BRU10SF [VISHAY]
250mA 10kV 75nS High Voltage Medium and High Current Diodes;型号: | BRU10SF |
厂家: | VISHAY |
描述: | 250mA 10kV 75nS High Voltage Medium and High Current Diodes |
文件: | 总23页 (文件大小:128K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
BC Components
Product specification
Varistors
2322 592 to 2322 595
FEATURES
MARKING
MOUNTING
• Zinc oxide disc, epoxy coated
• Straight leads
The varistors are marked with the
following information:
The varistors are suitable for
processing on automatic insertion
and cutting and bending equipment.
• Maximum continuous RMS voltage
• Straight leads with flange
Varistors with flanged leads provide
better positioning on printed-circuit
boards (PCB) and more accurate
control over component height. This
is important for hand mounting and
automatic insertion techniques;
see Fig.4.
(2322 592 and 593 series only)
• Series number (592, 593, 594 or
595)
• Kinked leads.
• Manufacturers logo
• Date of manufacture.
APPLICATION
• Suppression of transients.
ORDERING INFORMATION
The varistors are available in a
number of packaging options:
DESCRIPTION
Soldering
The varistors consist of a disc of low-β
ceramic material with two tinned solid
copper leads. They are coated with a
layer of ochre coloured epoxy, which
provides electrical, mechanical and
climatic protection. The
encapsulation is resistant to all
cleaning solvents in accordance with
“IEC 60068-2-45”.
≤240 °C; duration ≤5 s.
• Bulk
• On tape on reel
• On tape in ammopack.
Resistance to heat
≤260 °C; duration ≤5 s.
The basic ordering code for each
option is given in Tables 3, 4 and 5.
To complete the catalogue number
and to determine the required
INFLAMMABILITY
The varistors are non-flammable.
operating parameters, see Table 7.
QUICK REFERENCE DATA
PARAMETER
VALUE
UNIT
Maximum continuous voltage:
RMS
DC
14 to 550
18 to 745
V
V
A
N
Maximum non-repetitive transient current Inrp (8 × 20 µs)
Robustness of terminations
Drop test:
100 to 4500
10
Height of fall
1
m
Detailed specification
based on CECC 42000
40/085/56
Climatic category
1999 May 17
306
BC Components
Product specification
Varistors
2322 592 to 2322 595
MECHANICAL DATA
D
T
D
T
A
0
A
L
F
F
d
L
CCB175
d
CCB176
For dimensions, see Table 1.
For dimensions, see Table 1.
Fig.2 Outline of component with straight leads
and flange.
Fig.1 Outline of component with straight leads.
D
T
A
0
1 min.
F
0.3
L
d
MBD256
CCB177
1.4 to 1.6
For dimensions, see Table 1.
Dimensions in mm.
Fig.3 Outline of component with kinked leads.
Fig.4 Outlines of flanged leads.
1999 May 17
307
BC Components
Product specification
Varistors
2322 592 to 2322 595
Table 1 Component dimensions and catalogue numbers
D
MAX.
(mm)
A
MAX.
(mm)
A0
MAX.
(mm)
L
T
T
d
F
CATALOGUE
NUMBER
MIN.
(mm)
MAX.
(mm)
MIN.
(mm)
(mm)
(mm)
7.0
9.0
9.0
11.0
15.5
19.0
11.0
13.0
18.0
23.0
27.0
27.0
17.0
16.0
6
6
7
7
4.1
4.1
4.4
4.4
0.6 +0.0/−0.02
0.6 +0.0/−0.02
0.8 +0.0/−0.02
0.8 +0.0/−0.02
5 +0.6/−0.1
5 +0.6/−0.1
7.5 ±0.8
2322 592 .....
2322 593 .....
2322 594 .....
2322 595 .....
13.5
17.0
7.5 ±0.8
PACKAGING
T
P
∆ p
∆ h
∆ h
∆ p
D
A
F
Ø d
H
W
W
2
0
W
1
W
A
D
0
P
P
F
0
1
t
MBE584
detail A
For dimensions, see Table 2.
Fig.5 Taped version with straight leads (only for 2322 592 and 2322 593 series).
