1999 May 17 306
BC Components Product specification
Varistors 2322 592 to 2322 595
FEATURES
•Zinc oxide disc, epoxy coated
•Straight leads
•Straight leads with flange
(2322 592 and 593 series only)
•Kinked leads.
APPLICATION
•Suppression of transients.
DESCRIPTION
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”
.
MARKING
The varistors are marked with the
following information:
•Maximum continuous RMS voltage
•Series number (592, 593, 594 or
595)
•Manufacturers logo
•Date of manufacture.
ORDERING INFORMATION
The varistors are available in a
number of packaging options:
•Bulk
•On tape on reel
•On tape in ammopack.
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
operating parameters, see Table 7.
MOUNTING
The varistors are suitable for
processing on automatic insertion
and cutting and bending equipment.
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.
Soldering
≤240 °C; duration ≤5s.
Resistance to heat
≤260 °C; duration ≤5s.
INFLAMMABILITY
The varistors are non-flammable.
QUICK REFERENCE DATA
PARAMETER VALUE UNIT
Maximum continuous voltage:
RMS 14 to 550 V
DC 18 to 745 V
Maximum non-repetitive transient current Inrp (8 ×20 µs) 100 to 4500 A
Robustness of terminations 10 N
Drop test:
Height of fall 1 m
Detailed specification based on CECC 42000
Climatic category 40/085/56
1999 May 17 307
BC Components Product specification
Varistors 2322 592 to 2322 595
MECHANICAL DATA
Fig.1 Outline of component with straight leads.
For dimensions, see Table 1.
CCB175
D T
A
L
∅d
F
Fig.2 Outline of component with straight leads
and flange.
For dimensions, see Table 1.
CCB176
D T
A0
F
L
∅d
Fig.3 Outline of component with kinked leads.
For dimensions, see Table 1.
CCB177
L
1 min.
TD
F
∅d
A0
Fig.4 Outlines of flanged leads.
Dimensions in mm.
MBD256
1.4 to 1.6
0.3
1999 May 17 308
BC Components Product specification
Varistors 2322 592 to 2322 595
Table 1 Component dimensions and catalogue numbers
PACKAGING
D
MAX.
(mm)
A
MAX.
(mm)
A0
MAX.
(mm)
L
MIN.
(mm)
T
MAX.
(mm)
T
MIN.
(mm)
∅d
(mm) F
(mm) CATALOGUE
NUMBER
7.0 9.0 11.0 27.0 6 4.1 0.6 +0.0/−0.02 5 +0.6/−0.1 2322 592 .....
9.0 11.0 13.0 27.0 6 4.1 0.6 +0.0/−0.02 5 +0.6/−0.1 2322 593 .....
13.5 15.5 18.0 17.0 7 4.4 0.8 +0.0/−0.02 7.5 ±0.8 2322 594 .....
17.0 19.0 23.0 16.0 7 4.4 0.8 +0.0/−0.02 7.5 ±0.8 2322 595 .....
Fig.5 Taped version with straight leads (only for 2322 592 and 2322 593 series).
For dimensions, see Table 2.
MBE584
A
detail A
H
D0FP1
P0t
T
A
P∆ p
∆ p∆ h∆ h
D
Ød
F
W1
W2
W0W
1999 May 17 309
BC Components Product specification
Varistors 2322 592 to 2322 595
MLA703 - 1
A
detail A
H
D0
FP1
P0t
T
A
DP∆ p
∆ p
Ø
∆ h∆ h
d
F
W1
W2
W0W
Fig.6 Taped version with straight leads (only for 2322 594 and 2322 595 series).
For dimensions, see Table 2.
Fig.7 Taped version with flanged leads (only for 2322 592 and 2322 593 series).
For dimensions, see Table 2.
handbook, full pagewidth
detail A
H0
Ød
∆ p∆ p
D
P
P1F
P0
D0
CCA440
A
∆ h∆ h
T
A0
W
W
1
W0
W2
t
1999 May 17 310
BC Components Product specification
Varistors 2322 592 to 2322 595
Fig.8 Taped version with kinked leads (only for 2322 592 and 2322 593 series).
For dimensions, see Table 2.
handbook, full pagewidth
detail A
CCB178
A
D∆p∆p
P
∅d
F
P1P0
D0
W0
W2H0
A0
W1
∆h∆h
T
1 min.
