Products Catalog (Surge Absorbers)(1236KB)

2015
CATALOG
Surge Absorbers
2015.8
industrial.panasonic.com/
Surge Absorbers CONTENTS
Product Item
Type / Series
Part Number
Page
“ZNR” Transient / Surge Absorbers
2
Products System
3
Type D, Series V
SMD Type
“ZNR” Transient/
Surge Absorbers
Standard Products
ERZV□□D□□□
4
Leads Cut Type
ERZV□□D(V)□□□CS
24
Taping Specifications
ERZV□□D(V)□□□
25
Application Note for UL, CSA and
VDE Recognized Components
27
Marking Contents
28
Performance Characteristics
29
Series HF
ERZHF□□□□□
31
Series VF
ERZVF□□□□□
34
Handling Precautions (Type D / SMD)
39
Type SC
ERZVS□□□□□□
42
Type E
ERZC□□EK□□□
44
Type CK
ERZC□□CK□□□
49
Handling Precautions (Type SC / E / CK)
54
Type P
ERZA□□PK□□□
57
Type J
ERZA□□JK□□□
59
Type G
ERZA□□GS(K)□□□
62
“ZNR” Surge Absorber Units
ERZA
64
“ZNR” Transient/
Surge Absorbers,
For Thyristor Protection
Type E
ERZC□□EK□□□P
Type J
ERZU□□JP□□□
68
All products in this catalog comply with the RoHS Directive.
The RoHS Directive is “the Directive (2011/65/EU) on the Restriction of the Use of Certain
Hazardous Substances in Electrical and Electronic Equipment “ and its revisions.
01 Sep. 2015
–1–
“ZNR” Transient/Surge Absorbers
“ZNR” Transient/Surge Absorbers
ZNRs are zinc-oxide nonlinear resistors whose resistance changes as a function of the applied voltage. These
basic characteristics of ZNR express by varistor voltage and clamping voltage (or voltage ratio).
The ZNR utilizes a ceramic element composed of zinc oxide and several kinds of metal oxide additives that have
been sintered at relatively high temperature.
The ZNR has a bilateral and symmetrical V-I characteristics similar to back-to-back zener diode and unparalleled large
peak current capability so it can be used for absorption of transient voltage, suppression of pulse noise and as an
arrester element and circuit voltage stabilization.
Explanation of technical terms
2. Maximum Peak Current
Specification which specified how much surge current
surge absorber can endure is maximum peak current.
This characteristic expresses a current value having
standard wave form shown in figure 2.
In case of different waveform from the standard one, the
specifications shall be determined by reffering to impulse
life ratings.
100
90
Voltage log
Maximum Clamping Voltage
Current(%)
Varistor Voltage
1. Voltage-Current Characteristics
Figure 1 shows voltage-current characteristics of
ZNR. The axis of abscissas is logarithm of current
and the axis of ordinates is logarithm of voltage.
Characteristics, voltage value at 1mA(principle) is
used, calling varistor voltage. In case of surge
absorber which utilizes at large current region
because of voltage at specified current is used,
calling clamping voltage.
Max.
Nom.
Min.
Maximum Leakage Current
-3
10 A
50
10
0
8 µs
Current log
20 µs
Fig. 1 Example of V-I Characteristic of ZNR
Time
Fig. 2 Standard Impulse Current Waveform (8/20 μs)
Note
✽ ZNR “Zinc Oxide Nonlinear Resistor” is a trade mark of voltage dependent resistor elements by Panasonic.
ZNR is in some cases named Metal Oxide Varistor “MOV”
3. Clamping Voltage
Varistors have an abitity to limit a high voltage surge like lightning.
We call this limited voltage as “Clamping Voltage”. “Clamping Voltage” is measured by voltage between two
therminals using standard impulse current waveform (8/20 µs) shown in fig.2.
To avoid an exothermic influence.
Lightning Voltage
Voltage
Voltage
Clumping Voltage by ZNR
Time
Time
Fig. 3 Example of impressing pulse and clamping Voltage
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
–2–
Jan. 2015
“ZNR” Transient/Surge Absorbers
Products System
Type D
Series V
Type SMD
Series HF
● Varistor Voltage
: 18 to 1800 V
● Maximum Peak Current
: 125 to 7000 A
(at 8/20 μs)
For Automotive (DC12 V)
Meet for Load Damp Surge
Compact size SMD
High Reliability
● Varistor Voltage : 20 to 23.2 V
27 V±20 %
● Maximum Surge : JASO A-1
70 V 1 time
P.4
P.31
Surface mount type with protective coating so as to high
level reliability
● Varistor Voltage
: 22 to 470 V
● Maximum Peak Current
: 125 to 600 A
(at 8/20 μs)
For incorporation in a
surge protective device
corresponding to the
IEC61643-1
● Varistor Voltage
: 200 to 950 V
● Maximum Peak Current
: In
20 kA
Imax 40 kA
(at 8/20 μs)
Type E
Type CK
For an application in industrial
electric or electronic equipment under heavy duty
● Varistor Voltage
: 200 to 1100 V
● Maximum Peak Current
: 5 to 25 kA
(at 8/20 μs)
Type P
Plug-in type with deterioration
indicator. For application to
industrial equipment
● Varistor Voltage
: 250 to 1000 V
● Maximum Peak Current
:5000 A (at 8/20 μs)
Type J
Stack-type for heavy surge
energy application (High
power induced load and so on)
● Varistor Voltage
: 560 to 1250 V
● Maximum Peak Current
: 80 to 320 kA
(at 4/10 μs)
● Energy
: 5000 to 40000 J
P.59
Type G
For protection to switching
surge of high voltage (3.3, 6.6
kV) equipment
● Varistor Voltage
: 5 or 17 kV
● Maximum Peak Current
: 5 to 10 kA
(at 8/20 μs)
● Energy
: 1300 to 2600 J
P.62
Surge
Absorber
Units
Surge absorber with connected ZNRs and circuit breaker
in box
●Varistor Voltage
: 22 to 1000 V
● Impulse Life
: 16 to 210 A
● Maximum Peak Current
: 5 to 50 kA
(at 8/20 μs)
P.64
Surge
Absorbers
for Thyristor
Thristor protection against
switching surge of transformer
Type SMD
Series VF
Type SC
“ZNR”
Surge
Absorbers
Standard type with radial
leads for general surge
protect applications
● Varistor Voltage
● Impulse Life
: 510 to 2500 V
: 40 to 210 A
(2 ms, 104 times)
02
–3–
P.34
P.42
P.44
P.57
P.68
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
“ZNR” Transient/Surge Absorbers
Type:
Series:
D
V
Features
● Large
withstanding surge current capability in compact sizes
“Energy Handling Capability” absorbing transient overvoltages in compact sizes
● Wide range of varistor voltages
● RoHS compliant
● Large
Recommended Applications
● Transistor,
diode, IC, thyristor or triac semiconductor protection
protection in consumer electronic equipment
● Surge protection in communication, measuring or controller electronics
● Surge protection in electronic home appliances, gas or petroleum appliances
● Surge
Applicable Standards
● UL1449
(VZCA2/UL, VZCA8/C-UL)
IEC61051-1, -2, -2-2, IEC60950-1 Annex.Q
● CSA C22.2 No.1
● CQC(GB/T10193, GB/T10194, GB4943.1, GB8898)
Refer to page 5 to 8, and 27, for the details
● VDE
■ As for Handling Precautions and Minimum Quantity / Packing Unit
Please see Related Information
Explanation of Part Numbers (Bulk)
1
2
3
4
E
R
Z
V
5
6
7
8
9
10
05
07
09
12
D
Series
Product Code
11
Design No.
