is in plastic case.
""
20
3 max
+5
0.5 L max 37,5+0,8 B max 1min
H max
""
20+0.65
2.5+0.2
9+0.29
""
6.5+0.29
40
1 0,4
2
1
1
-5
42+0.8
3.75 + 0.24
40+0,8
42+0,8
20+0,65
"" "" "" "" "" "" f = 1 U = 250 U > 250 C 0,33 U = 315 U = 250, 1000, 1600, 2000 C > 0,33
0,001 .... 2,2 0,68 0,15; 0,33; 0,68 250, 315, 630, 1000, 1600, 2000 1000 1000, 1600 5, 10; 20 % 0,0015 0,0010
Rated capacitance design "" design "" design "" Rated voltage design "" design "" design "" Capacitance tolerance Dissipation factor at f = 1 kHz Ur = 250 V Ur > 250 V Insulation resistance at Cr 0,33 F Ur = 315 V Ur = 250, 1000, 1600, 2000 V Time constant at Cr > 0,33 F Operating temperature range TC Operating time Shelf life Climatic categories
0,001 .... 2,2 F 0,68F 0,15; 0,33; 0,68 F 250, 315, 630, 1000, 1600, 2000 V 1000 V 1000, 1600 V 5, 10; 20 % 0,0015 0,0010
100 000 M 50 000 M 15 000 * -60...+85oC (-500... 0).10-
6 -1
100 000 MOhm 50 000 MOhm 15 000 MOhm* F -60...+85oC (-500 ... 0) ppm/ oC 15 000 hours 12 years RH 933%, 402oC, 21 days
15 000 12 , (933% . 402oC, 21 )
77
13+0.35
14+0.35
o 1+0,1
18+0.5
40.5+0.8
: 78-10 - 250 - 1,5 10% 17,5 ()
Ordering example: Capacitor K78-10 - 250 V - 1,5 F 10% 17,5 mm (A)
"" / Design ""
U, Ur, V
, Cr, F 0.068 0.068* 0.10 0.10* 0.15* 0.22 0.22* 0.33 0.33* 0.39* 0.47 0.47* 0.68 0.68* 1.0 1.0* 1.5 1.5* 2.2 2.2* 0.010 0.012 0.015 0.018 0.022 0.027 0.033 0.039 0.047 0.056 0.068 0.082 0.10 0.15 0.22 0.33 0.001...0.0022 0.0033 0.0047 0.0068 0.01 0.015 0.022 0.033 0.047 0.068 0.10 0.15
, / Dimensions, mm
Lmax 22 16 22 16 22 28 22 28 22 22 28 22 32 28 32 28 42 32 42 32 Bmax 7 8 9 Hmax 14 12 15 13 14 16 14 20 19 21 22 23 22 28 24 28 26 32 30 11.5 12.5 14 14.5 15 15 16 16.5 18 19.5 20 20.5 22 26 34 8 10 11 12 19 20 22 26 22.5 27.5 37.5 1.0 37,5 0.6 A 17.5 12.5 17.5 12.5 17.5 22.5 17.5 22.5 17.5 17.5 22.5 17.5 27.5 22.5 27.5 22.5 37.5 27.5 37.5 27.5 d
, Mass, g max 8.0 6.0 8.0 6.0
10
0.8
10 15 10 10 15 10 20 15 25 20 35 25 40 35 3.5 5.0 6.0
250
12 13 12 13 15 16 15 17 18 21 7 8 9 10 10.5 9.5
1.0
20.5
17.5
0.8 22.5
7.0 8.0 11
315
26
31.5
10 11 12.5 11 11.5 12.5 17
27.5 1.0
40 4 6 7 8 9 10 11 10 12 16 14
630
20
17.5 0.8
15 20 25 40 2.0 3.0 4.0 6.0 7.0 12 18 24 30 35 40
25 30 40
78
"" / Design ""
U, Ur, V
, Cr, F
0.0010 0.0012 0.0015 0.0018 0.0022 0.0027 0.0033 0.0039 0.0047 0.0056 0.0068 0.0082 0.010 0.012 0.015 0.018 0.022 0.027 0.033 0.039 0.047 0.056 0.068 0.082 0.10 0.12 0.15 0.0010 0.0012 0.0015 0.0018 0.0022 0.0027 0.0033 0.0039 0.0047 0.0056 0.0068 0.0082 0.010 0.012 0.015 0.018 0.022 0.027 0.033 0.039 0.047 0.056 0.068 0.10 0.15 0.0010 0.0015 0.0022 0.0033 0.0047 0.0068 0.010 0.015
, / Dimensions, mm
Lmax Bmax
5.6 6.7 7.1 8.0 20 8.5 6.7 7.1 7.5 8.0 8.5 7.0 7.5 8.0 9.0 10.0 10.5 9.0 10 11 12 14 15 17 6 8
Hmax
9 10 11
A
d
0.6
, Mass, g max
2.0
3.0 11.5 17.5 13 14 15 18 6.0 17 18 19 20 21 22 24 25 26 28 30 10 11 7.0 27.5 8.0 10 12 1.0 37.5 15 18 25 28 35 2.0 17.5 4.0 6.0 0.8 5.0 4.0
1000
30
40
20
6 25
12 22.5 0.8
7.0
8 10 11 8
16 18 19 18 20 25
8.0 10 7.0 27.5 10 18 37.5 1.0
1600
30 10 12 40 15 18 7 25 9 10 9 10 12 15 28 32 40 13 15 17 18 21 23
28 35 40 8.0
22.5
0.8 10 15
2000
30
27.5
1.0 20
79
U, Ur, V 1000 1000 1600
C, Cr, F 0,33 0,68 0,15
;
, / Dimensions, mm L 420,8 B 200,65 H 400,8
, Mass, g max 55
Uf f "" 1000 - 0,33 ; 1600 - 0,15 "" Permissible amplitude of AC sinusoidal voltage or amplitude AC sinusoidal component of ripple voltage Uf as a function of frequency f for capacitors design "" and 1000 V - 0,33 F; 1600 V - 0,15 F design ""
U, 2000 1600 1000 630 250 * 250 315
10 2 %8 6 4 2 101 8 6 4 Uf U 2 100 8 6 4 2 10
-1
f
1,5 2,2 3,3 4,7 6,8 1,5 2,2 3,3 4,7 6,8 1,5 2,2 3,3 4,7 6,8 1,5 2,2 2 5 2 5 2 5
10-3
10 -2
C
10 -1
100
10
3
10
4
10
5
10
6
250* - , *
250* - for capacitors pointed out in the table by*
: Uf U Uf 750 B U = 1000 B; 1600 B Uf 1100 B U = 2000 B Uf 5 : f = 10 , U = 2000 , C = 0,015 : Uf = 18% U = 360 : f = 5*10 , U = 315 , C = 0,33 : Uf = 5,7% U = 18
5
Limits: Uf Ur Uf 750 V for Ur = 1000 V; 1600 V Uf 1100 V for Ur = 2000 V Example of calculation of Uf 5 Given: f = 10 Hz , Ur = 2000 V, Cr = 0,015 F Finding: Uf = 18% f Ur = 360 V Given: f = 5*10 Hz , Ur = 315 V, Cr = 0,33 F Finding: Uf = 5,7% f Ur = 18 V
5
80
U F, , , "" 1000 - 0,33 ;
1600 - 0,15 ""
Permissible peak-to-peak pulse voltage U as a function of pulse repetition frequency F, minimal temporal sector , corresponding pulse leading edge slope or pulse trailing edge slope and rated capacitance r for capacitors design "" and 1000 V - 0,33 F; 1600 V - 0,15 F design ""
U, 2000 1600 1000 250 *) 630 250 315
10 %8 6 Uu 4 2 10 8 6 4 2 10
0 1
2
U t c
u =10 C u =5 10-6 C u =10 C u =5 10 C u =10 C
-3 1,5 2,2 3,3 4,7 6,8 -7 -7 -6
-5
Uu U
8 6 4 2
10
-1
F 10
6
10
10
-2
1,5 2,2 3,3 4,7 6,8
10 C
-1
1,5 2,2 3,3 4,7 6,8
10 10 3
0
1,5 2,2
2
5
10
4
2
5
10
5
2
5
250* - , *
250* - for capacitors pointed out in the table by*
: U U U 1500 B U = 1600 B U :
4 -7
Limits: U Ur U 1500 V for Ur = 1600 V Example of calculation of U Given:
4 -7
F = 10 , =10 c, U = 2000 , C = 0,015 : U = 28% U = 560 : F = 10 , = 10 c, U = 315 , C = 0,33 : U = 13,5% U = 42,5
5 -7
F = 10 Hz , =10 c, Ur = 2000 , Cr = 0,015 F Finding: U = 28% f Ur = 560 V Given: F = 10 Hz , = 10 c, Ur = 315 V, Cr = 0,33 F Finding: U = 13,5% f Ur = 42,5 V
5 -7
81
Uf f "" 1000 - 0,68 ""
U F, , "" 1000 - 0,68 ""
82

Im dU/dt
Maximum permissible amplitude of pulse current Im and rate of the voltage change dU/dt
U, Ur, V , Cr, F
Im, max, A
dU/dt, max, V / s
"", "" / Design "", "" 0,068...0,15 250 0,22...0,47 0,68...1,0 1,5...2,2 0,068...0,1 250* 0,15...0,47 0,68...1,0 1,5...2,2 0,001...0,022 630 0,033...0,047 0,068...0,1 0,15 0,001...0,0039 0,0047...0,012 1000 0,015...0,039 0,047...0,15 0,33 0,001...0,0018 1600 0,0022...0,01 0,012...0,022 0,027...0,15 0,001...0,0015 2000 0,0022...0,0033 0,0047...0,015 6,8...15 15,4...32,9 34...50 45...66 9,5...14 12...37,6 40,8...60 60...88 9...198 165...235 238...350 300 15,5...60,45 51,7...132 75...192 155,1...495 790 18,5...33,3 22...100 72...132 108...600 25...37,5 66...99 75,2...240 100 70 50 30 140 80 60 40 9000 5000 3500 2000 15500 11000 5000 3300 2400 18500 10000 6000 4000 25000 30000 16000
"", "" / Design "", "" 1000 0,68 60 87
83
__________________________________________________________________________
K78-12

HIGN-FREQUENCY POLYPROPYLENE FILM CAPACITORS
: . 673635.006 , , .
: , . "": D 36 mm. "": U = 2000 , C = 2,2 .
Specification: . 673635.006 Designed to operate in DC, AC and ripple current circuits and in pulse mode.
Design: wrapped with adhesive tape; capacitor ends sealed with compound. Design "": D 36 mm. Design "": for Ur = 2000 V, Cr = 2,2 F.
"" Design "":
d
"" Design "":
d
"" Design "":
d
"" Design "":
6,5
4
20+2,6
20+2,6
25+5
L max
L max
L max
20+2,6
20+2,6
25+5
20+5
L max
20+5
9
D max
D max
D max
20 D max
f=1 C 0,33 C > 0,33
0,001 .... 15 500, 1000, 1600, 2000 5, 10; 20 % 0,0015 50 000 M 15 000 . -60...+85oC 6 -1 (-500... 0).10- 10 000 12 (933% . 402oC, 21 )
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f=1 kHz Insulation resistance at Cr 0,33 F Time constant at Cr > 0,33 F Operating temperature range TC Operating time Shelf life Climatic categories
1,5
0,001 .... 15 F 500, 1000, 1600, 2000 V 5, 10; 20 % 0,0015 50 000 MOhm 15 000 MOhm. F -60...+85oC (-500 ... 0) ppm/ oC 10 000 hours 12 years RH 933%, 402oC, 21 days
: 78-12-1600 - 0,1 10%
Ordering example: Capacitor K78-12-1600 V - 0,1 F 10%
84
U, Ur, V
, Cr, F 0.010 0.015 0.022 0.033 0.047 0.068 0.10 0.15 0.22 0.33 0.47 0.68
Lmax, mm 22
Dmax, mm 7 8 8
d, mm
, U, Mass, g Ur, V max 3.0 3.0
, Cr, F 0.010 0.015 0.022 0.033 0.047 0.068 0.10 0.15 0.22 0.33 0.47 0.68 1.0 1.5 1.5 2.2 3.3 0,001 0.0012
Lmax, mm
Dmax, mm 10
d, mm 0.8
, Mass, g max 8.0 10
0.6
42
12 14 16 16 1.0
4.0 4.0 8.0 8.0 8.0 10 12 18 1600
16 18 20
32
8 9 11 10
62 82
18 25 22 22 26 30 35 42 50
1.5
30 35 40 70 80 120 150 180 280 240 440 640 4,0
42
16 20 16
0.8
2.0
62 82
18 21 24 25 30 36 42
1.0
22 34 60
105
500
1.0 1.5 2.2 3.3 4.7
2.0
80 100 150 180
125 105 27
43 60 72 8 9 7 8 9 10
M5
105 6.8 50 M5 250
0,0015 0,0022 0,0033 0.0047 32
0.6
4,0 4,0
0.8 0.8 1.0
4,0 6.0 8.0 10 15 20 25 30 40 50
10 15 0.010 0.015 0.022 0.033 0.047 0.068 0.10 0.15 1000 0.22 0.33 0.47 0.68 1.0 1.5 2.2 3.3 4.7 6.8 105 62 82 42 32
60 75 8 9 10 10 12 14 17 20 20 20 23 24 29 35 42 51 61 75 M5 2.0 1.5 1.0 0.8
400 600 4.0 6.0 7.0 8.0 10 16 18 20 25 35 45 60 90 110 150 260 420 500 2000
0.0068 0.010 0.015 0.022 0.033 0.047 0.068 0.10 0.15 0.22 0.33 0.47 0.68 1.0 1.5 2.2
42
12 14 16 15 18 22 25 25 25 31 36 2.0
62
1.5
82
70 90 150 200
105
44 50 60 73 M5
300 440 660
135
75
M6
750
85
Uf f Permissible amplitude of AC sinusoidal voltage or amplitude AC sinusoidal component of ripple voltage Uf as a function of frequency f
100 80 % 40 20 10 8 Uf 4 U 2 1,0 0,8 0,4 0,2 0,1 0,08 0,06 10-3
2,2 4,7
10-2
2,2
4,7
10-1 C
2,2
4,7
100
2,2
4,7
10
2,2
1
2
5
10
2
5
100
2
f
5 1000
: Uf U Uf 750 B U = 1000 B; 1600 B Uf 1100 B U = 2000 B Uf : : f = 10 , U = 1000 , C = 1 : Uf = 40% U=400
Limits: Uf Ur Uf 750 V for Ur = 1000 V; 1600 V Uf 1100 V for Ur = 2000 V Example of calculation of Uf : Given: f = 10 kHz , Ur = 1000 V, Cr = 1 F Finding: Uf = 40% of Ur = 400 V
86
U F, , , Permissible peak-to-peak pulse voltage U as a function of pulse repetition frequency F, minimal temporal sector , corresponding pulse leading edge slope or pulse trailing edge slope and rated capacitance r
2
10 %8 6 4 2
U Uu
u
c
t
101 8 6 4 Uu U 2
u =10-5
C
u =10-6
10 8 6 4 2 10
-1 2,2 4,7 2,2 4,7 2,2 4,7 2,2 4,7 1 10 2,2 0
C
u =10 -7 C
2 10
0
Fu 5 10
3
5 10
1
2
5 10
2
2
10-3
10-2 C
10-1
10 0
:
Limits:
U U U 1500 B U = 1600 B
U : F = 50 , = 1 c, U = 1000 , C = 0,47 : U = 11% U = 110 :
U Ur U 1500 V for Ur = 1600 V
Example of calculation of U : F = 50 kHz , = 1 s, Ur = 1000 V, Cr = 0,47 F Finding: U = 11% of Ur = 110 V Given:
87
_______________________________________________________
K78-16