1999 May 17
308
BC Components
Product specification
Varistors
2322 592 to 2322 595
T
P
∆ p
∆ h
∆ h
∆ p
D
A
F
Ø d
H
W
W
2
0
W
1
W
A
P
P
F
D
0
1
0
t
MLA703 - 1
detail A
For dimensions, see Table 2.
Fig.6 Taped version with straight leads (only for 2322 594 and 2322 595 series).
P
T
∆ p
∆ p
∆ h
∆ h
D
A
0
Ø d
H
W
W
0
2
0
W
1
W
A
P
D
0
F
P
1
t
0
CCA440
detail A
For dimensions, see Table 2.
Fig.7 Taped version with flanged leads (only for 2322 592 and 2322 593 series).
309
1999 May 17
BC Components
Product specification
Varistors
2322 592 to 2322 595
P
T
∆p
∆p
∆h
∆h
D
A
0
1 min.
d
H
0
W
W
2
0
W
1
W
A
P
D
F
1
0
t
P
CCB178
0
detail A
For dimensions, see Table 2.
Fig.8 Taped version with kinked leads (only for 2322 592 and 2322 593 series).
T
P
∆p
∆p
∆h
∆h
D
A
0
1 min.
d
H
0
W
W
2
0
W
1
W
A
P
F
D
0
1
t
P
CCB179
0
detail A
For dimensions, see Table 2.
Fig.9 Taped version with kinked leads (only for 2322 594 and 2322 595 series).
310
1999 May 17
BC Components
Product specification
Varistors
2322 592 to 2322 595
Table 2 Taping data (based on “IEC 60286-2”)
DIMENSIONS
NOMINAL
(mm)
TOLERANCE
(mm)
SYMBOL
PARAMETER
body diameter
REMARKS
D
see Table 1
T
total thickness
mounting height
lead diameter
see Table 1
see Table 1
see Table 1
A0; A
d
guaranteed between
component and tape
F
lead to lead distance
component pitch
feed hole pitch
see Table 1
P
12.7 or 25.4
±1.0
±0.3
cumulative pitch error
±1 mm/20 pitches
P0
12.7
guaranteed between
component and tape
P1
feed hole centre to lead centre
3.85 or 8.95
±0.7
∆p
∆h
W
component alignment
component alignment
tape width
0.0
±1.3
0.0
±2.0
18.0
+1.0/−0.5
W0
W1
W2
hold down tape width
hole position
≥12.5
±0.5
≤3.0
9.0
hold down tape position
straight lead version
2322 594 and 2322 585
18.0
20.0
+2.0/−0.0
+2.0/−0.0
height between component
and tape centre
H
straight lead version
2322 592 and 2322 593
H0
D0
t
lead-wire flange height
feed hole diameter
total tape thickness
16.0 or 18.25
4.0
±0.5
±0.2
flanged and kinked lead versions
≤1.4
with cardboard tape 0.5 ±0.1 mm
1999 May 17
311
BC Components
Product specification
Varistors
2322 592 to 2322 595
Table 3 Varistors on tape on reel
2322 592 ..... 2322 593 ..... 2322 594 ..... 2322 595 .....
TYPE
7 mm
9 mm
13.5 mm
17 mm
14 V to 460 V 14 V to 460 V 14 V to 550 V 14 V to 460 V
Straight leads:
H = 18 mm (2322 594 and 2322 595); see Fig.6
H = 20 mm (2322 592 and 2322 593); see Fig.5
Straight leads with flange; H0 = 16 mm; see Fig.7
Straight leads with flange; H0 = 18.25 mm; see Fig.7
Kinked leads; H0 = 18.25 mm; see Fig.9
Kinked leads; H0 = 16 mm; see Fig.8
0...6
0...6
1...6
2...6
3...6
8...6
0...6
0...6
1...6
2...6
3...6
8...6
0...6
0...6
−
0...6
0...6
−
−
−
3...6
8...6
3...6
8...6
Package quantities
14 V to 460 V
510 V to 550 V
3000
3000
1500
1200
1500
1200
−
−
3
3
18
18
1
0
356
max
1
0
356
max
30
77
85.6 92
30
77
85.6 92
22.5
22.5
MBC026
MBD257
42
1
46
1
56 max
60 max
Dimensions in mm.