Element Size
f10 mm
f5 mm
10
f14 mm
f7 mm
14
f20 mm
f10 mm
20
Lead Configuration
D Straight Lead
V Crimped Lead✽
✽ Excluding f20.
✽ Only the lead cut
Norminal Varistor Voltage
The first two digits are significant
figures and the third one denotes
the number of zeros following.
Explanation of Part Numbers (Taping)
1
2
3
4
E
R
Z
V
Product Code
A to D
E to H
5
6
7
8
9
11
12
D
Series
Taping / Packaging
Radial Taping (P0=12.7 mm)
Radial Taping (P0=15.0 mm)
10
Design No.
Element Size
f5 mm
5
f7 mm
7
f10 mm
9
f10 mm
A
f14 mm
E
Lead Configuration
D
Straight Lead
Crimped Lead
V
Nominal Varistor Voltage
The first two digits are significant
figures and the third one denotes
the number of zeros following.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
–4–
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Reference Guide to Standard Products
Part No.
Applicable
Standards
Varistor
✽
Voltage
Type Name Approvals
(V)
Maximum
Clamping
Allowable
Voltage
Voltage
at 8/20µs
ACrms (V) DC (V) max.(V) Ip (A)
Maximum
Peak Current
at 8/20µs(A)
1 time 2 times
ERZV05D180
V180
◇
40
1
250
125
ERZV07D180
V7180
◇
36
2.5
500
250
ERZV09D180
V9180
◇
36
5
1000
500
ERZV10D180
V10180
◇
ERZV14D180
V14180
◇
ERZV20D180
V20180
ERZV05D220
V220
ERZV07D220
18
(16 to 20)
11
14
36
5
1000
500
36
10
2000
1000
◇
36
20
3000
2000
◇
48
1
250
125
V7220
◇
43
2.5
500
250
ERZV09D220
V9220
◇
43
5
1000
500
ERZV10D220
V10220
◇
43
5
1000
500
ERZV14D220
V14220
◇
43
10
2000
1000
ERZV20D220
V20220
◇
43
20
3000
2000
ERZV05D270
V270
◇
60
1
250
125
ERZV07D270
V7270
◇
53
2.5
500
250
ERZV09D270
V9270
◇
53
5
1000
500
ERZV10D270
V10270
◇
53
5
1000
500
ERZV14D270
V14270
◇
53
10
2000
1000
ERZV20D270
V20270
◇
53
20
3000
2000
ERZV05D330
V330
◇
73
1
250
125
ERZV07D330
V7330
◇
65
2.5
500
250
ERZV09D330
V9330
◇
65
5
1000
500
ERZV10D330
V10330
◇
65
5
1000
500
ERZV14D330
V14330
◇
65
10
2000
1000
ERZV20D330
V20330
◇
65
20
3000
2000
ERZV05D390
V390
◇
86
1
250
125
ERZV07D390
V7390
◇
77
2.5
500
250
ERZV09D390
V9390
◇
77
5
1000
500
ERZV10D390
V10390
◇
77
5
1000
500
ERZV14D390
V14390
◇
77
10
2000
1000
ERZV20D390
V20390
◇
77
20
3000
2000
ERZV05D470
V470
◇
104
1
250
125
ERZV07D470
V7470
◇
93
2.5
500
250
ERZV09D470
V9470
◇
93
5
1000
500
ERZV10D470
V10470
◇
93
5
1000
500
ERZV14D470
V14470
◇
93
10
2000
1000
ERZV20D470
V20470
◇
93
20
3000
2000
ERZV05D560
V560
◇
123
1
250
125
ERZV07D560
V7560
◇
110
2.5
500
250
ERZV09D560
V9560
◇
110
5
1000
500
ERZV10D560
V10560
◇
110
5
1000
500
ERZV14D560
V14560
◇
110
10
2000
1000
ERZV20D560
V20560
◇
110
20
3000
2000
ERZV05D680
V680
◇
150
1
250
125
ERZV07D680
V7680
◇
135
2.5
500
250
ERZV09D680
V9680
◇
135
5
1000
500
ERZV10D680
V10680
◇
135
5
1000
500
ERZV14D680
V14680
◇
135
10
2000
1000
ERZV20D680
V20680
◇
135
20
3000
2000
22
(20 to 24)
27
(24 to 30)
33
(30 to 36)
39
(35 to 43)
47
(42 to 52)
56
(50 to 62)
68
(61 to 75)
14
17
20
25
30
35
40
18
22
26
31
38
45
56
Recommended Applications
For the low voltage circuit
✽ Measuring Current of Varistor Voltage 5 Series : 0.1 mA, Others: 1 mA
◯ : UL1449 (VZCA2/UL, VZCA8/C-UL),
☆ : VDE (IEC61051-1, -2, -2-2), ★ : VDE (IEC60950-1 Annex.Q), □ : CSA C22.2 No.1
◇ : CQC (GB/T10193, GB/T10194), ◆ : CQC (GB4943.1, GB8898)
※ Approval number (File No.) of safety regulations are subject to revision without notice. Ask factory for a copy of the latest file No.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
–5–
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Reference Guide to Standard Products
Part No.
Applicable
Standards
Type Name
Approvals
Varistor
✽
Voltage
(V)
Maximum
Clamping
Maximum
Allowable
Voltage
Peak Current
Voltage
at 8/20µs
at 8/20µs(A)
ACrms (V) DC (V) max.(V) Ip (A) 1 time 2 times
ERZV05D820
V820U
○☆◇
145
5
800
600
ERZV07D820
V7820U
○☆◇
135
10
1750
1250
ERZV09D820
V9820U
○☆◇
135
25
3500
2500
ERZV10D820 V10820U
○☆◇
135
25
3500
2500
ERZV14D820 V14820U
○☆◇
135
50
6000
5000
ERZV20D820 V20820U
○☆◇
135
100
10000
7000
ERZV05D101
V101U
○☆◇
175
5
800
600
ERZV07D101
V7101U
○☆◇
165
10
1750
1250
ERZV09D101
V9101U
○☆◇
165
25
3500
2500
ERZV10D101
V10101U
○☆◇
165
25
3500
2500
ERZV14D101
V14101U
○☆◇
165
50
6000
5000
ERZV20D101 V20101U
○☆◇
165
100
10000
ERZV05D121
V121U
○☆◇
210
5
800
ERZV07D121
V7121U
○☆◇
200
10
1750
1250
ERZV09D121
V9121U
○☆◇
200
25
3500
2500
ERZV10D121 V10121U
○☆◇
200
25
3500
2500
ERZV14D121 V14121U
○☆◇
200
50
6000
5000
ERZV20D121 V20121U
○☆◇
200
100
10000
7000
ERZV05D151
V151U
○☆◇
260
5
800
600
ERZV07D151
V7151U
○☆◇
250
10
1750
1250
ERZV09D151
250
25
3500
2500
250
25
3500
2500
82
(74 to 90)
100
(90 to 110)
120
(108 to 132)
50
60
75
65
85
100
7000 Telephone, Communication Line
600 (DC 48 V)
V9151U
○☆◇
ERZV10D151 V10151U
○☆◇
ERZV14D151 V14151U
○☆◇
250
50
6000
5000
ERZV20D151 V20151U
○☆◇
250
100
10000
7000
150
(135 to 165)
95
125
ERZV05D201
V201U
○☆□◇