SMALL HIGN-FREQUENCY POLYPROPYLENE FILM FOIL CAPACITORS
: . 673635.003 , , . : .
Specification: . 673635.003 Designed to operate in DC, AC and ripple current circuits and in pulse mode. Design: dipped.
A
3 max
0,6+0,1
H max
20
+5
L max
B max
f=1
0,001 .... 0,1 100 5, 10; 20 % 0,0005 100 000 M -60...+85oC (-500... 0)*10-
6 -1
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f=1 kHz Insulation resistance Operating temperature range TC Operating time Shelf life Climatic categories
0,001 .... 0,1 F 100 V 5, 10; 20 % 0,0005 100 000 MOhm -60...+85oC (-500 ... 0) ppm/ oC 15 000 hours 12 years RH 933%, 402oC, 21 days
15 000 12 (933% . 402oC, 21 )
: 78-16 - 100 - 0,1 10%
Ordering example: Capacitor K78-16 - 100 V - 0,1 F 10%
88
, Cr, F 0.0010 0.0015 0.0022 0.0047 0.010 0.022 0.047 0.1
, / Dimensions, mm
Lmax Bmax Hmax A
, Mass, g max 0.5
9
5.0
7.1
5.0 0.6
0.8 11 13 16 18 5.6 6.7 7.5 9.0 7.5 0.75 10.0 0.75 12.0 14.0 12.0 0.9 15.0 0.9 1.0 1.2 2.0 3.0
Uf f Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage Uf as a function of frequency f
Uf
U
t
T=1/ f 10 8 6 4 2 10 8 6 4 2 10 8 6 4 2 10
-1 -3 0 1 2
Uf
C 1,5 2,2 3,3 4,7 6,8
10
10
-2
1,5 2,2 3,3 4,7 6,8
10
-1
10
1
10
2
10
3
10
f
4
10
5
10
6
Uf : : 4 f = 6*10 , C = 0,022 : Uf = 58
Example of calculation of Uf : Given: 4 f = 6*10 Hz , Cr = 0,022 F Finding: Uf = 58 V
89
U F, 0,5 I Permissible peak-to-peak pulse voltage U as a function of pulse repetition frequency F, duration of current pulse (at level 0,5 I) and rated capacitance r
U Iu 0,5Iu u t t
10 8 6 4 2
2
u=10 -5 C
u=10 -6 C
10 Uu 8 6 4 2 10
1
u=10 -7 C
0 1,5 2,2 3,3 4,7 6,8
10 -3
10
-2
1,5 2,2 3,3
4,7 6,8
10
-1
10
3
2
4
6
10
4
2
4
6
10
5
2
4
6
10 6
C
Fu
U : : F = 10 , = 10 c, U = 400 , C = 0,01
5 -7
Example of calculation of U : Given: F = 10 Hz , =10 s, Ur = 400 V, Cr = 0,01 F
5 -7
: U = 21
Finding: U = 21 V
90
___________________________________________
K78-19

SMALL HIGN-FREQUENCY METALLIZED POLYPROPYLENE FILM CAPACITORS
: . 673635.005 , , . : , .
Specifications: . 673635.005 Designed to operate in DC, AC and ripple current circuits and in pulse mode. Design: wrapped with adhesive tape; capacitor ends sealed with compound.
D max
25 +5
L max
( -60 oC ...+85oC) C 0,47 C > 0,47 f = 1 C 0,33 C > 0,33
0,01 .... 22
Rated capacitance Rated voltage (temperature range -60 oC ...+85oC)
d
0,01 .... 22 F 200 V
200 5, 10; 20 % 2, 5, 10; 20 % 0,0015 50 000 M 15 000 M* -60...+100 C (-500... 0)*10-
6 -1
o
Capacitance tolerance at Cr 0,47 F at Cr > 0,47 F Dissipation factor at f = 1 kHz Insulation resistance at Cr 0,33 F Time constant at Cr > 0,33 F Operating temperature range TC Operating time Shelf life Climatic categories
5, 10; 20 % 2, 5, 10; 20 % 0,0015 50 000 MOhm 15 000 MOhm*F -60...+100oC (-500 ... 0) ppm/ oC 15 000 hours 12 years RH 933%, 402oC, 21 days
15 000 12 (933% . 402oC, 21 )
: 78-19 - 200 - 5,6 10% - L* *L C = 0,47 ... 2,2
Ordering example: Capacitor K78-19 - 200 V - 5,6 F 10% -L* *L is for Cr = 0,47 ... 2,2 F
91
, Cr, F 0.010 0.015 0.022 0.033 0.047 0.068 0.10 0.15 0.22 0.33 0.47 0.68
Dmax, mm
Lmax, mm
d, mm
, Mass, g max 2 3
, Cr, F 1.0 1.5
Dmax, mm 14 18 16 18 20 16 18 20 23 25 21 24 29 35
Lmax, mm 30 20 30 25 25 45 35 45
d, mm 0.8
6.3 8 9 10 9 10 12 10 14 12 16
16
0.6
, Mass, g max 10 12 15 20 35 30 50 60 65 70 75 80
1.8 2.2 3.3 4.7 5.6 6.8 10 15 22
18 20 30 20 30 20
0.8
4 5 6 7 8 9 8 9 10
1.0
60
Ut Permissible voltage Ut as a function of ambient temperature
100 % 80 Ut U 60 40 20
85 o 50
-60 -40 -20
0
20
40
60 80
C 100
t
Uf f Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage Uf as a function of frequency f
100 % 80 60 40 20 10 8 6 4 Uf Ut 2 1,0 0,8 0,6 0,4 0,2 0,1 0,03 0,01 0,022 0,047 0,1 0,22 0,47 1,0 2,2 C 4,7 10 22
2 5 2 5 2 5
0,4
1
10
10
2
f
10
3
Uf : : f = 20 , C = 1 o U = 200 ( t 85 C ) : Uf = 17,5% U = 35 B
Example of calculation of Uf: Given: f = 20 kHz , Cr = 1 F o Ur = 200 V ( t 85 C ) Finding: Uf = 17,5% f Ur = 35 V
92
U F, , , . Permissible peak-to-peak pulse voltage U as a function of pulse repetition frequency F, minimal temporal sector , corresponding pulse leading edge slope or pulse trailing edge slope and rated capacitance r
U
Uu
t
100 80 60 40 20 10 8 6 4
c
%
u=10 -5 C u=8 10-6 C u=5 10 -6 C u=10 -6 C u=5 10 -7 C
2,2 4,7 -2 2,2 4,7 -1 2,2 4,7 0 2,2 2 5 1 2 5 2 3,2 5 2 5 3
Uu Ut
2 1,0 0,8 0,6 0,4 0,2 0,1
F 10
0,05
10
10 C
10
10
10 -1
10
0
10
1
10
2
U: : F = 32 , = 8*10 c, Ut = U = 200 , C = 0,33
-6
Example of calculation of U : Given:
F = 32 kHz , = 8*10 s, Ut = Ur = 200 V, Cr = 0,33 F
-6
: U = 50% U = 100
Finding: U = 50% f Ur = 100 V
Im dU/dt Maximum permissible amplitude of pulse current Im and rate of the voltage change dU/dt
C, Cr, F
Im, max, A 1,6...5,3 4,5...9,5 10,5...23 13...42 27...70 56...220
dU/dt, max, V/s
0,01...0,033 0,047...0,1 0,15...0,33 0,47...1,5 1,8...4,7 5,6...22
160 95 70 28 15 10
93
K78-20

POLYPROPYLENE FILM CAPACITORS
____________________________________________________________________________________________________
, , . : .
Designed to operate in DC, AC and ripple current circuits and in pulse mode. Design: cylindrical polymeric materials. housing made of
161.35
7 1.1
CD
12 . 5 1. 35
4 6 1. 9 5

L
1,0 .... 68 200 ... 1000 10; 20 % <0,0015 >15000 M. -60...+55oC 5000
4 6 1 . 95
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor Time constant Operating temperature range Operating time
1.5
1.0 .... 68 F 200 ... 1000 Vrms 10; 20 % <0.0015 > 15000 MOhm.F -60...+55oC 5000 hours
: 78-20 - 500 - 10 10%
D, mm Ur, V 200 Cr, F 22 47 68 5.6 15 22 51 4.7 10 18 47 1.6 3.9 7.5 13 1 2.7 4.7 10 22 F, kHz 10 4 2.4 10 4 2.4 1 10 4 2.4 1 10 4 2.4 1 10 4 2.4 1 Rated value 108 110 90 112 110 108 110 110 100 100 108 110 110 108 108 105 105 105 105 108
Ordering example: Capacitor K78-20 - 500 V - 10 F 10%
L, mm Rated value Limit discrepancy Limit discrepancy Mass, g max 1700 1750 1400 1750 1700 1600 1700 140 3.15 1500 1700 1750 1700 1600 270 4.05 3400
400
500
2.7
800
1000
94
30 1. 6 5
K78-21
______________________________________________________________________________

WATER COOLED POLYPROPYLENE FILM CAPACITORS
, , . : . (K78-21A).
K78-21
Designed to operate in AC current circuits and specifically for compensation of reactive power. Design: cylindrical housing made of polymeric materials with metallic flanges. Can be delivered with coolers (K78-21A).
K78-21A
60
7*
12
8
H
H
D
D L 4 holes 8 (4 . 8) L
4 holes 12 (4 . 12) 8 holes 12 (8 . 12)
15min*
*
4 holes 101* (4 . 101*)
L D
1 Design 1
f = 1 ( ) 0,1 .... 68 250...1000 5; 10; 20 % 0,0005 +1 ...+55oC Rated capacitance Rated voltage Capacitance tolerance
2 Design 2
0.1 .... 68 F 250...1000 Vrms 5; 10; 20 % 0.0005 +1 ...+55oC
Dissipation factor at f = 1 kHz Operating temperature range (obtained by the use of forced or water cooling)
20 1,5 / 25000
Operating time
25000 hours
: 78-21 - 250 - 1,0 10%
Ordering example: Capacitor K78-21 - 250 V - 1.0F 10%
95
20
H
Ur, Vrms
Cr, F
Reactive power Qr, kVAr 85 110 125 150 175 250 130 155 175 230 275 650 27 40 55 75 110 225 205 240 330 255 585 760 630 35 70 100 190 260 300 420 280 330 450 740 900 725 810 55 105 150 205 385 710 610 1000 1400 1090 85 175 240 320 585 665 1280 1620 1240
0.22 0.33 0.47 0.68 1 2.2 250 3.3 3.9 4.7 6.8 10 22 0.22 0.33 0.47 0.68 1 2.2 350 3.9 4.7 10 22 33 47 68 0.1 0.22 0.33 0.68 1 2.2 3.3 500 3.9 4.7 6.8 10 22 33 47 0.1 0.22 0.33 0.47 1 800 2.2 3.3 4.7 6.8 10 0.1 0.22 0.33 0.47 1000 1 2.2 3.3 4.7 6.8
, Dimensions, mass 78-21 ( ) 78-21 ( ) (without coolers) (with coolers) , g D, mm H, mm D, mm , mm L, mm max Design 40 321.95 361.95 211.65 70 421.95 451.95 80 451.95 501.95 321.95 632.3 100 522.3 562.3 120 582.3 632.3 280 1 882.7 902.7 301.65 310 582.3 632.3 672.3 822.7 852.7 952.7 1403.15 420 670 840 1800 712.3 902.7 1002.7 1503.15 321.95 361.95 451.95 1 562.3 802.3 712.3 802.3 1102.7 1202.7 1503.15 321.95 451.95 632.3 712.3 802.3 1002.7 802.3 902.7 1002.7 1202.7 1503.15 321.95 451.95 501.95 562.3 802.3 1102.7 1202.7 2 1503.15 361.95 501.95 562.3 632.3 902.7 1002.7 1202.7 1503.15 1202.7 1603.15 1002.7 1223.15 211.65 952.7 301.65 1202.7 1223.15 211.65 632.3 301.65 802.3 952.7 1002.7
Mass, g max 160 240 280 350 520 1100 920 1000 1500 1700 4400 140 160 240 350 830 1000 1300 2600 3700 4400 5300 140 240 520 700 1000 1100 1200 1300 1400 2600 4400 5300 620 700 720 770 1200 1700 2000 2900 4400 5300 640 720 770 830 1300 1700 2900 4400 5300
2
2
1202.7 1223.15 1603.15 211.65 632.3
1
802.3
301.65
952.7 1002.7 1202.7 1603.15 1223.15 211.65 952.7 301.65
2
1
1
1202.7 1603.15
1002.7 1223.15
2
96
: Permissible Urms is expressed by 2U2fC(3.10-4Rt + 2fCReRt + 2fCKp) < A, = 12 Ur = 250, = 38 . where = 12 for Ur = 250V, = 38 for Ur>250V
Ur, V
Cr, F 0.22 0.33 0.47 0.68 1 2.2 3.3 3.9 4.7 6.8 10 22 0.22 0.33 0.47 0.68 1 2.2 3.9 4.7 10 22 33 47 68 0.1 0.22 0.33 0.68 1 2.2 3.3 3.9 4.7 6.8 10 22 33 47 0.1 0.22 0.33 0.47 1 2.2 3.3 4.7 6.8 10 0.1 0.22 0.33 0.47 1 2.2 3.3 4.7 6.8
Re, 10
-4
Rt 0.402 0.305 0.255 0.214 0.180 0.117 0.250 0.236 0.204 0.154 0.127 0.047 0.385 0.323 0.253 0.238 0.187 0.125 0.144 0.127 0.090 0.048 0.036 0.037 0.042 0.416 0.267 0.247 0.167 0.143 0.130 0.102 0.140 0.123 0.106 0.050 0.040 0.045 0.043 0.514 0.314 0.258 0.217 0.140 0.095 0.100 0.052 0.039 0.046 0.421 0.262 0.217 0.183 0.120 0.109 0.043 0.039 0.046
Kp, 10
-4
250
0
0
350
500
800
1000
8.95 5.96 4.18 2.89 1.97 0.89 1.39 1.15 0.62 0.81 0.54 0.73 1.33 11.80 5.36 3.57 1.73 1.18 1.47 0.98 2.65 2.20 1.52 1.03 0.97 1.67 1.47 23.50 10.68 7.12 5.00 2.35 1.07 1.71 1.20 0.83 1.64 16.59 7.54 5.03 3.53 1.66 1.82 1.21 0.85 1.71
177.00 82.14 41.66 20.33 9.55 2.01 2.15 1.48 0.43 0.27 0.12 0.11 0.15 234.91 52.41 23.82 5.74 2.68 1.86 0.83 2.16 1.49 0.71 0.33 0.15 0.18 0.16 187.06 41.40 18.77 9.37 2.10 0.44 0.54 0.27 0.13 0.19 96.68 21.00 9.47 4.71 1.05 0.60 0.27 0.13 0.21
97
__________________________________________________________________________________
K78-29

