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Электронный компонент: K73-24в

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K73-24
___________________________________________________________________________________________
METALLIZED POLYESTER FILM CAPACITORS
:
.673633.010
,
,
.
73-17, 73-30,
73-34, 73-5.
:
.
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
.
20
+5
L max
H m
a
x
3 m
a
x
A
d
B max
0,001 .... 6,8
Rated capacitance
0,001 .... 6,8 F
(
-60
o
C ...+85
o
C)
63; 100; 160; 250;
400; 630
Rated voltage
(temperature range
-60
o
C...+85
o
C)
63; 100; 160; 250;
400; 630 V
5; 10; 20 %
Capacitance tolerance
5; 10; 20 %
f = 1
0,012
Dissipation factor at f = 1 kHz
0,012
C
0,33
3000 MO
Insulation
resistance
at Cr 0,33 F
3000 MOhm
>0,33
1000 MO
Time constant
at
r >0,33 F
1000 MOhmF
-60...+125
o
C
Operating
temperature
range
-60...+125
o
C
10%
Capacitance
change
within
positive temperature range
10%
15 000
Operating time
15 000 hours
10
Shelf
life
10
years
(933%
.
402
o
C, 10
)
Climatic categories
RH 933%,
402
o
C, 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)
U
=100 / U
r
=100 V
U
=250 / U
r
=250 V
,
C
r
, F
L
max
,
mm
H
max
,
mm
B
max
,
mm
A,
mm
d,
mm
,
Mass, g
max
L
max
,
mm
H
max
,
mm
B
max
,
mm
A,
mm
d,
mm
,
Mass, g
max
0.0010
0.0015
0.0022
0.0033
0.0047
0.0068
9 9
0.0082
0.010
0.012
0.015
0.018
0.022
0.027
10.5
4.5
2.0
0.033
0.039
0.047
11
6
7.5
0.056
0.068
0.082
0.10
11
7.5
2.0
0.12
0.15
13
11.5
7.5
10
0.6
3
0.15
4.5
18
13
6
15
0.8
3.5
0.18
4.8
9.3
3.1
0.22
13.5
11.5
11
10
0.6
3.4
0.22
5.0
18
14
7
0.8
4.0
0.27
10.5
3.0
6.1
3.7
0.33
13
7.1
4.3
0.39
6.0
8.2
4.3
0.47
19.5
16
9.4
15
0.6
4.8
0.47
13.5
6.6
10
3.2
23
18
7.5
20
0.8
5.5
0.56
5.6
3.7
9.4
5.2
0.68
19.5
11.2
15
0.6
5.6
0.68
11.5
6.7
4.0
23
9.0
20
7.0
0.82
5.6
4.2
8.8
6.3
1.0
27
19
22.5
6.9
1.0
6.7
4.5
23
21
10.5
20
0.8
9.0
1.2
7.8
4.7
1.5
19.5
15.5
8.5
15
0.6
5.0
1.8
6.0
2.2
6.7
5.8
2.7
7.2
6.6
3.3
27
20
8.5
22.5
6.8
3.9
8.0
4.7
8.5
8.3
5.6
10
6.8
33
23
11
27.5
0.8
12
U
=63 / U
r
=63 V
U
=160 / U
r
=160 V
,
C
r
, F
L
max
,
mm
H
max
,
mm
B
max
,
mm
A,
mm
d,
mm
,
Mass, g
max
L
max
,
mm
H
max
,
mm
B
max
,
mm
A,
mm
d,
mm
,
Mass,g
max
1.0 18
15
8
15
4.5
1.5 18
15
5.5
19 9
5.8
2.2
19 8.5
7.0
24
22 10
20
1.0
6.8
3.3
23
21 10.5
0.8
9.0
4.7 24 25 12
20
1.0 12
U
=400 / U
r
=400 V
U
=630 / U
r
=630 V
,
C
r
, F
L
max
,
mm
H
max
,
mm
B
max
,
mm
A,
mm
d,
mm
,
Mass, g
max
L
max
,
mm
H
max
,
mm
B
max
,
mm
A,
mm
d,
mm
,
Mass,g
max
0.010 10.5
2.0
0.015
13
6 0.6
3.0
0.022 10.5
2.0
13
15 7
10