Fig.10 Dimensions of reels.
312
1999 May 17
BC Components
Product specification
Varistors
2322 592 to 2322 595
Table 4 Varistors on tape in ammopack
2322 592 .....
2322 593 .....
9 mm
2322 594 .....
13.5 mm
2322 595 .....
17 mm
TYPE
Straight leads;
7 mm
14 V to 460 V
14 V to 460 V
14 V to 550 V
14 V to 550 V
H = 18 or 20 mm;
see Figs 5 and 6
0...7
0...7
0...7
0...7
Straight leads with flange;
H0 = 16 mm; see Fig.7
1...7
2...7
3...7
8...7
1...7
2...7
3...7
8...7
−
−
Straight leads with flange;
H0 = 18.25 mm; see Fig.7
−
−
Kinked leads;
H0 = 18.25 mm; see Fig.9
3...7
8...7
3...7
8...7
Kinked leads;
H0 = 16 mm; see Fig.8
Package quantities
14 to 175 V
230 to 460 V
230 to 300 V
320 to 550 V
1500
1000
−
1500
1000
−
750
−
750
−
600
500
600
500
−
−
52 or 55 max
340 max
250
max
MBC996 - 1
Dimensions in mm.
Fig.11 Dimensions of ammopack.
313
1999 May 17
BC Components
Product specification
Varistors
2322 592 to 2322 595
Table 5 Varistors in bulk
2322 592 .....
7 mm
2322 593 .....
9 mm
2322 594 .....
13.5 mm
2322 595 .....
17 mm
TYPE
14 V to 460 V
14 V to 460 V
14 V to 550 V
14 V to 550 V
Straight leads; see Fig.1
Straight leads with flange; see Fig.2
Kinked leads; see Fig.3
5...6
7...6
6...6
250
5...6
7...6
6...6
250
5...6
−
5...6
−
6...6
250
6...6
Package quantities
100 and 250
1999 May 17
314
BC Components
Product specification
Varistors
2322 592 to 2322 595
ELECTRICAL CHARACTERISTICS
Table 6 Electrical data
PARAMETER
VALUE
UNIT
Maximum continuous voltage:
RMS
14 to 550
V
V
DC
18 to 745
Maximum non-repetitive transient current (Inrp) (8 × 20 µs):
2322 592 .....
100 or 400
A
A
A
A
2322 593 .....
250 or 1200
500 or 2500
1000 or 4500
2322 594 .....
2322 595 .....
Thermal resistance:
2322 592 .....
≈80
≈70
≈60
≈50
K/W
K/W
K/W
K/W
2322 593 .....
2322 594 .....
2322 595 .....
Maximum dissipation:
2322 592 .....
100
mW
mW
mW
mW
%/K
V
2322 593 .....
250
2322 594 .....
400
2322 595 .....
600
Temperature coefficient of voltage at 1 mA maximum
Voltage proof between interconnected leads and case
Climatic category
−0.065
2500
40/085/56
MBD255 - 1
V
(%)
100
0
40
80
o
125
T ( C)
Fig.12 Derating curve.
315
1999 May 17
BC Components
Product specification
Varistors
2322 592 to 2322 595
Table 7 Electrical data and ordering information
Replace last digit of catalogue number with a ‘7’ for ordering on tape in ammopack.
MAXIMUM
MAXIMUM
MAXIMUM
CONTINUOUS
VOLTAGE
MAXIMUM
ENERGY(3)
NON-REP.
TRANSIENT
CURRENT(4)
Inrp (8 × 20 µs)
TYPICAL
CATALOGUE
CAPACITANCE
NUMBERS
VOLTAGE(2)
at 1 mA
VOLTAGE
at STATED
CURRENT
(10 × 1000 µs)
at 1 kHz
RMS(1)
(V)
DC
(V)
V
(V)
I
(V)
(J)
(A)
(pF)
2322 ... .....
