High Energy SeriesThe High Energy Series, large tab-leaded varistors, aredesigned to handle extremely high peak currents and have the ability to absorb large amounts of energy. They are available in round and square shapes to allow mountingin various spaces. They are also available in "dual" configura-tions that allow the user to apply these parts in series orparallel circuit topologies.
These varistors are available in 32mm, 40mm, and 53mmsingle-disk configurations; 25mm and 34mm single-squareconfigurations; 40mm dual-disk configuration; and 25mmand 34mm dual-square configurations. Several styles of tabbed-leads are available to accommodate various mounting schemes. The voltages for which these compo-nents are available, range from 130VAC to 1000VAC.
Style DesignationThe Maida Style number is the primary means to identifyour components when ordered. The style number identifiesseveral parameters that are important for the characteristicsof the device. Observe the following part numbering systemwhen ordering our components:
D _ _ _ _ ZOV_ _ _ RA _ _ _ _1. Shape Designation
D – Designates a diskS – Designates a square
2. Nominal Shape DimensionsD66 – 25mm S66 – 25mm D78 – 32mm S75 – 34mmD77 – 53mm D75 – 40mm
3. Lead Configuration code (refer to Tabbed-Lead Codes chart)
4. Material Identifier, zinc-oxide varistor5. AC Voltage Rating code, 2 significant
figures plus number of zeroes that follow, e.g. 511 is 510 VAC
6. Special Instructions code, RA is standard7. Energy Rating code, up to 4 numbers
(refer to ratings tables)
An example of a typical Maida style number isD7780ZOV151RA570. This style number displays a nominaldisk size of 53mm, a standard lead code showing straighttabbed-leads, a maximum AC continuous operating voltageof 150 VAC.
HIGH ENERGY SERIESINTRODUCTION
49
Standard MarkingMinimum marking information shall consist of an abbreviatedstyle designation and, when space is available, the manufac-turer’s initials "MDC" or the company logo. The abbreviatedstyle designation is dependent upon the configuration of thecomponent. In other words, the abbreviation for the diskshaped components will be different than for the squareshaped components. The marking will include a "2X" if thecomponent has a dual configuration.
An example for a disk component,MDC2XZ511110UL
Where:2X – Dual configurationZ – Represents "ZOV"511 – AC voltage rating code110 – Energy rating codeUL – UL recognition if applicable
An example for a square component,MDCC5S151UL
Where:C5 – Represents 25mm nominal ceramic sizeS – Designates square151 – AC voltage rating codeUL – UL recognition if applicable
The codes for the square components are based on thefollowing number system:
A – 0B – 1C – 2D – 3E – 4F – 5
Consequently, the "C5" designation in the above examplerepresents the number 25.
A manufacturing date code is available upon request. Other safety agency designations are included if applicable.
How to Order the High Energy SeriesThe following specifications tables provide a way to matchthe Maida style number to a varistor that provides the necessary specifications for a specific application. Once the general style number is obtained, it will be necessary to determine the required lead configuration. Refer to thetabbed-lead codes and apply the required code to the Maidastyle number when ordering. Custom lead configurationsare available. Contact our engineering department for additional information.
For more information call us at (757) 723-0785.
HIGH ENERGY SERIESSPECIFICATIONS
51
Det
aile
d V
olta
ge v
s. C
urr
ent
char
acte
rist
iccu
rves
for
eac
h c
ompo
nen
t ar
e av
aila
ble
from
ou
r en
gin
eeri
ng
dep
artm
ent.
32
mm
Sin
gle
– D
isk C
onfig
urat
ion
*F
ootp
rint
conf
igur
atio
n co
nver
ts t
o F
ig.3
.