3.4
0.033 13
6 0.6
3.0 13
6
3.6
0.047
13
15 7
10
3.4 14
7
4.0
0.068 13
5
3.6
18
15 8
15
4.7
0.10 14
6
4.0 18
7
5.8
0.15
18
15 8
15
4.7 19
8.5
6.0
0.22 18
7
5.8
23
21 10.5
0.8
6.8
0.33 19
8.5
6.0 24
11.5
8.3
0.47
23
21 10
0.8
6.8
25
25 15.5
20
1.0
12.0
0.68 24
11
8.3
1.0
24
27 14
20
1.0
12.0
U
t
U
t
%
-60
0
20
40
60
80
t
o
100
125
100
75
50
25
120
U
Permissible voltage
U
t
as a function of
ambient temperature
U
f
f
Permissible amplitude of AC sinusoidal voltage or amplitude of AC sinusoidal component of ripple voltage
U
f
as a function of frequency f
2
10
10
-1
0
10
2
10
10
-3
1
U
f
U
t
4
6
8
2
4
6
8
2
4
6
8
%
10
-1
1,5
10
10
10
10
1
2
0
5
f
10
3
10
4
10
-2
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
5
2
5
10
6
C
630
400
250
160
100
63
U
,
U
f
:
: f=110
4
, U
t
=U
=630 ,
=0,1
: U
f
=13%
U
=82
: f =110
4
, U
t
=U
=250 ,
=1500
: U
f
=64,5%
U
=161
Example of calculation of U
f
:
Given: f =110
4
Hz , U
t
=U
r
=630 V,
r
=0,1 F
Finding: U
f
=13% of U
r
=82 V
Given: f =110
4
Hz , U
t
=U
r
=250 V,
r
=1500 pF
Finding: U
f
=64,5% of U
r
=161 V
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
630
400
250
160
100
63
U
,
2
10
10
10
10
U
U
t
4
6
8
2
4
6
8
2
4
6
8
%
-1
0
2
1
10
-3
10
-1
1,5
10
10
10
10
1
2
0
5
F
10
3
10
4
10
-2
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
5
2
5
10
6
C
U
u
u =
10 C
-4
u =
10 C
u =
10 C
-5
-6
u
c

U :
:
F =210
4
,
=10
-6
c,
U
t
=U
=630 ,
=0,22
:
U =6%
U
=37,8
:
F =210
4
,
=10
-6
c,
U
t
=U
=63 ,
=0,01
:
U =40%
U
=25,2
Example of calculation of U :
Given:
F =210
4
Hz ,
=10
-6
s,
U
t
=U
r
=630 V,
r
=0,22 F
Finding:
U =6% f U
r
=37,8 V
Given:
F =210
4
Hz ,
=10
-6
s,
U
t
=U
r
=63 V,
r
=0,01 F
Finding:
U =40% f U
r
=25,2 V
I
m
dU/dt
Maximum permissible amplitude of pulse current
I
m
and rate of the voltage change dU/dt
U
,
U
r
, V
,
C
r
, F
I
m
, max, A
dU/dt, max, V/s
63
1,5...4,7
16,5...51,7
11
0,001...0,0068
0,14...0,95
140
0,0082...0,027
0,71...2,35
87
0,033...0,1
1,55...4,7
47
0,12...0,47
3,36...13,1
28
0,56...1,5
8,4...22,5
15
100
1,8...6,8
14,4...54,4
8
160
1,0...2,2
16,0...35,2
16
0,001...0,0068
0,14...0,95
140
0,0082...0,047
0,71...4,1
87
0,056...0,15
3,0...8,2
55
0,15(L=18 mm)
4,5
30
0,18...0,22
9,9...12,1
55
0,22(L=18 mm)
5,9
27
0,27...0,47
8,6...15
32
0,47(L=23 mm)
7,5
16
0,56...0,68
17,9...21,7
32
0,68(L=23 mm)
14,9
22
250
0,82...1,0
13,9...17,0
17
0,022...0,047
7,3...15,5
330
0,068...0,15
6,0...13,6
91
400
0,22...1,0
13,6...62,0
62
0,01...0,022
5,0...11,0
500
0,033...0,068
4,6...9,6
142
630
0,1...0,47
9,0...42,3
90