METALLIZED POLYPROPYLENE FILM CAPACITORS
: . 673635.003 50 60 , , , . , 75-10. : "", "", "", "", "", "" , ( ""). "" "" . "" "" D 25, "", "" "" D22. "" Design ""
d 160+10
Specifications: . 673635.003 Designed for use as internally mounded built-in components in -circuits 50 Hz or 60 Hz, including single-phase asynchronous motors, three-phase asynchronous motors, for power supply from single-phase electric lines and also for se in fluorescent lamps and other discharge lamps. Can be used instead of , 75-10. Design: designs "", "", "", "", "", "" are wrapped with adhesive tape; capacitor ends sealed with epoxy compound (with joining pin for design ""). Designs "" and "" are in plastic case. Designs "" and "" are for D25mm, design "", "" and "" is for D22 mm. "" Design ""
160+10
"" Design ""
160+10
"" Design ""
"" Design ""
0,6+0,1
A A 1,6
"" Design ""
16+4
25+5
3,5
L max
L max
L max
L max
L max
25+5
M* D max D max D max
160+10
20+5
l*
L max
20+5
D max 4+0,1 D max 1,5
b D max
* L<120:8, l =10 L=120:12, l =12,5 "" . "", "", "", "", "" : 2 0,5 mm U = 250V, C 20 2 0,75 mm U = 250V, C > 20 2 0,5 mm U = 450V, C 12 2 0,75 mm U = 450V, C > 12
*For L<120 mm:M8, l =10mm For L=120mm:M12, l =12,5mm For design "" d is given in the table. Conductor cross-section for design "", "","","", "": 2 0,5 mm for Ur = 250V, Cr 20 F 2 0,75 mm for Ur = 250V, Cr > 20 F 2 0,5 mm for Ur = 450V, Cr 12 F 2 0,75 mm for Ur = 450V, Cr > 12 F
98
() 50...60 f = 50
1,0...100 250; 450 350; 630 10; 20 % 0,002 15 000 MO. -60...+85oC 10 000 10 (933% . 402oC, 21 )
Rated capacitance Rated AC voltage, Veff (50...60 Hz) Rated DC voltage Capacitance tolerance Dissipation factor at f = 50 Hz Time constant Operating temperature range Operating time Shelf life Climatic categories
1,0...100 F 250; 450 Veff 350; 630 V 10; 20 % 0,002 15 000 MOhm.F -60...+85oC 10 000 hours 10 years RH 933%, 402oC, 21 days
: 78-29 - 250~/350_ -10 10% : "", "", "", "", "", "".
U ~/U/(50)
Ordering example: Capacitor K78-29 -250~/350_ V-10 F10% Designs: "", "", "", "", "", "".
450~ / 630-
250~ / 350Dmax, mm 12 15 17 18 20 19 20 21 23 24 26 27 30 32 34 35 36 37 36 40 48 40 44 48 56 120 80 2.0 20 60 1.0 10 60 45 1,0 Lmax**, mm d, mm b, mm
Ur ~/Ur-, V
, Cr , F
, Mass, g max
15 20 22 25 25 30 35 40 50 55 65 65 70 75 80 80 85 85 100 120 165 195 215 240 330
Dmax, mm 16 20 21 22 22 24 25 25 28 30 32 34 35 38 42 38 40 42 44 48 42 48 53 58 65 78
Lmax**, mm
d, mm
b, mm
, Mass, g max
25 30 35 50 50
1.0 1.6 2.0 2.5 3.0 3.5 3.75* 4.0 5.0 6.0 7.0 8.0 9.0 10 12 14 16 18 20 25 30 40 50 60 70 100
45
-
1.0
10
55 55 65 65 70 75 80 85 90 105 110 120 130 140 170 195 240 290 320 385 550
-
60
80 2.0
20
120
* 3,75 , 450 ~ 1 ** "" L 5 .
* Capacitor with capacitance 3,75 F, 450 V~ can be supplied with built-in discharging resistor 1 MOhm. ** For design "" lenght L of capacitor is increased by 5 mm.
99
160+10
L max
D max
10
L max
160+10
M8 D max
"" Design ""
"" Design ""
: "" "".
Designs: "" and "". U_/U~, , B/B(50 ) C, Dmax, Lmax, Mass, g Ur_/Ur~, Cr, F mm mm max V/Veff(50Hz) 3,5-3,6 4,0 5,0 350_/250~ 6,0 7,0 8,0 9,0 3,0 630_/450~ 3,75 4,0 60 55 30 62 55 60
. . Pilot production. Some parameters can be changed without notice.
100
Uf f. Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage Uf as function of frequency f.
10
3 8 6 4 3.5 2.8 2
2 1
10 2
8 6 4
2
10 1
8 6
Uf
4
2
10
0 8 6 4
2 -1 2 3 4 5 6 78
f 1 2 5
10
10 0
10
1,2 1,6 2
3
4 5 67
10
2
10
10
2
2
5
10
3
2
5
10
4
2
5
10
5
1 - U=350 2 - U=630 : Uf 350 U=350 Uf 630 U=630 Uf: : f=400 , U=630 , =10 : Uf =280
1 - for Ur=350 V 2 - for Ur=630 V Limits: Uf 350 V Ur=350 V Uf 630 V Ur=630 V Example of calculation of Uf: Given: f=400 Hz, Ur=630 V, r=10 F Finding: Uf =280
101
__________________________________________________________________________
K78-37

HIGH-FREQUENCY POLYPROPYLENE FILM CAPACITORS
: .673635.004 , , . : , .
Specifications: .673635.004 Designed to operate in DC, AC and ripple current circuits and in pulse mode. Design: wrapped with adhesive tape; capacitor ends sealed with epoxy compound.
D max
25 +5
L max
( -60oC ... +85oC) < 0,1 0,1 < < 0,47 > 0,47 f = 1 0,33 > 0,33
0,001 .... 10 250; 400; 630
Rated capacitance Rated voltage (temperature range -60oC ... +85oC) Capacitance tolerance at r < 0,1F at 0,1 F < r < 0,47F at r > 0,47F Dissipation factor at f = 1 kHz Insulation resistance at r 0,33F Time constant at r > 0,33F Operating temperature range TC Operating time Shelf life Climatic categories
d
0,001 .... 10 F 250; 400; 630 V
10; 20 % 5; 10; 20 % 2; 5; 10; 20 % 0,0015 50 000 MO
10; 20 % 5; 10; 20 % 2; 5; 10; 20 % 0,0015 50 000 MOhm 15 000 MOhm*F -60 ...+100oC -500 ... 0 ppm/oC 15 000 hours 15 years RH 933%, 402oC, 21 days
15 000 MO* -60 ...+100 C (-500 ... 0) * 10 -6 1
o
15 000 15 (933% . 402oC, 21 )
: + 78-37 - 400 - 0,33 5%
Ordering example: + Capacitor K78-37 - 400 V - 0,33 F 5%
102
U, Ur, V
, Cr, F 0.010 0.015 0.022 0.033 0.047 0.068 0.10 0.15 0.22
, Dimensions, mm Dmax 6 6 7 8 9 10 9 12 13 15 12 15 17 21 21 22 28 33 36 6 7 8 9 11 9 10 13 30 0.8 20 0.6 60 1.0 45 30 0.8 20 0.6 Lmax d
, Mass, g max 2.0 2.0 3.0 3.0 4.0 5.0 6.0 8.0 9.0 9.0 10 15 17 20 30 40 60 75 80 2.0 3.0 3.0 4.0 6.0 6.0 7.0 9.0
U, Ur, V
, Cr, F 0.22 0.33 0.47
, Dimensions, mm Dmax 14 14 15 18 18 22 26 6 6 6 7 7 7 8 9 10 9 10 11 14 16 14 18 20 20 24 60 45 1.0 30 0.8 20 0.6 60 45 1.0 Lmax 30 d
, Mass, g max 9.0 14 15 20 25 40 50 2.0 2.0 2.5 3.0 3.0 3.5 4.0 4.0 5.0 6.0 7.0 8.0 9.0 10 10 20 22 30 45
400
0.68 1.0 1.5 2.2 0.0010 0.0015 0.0022 0.0033 0.0047 0.0068 0.010 0.015 0.022
250
0.33 0.47 0.68 1.0 1.5 2.2 3.3 4.7 6.8 10.0 0.010 0.015 0.022
630
0.033 0.047 0.068 0.10 0.15 0.22 0.33 0.47 0.68 1.0
400
0.033 0.047 0.068 0.10 0.15
Ut Permissible voltage Ut as a function of ambient temperature
100 % 80 Ut U 60
50
40 20
85
-60 -40 -20
0
20
40
60 80
o
t
100 C
103
Uf f. Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage Uf as a function of frequency f
U, 630 400 250 U = 250 U = 400 U = 630
10
2
%5
2 1 5 2
10 Uf U
10
0 5 2
10
-1 5 2
10
-2
10-3
2,2 4,7
-2 10
2,2 4,7
10-1
2,2 4,7
10 10
2,2 4,7 0
1
10
1
2
5
10
2
2
5
f
10
3
2
5
10
4
2
5
10
5
2
5
10
6
Uf : : 4 f = 10 , C = 10 , o U = 250 B (t 85 C) : Uf = 20 % U = 50 : 5 f = 10 , C = 0,022 , o U = 630 B (t 85 C) : Uf = 40 % U = 252 : 6 f = 10 , C = 0,1 , o U = 400 B (t 85 C) : Uf = 1,8 % U = 7,2
Example of calculation of Uf : Given: 4 f = 10 Hz , Cr = 10 F, o Ur = 250 V (t 85 C) Finding: Uf=20 % of Ur = 50 V Given: 5 f = 10 Hz , Cr = 0,022 F, o Ur = 630 V (t 85 C) Finding: Uf=40 % of Ur = 252 V Given: 6 f = 10 Hz , Cr = 0,1 F, o Ur = 400 V (t 85 C) Finding: Uf=1,8 % of Ur = 7,2 V
104
U F, , ,
Permissible peak-to-peak pulse voltage U as a function of pulse repetition frequency F, minimal temporal sector , corresponding pulse leading edge slope or pulse trailing edge slope and rated capacitance r
U,
630
400
10 2
250
5 2
U
%
U t
10 1 U U
5
u=10 C
2
-5
10 0
5
u=10 C
-6
2
10 -1 10 -3
2,2 4,7
10 -2
2,2
4,7
10 -1
2,2 4,7
10 0
2,2 4,7
10 1
10 1
2
5
10 2
2
5
10 3
2
5
10 4
2
5
10 5
2
5
F
10 6
U : : F = 510 , = 10 c, o U = 250 B (t 85 C), C = 1,0 : U = 2,5 % U = 6,3 B
5 -6
Example of calculation of U : Given: F = 510 Hz , = 10 s, o Ur = 250 V (t 85 C), Cr = 1,0 F Finding: U = 2,5 % of Ur = 6,3 V
5 -6
F = 210 , = 10 c, o U = 630 B (t 85 C), C = 0,22 : U = 55 % U = 347 B
4 -5
:
F = 210 Hz , = 10 s, o Ur = 630 V (t 85 C), Cr = 0,22 F Finding: U = 55 % of Ur = 347 V
4 -5
Given:
105

Im dU/dt
Maximum permissible amplitude of pulse current Im and rate of the voltage change dU/dt U, U r, V C, r, F 0,01...0,022 0,033 0,047 0,068 0,1...0,15 0,22...0,33 250 0,47 0,68 1,0 1,5 2,2 3,3...4,7 6,8...10 0,01...0,015 0,022...0,033 0,047 0,068...0,15 400 0,22 0,33 0,047...0,68 1,0 1,5 2,2 0,001 0,0015 0,0022 0,0033...0,0047 0,0068...0,01 0,015...0,022 630 0,033 0,047 0,068...0,1 0,15 0,22 0,33 0,47 0,68...1,0 Im, max, A 6...23 33 45 60 41...71 95...142 95 145 203 301 312 414...596 800...1095 12,5...22 30...47 65 36...106 149 124 170...285 263 383 509 1,56 2,2 3,12 5,0...9,0 10,5...16 27...40 27 34 49...73 94 89 138 195 175...263 dU/dt, max, V/s 1050 1010 962 880 470 434 202 213 203 201 142 127 118 1400 1440 1385 700 677 376 400 263 256 232 1560 1460 1420 1900 1620 1800 818 723 730 527 405 418 415 263
106
K78-39

METALLIZED POLYPROPYLENE FILM POWER FACTOR CAPACITORS
______________________________________________________
: , .
Designed to compensate for reactive power.
Capacitors are built in rectangular metal cases with one, two or three terminals.
"" Design ""
"" Design "b"
"" Design ""
552.3
M12-6g
A
A/2
H
H
L
L
H
L
B
(), 50...60 f = 50
128...800 400; 500; 660; 1000
Capacitance range Cr AC voltage range Vr (rms), with frequency 50...60Hz Tolerance on Cr Loss factor tg at f=50 Hz Power range Qr Time constant Tc Ambient temperature during operation Expected lifetime Storage time Climatic category
128...800F 400V; 500V; 660V; 1000V
10% 0,005 10...60 > 10000 . -60...+85 C 100000 10
o
10% 0.005 10...60 kVar 10000 MOhm.F -60...+85oC 100000 hours 10 years temperate to cold
: 78-39 - 400 - 3x66 10%
Ordering example:
Capacitor K78-39c - 400V- 3x66 F 10%
107
U Ur, Vrms
Q Qr, kVar 10 12.5 16 18 20 30 40 10 12.5 16 18 20 30 40 30 40 60
C Cr, F 200 250 320 360 400 600 800 128 160 204 230 255 381 508 219 292 191
Case dimensions, mm
A, mm
Mass, kg max 4
B
80
L
H
250 120 350 380 80 350 150
150 6 7 10 200 5 7
400
500
120
250 350 380 270
150 200
10 13 14
660 1000
108
K78-41