Ma
ida
Pe
ak
Sty
le E
ne
rgy
Cu
rre
nt
Nu
mb
er
Min
imum
8x2
0µ
sec
Ma
rkin
g1
0x1
00
0#
Pu
lse
sµ
sec
1V
min
Vm
ax
AB
CD
EF
(AC
)(D
C)
(J)
(A)
(V)
(V)
D7
8_
_Z
OV
13
1R
A2
10
XX
XZ
13
1-2
10
UL
13
01
75
21
02
50
00
18
42
24
D7
8_
_Z
OV
14
1R
A2
25
XX
XZ
14
1-2
25
UL
14
01
80
22
52
50
00
19
82
42
D7
8_
_Z
OV
15
1R
A2
40
XX
XZ
15
1-2
40
UL
15
02
00
24
02
50
00
21
22
59
D7
8_
_Z
OV
18
1R
A2
50
XX
XZ
18
1-2
50
UL
18
02
30
25
02
50
00
25
53
11
D7
8_
_Z
OV
23
1R
A3
00
XX
XZ
23
1-3
00
UL
23
03
00
30
02
50
00
32
63
97
D7
8_
_Z
OV
25
1R
A3
30
XX
XZ
25
1-3
30
UL
25
03
30
33
02
50
00
35
44
32
D7
8_
_Z
OV
27
1R
A3
60
XX
XZ
27
1-3
60
UL
27
03
60
36
02
50
00
38
24
66
D7
8_
_Z
OV
30
1R
A3
80
XX
XZ
30
1-3
80
UL
30
03
90
38
02
50
00
42
55
18
D7
8_
_Z
OV
32
1R
A4
30
XX
XZ
32
1-4
30
UL
32
04
20
43
02
50
00
45
35
53
D7
8_
_Z
OV
39
1R
A5
50
XX
XZ
39
1-5
50
UL
39
05
05
55
02
50
00
55
26
74
D7
8_
_Z
OV
42
1R
A6
00
XX
XZ
42
1-6
00
UL
42
05
60
60
02
50
00
59
47
25
D7
8_
_Z
OV
46
1R
A5
20
XX
XZ
46
1-5
20
UL
46
06
15
52
02
50
00
65
17
95
D7
8_
_Z
OV
48
1R
A5
50
XX
XZ
48
1-5
50
UL
48
06
40
55
02
50
00
67
98
29
D7
8_
_Z
OV
51
1R
A5
80
XX
XZ
51
1-5
80
UL
51
06
75
58
02
50
00
72
28
81
D7
8_
_Z
OV
55
1R
A6
20
XX
XZ
55
1-6
20
UL
55
07
00
62
02
50
00
77
89
50
D7
8_
_Z
OV
58
1R
A6
50
XX
XZ
58
1-6
50
UL
58
07
35
65
02
50
00
82
11
00
2D
78
__
ZO
V6
21
RA
68
0X
XX
Z6
21
-68
0U
L6
20
80
06
80
25
00
08
77
10
71
D7
8_
_Z
OV
68
1R
A7
60
XX
XZ
68
1-7
60
UL
68
08
60
76
02
50
00
96
21
17
5D
78
__
ZO
V7
51
RA
80
0X
XX
Z7
51
-80
0U
L7
50
97
08
00
25
00
01
06
21
30
0D
78
__
ZO
V8
81
RA
85
0X
XX
Z8
81
-85
0U
L8
80
11
50
85
02
50
00
12
45
15
20
D7
8_
_Z
OV
10
2R
A9
00
XX
Z1
02
-90
0U
L1
00
01
20
09
00
25
00
01
41
41
72
8
NO
TE
S:
AU
L1
44
9F
ilE
86
73
0T
it
Vlt
SS
i
32m
m S
ing
le -
Dis
k C
on
fig
ura
t
Sta
nd
ard
s
Tra
nsi
en
tR
eco
gn
itio
ns
To
Sa
fety
Ag
en
cy
Ele
@ 1
mA
DC
Va
rist
or
Vo
ltag
e
Ma
xim
um
Ra
tin
gs
Ap
plie
d
Co
ntin
uo
us
Vo
ltag
e
HIGH ENERGY SERIESSPECIFICATIONS
52
Det
aile
d V
olta
ge v
s. C
urr
ent
char
acte
rist
iccu
rves
for
eac
h c
ompo
nen
t ar
e av
aila
ble
from
ou
r en
gin
eeri
ng
dep
artm
ent.