W
t
Fig.9 Taped version with kinked leads (only for 2322 594 and 2322 595 series).
For dimensions, see Table 2.
handbook, full pagewidth
detail A
CCB179
A
D∆p∆p
P
F
∆h∆h
T
1 min.
t
∅d
P1P0
D0
W0
W2H0
A0
W1
W
1999 May 17 311
BC Components Product specification
Varistors 2322 592 to 2322 595
Table 2 Taping data (based on
“IEC 60286-2”
)
SYMBOL PARAMETER DIMENSIONS
NOMINAL
(mm)
TOLERANCE
(mm) REMARKS
D body diameter see Table 1
T total thickness see Table 1
A0; A mounting height see Table 1
∅d lead diameter see Table 1
F lead to lead distance see Table 1 guaranteed between
component and tape
P component pitch 12.7 or 25.4 ±1.0
P0feed hole pitch 12.7 ±0.3 cumulative pitch error
±1 mm/20 pitches
P1feed hole centre to lead centre 3.85 or 8.95 ±0.7 guaranteed between
component and tape
∆p component alignment 0.0 ±1.3
∆h component alignment 0.0 ±2.0
W tape width 18.0 +1.0/−0.5
W0hold down tape width ≥12.5
W1hole position 9.0 ±0.5
W2hold down tape position ≤3.0
Hheight between component
and tape centre
18.0 +2.0/−0.0 straight lead version
2322 594 and 2322 585
20.0 +2.0/−0.0 straight lead version
2322 592 and 2322 593
H0lead-wire flange height 16.0 or 18.25 ±0.5 flanged and kinked lead versions
D0feed hole diameter 4.0 ±0.2
t total tape thickness ≤1.4 with cardboard tape 0.5 ±0.1 mm
1999 May 17 312
BC Components Product specification
Varistors 2322 592 to 2322 595
Table 3 Varistors on tape on reel
TYPE 2322 592 .....
∅7mm
14 V to 460 V
2322 593 .....
∅9mm
14 V to 460 V
2322 594 .....
∅13.5 mm
14 V to 550 V
2322 595 .....
∅17 mm
14 V to 460 V
Straight leads:
H = 18 mm (2322 594 and 2322 595); see Fig.6 0...6 0...6 0...6 0...6
H = 20 mm (2322 592 and 2322 593); see Fig.5 0...6 0...6 0...6 0...6
Straight leads with flange; H0= 16 mm; see Fig.7 1...6 1...6 −−
Straight leads with flange; H0= 18.25 mm; see Fig.7 2...6 2...6 −−
Kinked leads; H0= 18.25 mm; see Fig.9 3...6 3...6 3...6 3...6
Kinked leads; H0= 16 mm; see Fig.8 8...6 8...6 8...6 8...6
Package quantities
14 V to 460 V 3000 3000 1500 1500
510 V to 550 V −−1200 1200
Fig.10 Dimensions of reels.
Dimensions in mm.
MBC026
,,
,,
,,
,,
,,
,,
,,
,,
,,
,,
,,
,,
42 1
56 max
22.5
1
0
30 77 85.6 92 356
max
18
3
MBD257
,,
,,
,,
,,
,,
,,
,,
,,
,,
,,
,,
,,
46 1
60 max
22.5
1
0
30 77 85.6 92 356
max
18
3
1999 May 17 313
BC Components Product specification
Varistors 2322 592 to 2322 595
Table 4 Varistors on tape in ammopack
TYPE 2322 592 .....
∅7mm
14 V to 460 V
2322 593 .....
∅9mm
14 V to 460 V
2322 594 .....
∅13.5 mm
14 V to 550 V
2322 595 .....
∅17 mm
14 V to 550 V
Straight leads;
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 1...7 −−
Straight leads with flange;
H0= 18.25 mm; see Fig.7 2...7 2...7 −−
Kinked leads;
H0= 18.25 mm; see Fig.9 3...7 3...7 3...7 3...7
Kinked leads;
H0= 16 mm; see Fig.8 8...7 8...7 8...7 8...7
Package quantities
14 to 175 V 1500 1500 750 750
230 to 460 V 1000 1000 −−
230 to 300 V −−600 600
320 to 550 V −−500 500
Fig.11 Dimensions of ammopack.