355
5
800
600
ERZV07D201
V7201U
○☆□◇
340
10
1750
1250
ERZV09D201
340
25
3500
2500
340
25
3500
2500
5000
V9201U
○☆□◇
ERZV10D201 V10201U
○☆□◇
ERZV14D201 V14201U
○☆★□◇◆
340
50
6000
ERZV20D201 V20201U
○☆★□◇◆
340
100
10000
V221U
○☆□◇
380
5
800
ERZV07D221
V7221U
○☆□◇
360
10
1750
1250
ERZV09D221
V9221U
○☆□◇
360
25
3500
2500
ERZV10D221 V10221U
○☆□◇
360
25
3500
2500
ERZV14D221 V14221U
○☆★□◇◆
360
50
6000
5000
ERZV20D221 V20221U
○☆★□◇◆
360
100
10000
7000
V241U
○☆□◇
415
5
800
600
ERZV07D241
V7241U
○☆□◇
395
10
1750
1250
ERZV09D241
V9241U
○☆□◇
395
25
3500
2500
ERZV10D241 V10241U
○☆□◇
395
25
3500
2500
ERZV14D241 V14241U
○☆★□◇◆
395
50
6000
5000
ERZV20D241 V20241U
○☆★□◇◆
395
100
10000
V271U
○☆□◇
475
5
800
ERZV07D271
V7271U
○☆□◇
455
10
1750
1250
ERZV09D271
V9271U
○☆□◇
455
25
3500
2500
ERZV10D271 V10271U
○☆□◇
455
25
3500
2500
ERZV14D271 V14271U
○☆★□◇◆
455
50
6000
5000
ERZV20D271 V20271U
○☆★□◇◆
455
100
10000
7000
ERZV05D221
ERZV05D241
ERZV05D271
200
(185 to 225)
220
(198 to 242)
240
(216 to 264)
270
(247 to 303)
130
140
150
175
170
180
200
225
Recommended Applications
7000 AC 100 V Line–Line
600 Applications
7000 AC 100 V to 120 V, Line–Line
600 Applications
✽ Measuring Current of Varistor Voltage 5 Series : 0.1 mA, Others: 1 mA
◯ : UL1449 (VZCA2/UL, VZCA8/C-UL),
☆ : VDE (IEC61051-1, -2, -2-2), ★ : VDE (IEC60950-1 Annex.Q), □ : CSA C22.2 No.1
◇ : CQC (GB/T10193, GB/T10194), ◆ : CQC (GB4943.1, GB8898)
※ Approval number (File No.) of safety regulations are subject to revision without notice. Ask factory for a copy of the latest file No.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
–6–
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Reference Guide to Standard Products
Part No.
Applicable
Standards
Type Name
Approvals
ERZV05D331
V331U
○☆□◇
ERZV07D331
V7331U
○☆□◇
ERZV09D331
V9331U
○☆□◇
ERZV10D331 V10331U
○☆□◇
ERZV14D331 V14331U
ERZV20D331 V20331U
Varistor
✽
Voltage
(V)
Maximum
Clamping
Maximum
Allowable
Voltage
Peak Current
Voltage
at 8/20µs
at 8/20µs(A)
ACrms (V) DC (V) max.(V) Ip (A) 1 time 2 times
570
5
800
600
545
10
1750
1250
545
25
3500
2500
545
25
3500
2500
○☆★□◇◆
545
50
6000
4500
○☆★□◇◆
545
100
10000
6500
330
(297 to 363)
210
270
ERZV05D361
V361U
○☆□◇
620
5
800
ERZV07D361
V7361U
○☆□◇
595
10
1750
ERZV09D361
V9361U
○☆□◇
595
25
3500
ERZV10D361 V10361U
○☆□◇
595
25
3500
ERZV14D361 V14361U
○☆★□◇◆
595
50
6000
ERZV20D361 V20361U
○☆★□◇◆
595
100
10000
360
(324 to 396)
230
300
600
AC 100 V to 120 V, Line–Line
1250 Applications
2500
2500 Telephone Line Applications,
4500 (For DC 250 V Insulation
Resistance Test)
6500
ERZV05D391
V391U
○☆□◇
675
5
800
600
ERZV07D391
V7391U
○☆□◇
650
10
1750
1250
ERZV09D391
650
25
3500
2500
650
25
3500
2500
V9391U
○☆□◇
ERZV10D391 V10391U
○☆□◇
ERZV14D391 V14391U
○☆★□◇◆
650
50
6000
4500
ERZV20D391 V20391U
○☆★□◇◆
650
100
10000
6500
390
(351 to 429)
250
320
ERZV05D431
V431U
○☆□◇
745
5
800
600
ERZV07D431
V7431U
○☆□◇
710
10
1750
1250
ERZV09D431
710
25
3500
2500
710
25
3500
2500
4500
V9431U
○☆□◇
ERZV10D431 V10431U
○☆□◇
ERZV14D431 V14431U
○☆★□◇◆
710
50
6000
ERZV20D431 V20431U
○☆★□◇◆
710
100
10000
430
(387 to 473)
275
350
Recommended Applications
ERZV05D471
V471U
○☆□◇
810
5
800
ERZV07D471
V7471U
○☆□◇
775
10
1750
6500 AC 100 V to 220 V, Line–Line
and
600 Line–Ground Applications
1250
ERZV09D471
V9471U
○☆□◇
775
25
3500
2500
775
25
3500
2500
470
(423 to 517)
300
385
ERZV10D471 V10471U
○☆★□◇◆
ERZV14D471 V14471U
○☆★□◇◆
775
50
6000
4500
ERZV20D471 V20471U
○☆★□◇◆
775
100
10000
6500
ERZV07D511
V7511U
○☆□◇
845
10
1750
1250
ERZV09D511
V9511U
○☆□◇
845
25
3500
2500
ERZV10D511
V10511U
○☆★□◇◆
845
25
3500
2500
ERZV14D511
V14511U
○☆★□◇◆
845
50
6000
4500
ERZV20D511 V20511U
○☆★□◇◆
845
100
10000
6500
ERZV10D561 V10561U
○☆★□◇◆
930
25
3500
ERZV14D561 V14561U
○☆★□◇◆
930
50
5000
ERZV20D561 V20561U
○☆★□◇◆
7500
ERZV10D621 V10621U
○☆★□◇◆
ERZV14D621 V14621U
○☆★□◇◆
ERZV20D621 V20621U
○☆★□◇◆
ERZV10D681 V10681U
○☆★□◇◆
ERZV14D681 V14681U
○☆★□◇◆
ERZV20D681 V20681U
○☆★□◇◆
510
(459 to 561)
560
(504 to 616)
620
(558 to 682)
680
(612 to 748)
320
350
385
420
410
450
505
560
930
100
1025
25
3500
2500
4500 AC 100 to 240 V, Line–Line
and
6500 Line–Ground Applications
2500
1025
50
5000
4500
1025
100
7500
6500
1120
25
3500
2500
1120
50
5000
4500
1120
100
7500
6500
✽ Measuring Current of Varistor Voltage 5 Series : 0.1 mA, Others: 1 mA
◯ : UL1449 (VZCA2/UL, VZCA8/C-UL),
☆ : VDE (IEC61051-1, -2, -2-2), ★ : VDE (IEC60950-1 Annex.Q), □ : CSA C22.2 No.1
◇ : CQC (GB/T10193, GB/T10194), ◆ : CQC (GB4943.1, GB8898)
※ Approval number (File No.) of safety regulations are subject to revision without notice. Ask factory for a copy of the latest file No.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
–7–
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Reference Guide to Standard Products
Part No.