40
mm
Sin
gle
– D
isk C
onfig
urat
ion
Ma
ida
Pe
ak
Sty
le M
inim
um E
ne
rgy
Cu
rre
nt
Nu
mb
er
Ma
rkin
g8
x20
µse
c1
0x1
00
0#
Pu
lse
sµ
sec
1V
min
Vm
ax
AB
CD
EF
(AC
)(D
C)
(J)
(A)
(V)
(V)
(V)
D7
5_
_Z
OV
13
1R
A3
10
XX
XZ
13
1 -
31
0U
L1
30
17
53
10
40
00
01
84
22
43
40
D7
5_
_Z
OV
14
1R
A3
30
XX
XZ
14
1 -
33
0U
L1
40
18
03
30
40
00
01
98
24
23
60
D7
5_
_Z
OV
15
1R
A3
60
XX
XZ
15
1 -
36
0U
L1
50
20
03
60
40
00
02
12
25
93
95
D7
5_
_Z
OV
18
1R
A3
90
XX
XZ
18
1 -
39
0U
L1
80
23
03
90
40
00
02
55
31
14
65
D7
5_
_Z
OV
23
1R
A4
60
XX
XZ
23
1 -
46
0U
L2
30
30
04
60
40
00
03
26
39
75
95
D7
5_
_Z
OV
25
1R
A4
90
XX
XZ
25
1 -
49
0U
L2
50
33
04
90
40
00
03
54
43
26
50
D7
5_
_Z
OV
27
1R
A5
50
XX
XZ
27
1 -
55
0U
L2
70
36
05
50
40
00
03
82
46
67
10
D7
5_
_Z
OV
30
1R
A6
00
XX
XZ
30
1 -
60
0U
L3
00
39
06
00
40
00
04
25
51
87
90
D7
5_
_Z
OV
32
1R
A6
40
XX
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32
1 -
64
0U
L3
20
42
06
40
40
00
04
53
55
38
50
D7
5_
_Z
OV
39
1R
A8
00
XX
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39
1 -
80
0U
L3
90
50
58
00
40
00
05
52
67
41
02
5D
75
__
ZO
V4
21
RA
91
0X
XX
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21
- 9
10
UL
42
05
60
91
04
00
00
59
47
25
11
20
D7
5_
_Z
OV
46
1R
A7
80
XX
XZ
46
1 -
78
0U
L4
60
61
57
80
40
00
06
51
79
51
24
0D
75
__
ZO
V4
81
RA
82
0X
XX
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81
- 8
20
UL
48
06
40
82
04
00
00
67
98
29
13
00
D7
5_
_Z
OV
51
1R
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00
XX
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51
1 -
90
0U
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10
67
59
00
40
00
07
22
88
11
35
0D
75
__
ZO
V5
51
RA
96
0X
XX
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51
- 9
60
UL
55
07
00
96
04
00
00
77
89
50
14
00
D7
5_
_Z
OV
58
1R
A1
00
0X
XX
Z5
81
- 1
00
0U
L5
80
73
51
00
04
00
00
82
11
00
21
50
0D
75
__
ZO
V6
21
RA
10
40
XX
XZ
62
1 -
10
40
UL
62
08
00
10
40
40
00
08
77
10
71
16
50
D7
5_
_Z
OV
68
1R
A1
10
0X
XX
Z6
81
- 1
10
0U
L6
80
86
01
10
04
00
00
96
21
17
51
80
0D
75
__
ZO
V7
51
RA
12
00
XX
XZ
75
1 -
12
00
UL
75
09
70
12
00
40
00
01
06
21
30
02
10
0D
75
__
ZO
V8
81
RA
13
00
XX
XZ
88
1 -
13
00
UL
88
01
15
01
30
04
00
00
12
45
15
20
22
90
D7
5_
_Z
OV
10
2R
A1
40
0X
XZ
10
2 -
14
00
UL
10
00
12
00
14
00
40
00
01
41
41
72
82
70
0
NO
TE
S:
A =
UL
14
49
File
E8
67
30
- T
ran
sie
nt
Vo
ltag
e S
urg
e S
up
pre
ssio
nB
= U
L1
41
4 F
ile E
38
78
5 -
Acr
oss
- T
he
Lin
e A
pp
lica
tion
sC
= C
SA
C2
2.2
File
LR
33
46
8
40m
m S
ing
le -
Dis
k C
on
fig
ura
tio
n
(8x2
0S
tan
da
rds
Tra
nsi
en
tR
eco
gn
itio
ns
To
Sa
fety
Ag
en
cy (
@ T
es
Co
ntin
uo
us
Ele
ctr
ica
l C
ha
@ 1
mA
DC
Max
C Vo
Va
rist
or
Vo
ltag
eV
olta
geM
ax
imu
m R
ati
ng
s
Ap
plie
d
HIGH ENERGY SERIESSPECIFICATIONS
53
Det
aile
d V
olta
ge v
s. C
urr
ent
char
acte
rist
iccu
rves
for
eac
h c
ompo
nen
t ar
e av
aila
ble
from
ou
r en
gin
eeri
ng
dep
artm
ent.