Dimensions in mm.
MBC996 - 1
340 max
250
max
52 or 55 max
1999 May 17 314
BC Components Product specification
Varistors 2322 592 to 2322 595
Table 5 Varistors in bulk
TYPE 2322 592 .....
∅7mm
14 V to 460 V
2322 593 .....
∅9mm
14 V to 460 V
2322 594 .....
∅13.5 mm
14 V to 550 V
2322 595 .....
∅17 mm
14 V to 550 V
Straight leads; see Fig.1 5...6 5...6 5...6 5...6
Straight leads with flange; see Fig.2 7...6 7...6 −−
Kinked leads; see Fig.3 6...6 6...6 6...6 6...6
Package quantities 250 250 250 100 and 250
1999 May 17 315
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
DC 18 to 745 V
Maximum non-repetitive transient current (Inrp) (8 ×20 µs):
2322 592 ..... 100 or 400 A
2322 593 ..... 250 or 1200 A
2322 594 ..... 500 or 2500 A
2322 595 ..... 1000 or 4500 A
Thermal resistance:
2322 592 ..... ≈80 K/W
2322 593 ..... ≈70 K/W
2322 594 ..... ≈60 K/W
2322 595 ..... ≈50 K/W
Maximum dissipation:
2322 592 ..... 100 mW
2322 593 ..... 250 mW
2322 594 ..... 400 mW
2322 595 ..... 600 mW
Temperature coefficient of voltage at 1 mA maximum −0.065 %/K
Voltage proof between interconnected leads and case 2500 V
Climatic category 40/085/56
Fig.12 Derating curve.
MBD255 - 1
0
100
V
(%)
40 80 125
T ( C)
o
1999 May 17 316
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
CONTINUOUS
VOLTAGE
VOLTAGE(2)
at 1 mA
MAXIMUM
VOLTAGE
at STATED
CURRENT
MAXIMUM
ENERGY(3)
(10 ×1000 µs)
MAXIMUM
NON-REP.
TRANSIENT
CURRENT(4)
Inrp (8 ×20 µs)
TYPICAL
CAPACITANCE
at 1 kHz
CATALOGUE
NUMBERS
RMS(1)
(V) DC
(V) (V) V
(V) I
(A) (J) (A) (pF) 2322 ... .....
14 18 22 48 1.0 0.5 100 1300 592 .1406(5)
43 2.5 1.7 250 2800 593 .1406(5)
43 5.0 4.3 500 6000 594 .1406(5)
43 10.0 5.4 1000 15000 595 .1406(5)
17 22 27 60 1.0 0.7 100 1050 592 .1706(5)
53 2.5 2.0 250 2000 593 .1706(5)
53 5.0 5.3 500 4000 594 .1706(5)
53 10.0 6.9 1000 10000 595 .1706(5)
20 26 33 73 1.0 0.8 100 900 592 .2006(5)
65 2.5 2.5 250 1500 593 .2006(5)
65 5.0 6.5 500 3000 594 .2006(5)
65 10.0 8.8 1000 7500 595 .2006(5)
25 31 39 86 1.0 0.9 100 500 592 .2506(5)
77 2.5 3.0 250 1350 593 .2506(5)
77 5.0 7.7 500 2600 594 .2506(5)
77 10.0 9.4 1000 6500 595 .2506(5)
30 38 47 96 1.0 1.1 100 700 592 .3006(6)
93 2.5 3.6 250 1600 593 .3006(6)
93 5.0 9.2 500 2700 594 .3006(6)
90 10.0 12.0 1000 6000 595 .3006(6)
35 45 56 123 1.0 1.4 100 560 592 .3506(6)
115 2.5 4.4 250 1300 593 .3506(6)
110 5.0 11.0 500 2200 594 .3506(6)
105 10.0 14.0 1000 4800 595 .3506(6)
40 56 68 145 1.0 1.6 100 460 592 .4006(6)
135 2.5 5.2 250 1000 593 .4006(6)
130 5.0 13.0 500 1800 594 .4006(6)
130 10.0 17.0 1000 3800 595 .4006(6)
50 65 82 145 5.0 2.6 400 370 592 .5006(6)
140 10.0 7.0 1200 900 593 .5006(6)
140 25.0 12.0 2500 1500 594 .5006(6)
140 50.0 21.0 4500 3100 595 .5006(6)
1999 May 17 317
BC Components Product specification
Varistors 2322 592 to 2322 595
60 85 100 165 5.0 2.9 400 290 592 .6006(6)
165 10.0 8.3 1200 700 593 .6006(6)