(A)
14
17
20
25
30
35
40
50
18
22
26
31
38
45
56
65
22
48
43
43
1.0
2.5
5.0
0.5
1.7
4.3
5.4
0.7
2.0
5.3
6.9
0.8
2.5
6.5
8.8
0.9
3.0
7.7
9.4
1.1
3.6
9.2
12.0
1.4
4.4
11.0
14.0
1.6
5.2
13.0
17.0
2.6
7.0
12.0
21.0
100
250
1300
2800
6000
15000
1050
2000
4000
10000
900
592 .1406(5)
593 .1406(5)
594 .1406(5)
595 .1406(5)
592 .1706(5)
593 .1706(5)
594 .1706(5)
595 .1706(5)
592 .2006(5)
593 .2006(5)
594 .2006(5)
595 .2006(5)
592 .2506(5)
593 .2506(5)
594 .2506(5)
595 .2506(5)
592 .3006(6)
593 .3006(6)
594 .3006(6)
595 .3006(6)
592 .3506(6)
593 .3506(6)
594 .3506(6)
595 .3506(6)
592 .4006(6)
593 .4006(6)
594 .4006(6)
595 .4006(6)
592 .5006(6)
593 .5006(6)
594 .5006(6)
595 .5006(6)
500
43 10.0
1000
100
27
33
39
47
56
68
82
60
53
53
1.0
2.5
5.0
250
500
53 10.0
1000
100
73
65
65
1.0
2.5
5.0
250
1500
3000
7500
500
500
65 10.0
1000
100
86
77
77
1.0
2.5
5.0
250
1350
2600
6500
700
500
77 10.0
1000
100
96
93
93
1.0
2.5
5.0
250
1600
2700
6000
560
500
90 10.0
1000
100
123
1.0
2.5
5.0
115
110
250
1300
2200
4800
460
500
105 10.0
1000
100
145
135
130
1.0
2.5
5.0
250
1000
1800
3800
370
500
130 10.0
145 5.0
1000
400
140 10.0
140 25.0
140 50.0
1200
2500
4500
900
1500
3100
1999 May 17
316
BC Components
Product specification
Varistors
2322 592 to 2322 595
MAXIMUM
NON-REP.
TRANSIENT
CURRENT(4)
Inrp (8 × 20 µs)
MAXIMUM
VOLTAGE
at STATED
CURRENT
MAXIMUM
CONTINUOUS
VOLTAGE
MAXIMUM
ENERGY(3)
(10 × 1000 µs)
TYPICAL
CATALOGUE
CAPACITANCE
NUMBERS
VOLTAGE(2)
at 1 mA
at 1 kHz
RMS(1)
(V)
DC
(V)
V
(V)
I
(V)
(J)
(A)
(pF)
2322 ... .....
(A)
60
75
85
100
125
170
180
200
225
300
100
165
5.0
2.9
8.3
400
1200
2500
4500
400
290
700
1200
2300
240
530
1000
1900
180
450
800
1500
130
320
580
1050
120
290
540
950
110
592 .6006(6)
593 .6006(6)
594 .6006(6)
595 .6006(6)
592 .7506(6)
593 .7506(6)
594 .7506(6)
595 .7506(6)
592 .9506(6)
593 .9506(6)
594 .9506(6)
595 .9506(6)
592 .1316(6)
593 .1316(6)
594 .1316(6)
595 .1316(6)
592 .1416(6)
593 .1416(6)
594 .1416(6)
595 .1416(6)
592 .1516(6)
593 .1516(6)
594 .1516(6)
595 .1516(6)
592 .1716(6)
593 .1716(6)
594 .1716(6)
595 .1716(6)
592 .2316(6)
593 .2316(6)
594 .2316(6)
595 .2316(6)
165 10.0
165 25.0
165 50.0
15.0
24.0
3.4
120
150
205
220
240
275
360
190
5.0
200 10.0
200 25.0
200 50.0
10.0
18.0
29.0
4.1
1200
2500
4500
400
95
230
5.0
250 10.0
250 25.0
250 50.0
13.0
22.0
37.0
5.5
1200
2500
4500
400
130
140
150
175
230
310
5.0
340 10.0
340 25.0
340 50.0
17.0
30.0
56.0
6.3
1200
2500
4500
400
350
5.0
370 10.0
370 25.0
370 50.0
21.0
33.0
57.0
7.1
1200
2500
4500
400
395
5.0
400 10.0
400 25.0
400 50.0
20.0
36.0
59.0
7.3
1200
2500
4500
400
270
490
850
90
410
5.0
455 10.0
455 25.0
455 50.0
23.0
41.0
67.0
10.0
30.0
54.0
88.0
1200
2500
4500
400
230
430
750
70
560
5.0
600 10.0
600 25.0
600 50.0
1200
2500
4500
170
320
540
1999 May 17
317
BC Components
Product specification
Varistors
2322 592 to 2322 595
MAXIMUM
NON-REP.