40
mm
Dua
l – D
isk C
onfig
urat
ion
Ma
ida
Pe
ak
Sty
leM
inim
um E
ne
rgy
Cu
rre
nt
Nu
mb
er
Ma
rkin
g8
x20
µse
10
x10
00
#P
uls
es
µse
c1
AB
CD
EF
(AC
)(D
C)
(J)
(A)
D7
5_
_Z
OV
13
1R
A3
10
X2
XZ
13
1 -
31
0U
L1
30
17
53
10
40
00
0D
75
__
ZO
V1
41
RA
33
0X
2X
Z1
41
- 3
30
UL
14
01
80
33
04
00
00
D7
5_
_Z
OV
15
1R
A3
60
X2
XZ
15
1 -
36
0U
L1
50
20
03
60
40
00
0D
75
__
ZO
V1
81
RA
39
0X
2X
Z1
81
- 3
90
UL
18
02
30
39
04
00
00
D7
5_
_Z
OV
23
1R
A4
60
X2
XZ
23
1 -
46
0U
L2
30
30
04
60
40
00
0D
75
__
ZO
V2
51
RA
49
0X
2X
Z2
51
- 4
90
UL
25
03
30
49
04
00
00
D7
5_
_Z
OV
27
1R
A5
50
X2
XZ
27
1 -
55
0U
L2
70
36
05
50
40
00
0D
75
__
ZO
V3
01
RA
60
0X
2X
Z3
01
- 6
00
UL
30
03
90
60
04
00
00
D7
5_
_Z
OV
32
1R
A6
40
X2
XZ
32
1 -
64
0U
L3
20
42
06
40
40
00
0
NO
TE
S:
A =
UL
14
49
File
E8
67
30
- T
ran
sie
nt
Vo
ltag
e S
urg
e S
up
pre
ssio
nB
= U
L1
41
4 F
ile E
38
78
5 -
Acr
oss
- T
he
Lin
e A
pp
lica
tion
sC
= C
SA
C2
2.2
File
LR
33
46
8
Inse
rt (
D8
) in
bla
nks
to
in
dic
ate
ST
RA
IGH
T t
ab
sor
(C
6) t
o in
dica
te F
OR
ME
D F
OO
T(i
.e.
D7
5D
8Z
OV
13
1R
A3
10
or
D7
5C
6Z
OV
13
1R
A3
10
)
"W"
Dim
ensi
on i
n fig
ures
is
1/2
of
"Y"
DIM
EN
SIO
N.
Sta
nd
ard
s
Tra
nsi
en
tR
eco
gn
itio
ns
To
Sa
fety
Ag
en
cy
All
me
asu
rem
nts
in
re
fere
nc
Vo
ltag
e
g
Ap
plie
d
Co
ntin
uo
us
Ma
ida
Pe
ak
Sty
leM
inim
um E
ne
rgy
Cur
rent
Nu
mb
er
Ma
rkin
g8
x20
µse
c1
0x1
00
0#
Pu
lse
sµ
sec
1V
min
Vm
ax
AB
CD
EF
(AC
)(D
C)
(J)
(A)
(V)
(V)
D7
7_
_Z
OV
13
1R
A4
90
XX
XZ
13
1 -
49
0U
L1
30
17
54
90
70
00
01
84
22
4D
77
__
ZO
V1
41
RA
53
0X
XX
Z1
41
- 5
30
UL
14
01
80
53
07
00
00
19
82
42
D7
7_
_Z
OV
15
1R
A5
70
XX
XZ
15
1 -
57
0U
L1
50
20
05
70
70
00
02
12
25
9D
77
__
ZO
V1
81
RA
63
0X
XX
Z1
81
- 6
30
UL
18
02
30
63
07
00
00
25
53
11
D7
7_
_Z
OV
23
1R
A7
30
XX
XZ
23
1 -
73
0U
L2
30
30
07
30
70
00
03
26
39
7D
77
__
ZO
V2
51
RA
80
0X
XX
Z2
51
- 8
00
UL
25
03
30
88
07
00
00
35
44
32
D7
7_
_Z
OV
27
1R
A8
60
XX
XZ
27
1 -
8
60
UL
27
03
60
95
07
00
00
38
24
66
D7
7_
_Z
OV
30
1R
A9
40
XX
XZ
30
1 -
94
0U
L3
00
39
01
00
07
00
00
42
55
18
D7
7_
_Z
OV
32
1R
A1
00
0X
XX
Z3
21
- 1
00
0U
L3
20
42
01
10
07
00
00
45
35
53
D7
7_
_Z
OV
39
1R
A1
20
0X
XX
Z3
91
- 1
20
0U
L3
90
50
51
20
07
00
00
55
26
74
D7
7_
_Z
OV
42
1R
A1
50
0X
XX
Z4
21
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50
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56
01
50
07
00
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59
47
25
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7_
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46
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20
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60
61
51
60
07
00
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65
17
95
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7_
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48
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00
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RA
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1 -
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50
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50
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__
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20
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00
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20
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00
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01
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72
8
NO
TE
S:
Co
ntin
uo
us
53m
m S
ing
le -
Dis
k C
on
fig
ura
t
Sta
nd
ard
s
Tra
nsi
en
tE
lec
Re
cog
niti
on
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@ 1
mA
DC
To
Sa
fety
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en
cy
Va
rist
or
Vo
ltag
eV
olta
ge
Ap
plie
dMa
xim
um
Ra
tin
gs
HIGH ENERGY SERIESSPECIFICATIONS
54
Det
aile
d V
olta
ge v
s. C
urr
ent
char
acte
rist
iccu
rves
for
eac
h c
ompo
nen
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e av
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ble
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r en
gin
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ng
dep
artm
ent.