METALLIZED POLYPROPYLENE FILM CAPACITORS
________________________________________________________________________________
. : .
"a" Design "a" "b" Design "b"
Designed to operate in DC and ripple current in pulse mode. Design: cylindrical polymeric materials.
"c" Design "c"
housing
"d" Design "d"
6,5
made
of
25max
25max
20max
D L
D L
D L L 20max
25max
25max
+5
20
View A
4 0 .15
2 0.3
2 . (2 holes)
( -60oC...+50oC)
2,0...200 1,0...3,0
Rated capacitance Rated voltage (temperature range -60oC...+50oC) Capacitance tolerance Dissipation factor Time constant Operating temperature range Discharge current amplitude Operating time Shelf life
1,5
2.0...200 F 1.0...3.0 kV
+10% <0,005 > 500 . -60...+70 C 75...3000 A 10 . 10
5
o
20
20
A
9
4
0 .8 0 .1
0.5+0.1
M6-6g
+5
+10% <0.005 > 500 MOhm.F -60...+70oC 75...3000 A 10 imp. 10 years
5
: 78-41a - 1 - 6 10%
Ordering example: Capacitor K78-41a - 1kV - 6F 10%
109
D, mm Ur, V Cr, F 2 4 6 8 10 20 40 60 80 100 200 10 20 40 80 10 20 40 60 Rated value 18 20 22 24 26 35 45 55 65 78 100 35 45 65 85 40 60 75 90 Limit discrepancy 1.35 1.65
L, mm Limit Rated discrepan value cy
Design
Mass, g, max 30 35 40 50 60 100 170 250 340 490 800 200 340 680 1200 380 850 1400 2000
a, b
1000
1.95 2.3 2.7 1.95 2.3 1.95 2.3
85
2.7
a, b, c
c, d
a, b, c 170 3.15 c, d 270 4.05
2000
3000
K Minimum operating time as a function of coefficient K
lg t (lg N) 7 (9.5) 5.5 (8)
3.5 (6) 2.5 (5) 1.5 (4)
-0.5 (2)
-2 (0.5) 0.5 0.75 1 1.25 1.5 1.75 2 K
: - ; - . K=U/Ur
Minimum operating time given: - in brackets in pulses ; - without brackets in hours. Where K=U/Ur
110
U mCF tg g+2(UmFC) RA < 20 / RT, RT, tg g, RA - , : Permissible amplitude of AC sinusoidal component of voltage at amb is expressed by U mCF tg g+2(UmFC) RA < 20 / RT, where RT, tg g, RA - are parameters given in the table:
Ur, V Cr, F 2 4 6 8 10 20 40 60 80 100 200 10 20 40 80 10 20 40 60 RA*10 , Ohm 16,7 12,9 10,3 8,5 7,1 3,7 2,2 1,5 1,0 0,7 0,4 7,5 4,4 2,1 1,2 8,5 3,7 2,3 1,6
3 2 2 2 2
1000
2000
3000
RT, C/W 24 21 20 18 17 13 11 9 8 7 6 7 6 5 4 5 3 3 3
o
tg g*10
4
Design
a, b
a, b, c
c, d 3 a, b, c
c, d
: Permissible parameters of pulse mode must not exceed the values calculated from the following formulas:
2.4 10 - 4 U 2 C r F lg
1.8 + 1.2 U 2 C r2 F RA / 20 / RT , F
F I0,
1.1 U C r
Im < Immax U - , ; F - , ; - , . I0 = 8 - "a"; I0 = 25 - "b"; I0 = 40 - "c" I0 = 80 - "d" Im - Immax - ( ).
where U - amplitude of peak-to-peak pulse voltage, V; F - pulse repetition rate; - discharge current pulse duration, s; I0 = 8 - for design "a"; I0 = 25 - for design "b"; I0 = 40 - for design "c"; I0 = 80 - for design "d"

111
Im - discharge current amplitude Immax - Max. discharge current amplitude that is given in the table below ,
Max. discharge current amplitude, A
Ur, V Cr, F 2 4 6 8 10 20 40 60 80 100 200 10 20 40 80 10 20 40 60 Im, A 75 150 200 300 400 500 600 1000 1000 2000 3000 300 500 1000 2500 500 1000 1000 2500
1000
2000
3000
112
K78-42
_________________________________
ENERGY STORAGE POLYPROPYLENE-METALLIZED FILM CAPACITORS
. : .
"a" Design "a"
A
Designed to operate in DC and ripple current and in pulse mode. Capacitors are built in cylindrical metal cases with bushing insulators.
"b" Design "b"
A
M 16
M 12
55+2.3
H
D
L
H
65m ax
B
f = 50
270...10600 450...2000 10%; 20% <0,0025 > 1000 . -60...+70oC 50000 10
Capacitance range Cr Nominal voltage Ur Tolerance on Cr Loss factor tg at f=50Hz Time constant C Operating temperature Lifetime expectancy Storage time
270...10600 F 450...2000 V 10%; 20% <0.0025 1000 .F -60...+70oC 50.000hours 10 years
: 78-42 - 450 - 2200 10%
Part number to order: Capacitor K78-42 - 450 V - 2200 F 10%
113
"a"/ Design "a" Ur/Up*, V
D, mm Cr, F Rated value Limit discrepancy Rated value H, mm Limit discrepancy A, mm Mass, g max
450/1000
700/2000
1000/2500
1500/3000
2000/3500
2200 3300 4300 6200 10600 910 1300 1600 2400 4300 560 820 1000 1500 2700 360 560 680 1000 1600 270 430 560 820 1300
135 150 185 135 150 185 135 150 185 135 150 185 135 150 185
188 +2 288 +2.3 +2 288 +2.3 +2 288 +2.3 +2 288 +2.3 +2 288 +2.3 440 440 188 440 188 440 188 440 188
+2.3 +2.6
65 75
+3.15 +2.3 +2.6
65 75
+3.15 +2.3 +2.6
65 75
+3.15 +2.3 +2.6
65 75
+3.15 +2.3 +2.6
65 75
+3.15
3100 4500 5500 7200 11400 3100 4500 5500 7200 11400 3100 4500 5500 7200 11400 3100 4500 6000 8900 12800 3100 4500 5500 7200 11400
"b"/ Design "b" Ur/Up*, V 700/2000
Cr, F L, mm Rated Limit value discrepancy Rated value B, mm Limit discrepancy Rated value H, mm Limit discrepancy A, mm Mass, g max 30000 35000 40000 40000 45000 68000 40000 57000 67000 40000 50000 85000
1000/2500
1500/3000
2000/3500
6800 8200 10000 5100 7500 10000 3000 5100 6800 2000 3000 5100
420 340 340 500 340 500 340 420 500 3,15 3,15 4,5 3,15 4,5 3,15 4,5 170 2 560 560 690 560 750 560 850 4,5 5,7 6,5 5,7 6,5 5,7 6,5
180 210 180 250 180 250 180 210 250
* Ur - ; Up - .
* Ur - Rated voltage; Up - maximum peak voltage
114
K Minimum operating time as a function of coefficient K
lg (lg N)
5 (7.7) 4.7 (7.4) 4 (6.7)
3 (5.7)
2 (4.7)
1 (3.7)
0 (2.7)
-1 (1.7)
-2 (0.7)
-3 (0.3) 0.9 1 1.5 2 2.5 3
K
: - ; - . K=U/Ur
Minimum operating time given: - in brackets in pulses ; - without brackets in hours. Where K=U/Ur

U2mCF tg g+2(UmFC)2 RA < 20 / RT,
RT, tg g, RA - , :
Permissible amplitude of AC sinusoidal component of voltage at amb is expressed by
U2mCF tg g+2(UmFC)2 RA < 20 / RT,
where RT, tg g, RA - are parameters given in the table:
115
Ur, V "a"/ Design "a" 450/1000
Cr, F 2200 3300 4300 6200 10600 910 1300 1600 2400 4300 560 820 1000 1500 2700 360 560 680 1000 1600 270 430 560 820 1300 6800 8200 10000 5100 7500 10000 3000 5100 6800 2000 3000 5100
RA*10 , Ohm 1,43 1,30 1,29 1,27 1,38 1,47 1,32 1,31 1,29 1,38 1,50 1,34 1,33 1,30 1,39 1,54 1,37 1,35 1,31 1,40 1,56 1,38 1,35 1,32 1,40 0,12 0,14 0,14 0,13 0,09 0,10 0,13 0,09 0,11 0,14 0,11 0,12
3
RT, C/W 2,65 1,91 1,80 1,61 1,15 2,65 1,91 1,80 1,61 1,15 2,65 1,91 1,80 1,61 1,15 2,65 1,91 1,80 1,61 1,15 2,65 1,91 1,80 1,61 1,15 0,68 0,52 0,52 0,52 0,36 0,30 0,52 0,36 0,27 0,52 0,43 0,24
o
tg g*10
4
700/2000
1000/2500
3
1500/3000
2000/3500 "b"/ Design "b" 700/2000 1000/2500
3
1500/3000 2000/3500
: Permissible parameters of pulse mode must not exceed the values calculated from the following formulas:
2.4 10 - 4 U 2 C r F lg
1.8 + 1.2 U 2 C r2 F RA / 20 / RT , F
F
1.1 U C r
U - , ; F - , ; - , . I0 = 100 - "a"; I0 = 150 - "b"; where U - amplitude of peak-to-peak pulse voltage, V; F - pulse repetition rate; - discharge current pulse duration, s; I0 = 100 - for design "a"; I0 = 150 - for design "b";
I0,
116
K75-15

PAPER - FILM CAPACITORS WITH FOIL ELECTRODES
_____________________________________________________________________________
( ) . : .
"a" Design ""
A1
Designed for use as internally mounded built-in components to operate in DC, AC and ripple current circuits and in pulse mode. Design: metallic sealed housing. rectangular hermetically
-
"" Design "b"
A +3 -1
h
L
H
B
L
H
h
B
f = 1 Cr < 0,25 Cr > 0,25
0,0051...10 3,0...50 5, 10; 20% <0,01 > 20000 > 4000 . -60...+100oC 10000 12 5.1 2.1,5.1 ( 15150-69)
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f = 1kHz Insulation resistance at r < 0.25 F Time constant at r > 0.25 F Operating temperature range Operating time Shelf life Climatic categories
0.0051...10 F 3.0...50 kV 5; 10; 20% <0.01 > 20000 MOhm > 4000 MOhm.F -60...+100oC 10000 hours. 12 years RH 98%, 35oC, 21 days
: 75-15 - 5 - 2 20%
Ordering example: Capacitor K75-15 - 5 kV - 2 F 20%
117
75-15 "" ( ) / 75-15 Design "a"
L
Rated value Limit discrepancy Rated value
Ur, kV
Cr, F 0.1 0.25 0.5 1 2 4 6 8 10 0.05 0.1 0.25 0.5 1 2 4
Dimensions, mm B
Limit discrepancy Rated value
H
Limit discrepancy
h,
max
A 20
Mass, g max 120 180 350 520 900 2100 2800 3400 4800 120 180 350 520 900 2100 4200
45 65 +2 -0.5
3
85
+2.5 -1
45 65 85 +2 -0.5
5
20 35 30 30 60 80 110 140 180 20 35 30 30 60 80 160
+2 -0.5
54 74 115
+1 -1.5 +1 -2 +1 -3 3 +1 -1.5 +1 -2 +1 -3 3 24
+2.5 -1
30
140 150
+2 -0.5
54 74 115
20
+2.5 -1
+2.5 -1
30
140 150
75-15 "" ( ) / 75-15 Design "b"
L
Rated value Limit discrepancy Rated value
Ur, kV
Cr, F 0.051
Dimensions, mm B
Limit discrepancy Rated value
H
Limit discrepancy
h,
max
A 30
Mass, g max 620 800 1400 2000 3600 800 1000 1700 3000 6300 13000 1800
65 85 65 85 140 150 100
10
0.1 0.25 0.5 1 0.024 0.051 0.1 0.25 0.5 1 0.024
+2 -0.5 +2.5 -1 +2 -0.5 +2.5 -1 +3 -1 4 +2.5 -1 +3 -1 4 +3 -1 4 +3 -1
45 40 45 75 140 60 50 60 120 85 130 65 85
+2 -0.5 +2.5 -1 +2 -0.5 +2.5 -1 +3 -1 4 +2 -0.5 +2.5 -1 +3 -1 4 +3 -1 4 +3 -1
74 115 140 74 115 140 250 310 115 140 270 350 115
+1 -2 52 +1 -3 +1 -2 +1 -3 3 +1 -2 +1 -3 3 +1 -2 +1 -3 3 +1 -2 +1 -3 3 140 100 62
40 30 40 80 90 45
16
25
0.051 0.1 0.25 0.5 0.01 140 150 140 150 140
2700 80 90 80 90 80 3800 7500 15000 3200 4200 5700 9500 3200 4200 6000
105 130 85 130 85
40
0.024 0.051 0.1 0.0051
140 220 115 140 240
50
0.01 0.024
118
Um f. Permissible amplitude of AC component of ripple voltage Um as a function of frequency f.
Um/ Ur, % 20 15 10 7 5
2
2
1
1
10
10
2
10
3
f, Hz
10
4
1 - :
0,1 , 40 ; 0,5 , 25 ; 1 , 16 .
1 - for capacitors:
0.1 F, 40 kV; 0.5 F, 25 kV; 1 F, 16 kV.
2 -
2 - for other capacitors
119
K75-29A

PAPER - FILM CAPACITORS WITH FOIL ELECTRODES
_____________________________________________________________________________
. : .
1 Design 1
+3
Designed for use as internally mounded built-in components to operate in DC, AC and ripple current circuits and in pulse mode. Design: metallic sealed housing. rectangular hermetically
2 Design 2
A -1
80 -1
+3
140max
1
2 H -3
+2
H +2 -3
1404 L B
62max
h
1304
1
2
f = 1 r < 0,25 r > 0,25 T = -60...+85oC T = -60...+35oC
0,1...1,0 16...40 10; 20% <0,01 > 20000 > 4000 . -60...+85oC 1500 10000 12 (98% . +35oC, 21 )
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f = 1 kHz Insulation resistance at r < 0.25 F Time constant at r > 0.25 F Operating temperature range Operating time for T = -60...+85oC for T = -60...+35oC Shelf life Climatic categories
0.1...1.0 F 16...40 kV 10; 20% <0.01 > 20000 MOhm > 4000 MOhm.F -60...+85oC 1500 hours 10000 hours 12 years RH 98%, 35oC, 21 days
: 75-29A - 40 - 0,1 10%
Ordering example: Capacitor K75-29A - 40 kV - 0.1 F 10%
120
1 / Design 1 Dimensions, mm B Rated Limit value discrepancy +3 85 -1 130 4 +3 85 -1 130 150 4 5
Ur, kV
Cr, F 0.25 0.5 1.0 0.1
L Rated value Limit discrepancy +3 -1 4 +3 -1 4 260 5
H 110 175 200 110 145 230 280
h, max 62
A
Mass, g max 3000 4500 8600
16
140
80 100 140 130
3900 5700 9600 20000 23000
25 40
0.25 0.5 1.0 0.5
2 / Design 2 Ur, kV 40 Cr, F 0.1 0.25 H, mm 145 280 Mass, g max 5900 11500
Um f Permissible amplitude of AC component of ripple voltage Um as a function of frequency f
Um / Ur x100, % 20 15 10 5 0 1 10 50 10
2
5x10 10
2
3
5x10 10 f, Hz
3
4
121
K75-40
. : .