ERZV10D751
Applicable
Standards
Type Name
Approvals
V10751U
○☆★□◇◆
ERZV14D751
V14751U
○☆★□◇◆
ERZV20D751
V20751U
○☆★□◇◆
ERZV10D821
V10821U
○☆★□◇◆
ERZV14D821
V14821U
○☆★□◇◆
ERZV20D821
V20821U
○☆★□◇◆
ERZV10D911
V10911U
○☆★□◇◆
ERZV14D911
V14911U
○☆★□◇◆
ERZV20D911
V20911U
○☆★□◇◆
ERZV10D102
V10102U
○☆★□◇◆
ERZV14D102
V14102U
○☆★□◇◆
ERZV20D102
V20102U
○☆★□◇◆
ERZV10D112
V10112U
○☆★□◇◆
ERZV14D112
V14112U
○☆★□◇◆
ERZV20D112
V20112U
○☆★□◇◆
ERZV10D182CS V10182U
○☆★□◇◆
ERZV14D182CS V14182U
○☆★□◇◆
ERZV20D182
○☆★□◇◆
V20182U
Varistor
✽
Voltage
(V)
Maximum
Clamping
Maximum
Allowable
Voltage
Peak Current
Voltage
at 8/20µs
at 8/20µs(A)
ACrms (V) DC (V) max.(V) Ip (A) 1 time 2 times
1240
750
(675 to 825)
460
820
(738 to 902)
510
910
(819 to 1001)
550
1000
(900 to 1100)
625
1100
(990 to 1210)
680
1800
1000
(1700 to 1980)
615
670
745
825
895
1465
25
3500
Recommended Applications
2500
1240
50
5000
4500
1240
100
7500
6500
1355
25
3500
2500
1355
50
5000
4500
1355
100
7500
6500
1500
25
3500
2500
1500
50
5000
4500
1500
100
7500
6500
1650
25
3500
2500
1650
50
5000
4500
1650
100
7500
6500
1815
25
3500
2500
1815
50
5000
4500
1815
100
7500
6500
2970
25
3500
2500
2970
50
5000
4500
2970
100
7500
6500
AC 380 V, Line–Line and
Line–Ground Applications
(For DC 500 V Insulating Test)
AC 415 V, Line–Line and
Line–Ground Applications
(For DC 500 V Insulating Test)
AC 480 V, Line–Line and
Line–Ground Applications
(For DC 500 V Insulating Test)
Line–Ground Applications
(For AC 1200 V Withstanding
Test)
✽ Measuring Current of Varistor Voltage 5 Series : 0.1 mA, Others: 1 mA
◯ : UL1449 (VZCA2/UL, VZCA8/C-UL),
☆ : VDE (IEC61051-1, -2, -2-2), ★ : VDE (IEC60950-1 Annex.Q), □ : CSA C22.2 No.1
◇ : CQC (GB/T10193, GB/T10194), ◆ : CQC (GB4943.1, GB8898)
※ Approval number (File No.) of safety regulations are subject to revision without notice. Ask factory for a copy of the latest file No.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
–8–
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
5 Series
Ratings and Characteristics
Operating Temperature Range : –40 to 85 °C
Part No.
Storage Temperature Range : –40 to 125 °C
Clamping
Voltage
(max.)
✽✽
Ip
Rated
Power
Maximum
Peak Current Capacitance
(8/20 µs)
(max.)
(10/1000 µs) (2 ms) 1 time 2 times
Maximum
Energy
V0.1 mA (V)
ACrms (V)
DC (V)
(V)
(W)
(J)
(J)
(A)
(A)
at 1 kHz (pF)
18(16 to 20)
22(20 to 24)
27(24 to 30)
33(30 to 36)
39(35 to 43)
47(42 to 52)
56(50 to 62)
68(61 to 75)
82(74 to 90)
100(90 to 110)
120(108 to 132)
150(135 to 165)
200(185 to 225)
220(198 to 242)
240(216 to 264)
270(247 to 303)
330(297 to 363)
360(324 to 396)
390(351 to 429)
430(387 to 473)
470(423 to 517)
11
14
17
20
25
30
35
40
50
60
75
95
130
140
150
175
210
230
250
275
300
14
18
22
26
31
38
45
56
65
85
100
125
170
180
200
225
270
300
320
350
385
40
48
60
73
86
104
123
150
145
175
210
260
355
380
415
475
570
620
675
745
810
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.01
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.1
0.6
0.7
0.9
1.1
1.2
1.5
1.8
2.2
3.5
4.0
5.0
6.5
8.5
9.0
10.5
11.0
13.0
16.0
17.0
20.0
21.0
0.4
0.5
0.7
0.8
0.9
1.1
1.3
1.6
2.5
3.0
3.5
4.5
6.0
6.5
7.5
8.0
9.5
11.0
12.0
13.5
15.0
250
250
250
250
250
250
250
250
800
800
800
800
800
800
800
800
800
800
800
800
800
125
125
125
125
125
125
125
125
600
600
600
600
600
600
600
600
600
600
600
600
600
1600
1500
1450
1400
700
650
600
580
460
400
350
300
120
110
100
90 ✽
80 ✽
80 ✽
80 ✽
70 ✽
60 ✽
✽✽Ip Measuring current of clamping voltage 180 to 680 : 1 A, 820 to 471 : 5 A
Dimensions in mm (not to scale)
✽ Refer to page 24 to 26 about leads cut type and taping.
Part No.
D max.
T max.
W±1.0
H max.
L±1.0
ERZV05D180
ERZV05D220
ERZV05D270
ERZV05D330
ERZV05D390
ERZV05D470
ERZV05D560
ERZV05D680
ERZV05D820
ERZV05D101
ERZV05D121
ERZV05D151
ERZV05D201
ERZV05D221
ERZV05D241
ERZV05D271
ERZV05D331
ERZV05D361
ERZV05D391
ERZV05D431
ERZV05D471
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
7.0
4.5
4.5
4.5
4.5
4.5
4.5
4.5
4.5
4.1
4.3
4.5
4.8
4.4
4.5
4.6
4.8
5.1
5.3
5.4
5.6
5.8
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.4
1.6
1.8
2.1
1.7
1.8
1.9
2.1
2.4
2.5
2.7
2.9
3.1
D
T
L
W
f0.6
L
✽ Measured at 1 MHz
H
ERZV05D180
ERZV05D220
ERZV05D270
ERZV05D330
ERZV05D390
ERZV05D470
ERZV05D560
ERZV05D680
ERZV05D820
ERZV05D101
ERZV05D121
ERZV05D151
ERZV05D201
ERZV05D221
ERZV05D241
ERZV05D271
ERZV05D331
ERZV05D361
ERZV05D391
ERZV05D431
ERZV05D471
Maximum
Allowable
Voltage
Varistor
Voltage
●
20.0 min.
●
W
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
–9–
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Typical Characteristics
Voltage vs. Current
Impulse Derating (Relation between impulse
width and impulse current multiple)
ERZV05D180 to ERZV05D680
ERZV05D180 to ERZV05D680
1000
Max. Clamping Voltage
Max.