53
mm
Sin
gle
– D
isk C
onfig
urat
ion
Ma
ida
Pe
ak
Typ
ical
Sty
leM
inim
um E
ne
rgy
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rre
nt
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pN
um
be
rM
ark
ing
8x2
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sec
10
x10
00
# P
uls
es
1 V
rm
sµ
sec
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min
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ax
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CD
EF
(AC
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C)
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00
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82
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0.2
02
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6_
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XX
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20
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00
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00
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51
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.1
NO
TE
S:
A =
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14
49
File
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67
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ran
sie
nt
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ltag
e S
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e S
up
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78
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8
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rt (
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bla
nks
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in
dic
ate
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ab
sor
(77
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cate
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r S
66
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25m
m S
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e C
on
fig
ura
tio
n
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ltag
eMa
xim
um
Ra
tin
gs
Ap
plie
d
Ele
ctr
ica
l
@ 1
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ari
sto
rV
olta
ge
Sta
nd
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ge
ncy
(@
Tra
nsi
en
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gn
itio
ns
To
Sa
fety
Co
ntin
uo
us
HIGH ENERGY SERIESSPECIFICATIONS
55
Det
aile
d V
olta
ge v
s. C
urr
ent
char
acte
rist
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rves
for
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h c
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e av
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ble
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r en
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ng
dep
artm
ent.
25
mm
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gle
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e C
onfig
urat
ion
HIGH ENERGY SERIESSPECIFICATIONS
56
Det
aile
d V
olta
ge v
s. C
urr
ent
char
acte
rist
iccu
rves
for
eac
h c
ompo
nen
t ar
e av
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ble
from
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r en
gin
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ng
dep
artm
ent.
25
mm
Dua
l – S
quar
e C
onfig
urat
ion
Ma
ida
Pe
ak
Typ
ical
Sty
le E
ne
rgy
Cu
rre
nt
Ca
pN
um
be
rM
inim
um8
x20
µse
cM
ark
ing
10
x10
00
# P
uls
es
1 V
rm
sµ
sec
1V
min
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ax
AB
CD
EF
(AC
)(D
C)
(J)
(A)
(V)
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(V)
(A)
pF
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MM
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13
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31
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13
01
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48
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01
98
24
23
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10
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08
40
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02
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2.7
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26
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6.5
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55
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81
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0.5
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51
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70
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62
13
00
20
00
10
07
49
0.2
80
7.1
10
.28
07
.11
0.4
60
11
.7
NO
TE
S:
A =
UL
14
49
File
E8
67
30
- T
ran
sie
nt
Vo
ltag
e S
urg
e S
up
pre
ssio
nB
= U
L1
41
4 F
ile E
38
78
5 -
Acr
oss
- T
he
Lin
e A
pp
lica
tion
sC
= C
SA
C2
2.2
File
LR
33
46
8
Inse
rt (
D8
) in
bla
nks
to
in
dic
ate
ST
RA
IGH
T t
ab
s
(i.e
. S
66
D8
ZO
V1
31
RA
18
0 o
r S
66
C6
ZO
V1
31
RA
18
0)
"W"
Dim
en
sio
n i
n f
igu
res
is 1
/2 o
f "Y
" d
ime
nsi
on
.
Ma
xim
um
Ra
tin
gs
Ap
plie
dAll
me
asu
rem
en
ts i
n r
efe
ren
ce t
o c
en
ter
lea
d f
or
ea
ch (
25m
m D
ual
- S
qu
are
Co
nfi
gu
rati
on
Vo
ltag
e
Ele
ctr
ica
l
@ 1
mA
DC
MV
ars
itor
Vo
ltag
e (
@
Co
ntin
uo
us
Sta
nd
ard
s
Tra
nsi
en
tR
eco
gn
itio
ns
To
Sa
fety
Ag
en
cy
HIGH ENERGY SERIESSPECIFICATIONS
57
Det
aile
d V
olta
ge v
s. C
urr
ent
char
acte
rist
iccu
rves
for
eac
h c
ompo
nen
t ar
e av
aila
ble
from
ou
r en
gin
eeri
ng
dep
artm
ent.