PAPER - METALLIZED FILM CAPACITORS
______________________________________________________________________________________________
Designed to operate in pulse mode. Design: rectangular hermetically housing of two designs. sealed
"a" Design ""
M6 h2
"" Design "b"
h1
H
H
L B A1 A3 L B
f=50
2...100 0,75...5,0 10%; 20% <0,008 > 500 . -60...+70 C 8*10 ...10 75...4000 A 10 . 10 (98% . 35oC, 21 )
5 -5
o
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f=50 Hz Time constant Operating temperature range Pulse repetition frequency Discharge current amplitude Operating time Shelf life Climatic categories
2...100 F 0.75...5.0 kV 10%; 20% <0.008 > 500 MOhm.F -60...+70oC 8*10 ...10 Hz 75...4000 A 10 imp. 10 years RH 98%, 35oC, 21 days
5 -5
: 75-40a- 1600 - 20 10%
Ordering example: Capacitor K75-40a - 1600 V - 20 F 10%
122
Dimensions, mm Ur, V Design Cr, F 4 6 8 10 40 60 80 100 2 4 6 8 10 20 40 60 80 100 20 40 60 80 100 2 4 6 8 10 20 40 60 80 100 L 16 18 26 31 26 41 46 51 16 18 26 36 41 26 41 46 66 76 26 46 66 81 101 18 31 46 56 66 26 46 66 91 111 B H A h1, max h2, max
Mass, g max 80 90 120 140 600 950 1000 1100 80 90 120 160 190 600 950 1000 1400 1650 650 1000 1400 1800 2200 100 150 210 260 300 650 1000 1400 2050 2350
46
1.4
1.4
50
1.4
25
15 -
750
(b)
86
+2.5 -1
+2.5 -1
141
+3 -1
30
18
46
1.4
1.4
50
1.4
25
15 18
1000
(b)
86
+2.5 -1
+2.5 -1
141
+3 -1
30
15 18 30
1600
, (a,b)
(b) 2000 , (a,b)
46
1.4
1.4
55
1.4
25
15
-
15 +2.5 -1 141 +3 -1 30 18 30
86
+2.5 -1
Dimensions, mm Ur, V Design Cr, F 20 40 60 80 100 20 40 60 80 100 20 40 60 20 40 L 31 66 86 111 141 35 65 90 120 150 65 110 170 90 170 B H A h2, max
Mass, g max 750 1400 1900 2350 3000 1250 2000 2750 3750 4500 2000 3300 5000 2750 5000
2500
86
141
+3 -1
30
3000
(a)
+2.5 -1 105
+2.5 -1 170 3 40
40
4000 5000
123
Minimum operating time as a function of pulse repetition frequency
2*10 5 N=0,95 ,u 2*10 4 2*10 3 2*10 2 10
-5
10
-4
10
-3
10
-2
10
-1
10 0 Fp, Hz
, , Max. discharge current amplitude, A Ur, V 750 1000 1600 2000 2500 3000 4000 5000 2 75 100 4 100 150 250 6 150 200 400 8 200 300 500 Cr, F 10 20 300 400 500 500 600 500 500 1000 1000 1000 40 500 1000 1000 1000 1000 1000 2000 2000 60 1000 1000 2000 2000 2000 2000 4000 80 1000 1000 2000 2000 2000 3000 100 1000 2000 2000 2000 4000 4000
, , Max. pulse repetition frequency, Hz Ur, V 750 1000 1600 2000 2500 3000 4000 5000 Cr, F 2 6 6 4 6 6 5 6 6 6 3 8 6 6 3 10 6 5 3 20 4 3 2,5 2 1,3 1,3 1 40 4 4 2,5 2 2 1,3 1 0,8 60 4 3 2,5 2 1,7 1 0,8 80 4 3 2,5 2 1,7 1 100 4 3 2,5 1,7 1,7 0,8
124
Ut t Max. operating voltage Ut as a function of the temperature t
Ut Ur 100
,%
3 1 2
80 76 73 70 60
40
20
-60
-40
-20
0
20
40
60
70 80 t, C
1 - Cr = (20...100) F 2 - Cr = (2...10) F 3 - Cr = (20...100) F
Ur = 750, 1000, 1600, 2000 V Ur = 750, 1000, 2000 V Ur = 2500, 3000, 4000, 5000 V
125
K75-48M
_________________________________________________________

LOW INDUCTANCE CAPACITORS WITH FILM AND PAPER DIELECTRIC
.
: , , . "a" Design ""
M12-6g 50max
Designed for pulse mode application at increased pulsing current values.
Packaging: cylindrical hermetically sealed metal cases of two types. "" Design "b"
M12-6g 50max 4+0.25 D 6.5
+0.36
156+2
D
f=50 r < 0,22 r > 0,22
6.5
+0.36
0,1...10 6,3...25 10%; 20% <0,01 > 10000 > 3000 . -60...+70oC 0,3...30 10000...50000 A 10 . 10 5.1 2.1 ( 15150-69)
5
C92-0.87
Rated capacitance, Cr Rated voltage, Ur Tolerance on Cr Loss factor tg at f=50 Hz Insulation resistance for r < 0.22 F Time constant c for r > 0.22 F Operating temperatures Pulse repetition frequency Discharge current amplitude Lifetime expectancy Shelf life Climatic category
C92-0.87
150+2
0.1...10 F 6.3...25 kV 10%; 20% <0.01 > 10000 m > 3000 m.F -60...+70oC 0.3...30 Hz 10000...50000 A 10 shots 10 years RH 98%, 35oC, 21 days
5
: 75-48M - 6,3 -10 10%
Ordering example: Capacitor K75-48M - 6.3 kV - 10 F 10%
126
D, mm Ur, kV Design (a) 6.3 (b) (a) 10 (b) 16 (a) 25 (b) Cr, F 2.2 4.7 10 1.0 2.2 4.7 0.47 1.0 0.1 0.22 0.47 Rated value 75 112 112 75 112 135 135 185 75 112 135 Limit discrepancy Mass, g max
2
1200 2300 2300 1200 2300 2700 2700
3500 1200
2300 2700
127
K75-49

PAPER - METALLIZED FILM CAPACITORS
______________________________________________________________________________________________
. : , .
Designed to operate in pulse mode. Design: metallic sealed housing with radial terminals.
95
f = 1 , .
47 4,0 20% <0,01 > 1000 . -45...+55 C < 0,1 < 80 A 5.10 . 10 1500 .
3
o
140 Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f = 50 Hz Time constant Operating temperature range Pulse repetition frequency Discharge current amplitude Operating time Shelf life Mass, max
10
20
47 F 4.0 kV 20% <0.01 > 1000 MOhm. F -45...+55oC < 0.1 Hz < 80 A 5.10 imp. 10 years 1500 g
3
: 75-49 - 4 - 47 20%
Ordering example: Capacitor K75-49 - 4 kV - 47 F 20%
128
K75-54

PAPER - FILM CAPACITORS WITH FOIL ELECTRODES
____________________________________________________________________________
, , . : .
Designed to operate in DC, AC and ripple current circuits and in pulse mode.
Design: housing made of polymeric material
18max
L
D
18max
f = 1 Cr < 0,22 Cr > 0,22 r < 0,22 r > 0,22
0,001...1 2,5...16 5; 10; 20% <0,0025 <0,005 > 15000 > 1000 . -60...+85oC 2000 15 (98% . 35oC, 21 )
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f=1 kHz at Cr < 0,22 F at Cr > 0,22 F Insulation resistance at r < 0.22 F Time constant at r > 0.22 F Operating temperature range Operating time Shelf life Climatic categories
d
0.001...1 F 2.5...16 kV 5; 10; 20% <0.0025 <0.005 > 15000 MOhm > 1000 MOhm.F -60...+85oC 2000 hours 15 years RH 98%, 35oC, 21 days
: 75-54 - 4 - 0,1 20%
Ordering example: Capacitor K75-54 - 4 kV - 0.1 F 20%
129
Ur, kV
Cr, F 0.010 0.022 0.047 0.10 0.22 0.47 0.0047 0.010 0.022 0.047 0.10 0.22 0.47 1.0 0.0022 0.0047 0.010 0.022 0.047 0.10 0.22 0.47 0.0010 0.0022 0.0047 0.010 0.022 0.047 0.10 0.0010 0.0022 0.0047 0.010 0.022 0.047
D Rated value 20 25 32 40 45 20 25 32 40 45 63 20 25 32 40 45 63 20 25 32 40 45 63 20 25 32 40 45 63
Dimensions, mm L Limit Rated Limit discrepancy value discrepancy 56 1.5 1.65 90 1.95 56 1.65 90 1.95 1.75 1.5 1.75
d
Mass, g max 60 90 130 180 260 300 60 90 130 180 260 300 460 840 60 90 130 180 260 300 460 840 60 90 130 180 260 300 840 90 130 180 260 460 840
2.5
2.5
4
2.5
4.0
4 2.3 1.65 90 1.95 4 2.3 1.65 90 1.95 4 2.3 1.65 90 1.95 2.3 140 2 4 1.75 140 2 2.5 1.75 140 56 2 1.5 2.5 1.75 140 56 2 1.5 2.5
6.3
10
16
130
Uf f Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage Uf as a function of frequency f
Uf/ Ur, % 25 20 15 10 5,0
4 3 2 1
2,0
50
10 2
5 .10 210 3
5 .10 3 10 4 f, Hz
1) 4,0 (0,47; 1,0 ); 6,3 (0,47 ); 16 (0,047 ); 2) 2,5 (0,47 ); 4,0 (0,22 ); 6,3 (0,1; 0,22 ); 10 (0,022; 0,047; 0,1 ); 16 (0,01; 0,022 ); 3) 2,5 (0,1; 0,22 ); 4,0 (0,047; 0,1 ); 6,3 (0,022; 0,047 ); 10 (0,01 ); 16 (0,0022; 0,0047 ); 4) 2,5 (0,01; 0,022; 0,047 ); 4,0 (0,0047; 0,01; 0,022 ); 6,3 (0,0022; 0,0047; 0,01 ); 10 (0,001; 0,0022; 0,0047 ); 16 (0,001 );
1) 4.0 kV (0.47; 1.0 F); 6.3 kV (0.47 F); 16 kV (0.047 F); 2) 2.5 kV (0.47 F); 4.0 kV (0.22 F); 6.3 kV (0.1; 0.22 F); 10 kV (0.022; 0.047; 0.1 F); 16 kV (0.01; 0.022 F); 3) 2.5 kV (0.1; 0.22 F); 4.0 kV (0.047; 0.1 F); 6.3 kV (0.022; 0.047 F); 10 kV (0.01 F); 16 kV (0.0022; 0.0047 F); 4) 2.5 kV (0.01; 0.022; 0.047 F); 4.0 kV (0.0047; 0.01; 0.022 F); 6.3 kV (0.0022; 0.0047; 0.01 F); 10 kV (0.001; 0.0022; 0.0047 F); 16 kV (0.001 F);
131
K75-59

PAPER - METALLIZED FILM CAPACITORS
______________________________________________________________________________________________
. : .
Designed to operate in pulse mode. Design: cylindrical polymeric materials. housing made of
0.8 25+5 L 25+5
( -60oC...+50oC) 2,0...10 1,0 Rated capacitance Rated voltage (temperature range -60oC...+50oC) Capacitance tolerance Dissipation factor Time constant Operating temperature range Pulse repetition frequency Discharge current amplitude Operating time Shelf life
D
2.0...10 F 1.0 kV +10% <0,01 > 500 . -60...+70oC <10 75...400 A 10 . 20
5
+10% <0.01 > 500 MOhm.F -60...+70oC <10 Hz 75...400 A 10 imp. 20 years
5
: 75-59 - 1 - 6 10%
Ordering example: Capacitor K75-59 - 1 kV - 6 F 10%
132
D, mm Ur, V Cr, F 2 1000 Rated value 16 Limit discrepancy 0.55 0.65
L, mm Rated value 71 Limit discrepancy 2.3 2.7 Mass, g max 35
4 6 8 10
18 21 24 26
100
50 65 85 100
Max. discharge current amplitude
Ur, V Cr, F 2 Im, A 75 150 200 300 400
1000
4 6 8 10
133
K75-60
____________________________________________________________________________

PAPER - FILM CAPACITORS WITH FOIL ELECTRODES
( 50 ) . : .
Designed for use in AC circuits (50 Hz) of microwave ovens.
Design: cylindrical polymeric materials.
housing
made
of
A
0.8
View A
7 1.
6.2 4.4 8.5 7
13
140
42
13
( 50 ) , .
1,0 2,8 +5% <0,008 > 1000 . -25...+70oC 2000 . 12 350
Rated capacitance Rated voltage , V eff (50 Hz) Capacitance tolerance Time constant Time constant Operating temperature range Operating time Shelf life Mass, max
1.0 F 2.8 kV +5% <0.008 > 1000 MOhm.F -25...+70oC 2000 hours 12 years 350 g
: 75-60 - 2,8 - 1 5%
Ordering example: Capacitor K75-60 - 2.8 kV - 1 F 5%
134
75-63

PAPER - FILM CAPACITORS WITH FOIL ELECTRODES
____________________________________________________________________________
, , . 75-15, 75-22, 75-29, 75-47. : .
12max L
Designed to operate in DC, AC and ripple current circuits and in pulse mode. Can be used instead of K75-15, K75-22, K7529, K75-47. Design: cylindrical housing made polymeric materials. Axial terminals. of
12max 121
D
"" Design ""
M6-6g
"" Design "b"
25max
L
25max
D
f = 1 r < 0,22 r > 0,22 K75-63 (+85oC) K75-63 (+70oC)
0,01...10 2,5...40 +5; +10; +20% <0,01 > 12000 > 4000 . -60...+85oC 2000 3000 20
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f=1 kHz Insulation resistance at r < 0.22 F Time constant at r > 0.22 F Operating temperature range Operating time K75-63 (+85oC) K75-63 (+70oC) Shelf life
0.01...10 F 2.5...40 kV +5; +10; +20% <0.01 > 12000 MOhm > 4000 MOhm.F -60...+85oC 2000 hours 3000 hours 20 years
: 75-63 - 4 - 1 10%
Ordering example: Capacitor K75-63 - 4 kV - 1 F 10%
135
D, mm Ur, kV Cr, F 0.022 0.047 0.1 0.22 0.47 1 2.2 4.7 10 0.01 0.022 0.047 0.1 0.22 0.47 1 2.2 4.7 10 0.01 0.022 0.047 0.1 0.22 0.47 1 2.2 4.7 0.01 0.022 0.047 0.1 0.22 0.47 1 0.01 0.022 0.047 0.1 0.22 0.47 1 0.01 0.022 0.047 0.1 0.22 0.47 0.01 0.022 0.047 0.1 Rated value 16 22 32 42 50 63 88 16 22 20 28 40 42 60 77 108 20 16 22 30 45 63 75 105 16 24 32 45 48 63 90 20 28 40 56 75 95 32 45 63 60 85 105 40 50 67 85 Limit discrepancy 1.35 1.65 90 1.95 2.3 2.7 1.35 1.65 90 1.95 2.3 2.7 1.65 1.35 1.65 1.95 2.3 2.7 1.35 1.65 1.95 2.3 2.7 1.65 1.95 2.3 270 2.7 1.95 2.3 2.7 1.95 2.3 2.7 270 140 140 140 140 140 48 90 140 30 48 Rated value 30 48
L, mm Limit discrepancy 1.65 1.95 2.7
Mass, g max 20 30 50 60 160 230 500 800 1600 20 30 50 80 120 230 350 700 1200 2400 40 50 80 140 250 400 800 1100 2100 50 90 160 250 450 800 1500 90 190 300 650 1200 2100 3300 230 400 800 1400 2500 4100 650 1000 1700 2500
Design
a (a)
2.5
3.15 1.65 1.95 2.7
a, (a, b)
a (a)
4.0
3.15 1.95 2.7
a, (a, b)
a (a)
6.3
3.15
a, (a, b)
90
2.7
a (a)
10
3.15
a, (a, b)
a (a)
3.15
16
4.05
3.15
25
a, (a, b)
4.05
40
136
Um f Permissible amplitude of AC sinusoidal component of ripple voltage Um as a function of frequency f
20
%
10
3
Um Ur 2
2
1
0.6 10 102 f 103 104 Hz 2.104
1
1)
2)
3)
16; 25; 40 ; 2,5 (2,2; 4,7; 10 ); 4 (2,2; 4,7; 10 ); 6,3 (1; 2,2; 4,7 ); 10 (0,22; 0,47; 1,0 ); 2,5 (0,47; 1,0 ); 4 (0,1; 0,22; 0,47; 1,0 ); 6,3 (0,047; 0,10; 0,22; 0,47 ); 10 (0,022; 0,047; 0,10 ); 2,5 (0,022; 0,047; 0,10; 0,22 ); 4 (0,01; 0,022; 0,047 ); 6,3 (0,01; 0,022 ); 10 (0,01 ).
1)
2)
3)
16; 25; 40 kV; 2.5 kV (2.2; 4.7; 10 F); 4 kV (2.2; 4.7; 10 F); 6.3 kV (1; 2.2; 4.7 F); 10 kV (0.22; 0.47; 1.0 F); 2.5 kV (0.47; 1.0 F); 4 kV (0.1; 0.22; 0.47; 1.0 F); 6.3 kV (0.047; 0.10; 0.22; 0.47 F); 10 kV (0.022; 0.047; 0.10 F); 2.5 kV (0.022; 0.047; 0.10; 0.22 F); 4 kV (0.01; 0.022; 0.047 F); 6.3 kV (0.01; 0.022 F); 10 kV (0.01 F).
Up , . Peak-to-peak pulse voltage Up must not exceed the values defined from the Figure below.
Up Fp Permissible amplitude of peak-to-peak pulse voltage Up as a function of pulse repetition rate Fp
% 65 60 55 50 45 40 Up Ur 30 35
25
20 0.1 1 Fp 10 102 Hz 103
137
Up Ip Fp , : Up Ip Fp P, P - , ; - , , ; - , , : - 0,8 - ; - 1,0 - ( ) 20%; - , , - ; Ip - , ; Fp - . where P - a parameter specifying loss power tolerance at a natural convective heat transfer along the lateral surface that is given in the table; - a coefficient that allows for the capacitor discharge time. It depends on the duration of the discharge current pulse and is determined from the Figure below; - a coefficient that allows for the discharge mode of the capacitor and is equal to: - 0.8 - for the aperiodic and oscillatory modes with one half-wave of the current; - 1.0 - for the pulse mode with the discharge depths (voltage derating ratio) up to 20%; - values measured from the figure for oscillatory damping mode of discharge; Ip - discharge current amplitude of the capacitor, ; Fp - pulse repetition rate.
Cr, F 0.010 0.022 0.047 0.10 0.22 0.47 1.0 2.2 4.7 10
2.5 4.5 7 10 16 22 27 46 60 70
4.7 4.5 7 10 15 20 25 40 48 70 75
P 10 , VA/c, at Ur, kV 6.3 10 16 17 12 9 25 17 12 36 22 16 45 30 21 60 42 30 75 60 40 140 70 50 70 75 -
-6
25 32 40 50 65 75 150 -
40 55 60 75 130 -
138
p ( 0,5 Ip) as a function of the discharge current pulse duration p (at a level of 0.5 Ip)
20
10
1
0.1 0.1 1
p
10
s
100
Urev/Up as a function of Urev/Up for the oscillatory damped mode of discharge
4
3
2
1
0 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
Urev Up
139
K75-65M