TRANSIENT
CURRENT(4)
Inrp (8 × 20 µs)
MAXIMUM
VOLTAGE
at STATED
CURRENT
MAXIMUM
CONTINUOUS
VOLTAGE
MAXIMUM
ENERGY(3)
(10 × 1000 µs)
TYPICAL
CATALOGUE
CAPACITANCE
NUMBERS
VOLTAGE(2)
at 1 mA
at 1 kHz
RMS(1)
(V)
DC
(V)
V
(V)
I
(V)
(J)
(A)
(pF)
2322 ... .....
(A)
250
275
300
320
385
420
460
320
350
385
420
505
560
615
390
600
5.0
11.0
33.0
58.0
96.0
12.0
36.0
63.0
104.0
13.0
40.0
71.0
117.0
15.0
44.0
77.0
120.0
18.0
51.0
67.0
110.0
20.0
56.0
73.0
120.0
21.0
63.0
82.0
135.0
89.0
145.0
98.0
160.0
400
1200
2500
4500
400
60
160
300
480
55
592 .2516(6)
593 .2516(6)
594 .2516(6)
595 .2516(6)
592 .2716(6)
593 .2716(6)
594 .2716(6)
595 .2716(6)
592 .3016(6)
593 .3016(6)
594 .3016(6)
595 .3016(6)
592 .3216(6)
593 .3216(6)
594 .3216(6)
595 .3216(6)
592 .3816(6)
593 .3816(6)
594 .3816(6)
595 .3816(6)
592 .4216(6)
593 .4216(6)
594 .4216(6)
595 .4216(6)
592 .4616(6)
593 .4616(6)
594 .4616(6)
595 .4616(6)
594 .5116(6)
595 .5116(6)
594 .5516(6)
595 .5516(6)
650 10.0
650 25.0
650 50.0
430
470
510
620
680
750
695
5.0
710 10.0
710 25.0
710 50.0
1200
2500
4500
400
140
270
440
50
750
5.0
800 10.0
800 25.0
800 50.0
1200
2500
4500
400
130
240
400
45
800
5.0
850 10.0
850 25.0
850 50.0
1200
2500
4500
400
120
220
370
40
1000
5.0
1025 10.0
1025 25.0
1025 50.0
1200
2500
4500
400
95
180
280
35
1100
5.0
1120 10.0
1120 25.0
1120 50.0
1200
2500
4500
400
85
165
250
30
1200
5.0
1240 10.0
1240 25.0
1240 50.0
1355 25.0
1355 50.0
1500 25.0
1500 50.0
1200
2500
4500
2500
4500
2500
4500
75
150
225
135
220
120
180
510
550
670
745
820
910
1999 May 17
318
BC Components
Product specification
Varistors
2322 592 to 2322 595
Notes to Table 7
1. The sinusoidal voltage is assumed as the normal operating condition. If a non-sinusoidal voltage is present, type
selection should be based on multiplying the peak voltage by a factor of 0.707.
2. The voltage measured at 1 mA meets the requirements of “paragraph 4.3 of CECC specification 42000”.
The tolerance on the voltage at 1 mA is ±10%.
3. High energy surges are generally of longer duration. The maximum energy for one pulse of 10 × 1000 µs is given as
a reference for longer duration pulses. This pulse can be characterised by peak current (Ip) and pulse width t2 (virtual
time of half Ip value, following “IEC 60060-2, section 6”). If Vp is the clamping voltage corresponding to Ip, the energy
absorbed in the varistor is determined by the formula:
E = K × Vp × Ip × t2
where:
K is dependent on the value of t2 when the value of t1 is between 8 µs and 10 µs; see Fig.13.