34
mm
Sin
gle
– S
quar
e C
onfig
urat
ion
34m
m S
ing
le -
Sq
uar
e C
on
fig
ura
tio
n
Ma
ida
Pe
ak
Typ
ical
Sty
le E
ne
rgy
Cur
rent
Ca
pN
um
be
rM
inim
um8
x20
µse
cM
ark
ing
10
x10
00
# P
uls
es
1 V
rm
sµ
sec
1V
min
Vm
ax
AB
CD
EF
(AC
)(D
C)
(J)
(A)
(V)
(V)
(V)
(A)
pF
INM
MIN
MM
INM
MS
75
__
ZO
V1
31
RA
31
0X
XD
4S
- 1
31
UL
13
01
75
31
04
00
00
18
42
24
34
03
00
10
00
00
.10
52
.67
0.2
05
5.2
10
.24
86
.30
S7
5_
_Z
OV
14
1R
A3
30
XX
D4
S -
14
1U
L1
40
18
03
30
40
00
01
98
24
23
60
30
09
00
00
.10
82
.74
0.2
02
5.1
30
.25
26
.40
S7
5_
_Z
OV
15
1R
A3
60
XX
D4
S -
15
1U
L1
50
20
03
60
40
00
02
12
25
93
95
30
08
00
00
.11
22
.84
0.1
98
5.0
30
.25
76
.53
S7
5_
_Z
OV
18
1R
A3
90
XX
D4
S -
18
1U
L1
80
23
03
90
40
00
02
55
31
14
65
30
07
10
00
.12
03
.05
0.1
90
4.8
30
.26
76
.78
S7
5_
_Z
OV
21
1R
A4
30
XX
D4
S -
21
1U
L2
10
27
04
30
40
00
02
97
36
36
40
30
04
80
00
.12
93
.28
0.1
81
4.6
00
.27
56
.99
S7
5_
_Z
OV
23
1R
A4
60
XX
D4
S -
23
1U
L2
30
30
04
60
40
00
03
26
39
75
95
30
05
60
00
.13
43
.40
0.1
76
4.4
70
.28
07
.11
S7
5_
_Z
OV
25
1R
A4
90
XX
D4
S -
25
1U
L2
50
33
04
90
40
00
03
54
43
26
50
30
05
00
00
.13
93
.53
0.1
71
4.3
40
.28
77
.29
S7
5_
_Z
OV
27
1R
A5
50
XX
D4
S -
27
1U
L2
70
36
05
50
40
00
03
82
46
67
10
30
04
50
00
.14
43
.66
0.1
66
4.2
20
.29
47
.47
S7
5_
_Z
OV
30
1R
A6
00
XX
D4
S -
30
1U
L3
00
39
06
00
40
00
04
25
51
87
90
30
04
00
00
.15
53
.94
0.1
55
3.9
40
.30
57
.75
S7
5_
_Z
OV
32
1R
A6
40
XX
D4
S -
32
1U
L3
20
42
06
40
40
00
04
53
55
38
50
30
03
80
00
.15
84
.01
0.1
52
3.8
60
.31
27
.92
S7
5_
_Z
OV
36
1R
A7
10
XX
D4
S -
36
1U
L3
60
47
07
10
40
00
05
22
63
89
50
30
02
70
00
.17
54
.45
0.1
35
3.4
30
.31
88
.08
S7
5_
_Z
OV
39
1R
A8
00
XX
D4
S -
39
1U
L3
90
50
58
00
40
00
05
52
67
41
02
53
00
33
00
0.1
73
4.3
90
.13
73
.48
0.3
12
7.9
2S
75
__
ZO
V4
21
RA
91
0X
XD
4S
- 4
21
UL
42
05
60
91
04
00
00
59
47
25
11
20
30
03
00
00
.18
54
.70
0.1
27
3.2
30
.33
28
.43
S7
5_
_Z
OV
46
1R
A7
80
XX
D4
S -
46
1U
L4
60
61
59
20
40
00
06
51
79
51
24
03
00
26
00
0.2
00
5.0
80
.11
02
.79
0.3
44
8.7
4S
75
__
ZO
V4
81
RA
82
0X
XD
4S
- 4
81
UL
48
06
40
93
04
00
00
67
98
29
13
00
30
02
70
00
.20
35
.16
0.1
07
2.7
20
.35
08
.89
S7
5_
_Z
OV
51
1R
A9
00
XX
D4
S -
51
1U
L5
10
67
59
40
40
00
07
22
88
11
35
03
00
25
00
0.2
12
5.3
80
.09
82
.49
0.3
60
9.1
4S
75
__
ZO
V5
51
RA
96
0X
XD
4S
- 5
51
UL
55
07
00
96
04
00
00
77
89
50
15
00
30
01
80
00
.22
25
.64
0.0
88
2.2
40
.37
39
.47
S7
5_
_Z
OV
58
1R
A1
00
0X
XD
4S
- 5
81
UL
58
07
35
10
00
40
00
08
21
10