PAPER - METALLIZED FILM CAPACITORS
______________________________________________________________________________________________
, , : .
Designed to operate in DC, AC and ripple current circuits and in pulse mode. Design: metallic sealed housing with radial terminals.
15 max
20+0.65
95+1.75
f = 1
22...200 1 ... 6 10, 20% <0,02 > 500 . -60...+60oC 1 ... 10 * 1000...2500 A 10 (98% . 35oC, 21 ) 1500 .
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f = 1 kHz Time constant Operating temperature range Pulse repetition frequency Discharge current amplitude Shelf life Climatic categories
140+3.15
22 ...200 F 1 ... 6 kV 10, 20% <0.02 > 500 MOhm.F -60...+60oC 1 ... 10 Hz* 1000 ... 2500 A 10 years RH 98%, 35oC, 21 days 1500 g
, max
Mass, max
* > 1 - * At frequency of following of pulses > 1 Hz - cyclic mode
: 75-65M - 6 - 200 10%
Ordering example: Capacitor K75-65M - 6 kV - 200 F 10%
140
Ur, V 1000 2000 4000 6000
Cr, F 200 100 47 22
K Minimum operating time as a function of coefficient K
lg 4.6 (7) (lg N)
3.6 (6)
2.6 (5)
1.6 (4)
0.6 (3) 0.5 0.6 0.7 0.8 0.9 1
K
: - ; - . Minimum operating time given: - in brackets in pulses ; - without brackets in hours.
K=U/Ur
Where K=U/Ur
141
K75-69

PAPER - METALLIZED FILM CAPACITORS
______________________________________________________________________________________________
: .
Designed to operate in pulse mode. Design: cylindrical housing made polymeric materials. Axial terminals. of
12max
1403.15
12max 121 75max

70 2,5 10; 20% > 1000 . -10...+55 C < 150 A , 1000 5.10 . 10 (98% . 35oC, 21 )
3
o
Rated capacitance Rated voltage Capacitance tolerance Time constant Operating temperature range Discharge current amplitude Type of discharge
70 F 2.5 kV 10; 20% > 1000 MOhm.F -10...+55oC < 150 A continuous, ascillatory with one half-wave cycle 1000 g 5.10 imp. 10 years RH 98%, 35oC, 21 days
3
,
Max mass Operating time Shelf life Climatic categories
: 75-69 - 2,5 - 70 10%
Ordering example: Capacitor K75-69 - 2.5 kV - 70 F 10%
142
K75-74

PAPER - FILM CAPACITORS WITH ELECTRODES
____________________________________________________________________________________
. 75-54. : .
Designed to operate in AC current circuit and in pulse mode. Can be used instead of 75-54. Design: cylindrical housing made polymeric materials. Axial terminals. of
12max
L
12max 121
D
"" Design ""
M6-6g
"" Design "b"
25max
L
25max
D
f = 1 r < 0,22 r > 0,22
0,01...4,7 5,0...40 +10; +20% < 0,006 > 3000 1000 . -60...+55oC 5000
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f = 1 kHz Insulation resistance at r < 0.22 F Time constant at r > 0.22 F Operating temperature range Operating time
0.01...4.7 F 5.0...40 kV +10; +20% < 0.006 > 3000 MOhm 1000 MOhm.F -60...+55oC 5000 hours
: 75-74 - 5 - 2,2 20%
Ordering example: Capacitor K75-74 - 5 kV - 2.2 F 20%
143
D, mm Ur, kV Cr, F 0.10 0.22 0.47 1.0 2.2 4.7 0.047 0.10 0.22 0.47 1.0 0.022 0.047 0.10 0.22 0.47 0.01 0.022 0.047 0.10 Rated value 24 34 45 53 75 105 34 45 67 67 105 36 50 71 67 100 36 48 67 100 Limit discrepancy 1.65 1.95 2.3 2.7 1.95 2.3 2.7 1.95 2.3 2.7 1.95 2.3 2.7 270 140 90 Rated value 90
L, mm Limit discrepancy 2.7
Mass, g max 60 120 220 430 930 1900 120 220 460 760 1750 200 410 830 1600 3300 410 760 1600 3200
Design
a (a)
5.0
140
3.15
(b)
2.7
a (a)
10
3.15
20
(b)
4.05
40
Um f Permissible amplitude of AC sinusoidal component of ripple voltage Um as a function of frequency f
Um / Ur, % 100
50
10
1 2 3 4 5 6
1 1 10 100 1000 f, Hz 10000
1) 5,0 (0,1 ) 2) 5 (0,22 ); 10 (0,047 ); 20 (0,022 ); 3) 5 (0,47 ); 10 (0,1 ); 20 (0,047 ); 40 (0,022 ); 4) 5 (1,0 ); 10 (0,22 ); 20 (0,1 ); 40 (0,047 ); 5) 5 (2,2 ); 10 (0,47 ); 20 (0,22 ); 40 (0,1 ); 6) 5 (4,7 ); 10 (1,0 ); 20 (0,47 )
1) 5.0 kV (0.1 F) 2) 5 kV (0.22 F); 10 kV (0.047 F); 20 kV (0.022 F); 3) 5 kV (0.47 F); 10 kV (0.1 F); 20 kV (0.047 F); 40 kV (0.022 F); 4) 5 kV (1.0 F); 10 kV (0.22 F); 20 kV (0.1 F); 40 kV (0.047 F); 5) 5 kV (2.2 F); 10 kV (0.47 F); 20 kV (0.22 F); 40 kV (0.1 F); 6) 5 kV (4.7 F); 10 kV (1.0 F); 20 kV (0.47 F)
144
Up , . Peak-to-peak pulse voltage Up must not exceed the values defined from the Figure below. Up Fp Permissible amplitude of peak-to-peak pulse voltage Up as a function of pulse repetition rate Fp
100
%
80 70 60 50 40 Up Ur 30 25 20 15
10
10-1
1
10 Fp
102
103
Hz
104
Up Ip Fp , : Up Ip Fp P, P - , ; - , , ; - , , : - 0,8 - ; - 1,0 - ( ) 20%; - , , - ; Ip - , ; Fp - . Permissible combinations of Up Ip Fp must not exceed the values calculated from the following formula: Up Ip Fp P, where P - a parameter specifying loss power tolerance at a natural convective heat transfer along the lateral surface that is given in the table. - a coefficient that allows for the capacitor discharge time. It depends on the duration of the discharge current pulse and is determined from the Figure below - a coefficient that allows for the discharge mode of the capacitor and is equal to: - 0.8 - for the aperiodic and oscillatory modes with one half-wave of the current; - 1.0 - for the pulse mode with the discharge depths (voltage derating ratio) up to 20%; - values measured from the figure for oscillatory damping mode of discharge Ip - discharge current amplitude of the capacitor Fp - pulse repetition rate

145
Cr, F
Ur, kV
0.10 0.22 0.47 1.0 2.2 4.7 0.047 0.10 0.22 0.47 1
5
10
P 10 , VA/c 472 642 830 1293 1406 2193 642 830 1113 1592 2123
-6
Cr, F
Ur, kV
P 10 , VA/c 971 1274 1642 2873 3615 1871 2291 2873 3573
-6
0.022 0.047 0.10 0.22 0.47 0.010 0.022 0.047 0.1
20
40
p ( 0,5 Ip) as a function of the discharge current pulse duration p (at a level of 0.5 Ip)
20
10
1
0.1 0.1 1
p
10
s
100
146
Urev/Up as a function of Urev/Up for the oscillatory damped mode of discharge
4
3
2
1
0 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
Urev Up
147
K75-80

PAPER - METALLIZER FILM CAPACITORS
______________________________________________________________________________________________
. : , "" "", "", "".
"" Design "" "" Design "b"
Designed to operate in DC and ripple current and in pulse mode. Design: metallic sealed housing of "", "b", "v" and "g" design.
"" Design "v" "" Design "g"
55 2 . 3
25m ax
M 10 o1 -6 g
M 1 0 o 1 -6 g
25m ax
M 12 - 6 g
M 12-6 g
3502.85
35 0 2 . 8 5
H
631.5 16 0 2
6 3 1. 5
7 3 1 . 5 16 0 2
= 63 D = 135 = 63 for D = 135 mm
A 1.5
CD
CD
= 73 D = 150; 185 = 73 for D = 150; 185 mm 24...1500 F 0.8/1.2 ... 7.0/12 kV 10; 20% <0.01 > 500 MOhm.F -60...+70oC <0.5 Hz <10 Hz < 10000 A aperiodic oscillatory RH 98%, 35oC, 21 days
/ f = 50
24...1500 0,8/1,2 ... 7,0/12 10; 20% <0,01 > 500 . -60...+70oC <0,5 <10 < 10000 A 2 ( 1515069)
Rated capacitance Rated voltage/maximum peak voltage Capacitance tolerance Dissipation factor at f = 50 Hz Time constant Operating temperature range Pulse repetition frequency in continuous mode in cyclic mode Discharge current amplitude Type of discharge Climatic categories
: 75-80 - 3 - 200 10%
Ordering example: Capacitor K75-80b - 3 kV - 200 F 10%
148
H
55 2 . 3
D, mm Ur/Up*, V Cr, F 750 910 1500 560 680 1000 430 560 820 240 330 510 180 220 360 100 150 200 300 100 120 180 100 47 56 91 36 51 75 24 30 47 Rated value 135 150 185 135 150 185 135 150 185 135 150 185 135 150 185 150 135 150 185 135 150 185 150 135 150 185 135 150 185 135 150 185 Limit discrepancy 2 2.3 2 2.3 2 2.3 2 2.3 2 2.3 155 2 2.3 2 2.3 2 2.3 2 2.3 2 2.3 290 290
H, mm Rated value Limit discrepancy
Mass, g max 7000 8200 12400 7000 8200 12400 7000 8200 12400 7000 8200 12400 7000 8200 12400 4500 7000 8200 12400 7000 8200 12400 8200 7000 8200 12400 7000 8200 12400 7000 8200 12400
Design
800/1200
1000/1600
1250/2000
-5.2
1800/3000
2500/4000
, (b,g)
2
3000/5000
3500/6000 4000/6600 5000/8000
-5.2
6000/10000
(g)
7000/12000
Ur/Up*, V 1250/2000 1800/3000 3000/5000 * Ur - ; Up - .
Cr, F 750 510 300
Mass, g max 14400
Design , (a,v)
* Ur - Rated voltage/maximum peak voltage; Up - maximum peak voltage
amb
U2mCF tg g+2(UmFC)2 RA < (70-Tamb) / RT,
RT, tg g, RA - , :
Permissible amplitude of AC sinusoidal component of voltage at amb is expressed by
U2mCF tg g+2(UmFC)2 RA < (70-Tamb) / RT,
where RT, tg g, RA - are parameters given in the table:
149
Ur / Up, V
Cr, F 750
800/1200
910 1500 560
1000/1600
680 1000 430 560
1250/2000 750 820 240 1800/3000 330 510 180 2500/4000 220 360 100 150 3000/5000 200 300 100 3500/6000 120 180 4000/6600 100 47 5000/8000 56 91 6000/10000 36 51 75 24 30 47
7000/12000
RAx10 , Ohm 3.5 1.26 3.4 1.16 3.3 1.06 3.6 1.26 3.5 1.16 3.4 1.16 3.7 1.31 3.54 1.15 3.4 1.16 3.5 1.06 4.1 1.5 3.8 1.2 3.5 1.26 4.3 1.45 4.1 1.25 3.6 1.36 3.1 1.2 4.5 1.8 4.1 1.4 3.7 1.45 4.4 1.9 4.1 1.6 3.8 1.5 3.9 1,6 17.2 5.8 16.4 5.0 14.4 5.4 7.2 5.6 5.8 7.6 6.4 6.0
3
o
RT, C/W
tg gx10
3
Design (b) (g) (b) (g) (b) (g) (b) (g) (b) (g) (b) (g) (b) (g) (b) (g) (a) (v) (b) (g) (b) (g) (b) (g) , (a,b) , (v,g) (b) (g) (b) (g) (b) (g) (b) (g) (b) (g) (b) (g) , (a,b) , (v,g) (b) (g) (b) (g) (b) (g) (b) (g) (b) (g) (b) (g) (b)
1.92 1.82 1.65 1.92 1.82 1.65 1.92 1.82
1.65
1.92 1.82 1.65 1.92 1.82 1.65 2.9 1.92 1.82 1.65 1.92 1.82 1.65 1.82 1.92 1.82 1.65 1.92 1.82 1.65 1.92 1.82 1.65
5.0
(g)
150
() : At the same time root-mean-square value of the a.c. sinusoidal (harmonic) component of the pulse current (Irms max) should not exceed Irms max = 40 for "a", "b" design; Irms max = 90 for "v", "g" design.
K Minimum operating time as a function of coefficient K
lg (lg N) 5.5 (8) 5.1 (7.6) 4.6 (7.1) 4.5 (7)
3.5 (6) 1 2.5 (5) 1.9 (4.4) 1.5 (4)
2
0.5 (3) 0.8 0.87 1.0 1.2 1.4 1.5 1.6 1.66
K
: - ; - . K=U/Ur Minimum operating time given: - in brackets in pulses ; - without brackets in hours. Where K=U/Ur
2 - Ur/Up= 800/1200; 1 -
2 - for Ur/Up = 800/1200 V; 1 - for other Ur.
Im, Max. discharge current amplitude Im Ur / Up, V 800/1200 1000/1600 Cr, F 750 910 1500 560 680 1000 430 560 750 820 240 330 510 180 220 360
1250/2000
1800/3000
2500/4000
Im, 5000 6000 10000 5000 6000 10000 5000 6000 8000 10000 4000 6000 10000 4000 5000 7000
Ur / Up, V 3000/5000
3500/6000 4000/6600 5000/8000
6000/10000 7000/12000
Cr, F 100 150 200 300 100 120 180 100 47 56 91 36 51 75 24 30 47
Im, 4000 5000 6000 10000 5000 5000 6000 5000 2000 2500 3500 2500 3000 5000 2500 2500 3000
151
K75-81
, , . : .