4. A current wave of 8 × 20 µs (requirement of “paragraph B.2.10.1 of CECC specification 42000”) is used as a
standard for pulse current and clamping voltage ratings. The maximum non-repetitive transient current is given for
one pulse applied during the life of the component.
5. Only available on request
6. CECC approved types.
CCB922
handbook, halfpage
I
p
t
(µs)
K
2
(%)
20
50
100
1000
1
1.2
1.3
1.4
100
90
50
10
0
t
(µs)
t
1
t
2
Fig.13 Peak current as a function of pulse width.
1999 May 17
319
BC Components
Product specification
Varistors
2322 592 to 2322 595
max. leakage current
max. clamping voltage
MBD243
400
300
V
(V)
.4006
.3506
200
.3006
.2506
.2006
.1706
.1406
100
80
60
50
40
30
20
10
10
5
4
3
2
1
2
3
I (A)
10
10
10
10
1
10
10
10
Fig.14 V/I characteristics, 14 V to 40 V (RMS); 2322 592 series.
max. leakage current
max. clamping voltage
MCD668 - 1
3000
V
.4616
(V)
2000
.4216
.3816
.3216
.3016
.2716
.2516
.2316
.1716
.1516
.1416
.1316
.9506
.7506
.6006
.5006
1000
800
600
500
400
300
200
100
80
60
50
40
10
5
4
3
2
1
2
3
4
10
10
10
10
1
10
10
10
10
I (A)
Fig.15 V/I characteristics, 50 V to 460 V (RMS); 2322 592 series.
320
1999 May 17
BC Components
Product specification
Varistors
2322 592 to 2322 595
max. leakage current
max. clamping voltage
MBD240
400
300
V
(V)
.4006
.3506
.3006
.2506
.2006
200
.1706
.1406
100
80
60
50
40
30
20
10
10
5
4
3
2
1
2
3
I (A)
10
10
10
10
1
10
10
10
Fig.16 V/I characteristics, 14 V to 40 V (RMS); 2322 593 series.
max. leakage current
max. clamping voltage
MCD669 - 1
3000
2000
V
(V)
.4616
.4216
.3816
.3216
.3016
.2716
.2516
.2316
.1716
.1516
.1416
.1316
.9506
.7506
.6006
.5006
1000
800
600
500
400
300
200
100
80
60
50
40
10
5
4
3
2
1
2
3
4
10
10
10
10
1
10
10
10
I (A) 10
Fig.17 V/I characteristics, 50 V to 460 V (RMS); 2322 593 series.
321
1999 May 17
BC Components
Product specification
Varistors
2322 592 to 2322 595
max. leakage current
max. clamping voltage
MBD241
400
300
V
(V)
.4006
.3506
.3006
.2506
200
.2006
.1706
.1406
100
80
60
50
40
30
20
10
10
5
4
3
2
1
2
3
I (A)
10
10
10
10
1
10
10
10
Fig.18 V/I characteristics, 14 V to 40 V (RMS); 2322 594 series.
max. leakage current
max. clamping voltage
MCD670 - 1
3000
2000
.5516
.5116
.4616
.4216
.3816
.3216
.3016
.2716
.2516
.2316
.1716
.1516
.1416
.1316
.9506
.7506
.6006
.5006
V
(V)
1000
800
600
500
400
300
200
100
80
60
50
40
10
5
4
3
2
1
2
3
4
I (A)
10
10
10
10
10
1
10
10
10
Fig.19 V/I characteristics, 50 V to 550 V (RMS); 2322 594 series.
322
1999 May 17
BC Components
Product specification
Varistors
2322 592 to 2322 595
max. leakage current
max. clamping voltage
MBD242
400
300
V
(V)
.4006
200
.3506
.3006
.2506
.2006
.1706
.1406
100
80
60
50
40
30
20
10
10
5
4
3
2
1
2
3
I (A)
10
10
10
10
1
10
10
10
Fig.20 V/I characteristics, 14 V to 40 V (RMS); 2322 595 series.
max. leakage current
max. clamping voltage
MCD671 - 1
3000
2000
.5516
.5116
.4616
.4216
.3816
.3216
.3016
.2716
.2516
.2316
.1716
.1516
.1416
.1316
.9506
.7506
.6006
.5006
V
(V)
1000
800
600
500
400
300
200
100
80
60
50
40
5
4
3
2
1
2
3
4
I (A)
10
10
10
10
10
1
10
10
10
10
Fig.21 V/I characteristics, 50 V to 550 V (RMS); 2322 595 series.