02
15
75
30
01
70
00
.23
45
.94
0.0
76
1.9
30
.38
29
.70
S7
5_
_Z
OV
62
1R
A1
04
0X
XD
4S
- 6
21
UL
62
08
00
10
40
40
00
08
77
10
71
16
70
30
01
60
00
.24
56
.22
0.0
65
1.6
50
.39
51
0S
75
__
ZO
V6
81
RA
11
00
XX
D4
S -
68
1U
L6
80
86
01
10
04
00
00
96
21
17
51
81
53
00
15
00
0.2
62
6.6
50
.04
81
.22
0.4
14
10
.5S
75
__
ZO
V7
51
RA
12
00
XX
D4
S -
75
1U
L7
50
97
01
20
04
00
00
10
62
13
00
20
00
30
01
30
00
.28
67
.26
0.0
24
0.6
10
.46
01
1.7
S7
5_
_Z
OV
88
1R
A1
30
0X
XD
4S
- 8
81
UL
88
01
15
01
30
04
00
00
12
45
15
20
22
90
30
01
10
00
.31
98
.10
0.0
09
0.2
30
.47
61
2.1
S7
5_
_Z
OV
10
2R
A1
40
0X
XD
4S
- 1
02
UL
10
00
12
00
14
00
40
00
01
41
41
72
82
55
03
00
10
00
0.3
54
8.9
90
.04
41
.12
0.5
14
13
.1
NO
TE
S:
A =
UL
14
49
File
E8
67
30
- T
ran
sie
nt
Vo
ltag
e S
urg
e S
up
pre
ssio
nB
= U
L1
41
4 F
ile E
38
78
5 -
Acr
oss
- T
he
Lin
e A
pp
lica
tion
sC
= C
SA
C2
2.2
File
LR
33
46
8
Inse
rt (
80
) in
bla
nks
to
in
dic
ate
ST
RA
IGH
T t
ab
sor
(77
) to
indi
cate
FO
RM
ED
FO
OT
(i.e
. S
75
80
ZO
V1
31
RA
31
0 o
r S
75
77
ZO
V1
31
RA
31
0)
Vo
ltag
eMa
xim
um
Ra
tin
gs
Ap
plie
d
Co
ntin
uo
us
Ma
Va
rist
or
Vo
ltag
eEle
ctr
ica
l C
@ 1
mA
DC
Re
cog
niti
on
sT
oS
afe
tyA
ge
ncy
(8S
tan
da
rds
Tra
nsi
en
t
(@
Ma
ida
Pe
ak
Typ
ical
Sty
le E
ne
rgy
Cur
rent
Ca
pN
um
be
rM
inim
um8
x20
µse
cM
ark
ing
10
x10
00
# P
uls
es
1 V
rm
sµ
sec
1V
min
Vm
ax
AB
CD
EF
(AC
)(D
C)
(J)
(A)
(V)
(V)
(V)
(A)
pF
INM
MIN
MM
INM
MS
75
__
ZO
V1
31
RA
31
0X
2X
D4
S -
13
1U
L1
30
17
53
10
40
00
01
84
22
43
40
30
07
90
00
.16
24
.11
0.1
62
4.1
10
.30
47
.72
S7
5_
_Z
OV
14
1R
A3
30
X2
XD
4S
- 1
41
UL
14
01
80
33
04
00
00
19
82
42
36
03
00
71
83
0.1
70
4.3
20
.17
04
.32
0.3
12
7.9
2S
75
__
ZO
V1
51
RA
36
0X
X2
XD
4S
- 1
51
UL
15
02
00
36
04
00
00
21
22
59
39
53
00
66
00
0.1
76
4.4
70
.17
64
.47
0.3
21
8.1
5S
75
__
ZO
V1
81
RA
39
0X
X2
XD
4S
- 1
81
UL
18
02
30
39
04
00
00
25
53
11
47
03
00
56
00
0.1
90
4.8
30
.19
04
.83
0.3
36
8.5
3S
75
__
ZO
V2
11
RA
43
0X
X2
XD
4S
- 2
11
UL
21
02
70
43
04
00
00
29
73
63
64
03
00
48
00
0.2
08
5.2
80
.20
85
.28
0.3
54
8.9
9S
75
__
ZO
V2
31
RA
46
0X
X2
XD
4S
- 2
31
UL
23
03
00
46
04
00
00
32
63
97
59
53
00
44
00
0.2
20
5.5
90
.22
05
.59
0.3
65
9.2
7S
75
__
ZO
V2
51
RA
49
0X
X2
XD
4S
- 2
51
UL
25
03
30
49
04
00
00
35
44
32
65
03
00
41
00
0.2
30
5.8
40
.23
05
.84
0.3
78
9.6
0S
75
__
ZO
V2
71
RA
55
0X
X2
XD
4S
- 2
71
UL
27
03
60
55
04
00
00
38
24
66
71
03
00
38
00
0.2
42
6.1
50
.24
26
.15
0.3
92
9.9
6S
75
__
ZO
V3
01
RA
60
0X
X2
XD
4S
- 3
01
UL