400 Leakage Current
300
470
390
330
200
80
1
10
9
8
7
6
10
2
Ti
m
es
Impulse Current (A)
e
m
Ti
20
10
3
10 4 Ti
m
Ti es
10 5 me
10 6 Tim s
Tim es
es
m
3
0
27 0
22
10
Ti
30
10
30
es
m
Ti
40
2
0
68
0
56
0
47
1
100
90
80
70
60
50
100
270
220
180
390
Voltage (V)
2 times : 5 min. interval
up to 10 times : 2 min. interval
up to 106 times : 10 sec. interval
680
560
es
1
Test current waveform
10–6 to 10–4 A: Direct current
10–1 to 103 A: 8/20 µs
5
4
3
10–6
10–5
10–4
10–3
10–2
10–1
100
Current (A)
101
102
103
104
ERZV05D820 to ERZV05D471
0.1
20
105
100
1000
Impulse Width (µs)
10000
ERZV05D820 to ERZV05D471
1000
2000
2 times : 5 min. interval
up to 10 times : 2 min. interval
up to 106 times : 10 sec. interval
100
100
90
80
70
60
50
40
30
10-6
Surge Current (A)
Voltage (V)
200
820
es
101
271
241
e
121
300
Tim
151
1
47
3
Ti
10 4 me
s
Tim
10 5 es
Tim
10
es
2
400
m
Ti
es s
Tim ime
2 T
10
10
500
1
471
431
391
361
331
271
241
221
201
431
391
361
10
1000
900
800
700
600
Max. Clamping Voltage
Max.
Leakage Current
10 6
1
20
1
15
1
12
Tim
es
1
1
10
0
82
Test Current Waveform
10-6 to 10-4 A: Direct Current
10-1 to 103 A: 8/20 µs
331
221
10-5
10-4
10-3
10-2
10-1
100
Current (A)
101
102
103
104
105
0.1
20
100
1000
Impulse Width (µs)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 10 –
10000
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
7 Series
Ratings and Characteristics
Operating Temperature Range : –40 to 85 °C
V1 mA (V)
ACrms (V)
18(16 to 20)
11
22(20 to 24)
14
27(24 to 30)
17
33(30 to 36)
20
39(35 to 43)
25
47(42 to 52)
30
56(50 to 62)
35
68(61 to 75)
40
82(74 to 90)
50
100(90 to 110)
60
120(108 to 132)
75
150(135 to 165)
95
200(185 to 225)
130
220(198 to 242)
140
240(216 to 264)
150
270(247 to 303)
175
330(297 to 363)
210
360(324 to 396)
230
390(351 to 429)
250
430(387 to 473)
275
470(423 to 517)
300
510(459 to 561)
320
Clamping
Voltage
(max.)
✽✽
Ip
Rated
Power
(V)
36
43
53
65
77
93
110
135
135
165
200
250
340
360
395
455
545
595
650
710
775
845
(W)
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.02
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
DC (V)
14
18
22
26
31
38
45
56
65
85
100
125
170
180
200
225
270
300
320
350
385
410
Maximum
Peak Current Capacitance
(8/20 µs)
(max.)
(10/1000 µs) (2 ms) 1 time 2 times
(J)
(J)
(A)
(A) at 1 kHz (pF)
1.1
0.9
500 250
3800
1.3
1.1
500 250
3600
1.6
1.3
500 250
3400
2.0
1.6
500 250
2900
2.4
1.9
500 250
1600
2.8
2.3
500 250
1550
3.4
2.7
500 250
1500
4.1
3.3
500 250
1200
7
5
1750 1250
810
8.5
6
1750 1250
700
10
7
1750 1250
590
13
9
1750 1250
500
17.5
12.5 1750 1250
200
19
13.5 1750 1250
190
21
15
1750 1250
170
24
17
1750 1250
150
28
20
1750 1250
130
32
23
1750 1250
130
35
25
1750 1250
130
40
27.5 1750 1250
120
42
30
1750 1250
100
45
32
1750 1250
90 ✽
Maximum
Energy
✽✽Ip Measuring current of clamping voltage 180 to 680 : 25 A, 820 to 511 : 10 A
Dimensions in mm (not to scale)
✽ Refer to page 24 to 26 about leads cut type and taping.
Part No.
D max.
T max.
W±1.0
H max.
L±1.0
ERZV07D180
ERZV07D220
ERZV07D270
ERZV07D330
ERZV07D390
ERZV07D470
ERZV07D560
ERZV07D680
ERZV07D820
ERZV07D101
ERZV07D121
ERZV07D151
ERZV07D201
ERZV07D221
ERZV07D241
ERZV07D271
ERZV07D331
ERZV07D361
ERZV07D391
ERZV07D431
ERZV07D471
ERZV07D511
8.5
8.5
8.5
8.5
8.5
8.5
8.5
8.5
8.5
8.5
8.5
8.5
8.5
8.5
8.5
8.5
8.5
8.5
8.5
8.5
8.5
8.5
4.5
4.6
4.7
4.9
4.8
4.9
5.0
5.2
4.1
4.3
4.5
4.8
4.4
4.5
4.6
4.8
5.1
5.3
5.4
5.6
5.8
6.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
1.3
1.4
1.5
1.7
1.6
1.7
1.8
2.0
1.4
1.6
1.8
2.1
1.7
1.8
1.9
2.1
2.4
2.5
2.7
2.9
3.1
3.3
D
T
L
W
f 0.6
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 11 –
L
✽ Measured at 1 MHz
Storage Temperature Range : –40 to 125 °C
H
Part No.
ERZV07D180
ERZV07D220
ERZV07D270
ERZV07D330
ERZV07D390
ERZV07D470
ERZV07D560
ERZV07D680
ERZV07D820
ERZV07D101
ERZV07D121
ERZV07D151
ERZV07D201
ERZV07D221
ERZV07D241
ERZV07D271
ERZV07D331
ERZV07D361
ERZV07D391
ERZV07D431
ERZV07D471
ERZV07D511
Maximum
Allowable
Voltage
Varistor
Voltage
●
20.0 min.
●
W
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Typical Characteristics
Voltage vs. Current
Impulse Derating (Relation between impulse
width and impulse current multiple)
ERZV07D180 to ERZV07D680
ERZV07D180 to ERZV07D680
1000
Max. Clamping Voltage
Max.
Leakage Current
400
100
e
s
m
e
Ti
im
1
es
T
m
Ti
10
2
10
10
3
10 4 Tim
Tim es
e
10 5 s
T
10 10 6 ime
Tim s
es
Impulse Current (A)
30
0
56
0
47 0
39
330
20
270
40
es
0
68
2
m
Ti
Voltage (V)
200
100
90
80
70
60
50
2 times : 5 min. interval
up to 10 times : 2 min. interval
up to 106 times : 10 sec. interval
680
560
470
390
330
270
220
180
300
0
22
0
8
1
10
9
8
7
6
5
1
Test current waveform
10–6 to 10–3 A: Direct current
10–1 to 103 A: 8/20 µs
4
0.1
3
10–6
10–5
10–4
10–3
10–2
10–1
100
101
102
103
104
105
20
100
Current (A)
1000
10000
Impulse Width (µs)
ERZV07D820 to ERZV07D511
ERZV07D820 to ERZV07D511
10000
471
431
391
361
151
511
121
30
10-6
5
Ti
es
40
201
151
121
10
m
10
101
e
100
90
80
70
60
50
271
241
Tim
200
100
10
820
Tim
101
300
1
Voltage (V)
400
es es
es
es
m
m
i
i
im
Tim 02 T 03 T 4 T
1
1
10
500
1000
2
1000
900
800
700
600
2 times : 5 min. interval
up to 10 times : 2 min. interval
up to 106 times : 10 sec. interval
511
471
431
391
361
331
271
241
221
201
Surge Current (A)
2000
Max. Clamping Voltage
Max.
Leakage Current
es
10
6
Ti
m
es
820
Test Current Waveform
10-6 to 10-3 A: Direct Current
10-1 to 104 A: 8/20 µs
331
221
10-5
10-4
10-3
10-2
10-1
100
Current (A)
101
102
103
104
105
1
20
100
1000
Impulse Width (µs)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 12 –
10000
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
9 Series
Ratings and Characteristics
●
Operating Temperature Range : –40 to 85 °C
Part No.