323
1999 May 17
BC Components
Product specification
Varistors
2322 592 to 2322 595
MBD244
I
nrp
(A)
2
1
10
10
2
10
10
3
4
5
6
10
10
10
10
1
1
10
2
3
4
5
10
10
10
10
t
(µs)
10
p
Fig.22 Maximum applicable transient current as a function of pulse duration,
14 V to 40 V (RMS); 2322 592 series.
MBD245
1
I
nrp
(A)
2
10
10
2
10
3
4
5
6
10
10
10
10
10
1
1
10
2
3
4
5
10
10
10
10
10
t
(µs)
p
Fig.23 Maximum applicable transient current as a function of pulse duration,
50 V to 460 V (RMS); 2322 592 series.
1999 May 17
324
BC Components
Product specification
Varistors
2322 592 to 2322 595
MBD246
I
1
nrp
(A)
10
2
10
2
10
3
10
4
5
6
10
10
10
10
1
1
10
2
3
4
5
10
10
10
10
10
t
(µs)
p
Fig.24 Maximum applicable transient current as a function of pulse duration,
14 V to 40 V (RMS); 2322 593 series.
MBD247
I
nrp
(A)
1
3
10
10
2
10
2
10
3
4
5
6
10
10
10
10
10
1
10
2
3
4
5
10
10
10
10
t
(µs)
p
Fig.25 Maximum applicable transient current as a function of pulse duration,
50 V to 460 V (RMS); 2322 593 series.
1999 May 17
325
BC Components
Product specification
Varistors
2322 592 to 2322 595
MBD248
I
nrp
(A)
3
10
1
10
2
10
10
2
10
3
4
5
10
10
6
10
10
1
10
2
3
4
5
10
10
10
t
(µs)
10
p
Fig.26 Maximum applicable transient current as a function of pulse duration,
14 V to 40 V (RMS); 2322 594 series.
MBD249
I
nrp
1
(A)
3
10
10
2
10
10
3
4
5
2
10
10
10
6
10
10
1
10
2
3
4
5
10
10
10
10
t
(µs)
p
Fig.27 Maximum applicable transient current as a function of pulse duration,
50 V to 320 V (RMS); 2322 594 series.
1999 May 17
326
BC Components
Product specification
Varistors
2322 592 to 2322 595
MBD250
I
nrp
1
(A)
3
10
10
2
10
10
3
4
5
2
10
10
10
6
10
10
1
10
2
3
4
5
10
10
10
10
t
(µs)
p
Fig.28 Maximum applicable transient current as a function of pulse duration,
385 V to 550 V (RMS); 2322 594 series.
MBD251
I
nrp
(A)
3
1
10
10
2
10
3
10
2
10
4
5
10
10
6
10
10
1
10
2
3
4
5
10
10
10
10
t
(µs)
p
Fig.29 Maximum applicable transient current as a function of pulse duration,
14 V to 40 V (RMS); 2322 595 series.
1999 May 17
327
BC Components
Product specification
Varistors
2322 592 to 2322 595
MBD252
1
I
nrp
(A)
3
10
10
2
10
10
3
4
5
10
10
2
10
6
10
10
1
10
2
3
4
5
10
10
10
10
t
(µs)
p
Fig.30 Maximum applicable transient current as a function of pulse duration,
50 V to 320 V (RMS); 2322 595 series.
MBD253
1
I
nrp
(A)
3
10
10
2
10
10
3
4
5
10
10
2
10
6
10
10
1
10
2
3
4
5
10
10
10
10
t
(µs)
p
Fig.31 Maximum applicable transient current as a function of pulse duration,
385 V to 550 V (RMS); 2322 595 series.
1999 May 17
328
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