PAPER - METALLIZER FILM CAPACITORS
______________________________________________________________________________________________
Designed to operate in DC, AC and ripple current circuits and in pulse mode. Design: cylindrical housing made polymeric materials. Axial terminals. of
12max
L
12max 121
D
"" Design ""
M6-6g
"" Design "b"
25max
L
25max
D
f = 1 Cr 10 Cr > 10
2,0...600 0,63...6,3 10% 0,016 500 * -60...+70oC 0,1...10 0,1...1,0 45...5000 A 10
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f = 1 kHz Time constant Operating temperature range Pulse repetition frequency for Cr 10 F for Cr > 10 F Discharge current amplitude Shelf life
2.0...600 F 0.63...6.3 kV 10% 0.016 500 MOhm*F -60...+70oC 0.1...10 Hz 0.1...1.0 Hz 45...5000 A 10 years
: 75-81 - 4 - 40 10%
Ordering example: Capacitor K75-81b - 4 kV - 40 F 10%
152
D, mm Ur, kV Cr, F 2 4 6 8 10 20 40 60 80 100 200 400 600 2 4 6 8 10 20 40 60 80 100 200 400 2 4 6 8 10 20 40 60 80 100 200 2 4 6 8 10 20 40 60 80 100 200 2 4 6 8 10 20 40 60 80 100 200 Rated value 14 17 20 21 23 30 42 50 40 44 60 82 105 16 20 24 26 30 40 53 45 52 56 78 110 16 22 28 32 36 48 45 53 63 67 100 21 30 36 40 45 42 60 71 80 90 130 24 33 38 44 34 53 70 88 100 110 150 Limit discrepancy 1.35 Rated value
L, mm Limit discrepancy
Mass, g max 20 30 42 50 56 100 200 290 310 370 680 1270 2070 26 42 65 72 100 190 315 390 520 600 1150 2270 30 50 75 100 125 210 340 470 660 750 1570 50 90 125 150 180 300 600 820 1070 1350 2700 55 100 140 170 190 450 820 1260 1630 2010 3620
Design
a (a)
1.65
75
2.3
0.63
1.95 2.3 2.7 1.35 1.65 1.95 2.3 1.95 2.3 2.7 1.35 1.65 75 1.95 2.3 140 3.15 140 3.15
, (a, b)
a (a)
75
2.3
0.8
, (a, b)
a (a)
1
, (a, b)
2.3 2.7 1.65
140
3.15
75 1.95
2.3
a (a)
1.6
2.3 2.7 3.15 1.65
140
3.15
, (a, b)
75 1.95
2.3
a (a)
2
2.3 140 2.7 3.15 3.15
, (a, b)
153
D, mm Ur, kV Cr, F 2 4 6 8 10 20 40 60 80 100 2 4 6 8 10 20 40 60 80 100 2 4 6 8 10 20 40 60 2 4 6 8 10 20 40 60 2 4 6 8 10 20 40 60 Rated value 32 42 35 40 44 60 80 98 112 125 34 33 39 43 48 63 90 108 125 140 40 38 45 52 58 85 115 140 34 47 58 65 72 102 145 175 38 52 62 71 79 120 165 200 Limit discrepancy Rated value 75 1.95
L, mm Limit discrepancy 2.3
Mass, g max 90 160 190 250 310 560 1070 1600 2050 2610 105 170 240 300 370 640 1350 1900 2610 3300 150 230 330 440 540 1200 2160 3220 190 350 540 690 840 1710 3470 5010 230 440 620 820 1010 2360 4500 6630
Design a (a)
2.5
2.3 2.7 3.15
140
3.15
, (a, b)
75 1.95
2.3
a (a)
3
2.3 2.7 3.15
140
3.15
, (a,b)
75 1.95 2.3 2.7 3.15 1.95 2.3 2.7 3.15 1.95 2.3 2.7 3.15 3.6 140
2.3
a (a)
4
140
3.15
, (a, b)
5
3.15
, (a, b)
6.3
, Max. discharge current amplitude, A Ur, kV 0.63 0.8 1 1.6 2 2.5 3 4 5 6.3
2 45 60 75 100 100 100 300 200 100 300
4 95 120 150 250 300 200 300 200 200 700
6 125 160 200 400 300 200 400 300 300 1000
8 190 240 300 500 500 200 400 300 400 1300
10 250 320 400 600 300 300 500 400 500 1700
20 315 400 500 500 500 500 1000 1000 1000 2000
Cr, F 40 750 960 600 1000 1000 1000 1000 2000 2000 3000
60 1260 800 1000 2000 2000 2000 2000 4000 4000 5000
80 630 800 1000 2000 2000 3000 3000
100 1260 1600 2000 2000 2000 4000 4000
200 1260 1600 2000 2000 2000
400 2250 3000
600 3750 5000
154
T=40 C Minimum operating time as a function of voltage at T=40 C
lg (lg N) 4.0 (6.5) 3.5 (6) 1 2 3
o
o
2.5 (5)
1.5 (4) 2 0.5 (3) 0.3 0.5 0.7 0.9 1.1 3 1.3 1.5 U / Ur 1
- ; N -
1) Ur = 0,63 ; 0,8 ; 1 ; 1,6 2) Ur = 2 ; 2,5 ; 3 3) Ur = 4 ; 5 ; 6,3
- in hours; N - number of pulses
1) Ur = 0.63 kV; 0.8 kV; 1 kV; 1.6 kV 2) Ur = 2 kV; 2.5 kV; 3 kV 3) Ur = 4 kV; 5 kV; 6.3 kV
Um f Permissible maximum amplitude of AC voltage Um as a function of frequency f
1000 800 600
V
400 1
283
200
2 3 4
Um
177 136
100 80
71
105
5
60 6 40 7
24 41
20
10
f, Hz
100
1000
1. 2. 3. 4. 5. 6. 7.
2 F x 5; 6.3 kV; 2 F x 1.6; 2; 2.5 kV; 2; 4 F x 3 kV; 2; 4; 6 F x 4 kV; 4; 6; 8 F x 5; 6.3 kV; 2 F x 0.63; 0.8; 1 kV; 4 F x 1.6; 2 kV; 4; 6; 8; 10 F x 2.5 kV; 6; 8; 10 F x 3 kV; 8; 10 F x 4 kV; 10 F x 5 kV; 10; 20 F x 6.3 kV; 4 F x 0.63 kV; 4; 6 F x 0.8 kV; 4; 6; 8 F x 1 kV; 6; 8; 10 F x 1.6 kV; 6; 8; 10; 20 F x 2 kV; 20 F x 2.5; 3; 4; 5 kV; 40 F x 6.3 kV; 6; 8; 10 F x 0.63 kV; 8; 10; 20 F x 0.8 kV; 10; 20 F x 1 kV; 20; 40 F x 1.6 kV; 40; 60 F x 2; 2.5; 3; 4; 5 kV; 60 F x 6.3 kV; 20; 40; 60; 80; 100 F x 0.63 kV; 40; 60; 80; 100 F x 0.8 kV; 40; 60; 80; 100; 200 F x 1 kV; 60; 80; 100; 200 F x 1.6 kV; 80; 100; 200 F x 2 kV; 80; 100 F x 2.5; 3 kV; 200; 400; 600 F x 0.63 kV; 200; 400 F x 0.8 kV.
155
K75-82

PAPER - FILM CAPACITORS WITH FOIL ELECTRODES
____________________________________________________________________________
. : .
Designed to operate in circuits of trapezoidal AC voltage and in pulse mode. Design: rectangular ceramic bushings. steel housing with
260+3 75 max
M16
380+2 410+2 430+2
4 4
4
165*
350 +4 -2
120+1.5
3
( ) , f = 1
50 2,6 < 200 > 100 25 10; 20% <0,0025 > 1000 . -60...+60oC 40000 15
Rated capacitance Rated voltage (amplitude value) AC voltage frequency Slope duration of trapezoidal voltage Max mass Capacitance tolerance Dissipation factor at f = 1 kHz Time constant Operating temperature range Operating time Shelf life
50 F 2.6 kV < 200 Hz > 100 s 25 kg 10; 20% <0.0025 > 1000 MOhm.F -60...+60oC 40000 hours 15 years
: 75-82 - 2,6 - 50 10%
Ordering example: Capacitor K75-82 - 2.6 kV - 50 F 10%
156
K75-83
, , . 75-81. . : .

PAPER - METALLIZER FILM CAPACITORS
______________________________________________________________________________________________
Designed to operate in DC, AC and ripple current circuits and in pulse mode. Designed for higher frequency than K7581. Design: cylindrical housing made polymeric materials. Axial terminals. of
12max
L
12max 121
D
"" Design ""
M6-6g
"" Design "b"
25max
L
25max
D
f = 1
2,0...100 1,0...6,3 10% <0,004 > 500 . -60...+50 C 5,0...50 75...5000 A 10
o
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f = 1 kHz Time constant Operating temperature range Pulse repetition frequency Discharge current amplitude Shelf life
2.0...100 F 1.0...6.3 kV 10% <0.004 > 500 MOhm.F -60...+50oC 5.0...50 Hz 75...5000 A 10 years
: 75-83 - 5 - 20 10%
Ordering example: Capacitor K75-83b - 5 kV - 20 F 10%
157
Ur, V
1000
2000
3000
5000
6300
Cr, F 2 4 6 8 10 20 40 60 80 100 2 4 6 8 10 20 40 2 4 6 8 10 20 40 2 4 6 8 10 20 2 4 6 8 10
D max, mm 20 25 30 34 38 36 48 58 67 75 27 36 42 49 38 53 73 23 30 37 42 48 65 92 37 50 62 70 78 110 42 60 73 82 92
L max, mm
75
140
75
140
140
140
140
Mass, g max 30 45 65 85 100 180 300 450 600 750 60 110 145 200 230 440 820 90 145 220 275 360 650 1300 220 390 600 760 950 1900 275 560 820 1000 1300
Design a
a, b
a
a, b
a
a, b a a, b a a, b
T=40 C Minimum operating time as a function of voltage at T=40 C
lg
o
o
(lg N)
2 3.5 (6) 1 3
4.0 (6.5)
2.5 (5)
1.5 (4) 2 3 0.5 (3) 0.3 0.5 0.7 0.9 1.1 1.3 1.5 U / Ur 1
- ; N -
1) Ur = 1000 B 2) Ur = 2000 B; 3000 B 3) Ur = 5000 B; 6300 B
- in hours; N - number of pulses
1) Ur = 1000 V 2) Ur = 2000 V; 3000 V 3) Ur = 5000 V; 6300 V
158

U2mCF tg g+2(UmFC)2 RA < 20 / RT,
RT, tg g, RA - , :
Permissible amplitude of AC sinusoidal component of voltage at amb is expressed by
U2mCF tg g+2(UmFC)2 RA < 20 / RT,
where RT, tg g, RA - are parameters given in the table: Ur, V Cr, F 2 4 6 8 10 20 40 60 80 100 2 4 6 8 10 20 40 2 4 6 8 10 20 40 2 4 6 8 10 20 2 4 6 8 10 RA*10 , Ohm 27 16 11 8 7 15 8 6 4 3 25 13 10 7 24 12 6 88 49 31 24 18 10 5 55 29 19 15 12 6 48 23 15 12 10
3
1000
2000
3000
5000
6300
RT, C/W 33 25 21 19 17 10 8 7 6 6 24 18 15 13 9 7 6 15 11 10 9 8 6 5 10 8 7 6 5 4 9 7 6 5 5
o
tg g*10
4
Design a
a, b
a
a, b 20 a
a, b a
a, b a a, b
: Permissible parameters of pulse mode must not exceed the values calculated from the following formulas:
2.4 10 - 4 U 2 C r F lg
1.8 + 1.2 U 2 C r2 F RA / 20 / RT , F
F I0,
1.1 U C r
Im < Immax
159
U - , ; F - , ; - , . I0 = 25 - "a"; I0 = 40 - "b"; Im - Immax - ( ). where U - amplitude of peak-to-peak pulse voltage, V; F - pulse repetition rate; - discharge current pulse duration, s; I0 = 25 - for design "a"; I0 = 40 - for design "b"; Im - discharge current amplitude Immax - Max. discharge current amplitude that is given in the table below , Max. discharge current amplitude, A
Ur, V Cr, F 2 4 6 8 10 20 40 60 80 100 2 4 6 8 10 20 40 2 4 6 8 10 20 40 2 4 6 8 10 20 2 4 6 8 10 Im, A 100 170 220 320 430 380 1100 1100 1100 2300 120 340 340 570 350 600 1043 200 300 400 400 500 1100 1100 100 200 300 450 550 1100 270 600 900 1100 1500
1000
2000
3000
5000
6300
160
K75-84

PAPER - FILM CAPACITORS WITH FOIL ELECTRODES
____________________________________________________________________________
50 . : .
Designed for use as internally mounded built-in components in -circuits 50 Hz or 60 Hz, in communication systems using high voltage wire transmission. Design: cylindrical polymeric materials. housing made of
M6-6g
25max
1403.15
25max
D
f=1
301...10500 6,3 5%; 10% <0,01 > 20000 -45...+85 C 20000 . 10 5.1 ( 15150)
o
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f=1kHz Insulation resistance Operating temperature range Operating time Shelf life Climatic categories
301...10500pF 6.3 kV 5%; 10% < 0.01. > 20000 MOhm. -45...+85oC 20000 hours 10 years RH 98%, 25oC, 21 days
: 75-84 - 6,3 - 576 5%
Cr, pF 301-1500 1500-10500 D max, mm 42 50
Ordering example: Capacitor K75-84 - 6.3 kV - 576 pF 5%
Mass, g max 300 400
: * 50 22 1. 30; * 55 2. 300. Limiting operating modes: * AC sinusoidal voltage frequency of 50Hz with effective value 22kV during no more 1s. Number of influences no more than 30; * Pulse voltage with amplitude 55kV and duration not less than 2s. Number of pulses no more than 300.