30
03
90
60
04
00
00
42
55
18
79
03
00
34
00
0.2
60
6.6
00
.26
06
.60
0.4
10
10
.41
S7
5_
_Z
OV
32
1R
A6
40
XX
2X
D4
S -
32
1U
L3
20
42
06
40
40
00
04
53
55
38
50
30
03
20
00
.27
06
.86
0.2
70
6.8
60
.41
91
0.6
4S
75
__
ZO
V3
61
RA
71
0X
2X
D4
S -
36
1U
L3
60
47
07
10
40
00
05
22
63
89
50
30
02
70
00
.30
07
.62
0.3
00
7.6
20
.43
51
1.0
5S
75
__
ZO
V3
91
RA
80
0X
2X
D4
S -
39
1U
L3
90
50
58
00
40
00
05
52
67
41
02
53
00
25
82
0.3
10
7.8
70
.31
07
.87
0.4
48
11
.38
S7
5_
_Z
OV
42
1R
A9
10
X2
XD
4S
- 4
21
UL
42
05
60
91
04
00
00
59
47
25
11
20
30
02
40
00
.32
88
.33
0.3
28
8.3
30
.46
51
1.8
1S
75
__
ZO
V4
61
RA
78
0X
2X
D4
S -
46
1U
L4
60
61
59
20
40
00
06
51
79
51
24
03
00
21
86
0.3
50
8.8
90
.35
08
.89
0.4
89
12
.42
S7
5_
_Z
OV
48
1R
A8
20
X2
XD
4S
- 4
81
UL
48
06
40
93
04
00
00
67
98
29
13
00
30
02
10
00
.36
09
.14
0.3
60
9.1
40
.50
01
2.7
0S
75
__
ZO
V5
11
RA
90
0X
2X
D4
S -
51
1U
L5
10
67
59
40
40
00
07
22
88
11
39
03
00
20
00
0.3
78
9.6
00
.37
89
.60
0.5
17
13
.13
S7
5_
_Z
OV
55
1R
A9
60
X2
XD
4S
- 5
51
UL
55
07
00
96
04
00
00
77
89
50
15
00
30
01
80
00
.40
01
0.1
60
.40
01
0.1
60
.54
51
3.8
4S
75
__
ZO
V5
81
RA
10
00
X2
XD
4S
- 5
81
UL
58
07
35
10
00
40
00
08
21
10
01
15
75
30
01
70
00
.41
81
0.6
20
.41
81
0.6
20
.56
21
4.2
7S
75
__
ZO
V6
21
RA
10
40
X2
XD
4S
- 6
21
UL
62
08
00
10
40
40
00
08
77
10
71
16
70
30
01
60
00
.44
01
1.1
80
.44
01
1.1
80
.58
21
4.7
8S
75
__
ZO
V6
81
RA
11
00
X2
XD
4S
- 6
81
UL
68
08
60
11
00
40
00
09
62
11
75
18
15
30
01
50
00
.47
41
2.0
40
.47
41
2.0
40
.61
71
5.6
7S
75
__
ZO
V7
51
RA
12
00
X2
XD
4S
- 7
51
UL
75
09
70
12
00
40
00
01
06
21
30
02
00
03
00
13
00
0.5
22
13
.26
0.5
22
13
.26
0.7
20
18
.29
NO
TE
S:
A =
UL
14
49
File
E8
67
30
- T
ran
sie
nt
Vo
ltag
e S
urg
e S
up
pre
ssio
nB
= U
L1
41
4 F
ile E
38
78
5 -
Acr
oss
- T
he
Lin
e A
pp
lica
tion
sC
= C
SA
C2
2.2
File
LR
33
46
8
Inse
rt (
D8
) in
bla
nks
to
in
dic
ate
ST
RA
IGH
T t
ab
sor
(C
6) t
o in
dica
te F
OR
ME
D F
OO
T(i
.e.,
S7
5D
8Z
OV
13
1R
A3
10
or
S7
5C
6Z
OV
13
1R
A3
10
)
Tra
nsi
en
tR
eco
gn
itio
ns
To
Sa
fety
Ag
en
cyS
tan
da
rds
Ele
ctr
ic
@ 1
mA
DC
All
me
asu
rem
en
ts i
n r
efe
ren
ce t
o c
en
ter
lea
d f
or
ea
Ap
plie
d
Co
ntin
uo
us
Va
rist
or
34m
m D
ual
- S
qu
are
Co
nfi
gu
rati
on
Vo
ltag
eMa
xim
um
Ra
tin
gs
Vo
ltag
e
HIGH ENERGY SERIESSPECIFICATIONS
58
Det
aile
d V
olta
ge v
s. C
urr
ent
char
acte
rist
iccu
rves
for
eac
h c
ompo
nen
t ar
e av
aila
ble
from
ou
r en
gin
eeri
ng
dep
artm
ent.
34
mm
Dua
l – S
quar
e C
onfig
urat
ion