ERZV09D180
ERZV09D220
ERZV09D270
ERZV09D330
ERZV09D390
ERZV09D470
ERZV09D560
ERZV09D680
ERZV09D820
ERZV09D101
ERZV09D121
ERZV09D151
ERZV09D201
ERZV09D221
ERZV09D241
ERZV09D271
ERZV09D331
ERZV09D361
ERZV09D391
ERZV09D431
ERZV09D471
ERZV09D511
Maximum
Allowable
Voltage
Varistor
Voltage
V1 mA (V)
ACrms (V)
18(16 to 20)
11
22(20 to 24)
14
27(24 to 30)
17
33(30 to 36)
20
39(35 to 43)
25
47(42 to 52)
30
56(50 to 62)
35
68(61 to 75)
40
82(74 to 90)
50
100(90 to 110)
60
120(108 to 132)
75
150(135 to 165)
95
200(185 to 225)
130
220(198 to 242)
140
240(216 to 264)
150
270(247 to 303)
175
330(297 to 363)
210
360(324 to 396)
230
390(351 to 429)
250
430(387 to 473)
275
470(423 to 517)
300
510(459 to 561)
320
●
Storage Temperature Range : –40 to 125 °C
Clamping
Voltage
(max.)
✽
Ip
Rated
Power
(V)
36
43
53
65
77
93
110
135
135
165
200
250
340
360
395
455
545
595
650
710
775
845
(W)
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.05
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
0.4
DC (V)
14
18
22
26
31
38
45
56
65
85
100
125
170
180
200
225
270
300
320
350
385
410
Maximum
Peak Current Capacitance
(8/20 µs)
(max.)
(10/1000 µs) (2 ms) 1 time 2 times
(J)
(J)
(A)
(A) at 1 kHz (pF)
2.6
2.2 1000 500
16000
3.2
2.6 1000 500
11000
3.9
3.2 1000 500
8000
4.8
4.0 1000 500
6300
5.6
4.7 1000 500
5200
6.8
5.6 1000 500
4600
8.1
6.7 1000 500
3750
9.8
8.2 1000 500
2800
14
10
3500 2500
2000
17
12
3500 2500
1700
20
14.5 3500 2500
1400
25
18
3500 2500
1100
35
25
3500 2500
430
39
27.5 3500 2500
410
42
30
3500 2500
380
49
35
3500 2500
350
58
42
3500 2500
300
65
45
3500 2500
300
70
50
3500 2500
300
80
55
3500 2500
270
85
60
3500 2500
230
92
67
3500 2500
210
Maximum
Energy
✽Ip Measuring current of clamping voltage 180 to 680 : 5 A, 820 to 511 : 25 A
✽ Refer to page 24 to 26 about leads cut type and taping.
T max.
W±1.0
H max.
L±1.0
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
3.8
4.0
4.2
4.5
4.0
4.2
4.4
4.5
3.8
3.9
4.1
4.4
4.1
4.2
4.3
4.5
4.8
5.0
5.1
5.3
5.6
5.8
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
1.3
1.4
1.5
1.7
1.7
1.8
1.9
2.2
1.6
1.8
2.0
2.2
1.7
1.8
1.9
2.0
2.3
2.5
2.6
2.8
3.1
3.2
D
T
L
W
f 0.6
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 13 –
L
D max.
H
Part No.
ERZV09D180
ERZV09D220
ERZV09D270
ERZV09D330
ERZV09D390
ERZV09D470
ERZV09D560
ERZV09D680
ERZV09D820
ERZV09D101
ERZV09D121
ERZV09D151
ERZV09D201
ERZV09D221
ERZV09D241
ERZV09D271
ERZV09D331
ERZV09D361
ERZV09D391
ERZV09D431
ERZV09D471
ERZV09D511
20.0 min.
Dimensions in mm (not to scale)
W
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Typical Characteristics
Voltage vs. Current
Impulse Derating (Relation between impulse
width and impulse current multiple)
ERZV09D180 to ERZV09D680
ERZV09D180 to ERZV09D680
Max. Clamping Voltage
Max.
Leakage Current
400
1000
680
560
470
390
330
270
300
200
2 times : 5 min. interval
up to 10 times : 2 min. interval
up to 106 times : 10 sec. interval
1
Impulse Current (A)
Voltage (V)
Ti
m
es
10
9
8
7
6
es
0
33
0
27
0
2
2
0
8
1
m
20
10
2
m
Ti
0
56 470
0
39
30
10
10
40
Ti
10 me
4
s
10 5 Tim
e
Tim s
es
10 6
Tim
e
Ti
6
2
80
e
m
100 1
03
180
100
90
80
70
60
50
Ti
220
es
s
1
Test current waveform
10–6 to 10–3 A: Direct current
10–1 to 103 A: 8/20 μs
5
4
3
10–6
10–5
10–4
10–3
10–2
10–1
100
Current (A)
101
102
103
104
0.1
105
20
100
1000
10000
Impulse Width (µs)
ERZV09D820 to ERZV09D511
ERZV09D820 to ERZV09D511
10000
471
431
391
361
100
90
80
70
60
50
10 6
10
101
820
Tim
es
Test Current Waveform
10-6 to 10-3 A: Direct Current
10-1 to 104 A: 8/20 µs
331
221
10-5
es
201
5
1 1
121
Ti
m
10 5 es
Tim
es
e
271
241
200
100
im
820
4
im
2T
300
10
1T
121
101
10
Voltage (V)
es es
Tim Tim
es
im
3 T
2
10
511
400
30
10-6
1000
151
500
40
2 times : 5 min. interval
up to 10 times : 2 min. interval
up to 106 times : 10 sec. interval
511
471
431
391
361
331
271
241
221
201
10
1000
900
800
700
600
Max.
Leakage Current
Surge Current (A)
2000
Max. Clamping Voltage
10-4
10-3
10-2
10-1
100
101
102
103
Current (A)
104
105
1
20
100
1000
Impulse Width (µs)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 14 –
10000
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
10 Series
Ratings and Characteristics
●
Operating Temperature Range : –40 to 85 °C
Varistor
Voltage
Part No.
V1 mA (V)
Maximum
Allowable
Voltage
ACrms (V)
DC (V)
ERZV10D180
18(16 to 20)
11
ERZV10D220
22(20 to 24)
ERZV10D270
27(24 to 30)
ERZV10D330
ERZV10D390
ERZV10D470
47(42 to 52)
30
ERZV10D560
56(50 to 62)
35
ERZV10D680
68(61 to 75)
40
56
●
Storage Temperature Range : –40 to 125 °C
Clamping
Voltage
(max.)
✽✽
Ip
Rated
Power
(V)
(W)
Maximum
Peak Current Capacitance
(8/20 µs)
(max.)