165 25.0 15.0 2500 1200 594 .6006(6)
165 50.0 24.0 4500 2300 595 .6006(6)
75 100 120 190 5.0 3.4 400 240 592 .7506(6)
200 10.0 10.0 1200 530 593 .7506(6)
200 25.0 18.0 2500 1000 594 .7506(6)
200 50.0 29.0 4500 1900 595 .7506(6)
95 125 150 230 5.0 4.1 400 180 592 .9506(6)
250 10.0 13.0 1200 450 593 .9506(6)
250 25.0 22.0 2500 800 594 .9506(6)
250 50.0 37.0 4500 1500 595 .9506(6)
130 170 205 310 5.0 5.5 400 130 592 .1316(6)
340 10.0 17.0 1200 320 593 .1316(6)
340 25.0 30.0 2500 580 594 .1316(6)
340 50.0 56.0 4500 1050 595 .1316(6)
140 180 220 350 5.0 6.3 400 120 592 .1416(6)
370 10.0 21.0 1200 290 593 .1416(6)
370 25.0 33.0 2500 540 594 .1416(6)
370 50.0 57.0 4500 950 595 .1416(6)
150 200 240 395 5.0 7.1 400 110 592 .1516(6)
400 10.0 20.0 1200 270 593 .1516(6)
400 25.0 36.0 2500 490 594 .1516(6)
400 50.0 59.0 4500 850 595 .1516(6)
175 225 275 410 5.0 7.3 400 90 592 .1716(6)
455 10.0 23.0 1200 230 593 .1716(6)
455 25.0 41.0 2500 430 594 .1716(6)
455 50.0 67.0 4500 750 595 .1716(6)
230 300 360 560 5.0 10.0 400 70 592 .2316(6)
600 10.0 30.0 1200 170 593 .2316(6)
600 25.0 54.0 2500 320 594 .2316(6)
600 50.0 88.0 4500 540 595 .2316(6)
MAXIMUM
CONTINUOUS
VOLTAGE
VOLTAGE(2)
at 1 mA
MAXIMUM
VOLTAGE
at STATED
CURRENT
MAXIMUM
ENERGY(3)
(10 ×1000 µs)
MAXIMUM
NON-REP.
TRANSIENT
CURRENT(4)
Inrp (8 ×20 µs)
TYPICAL
CAPACITANCE
at 1 kHz
CATALOGUE
NUMBERS
RMS(1)
(V) DC
(V) (V) V
(V) I
(A) (J) (A) (pF) 2322 ... .....
1999 May 17 318
BC Components Product specification
Varistors 2322 592 to 2322 595
250 320 390 600 5.0 11.0 400 60 592 .2516(6)
650 10.0 33.0 1200 160 593 .2516(6)
650 25.0 58.0 2500 300 594 .2516(6)
650 50.0 96.0 4500 480 595 .2516(6)
275 350 430 695 5.0 12.0 400 55 592 .2716(6)
710 10.0 36.0 1200 140 593 .2716(6)
710 25.0 63.0 2500 270 594 .2716(6)
710 50.0 104.0 4500 440 595 .2716(6)
300 385 470 750 5.0 13.0 400 50 592 .3016(6)
800 10.0 40.0 1200 130 593 .3016(6)
800 25.0 71.0 2500 240 594 .3016(6)
800 50.0 117.0 4500 400 595 .3016(6)
320 420 510 800 5.0 15.0 400 45 592 .3216(6)
850 10.0 44.0 1200 120 593 .3216(6)
850 25.0 77.0 2500 220 594 .3216(6)
850 50.0 120.0 4500 370 595 .3216(6)
385 505 620 1000 5.0 18.0 400 40 592 .3816(6)
1025 10.0 51.0 1200 95 593 .3816(6)
1025 25.0 67.0 2500 180 594 .3816(6)
1025 50.0 110.0 4500 280 595 .3816(6)
420 560 680 1100 5.0 20.0 400 35 592 .4216(6)
1120 10.0 56.0 1200 85 593 .4216(6)
1120 25.0 73.0 2500 165 594 .4216(6)
1120 50.0 120.0 4500 250 595 .4216(6)
460 615 750 1200 5.0 21.0 400 30 592 .4616(6)
1240 10.0 63.0 1200 75 593 .4616(6)
1240 25.0 82.0 2500 150 594 .4616(6)
1240 50.0 135.0 4500 225 595 .4616(6)
510 670 820 1355 25.0 89.0 2500 135 594 .5116(6)
1355 50.0 145.0 4500 220 595 .5116(6)
550 745 910 1500 25.0 98.0 2500 120 594 .5516(6)
1500 50.0 160.0 4500 180 595 .5516(6)
MAXIMUM
CONTINUOUS
VOLTAGE
VOLTAGE(2)
at 1 mA
MAXIMUM
VOLTAGE
at STATED
CURRENT
MAXIMUM
ENERGY(3)
(10 ×1000 µs)
MAXIMUM
NON-REP.