161
K75-85
IGBT , __________________________________________________________________________ SNUBBER FILM CAPACITORS WITH FOIL ELECTRODES
, . C2 C1. : .
35 35
Designed to operate in AC and ripple current circuits and in pulse mode. The capacitor consists of two capacitances C2 and one capacitance C1. Design: rectangular metallic housing with bushings.
20 1 C2 80 2 C2 3 30 C1 118 135 150 62
( ) f = 1 , .
C1 = 2 C2 = 0.1 ... 0.2 2.4 10% <0,001 > 4000 . dU/dt < 600 / -60...+85oC 60000 20 1200 .
Rated capacitance Rated voltage (amplitude value) Capacitance tolerance Dissipation factor at f = 1 kHz Time constant Rate of voltage change Operating temperature range Operating time Shelf life Mass, max.
C1 = 2 F C2 = 0.1 ... 0.2 F 2.4 kV 10% <0.001 > 4000 MOhm.F dU/dt < 600 V/s -60 ...+85oC 60000 hours 20 years 1200 g
: 75-85 - 2,4 - 2 + 0,2 x 2 10%
Ordering example: Capacitor K75-85 - 2.4 kV - 2F + 0.2 F x 2 10%
162
K75-86
____________________________________________________________

CAPACITORS WITH FILM AND PAPER DIELECTRIC FOR HIGH CURRENT APPLICATION IN CONVERTING FACILITIES
. : .
Designed for application in converting facilities under high current loadings
Design: capacitors are built in cylindrical metal cases with bushing insulators.
M16 65max D
f = 1 10...47 1,0...2,5 10% <0,001 > 1000 . -50...+70 C 1000 50000 . 10
o
H
Rated capacitance Cr Rated voltage Ur Tolerance on Cr Loss factor tg at f=1kHz Time constant Tc Operating temperature Impulse rep. rate Lifetime expectancy Storage time
10...47 F 1.0...2.5 kV 10% <0.001 1000 Ohm.F -50...+70oC up to 1000 Hz 50.000 hours 10 years
: 75-86 - 2,5 - 10 10%
Ordering example: Capacitor K75-86 - 2.5 kV - 10 F 10%
163
r, F 10 15 22 33 47 10 15 22 10
Ur, kV
Rated value 90 80 95 115 135 120
D, mm Limit discrepancy
Rated value 120
H, mm Limit discrepancy -4
Rated value 40
A, mm Limit discrepancy
Mass, g max 1200
1.0
-3.5 210 -4 -3.5 -4 150 250 210 -4 -4.6 -4.6
-2.5
1500 2100 3100 4200 2400 3300 4700 5800
50 60 50 60 70 -3 -2.5 -3
1.6 2.5
110 130 160
164
K75-88
. : , "" "".
"a" Design "a"

METALLIZED FILM IMPREGNATED CAPACITORS
__________________________________________________________________________________________
Designed to operate in DC and ripple current and in pulse mode. Design: metallic sealed housing of ""and "b" design.
"b" Design "b"
A
M16-6g 552.3
A
M16-6g 65max
L
H
B
L
H
B
f=50 .
18...5600 4 ... 24 10% <0,0035 > 500 . -60...+55 C 0,01 - 1 2,5 - 120 A 10% 2 ( 1515069)
o
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f=50 Hz Time constant Operating temperature range Pulse repetition frequency in continuous mode Discharge current amplitude Type of discharge
18...5600 F 4 ... 24 kV 10% <0.0035 > 500 MOhm.F -60...+55oC 0.01 - 1Hz 2.5 - 120 A Aperiodic or oscillatory, reverse U<10%Ur

Climatic categories
RH 98%, 35oC, 21 days
: 75-88 - 4 - 510 + 10%
Ordering example: Capacitor K75-88 - 4kV - 510F 10%
165
Ur,
kV
Design
Cr, F
L
Limit discrepancy
Dimensions, mm Limit B discrepancy
H
Limit discrepancy
A, mm
Mass, g max
4
a b a
8 b a b a 24 b
12
510 1200 2700 5600 160 330 680 1300 75 160 330 620 18 36 75 150
170 280 420 170 280 420 170 420 170 280 420
2,0 2,6 3,15 2,0 2,6 3,15 2,0 3,15 2,0 2,6 3,15
140 170 340 140 170 340 140 170 340 140 170 340 2,0 2,85 2,0 2,85 2,0 2,85 2,0 2,85
380 490 690 490 380 690 490 380 690
2,85
75 150 200 75 150
3.15
2,85 3,15 2,85
200 75 200
3,15 490 380 690 2,85 3,15
75 150 200
15 30 60 145 20 45 80 145 20 45 80 145 20 45 80 145
Minimum operating time as a function of voltage
lg (lg N)
5 (7) 4.3 (6.3) 4 (6)
3 (5)
2 (4) 1.7 (3.7) 1 (3)
0.2 (2.2) 0 (2) 0.7 0.8 0.9 1 1.1 1.2 1.25
K
: - ; - . K=U/Ur
Minimum operating time given: - in brackets in pulses ; - without brackets in hours. Where K=U/Ur
166

U2mCF tg g+2(UmFC)2 RA < 20 / RT,
RT, tg g, RA - , : Irms - ;
IrmsI0
Permissible amplitude of AC sinusoidal component of voltage at amb is expressed by U2mCF tg g+2(UmFC)2 RA < 20 / RT, IrmsI0 where RT, tg g, RA - are parameters given in the table: Irms - active value current
Ur, kV 4 Cr, F 510 1200 2700 5600 160 330 680 1300 75 160 330 620 18 36 75 150 RA*10 , Ohm 0,7 0,9 0,6 1,2 1,3 1,2 0,7 0,9 1,7 1,6 1,4 1,1 2,0 1,6 1,9 3,1
3
8
12
24
RT, C/W 1,26 0,70 0,48 0,56 0,98 0,70 1,00 0,56 0,98 0,61 0,35 0,56 0,98 0,70 1,00 0,56
o
tg g*10
4
Design a b a b
30 a b a b
: Permissible parameters of pulse mode must not exceed the values calculated from the following formulas:
2.4 10 - 4 U 2 C r F lg
1.8 + 1.2 U 2 C r2 F RA / 20 / RT , F
F I0,
1.1 U C r
Im < Immax U - , ; F - , ; - , . I0 = 150; Im - Immax - ( ).
where U - amplitude of peak-to-peak pulse voltage, V; F - pulse repetition rate; - discharge current pulse duration, s; I0 = 150; Im - discharge current amplitude; Immax - max. discharge current amplitude that is given in the table below
167
,
Max. discharge current amplitude, kA
U, kV 4 C, F 510 1200 2700 5600 160 330 680 1300 75 160 330 620 18 36 75 150 Im, kA 10,5 28 60 120 7 14 30 60 5 10,5 20 40 2,5 5 10 20
8
12
24
168
K75-89

_________________________________________________________________
METALLIZED POLYPROPYLENE FILM CAPACITORS FOR REACTIVE POWER COMPENSATION
: , .
Designed energy.
to
compensate
for
reactive
Capacitors are built in rectangular metal cases with one, two or three terminals.
552.3
1502
M12-6g
H
340
135
(), 50...60 f = 50 .
0,72...430 1050; 3150; 6300; 10500
Capacitance range Cr AC voltage range Ur
0.72...430F 1050V; 3150V; 6300V; 10500V
(effective), with frequency
50...60Hz Tolerance on Cr Loss factor tg at f=50 Hz Power reactive range Qr Time constant C Ambient temperature during operation Expected lifetime Storage time Climatic category
10% 0,005 25...200 > 10000 . -45...+55oC 100000 10
10% 0,005 10...60 kVar 10000 M.F -45...+55oC 100.000 hours 10 years temperate to cold
: 75-89 - 6300 - 6 10%
Part number to order: Capacitor K75-89 - 6300V- 6F 10%
169
Ur, V
Qr, kVar
Cr, F
H, mm
Mass, kg max
1050
3150
6300
10500
50 75 150 25 75 150 25 75 150 25 75 150 200
145 217 430 8 24 48 2 6 12 0.72 2.2 4.3 5.8
300 360 775 180 360 670 160 340 650 160 360 650 650
22 26 54 13 26 47 13 25 45 13 26 45 45
170
K75-90

POLYPROPYLENE FILM IMPREGNATED CAPACITORS WITH FOIL ELECTRODES
_____________________________________________________________________________
. 75-25; 75-54. : .
Designed to operate in AC current circuit and in pulse mode. Can be used instead of K75-25; 75-54. Design: cylindrical housing made polymeric materials. Axial terminals. of
12 max
L 121,35
D
"" Design ""
d
"" Design "b"
25 max
L
D
f = 1 r < 0,22 r > 0,22
0,01...1 5,0...40 10; 20% 0,0005 3000 1000 * -60...+55oC 5000
Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f = 1 kHz Insulation resistance at r < 0.22 F Time constant at r > 0.22 F Operating temperature range Operating time
0.01...1 F 5.0...40 kV 10; 20% 0.0005 3000 MOhm 1000 MOhm*F -60...+55oC 5000 hours
: 75-90 - 5 - 0,22 10%
Ordering example: Capacitor K75-90 - 5 kV - 0.22 F 10%
171
D, mm Ur, kV Cr, F 0.047 0.1 0.22 0.47 1 0.01 0.022 0.047 0.1 0.22 0.47 0.01 0.022 0.047 0.1 0.22 0.01 0.022 0.047 Rated value 19 25 34 46 67 20 27 36 33 45 65 25 35 49 44 63 34 48 67 Limit discrepancy 1.65 1.95 2.3 1.65 75 Rated value
L, mm Limit discrepancy d, mm 2.3 6 8 1.95 2.3 1.65 1.95 2.3 1.95 2.3 270 4.05 140 3.15 6 8 6 8 6 8
Mass, g max 30 40 70 130 260 30 50 80 130 240 490 80 150 280 450 920 270 540 1100
Design a (a) (b) a (a)
5
10
(b) a (a) (b) a (a) (b)
20
40
Um f Permissible amplitude of AC sinusoidal component of ripple voltage Um as a function of frequency f
Um / Ur, % 100
50
1 10 2 3 4 5 6
1 10 102 103 104 f, Hz 105
1) 5 (0,047 ); 10 (0,01 ); 2) 5 (0,1 ); 10 (0,022 ); 20 (0,01 ); 3) 10 (0,047 ); 4) 5 (0,22 ); 10 (0,1 ); 20 (0,022 ); 40 (0,01 ); 5) 5 (0,47 ); 10 (0,22 ); 20 (0,047; 0,1 ); 40 (0,022 ); 6) 5 (1 ); 10 (0,47 ); 20 (0,22 ); 40 (0,047 )
1) 5 kV (0.047 F); 10 kV (0.01 F); 2) 5 kV (0.1 F); 10 kV (0.022 F); 20 kV (0.01 F); 3) 10 kV (0.047 F); 4) 5 kV (0.22 F); 10 kV (0.1 F); 20 kV (0.022 F); 40 kV (0.01 F); 5) 5 kV (0.47 F); 10 kV (0.22 F); 20 kV (0.047; 0.1 F); 40 kV (0.022 F); 6) 5 kV (1 F); 10 kV (0.47 F); 20 kV (0.22 F); 40 kV (0.047 F)
172
, : Permissible parameters of pulse mode must not exceed the values calculated from the following formulas:
2 2.36 10 - 4 Up C r Fp lg
1. 8 P, Fp p I0 ,
1.11 Up C r -
Fp
p
, ; Up - , ; F - , ; p - , . I0 = 25 - ""; I0 = 40 - "" 6; I0 = 60 - "" 8.
where P - a parameter specifying loss power tolerance at a natural convective heat transfer along the lateral surface that is given in the table; Up - amplitude of peak-to-peak pulse voltage, V; Fp - pulse repetition rate; p - discharge current pulse duration, s; I0 = 25 - for design ""; I0 = 40 - for design "b" 6; I0 = 60 - for design "b" 8.
Cr, F Ur, kV
0.047 0.1 0.22 0.47 1 0.01 0.022 0.047 0.1 0.22 0.47
5
10
P, VA 0.68 0.86 1.11 1.41 1.88 0.71 0.92 1.16 1.85 2.30 2.95
Cr, F
Ur, kV
0.01 0.022 0.047 0.1 0.22 0.01 0.022 0.047
20
P, VA 1.50 1.93 2.44 4.09 5.09 3.45 4.32 5.27
40
173
K75-91

POLYPROPYLENE FILM IMPREGNATED CAPACITORS WITH FOIL ELECTRODES FOR INDUCTION HEATING EQUIPMENT
_____________________________________________________________________________
0,5 10 . : .
Designed to compensate for reactive power of induction heating equipment by frequency from 0,5 up to 10 kHz. Design: rectangular metallic housing with bushings.
Nr / 3
Nr / 3
Nr / 3 6 5m ax
L
3 3 0 4 .4 5
B
The form and arrangement of bushings are shown is simplified and are subject to the coordination with the customer
() f = 50 1,2...106 10%, 20% 0,5...2 300; 400 0,005 > 10000 . -45...+55 C 100000 10
o
Capacitance range Cr Tolerance on Cr AC voltage range Vr (rms) Power reactive range Qr Loss factor tg at f=50 Hz Time constant Tc Ambient temperature during operation Expected lifetime Storage time Climatic category
1.2...106F 10%, 20% 0.5...2kV 300; 400kVar 0.005 10000 MOhm.F -45...+55oC 100000 hours 10 years temperate to cold
: 75-91 - 1 - 20 10%
Ordering example: Capacitor K75-91 - 1 kV - 20 F 10%
174
L, mm Design Rated value
, mm Limit discrepancy 4.45 4.85 Rated value Limit discrepancy 2.7
Mass, kg max
1 2
330 410
100 120
20 28
Ur, kV
F, kHz 2.4
Qr, kVAr 300 400 300 400 300 400 300 400 300 400 300 400 300 400 300 400 300 400 300 400 300 400 300 400 300 400 300 400 300 400 300 400 300 400 300 400 300 400
Cr, F 80 106 48 64 19 25.5 75 99 31 41 19 25 7.5 10 95,5 48 64 20 26.5 12 16 4.8 6.4 19 25 7.8 10 4.7 6.2 1.9 2.5 24 12 16 5 6.6 3 4 1.2 1.6
Design 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2
0.5
4 10 1 2.4
0.8 4 10 0.5 1 1 2.4 4 10 1 2.4 1.6 4 10 0.5 1 2 2.4 4 10
175

PAPER - METALLIZED FILM CAPACITORS
______________________________________________________________________________________________
: .673631.000 . : , , .
30
Specificatios: ADPK.673631.000 TU Designed to operate in pulse mode. Design: metallic sealed housing. rectangular hermetically
86 f = 50 Cr = 100 Cr = 160 Cr = 200 100, 160, 200* 500, 1000 -10 ... +30% <0,01 > 1000 . -60...+60oC <0.1 <3 <1.5 5.1 2.1 Rated capacitance Rated voltage Capacitance tolerance Dissipation factor at f = 50 Hz Time constant Operating temperature range Pulse repetition frequency at Cr = 100 F at Cr = 160 F at Cr = 200 F Climatic categories 100, 160, 200* F 500, 1000 V -10 ... +30% <0.01 > 1000 MOhm.F -60...+60oC <0.1 Hz <3 Hz <1.5 Hz RH 98%, 35oC, 21 days
Cr, F Ur, V 160 500 100 1000 200* 1000* * * Are produced only under special orders
B, mm 86 156
B
140
h
h max, mm 18 15
Mass, g max 1750 2950
:
- 1000 - 100 .673631.000
Ordering example:
Capacitor MBGV - 1000 V - 100F ADPK.673631.000 TU
176

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