(10/1000 µs) (2 ms) 1 time 2 times
Maximum
Energy
(J)
(J)
(A)
(A)
at 1 kHz (pF)
2.2
1000
500
16000
14
36
0.05
2.6
14
18
43
0.05
3.2
2.6
1000
500
11000
17
22
53
0.05
3.9
3.2
1000
500
8000
33(30 to 36)
20
26
65
0.05
4.8
4.0
1000
500
6300
39(35 to 43)
25
31
77
0.05
5.6
4.7
1000
500
5200
38
93
0.05
6.8
5.6
1000
500
4600
45
110
0.05
8.1
6.7
1000
500
3750
135
0.05
9.8
8.2
1000
500
2800
ERZV10D820
82(74 to 90)
50
65
135
0.4
14
10
3500 2500
2000
ERZV10D101
100(90 to 110)
60
85
165
0.4
17
12
3500 2500
1700
ERZV10D121
120(108 to 132)
75
100
200
0.4
20
14.5 3500 2500
1400
ERZV10D151
150(135 to 165)
95
125
250
0.4
25
18
3500 2500
1100
ERZV10D201
200(185 to 225)
130
170
340
0.4
35
25
3500 2500
430
ERZV10D221
220(198 to 242)
140
180
360
0.4
39
27.5 3500 2500
410
ERZV10D241
240(216 to 264)
150
200
395
0.4
42
30
3500 2500
380
ERZV10D271
270(247 to 303)
175
225
455
0.4
49
35
3500 2500
350
ERZV10D331
330(297 to 363)
210
270
545
0.4
58
42
3500 2500
300
ERZV10D361
360(324 to 396)
230
300
595
0.4
65
45
3500 2500
300
ERZV10D391
390(351 to 429)
250
320
650
0.4
70
50
3500 2500
300
ERZV10D431
430(387 to 473)
275
350
710
0.4
80
55
3500 2500
270
ERZV10D471
470(423 to 517)
300
385
775
0.4
85
60
3500 2500
230
ERZV10D511
510(459 to 561)
320
410
845
0.4
92
67
3500 2500
210
ERZV10D561
560(504 to 616)
350
450
930
0.4
92
67
3500 2500
200
ERZV10D621
620(558 to 682)
385
505
1025
0.4
92
67
3500 2500
190
ERZV10D681
680(612 to 748)
420
560
1120
0.4
92
67
3500 2500
170
ERZV10D751
750(675 to 825)
460
615
1240
0.4
100
70
3500 2500
160
ERZV10D821
820(738 to 902)
510
670
1355
0.4
110
80
3500 2500
140
ERZV10D911
910(819 to 1001)
550
745
1500
0.4
130
90
3500 2500
120
ERZV10D102 1000(900 to 1100)
625
825
1650
0.4
140
100
3500 2500
110
110
1100(990 to 1210)
680
895
1815
0.4
155
110
3500 2500
ERZV10D182CS 1800(1700 to 1980)
1000
1465
2970
0.4
247
183
3500 2500
ERZV10D112
✽ Measured at 1 MHz
70 ✽
✽✽Ip Measuring current of clamping voltage 180 to 680 : 5 A, 820 to 182 : 25 A
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 15 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Dimensions in mm (not to scale)
✽ Refer to page 24 to 26 about leads cut type and taping.
D
T
L
L
1.3
1.4
1.5
1.7
1.6
1.7
1.8
2.0
W
1.6
1.8
f 0.8
2.0
2.3
1.9
2.0
2.1
2.3
(ERZV10D182CS)
2.6
2.8
D
2.9
3.1
3.3
3.5
3.8
4.2
4.5
f 0.8
4.9
5.2
5.7
6.2
6.8
10.0(±1.5)
W
T
L
L±1.0
2
14.5
14.5
14.5
14.5
14.5
14.5
14.5
14.5
14.5
14.5
14.5
14.5
14.5
14.5
14.5
14.5
14.5
14.5
14.5
14.5
14.5
14.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
16.5
W
H max.
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
11.0✽
H
W±1.0
4.6
4.7
4.8
5.0
4.9
5.0
5.1
5.3
4.5
4.7
4.9
5.2
4.8
4.9
5.0
5.2
5.5
5.7
5.8
6.0
6.2
6.4
6.7
7.1
7.4
7.8
8.1
8.6
9.1
9.7
14.4
20.0 min.
T max.
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
11.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
13.5
H
D max.
4.0 ±1.5
Part No.
ERZV10D180
ERZV10D220
ERZV10D270
ERZV10D330
ERZV10D390
ERZV10D470
ERZV10D560
ERZV10D680
ERZV10D820
ERZV10D101
ERZV10D121
ERZV10D151
ERZV10D201
ERZV10D221
ERZV10D241
ERZV10D271
ERZV10D331
ERZV10D361
ERZV10D391
ERZV10D431
ERZV10D471
ERZV10D511
ERZV10D561
ERZV10D621
ERZV10D681
ERZV10D751
ERZV10D821
ERZV10D911
ERZV10D102
ERZV10D112
ERZV10D182CS
L
✽: W2
Typical Characteristics
Voltage vs. Current
Impulse Derating (Relation between impulse
width and impulse current multiple)
ERZV10D180 to ERZV10D680
ERZV10D180 to ERZV10D680
2 times : 5 min. interval
up to 10 times : 2 min. interval
6
up to 10 times : 10 sec. interval
680
560
470
390
330
270
300
200
1
100
Impulse Current (A)
400
1000
Max. Clamping Voltage
Max.
Leakage Current
220
180
Voltage (V)
100
90
80
70
60
50
0
68
0
56 0
47
0
39
40
30
10
9
8
7
6
T
10 4 ime
10 5 Ti
m
Ti e
m
e
10 6
10
0.1
20
Tim
Tim
e
Tim
1 e
10 2 0 Ti
Tim me
e
e
100
1000
Impulse Width (µs)
10000
Test current waveform
10–6 to 10–3 A: Direct current
10–1 to 103 A: 8/20 µs
5
4
3
2
1
0
33
0
27
0
22
0
18
20
10 3
10–6
10–5
10–4
10–3
10–2
10–1
100
101
102
103
104
105
Current (A)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 16 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Typical Characteristics
Voltage vs. Current
Impulse Derating (Relation between impulse
width and impulse current multiple)
ERZV10D820 to ERZV10D511
ERZV10D820 to ERZV10D511
10000
Voltage (V)
30
10-6
10 6
Surge Current (A)
10
es
271
241
1
20
10000
2 times : 5 min. interval
up to 10 times : 2 min. interval
6
up to 10 times : 10 sec. interval
Test Current Waveform
10-6 to 10-3 A: Direct Current
10-1 to 104 A: 8/20 µs
331
221
-5
10
10
-4
-3
10
10
-2
-1
0
10
2
10
3
10
4
10
1000
5
10
10
10 2 Tim
e
10 3 Tim s
Tim es
e
10 4 s
T
100 10 5 imes
Time
s
10 6
10
Max. Clamping Voltage
Max.
Leakage Current
e
m
Ti s
1 ime
T
2
10
10
Current (A)
1
Tim
es
182CS
102
911
821
1
20
112
102
911
821
751
681
621
561
2000
S
2C
Voltage (V)
10000
ERZV10D561 to ERZV10D112
101
820
18
1000
100
Impulse Width (µs)
201
151
121
5000
3000
Tim
820
ERZV10D561 to ERZV10D182CS
4000
e
m
40
Ti
100
90
80
70
60
50
es
m
121
101
511
10
10 Tim
2
10 3 Tim es
10 4 Tim es
T es
100 10 5 ime
Tim s
es
Ti
151
300
200
1000
2
471
431
391
361
500
400
2 times : 5 min. interval
up to 10 times : 2 min. interval
6
up to 10 times : 10 sec. interval
511
471
431
391
361
331
271
241
221
201
1
1000
900
800
700
600
Max. Clamping Voltage
Max.