TRANSIENT
CURRENT(4)
Inrp (8 ×20 µs)
TYPICAL
CAPACITANCE
at 1 kHz
CATALOGUE
NUMBERS
RMS(1)
(V) DC
(V) (V) V
(V) I
(A) (J) (A) (pF) 2322 ... .....
1999 May 17 319
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:
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.
EKV
p
×I
p
×t
2
×=
Fig.13 Peak current as a function of pulse width.
handbook, halfpage
CCB922
Ip
t1t2
t(µs)
(%)
100
50
90
10
0
t2 (µs)
20
50
100
1000
1
1.2
1.3
1.4
K
1999 May 17 320
BC Components Product specification
Varistors 2322 592 to 2322 595
Fig.14 V/I characteristics, 14 V to 40 V (RMS); 2322 592 series.
200
10
100
MBD243
10 510 410 310 210 111010
2103
V
(V)
max. leakage current max. clamping voltage
I (A)
80
60
50
40
30
20
300
400
.4006
.3506
.3006
.2506
.2006
.1706
.1406
Fig.15 V/I characteristics, 50 V to 460 V (RMS); 2322 592 series.
104
103
102
10 I (A)
110 1
10 2
10 3
10 4
10 5
3000
2000
1000
800
600
500
400
300
200
V
(V)
100
80
60
50
40
max. leakage current
MCD668 - 1
max. clamping voltage
.4616
.4216
.3816
.3216
.3016
.2716
.2516
.2316
.1716
.1516
.1416
.1316
.9506
.7506
.6006
.5006
1999 May 17 321
BC Components Product specification
Varistors 2322 592 to 2322 595
Fig.16 V/I characteristics, 14 V to 40 V (RMS); 2322 593 series.
200
10
100
MBD240
10 510 410 310 210 111010
2103
V
(V)
max. leakage current max. clamping voltage
I (A)
80
60
50
40
30
20
300
400 .4006
.3506
.3006
.2506
.2006
.1706
.1406
Fig.17 V/I characteristics, 50 V to 460 V (RMS); 2322 593 series.
104
103
102
10 I (A)110 1
10 2
10 3
10 4
10 5
3000
2000
1000
800
600
500
400
300
200
V
(V)
100
80
60
50
40
max. leakage current
MCD669 - 1
max. clamping voltage
.4616
.4216
.3816
.3216
.3016
.2716
.2516
.2316
.1716
.1516
.1416
.1316
.9506
.7506
.6006
.5006
1999 May 17 322
BC Components Product specification
Varistors 2322 592 to 2322 595
Fig.18 V/I characteristics, 14 V to 40 V (RMS); 2322 594 series.
200
10
100
MBD241
10 510 410 310 210 111010
2103
V
(V)
max. leakage current max. clamping voltage
I (A)
80
60
50
40
30
20
300
400 .4006
.3506
.3006
.2506
.2006
.1706
.1406
Fig.19 V/I characteristics, 50 V to 550 V (RMS); 2322 594 series.
104
103
102
10 I (A)
110 1
10 2
10 3
10 4
10 5
3000
2000
1000
800
600
500
400
300
200
V
(V)
100
80
60
50
40
max. leakage current
MCD670 - 1
max. clamping voltage
.5516
.5116
.4616
.4216
.3816
.3216
.3016
.2716
.2516
.2316
.1716
.1516
.1416
.1316
.9506
.7506
.6006
.5006
1999 May 17 323
BC Components Product specification
Varistors 2322 592 to 2322 595
Fig.20 V/I characteristics, 14 V to 40 V (RMS); 2322 595 series.
200
10
100
MBD242
10 510 410 310 210 111010
2103
V
(V)
max. leakage current max. clamping voltage
I (A)
80
60
50
40
30
20
300
400
.4006
.3506
.3006
.2506
.2006
.1706
.1406
Fig.21 V/I characteristics, 50 V to 550 V (RMS); 2322 595 series.
104
103
102
10 I (A)
110 1
10 2
10 3
10 4
10 5
3000
2000
1000
800
600
500
400
300
200
V
(V)
100
80
60
50
40
max. leakage current
MCD671 - 1
max. clamping voltage
.5516
.5116
.4616
.4216
.3816
.3216
.3016
.2716
.2516
.2316
.1716
.1516
.1416
.1316
.9506
.7506
.6006
.5006
1999 May 17 324
BC Components Product specification
Varistors 2322 592 to 2322 595
Fig.22 Maximum applicable transient current as a function of pulse duration,
14 V to 40 V (RMS); 2322 592 series.
105
MBD244
104
103
102
10
10 1
1
10
102
Inrp
(A)
t (µs)
p
106
105
104
103
102
10
1
Fig.23 Maximum applicable transient current as a function of pulse duration,
50 V to 460 V (RMS); 2322 592 series.
105
MBD245
104
103
102
10
10 1
1
10
102
106
105
104
103
102
10
1
t (µs)
p
Inrp
(A)
1999 May 17 325
BC Components Product specification
Varistors 2322 592 to 2322 595
Fig.24 Maximum applicable transient current as a function of pulse duration,
14 V to 40 V (RMS); 2322 593 series.
105
MBD246
104
103
102
10
10 1
1
10
102
106
105
104
103
102
10
1
t (µs)
p
Inrp
(A)
Fig.25 Maximum applicable transient current as a function of pulse duration,
50 V to 460 V (RMS); 2322 593 series.
105
MBD247
104
103
102
10
1
10
103
106
105
104
103
102
10
1
102
t (µs)
p
Inrp
(A)
1999 May 17 326
BC Components Product specification
Varistors 2322 592 to 2322 595
Fig.26 Maximum applicable transient current as a function of pulse duration,
14 V to 40 V (RMS); 2322 594 series.
105
MBD248
104
103
102
10
1
10
103
106
105
104
103
102
10
1
102
t (µs)
p
Inrp
(A)
Fig.27 Maximum applicable transient current as a function of pulse duration,
50 V to 320 V (RMS); 2322 594 series.
105
MBD249
104
103
102
10
1
10
103
106
105
104
103
102
10
1
102
t (µs)
p
Inrp
(A)
1999 May 17 327
BC Components Product specification
Varistors 2322 592 to 2322 595
Fig.28 Maximum applicable transient current as a function of pulse duration,
385 V to 550 V (RMS); 2322 594 series.
105
MBD250
104
103
102
10
1
10
103
106
105
104
103
102
10
1
102
t (µs)
p
Inrp
(A)
Fig.29 Maximum applicable transient current as a function of pulse duration,
14 V to 40 V (RMS); 2322 595 series.
105
MBD251
104
103
102
10
1
10
103
106
105
104
103
102
10
1
102
t (µs)
p
Inrp
(A)
1999 May 17 328
BC Components Product specification
Varistors 2322 592 to 2322 595
Fig.30 Maximum applicable transient current as a function of pulse duration,
50 V to 320 V (RMS); 2322 595 series.
105
MBD252
104
103
102
10
1
10
103
106
105
104
103
102
10
1
102
t (µs)
p
Inrp
(A)
Fig.31 Maximum applicable transient current as a function of pulse duration,
385 V to 550 V (RMS); 2322 595 series.
105
MBD253
104
103
102
10
1
10
103
106
105
104
103
102
10
1
102
t (µs)
p
Inrp
(A)