Leakage Current
Surge Current (A)
2000
100
1000
10000
Impulse Width (µs)
ERZV10D182CS
10000
2 times : 5 min. interval
up to 10 times : 2 min. interval
6
up to 10 times : 10 sec. interval
1000
900
800
1000
2
11
2
Surge Current (A)
100
10 4
1
56
200
10-6
751
681
621
10-5
Tim 10 2 Tim
es Ti es
m
es
10 5
Tim
es
10 6
Tim
es
es
10
300
Tim
es
10
e
400
10 3
m
500
m
Ti
600
Ti
1
700
Test Current Waveform
10-6 to 10-3 A: Direct Current
10-1 to 104 A: 8/20 µs
10-4
10-3
10-2
10-1
100
Current (A)
101
102
103
104
105
1
20
100
1000
10000
Impulse Width (µs)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 17 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
14 Series
Ratings and Characteristics
●
Operating Temperature Range : –40 to 85 °C
Maximum
Allowable
Voltage
Part No.
Varistor
Voltage
ERZV14D180
18(16 to 20)
11
V1 mA (V)
ACrms (V)
DC (V)
●
Storage Temperature Range : –40 to 125 °C
Clamping
Voltage
(max.)
✽
Ip
Rated
Power
(V)
(W)
Maximum
Peak Current Capacitance
(8/20 µs)
(max.)
(10/1000 µs) (2 ms) 1 time 2 times
Maximum
Energy
(J)
14
36
0.1
5.2
(J)
(A)
(A)
at 1 kHz (pF)
4.3 2000 1000
25000
ERZV14D220
22(20 to 24)
14
18
43
0.1
6.3
5.3 2000 1000
20000
ERZV14D270
27(24 to 30)
17
22
53
0.1
7.8
6.5 2000 1000
16000
ERZV14D330
33(30 to 36)
20
26
65
0.1
9.5
7.9 2000 1000
12200
9.4 2000 1000
7000
ERZV14D390
39(35 to 43)
25
31
77
0.1
11
ERZV14D470
47(42 to 52)
30
38
93
0.1
14
ERZV14D560
56(50 to 62)
35
45
110
0.1
16
ERZV14D680
68(61 to 75)
40
56
135
0.1
20
11
2000 1000
6750
13
2000 1000
6500
16
2000 1000
5500
ERZV14D820
82(74 to 90)
50
65
135
0.6
28
20
6000 5000
3700
ERZV14D101
100(90 to 110)
60
85
165
0.6
35
25
6000 5000
3200
ERZV14D121
120(108 to 132)
75
100
200
0.6
42
30
6000 5000
2700
ERZV14D151
150(135 to 165)
95
125
250
0.6
53
37.5 6000 5000
2200
ERZV14D201
200(185 to 225)
130
170
340
0.6
70
50
6000 5000
770
ERZV14D221
220(198 to 242)
140
180
360
0.6
78
55
6000 5000
740
ERZV14D241
240(216 to 264)
150
200
395
0.6
84
60
6000 5000
700
ERZV14D271
270(247 to 303)
175
225
455
0.6
99
70
6000 5000
640
ERZV14D331
330(297 to 363)
210
270
545
0.6
115
80
6000 4500
580
ERZV14D361
360(324 to 396)
230
300
595
0.6
130
90
6000 4500
540
ERZV14D391
390(351 to 429)
250
320
650
0.6
140
100
6000 4500
500
ERZV14D431
430(387 to 473)
275
350
710
0.6
155
110
6000 4500
450
ERZV14D471
470(423 to 517)
300
385
775
0.6
175
125
6000 4500
400
ERZV14D511
510(459 to 561)
320
410
845
0.6
190
136
6000 4500
350
ERZV14D561
560(504 to 616)
350
450
930
0.6
190
136
5000 4500
340
ERZV14D621
620(558 to 682)
385
505
1025
0.6
190
136
5000 4500
330
ERZV14D681
680(612 to 748)
420
560
1120
0.6
190
136
5000 4500
320
ERZV14D751
750(675 to 825)
460
615
1240
0.6
210
150
5000 4500
310
ERZV14D821
820(738 to 902)
510
670
1355
0.6
235
165
5000 4500
280
ERZV14D911
910(819 to 1001)
550
745
1500
0.6
255
180
5000 4500
250
ERZV14D102 1000(900 to 1100)
625
825
1650
0.6
280
200
5000 4500
230
ERZV14D112
1100(990 to 1210)
680
895
1815
0.6
310
220
5000 4500
210
ERZV14D182CS 1800(1700 to 1980)
1000
1465
2970
0.6
510
360
5000 4500
120
✽Ip Measuring current of clamping voltage 180 to 680 : 10 A, 820 to 182 : 50 A
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 18 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
✽ Refer to page 24 to 26 about leads cut type and taping.
L±1.0
1.3
D
1.4
1.5
1.7
1.6
1.7
1.8
2.0
1.6
W
1.8
2.0
f 0.8
2.3
1.9
2.0
2.1
2.3
2.6
2.8
(ERZV14D182CS)
2.9
D
3.1
3.3
3.5
3.8
4.2
4.5
f 0.8
4.9
5.2
5.7
6.2
6.8
10.5(±2.0)
T
L
L
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.5
18.5
19.0
19.0
19.0
19.0
19.0
19.0
19.0
19.0
20.5
W
T
L
H max.
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
7.5
15.0✽
W
2
W±1.0
4.6
4.7
4.8
5.0
4.9
5.0
5.1
5.3
4.5
4.7
4.9
5.2
4.8
4.9
5.0
5.2
5.5
5.7
5.8
6.0
6.2
6.4
6.7
7.1
7.4
7.8
8.1
8.6
9.1
9.7
14.4
H
T max.
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
15.5
16.0
16.0
16.0
16.0
16.0
16.0
16.0
16.0
17.0
20.0 min.
D max.
H
Part No.
ERZV14D180
ERZV14D220
ERZV14D270
ERZV14D330
ERZV14D390
ERZV14D470
ERZV14D560
ERZV14D680
ERZV14D820
ERZV14D101
ERZV14D121
ERZV14D151
ERZV14D201
ERZV14D221
ERZV14D241
ERZV14D271
ERZV14D331
ERZV14D361
ERZV14D391
ERZV14D431
ERZV14D471
ERZV14D511
ERZV14D561
ERZV14D621
ERZV14D681
ERZV14D751
ERZV14D821
ERZV14D911
ERZV14D102
ERZV14D112
ERZV14D182CS
4.0 ±1.5
Dimensions in mm (not to scale)
L
✽: W2
Typical Characteristics
Voltage vs. Current
Impulse Derating (Relation between impulse
width and impulse current multiple)
ERZV14D180 to ERZV14D680
10000
Max. Clamping Voltage
Max.
Leakage Current
300
560
470
200
390
330
Voltage (V)
1000
270
220
470
100
90
80
70
60
50
2 times : 5 min. interval
up to 10 times : 2 min. interval
6
up to 10 times : 10 sec. interval
680
Impulse Current (A)
400
ERZV14D180 to ERZV14D680
180
0
68
0
6
5
40
30
100
Tim
10 3 es
10 4 Time
Tim s
10 5 es
Ti
10 6 mes
Tim
es
1
Tim
e
Tim
10
e
Tim s
es
2
10
0
39
0
33 70
2
0
22
0
18
20
10 2
1
20
10
9
8
7
6
5
100
1000
Impulse Width (µs)
10000
Test current waveform
10–6 to 10–3 A: Direct current
10–1 to 104 A: 8/20 µs
4
3
10–6
10–5
10–4
10–3
10–2
10–1
100
Current (A)
101
102
103
104
105
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 19 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Typical Characteristics
Voltage vs. Current
Impulse Derating (Relation between impulse
width and impulse current multiple)
ERZV14D820 to ERZV14D511
ERZV14D820 to ERZV14D511
10000
101
820
511
10
10 2 Tim
e
Tim s
es
10
300
100
90
80
70
60
50
40
30
10-6
271
241
1
20
10000
10000
2 times : 5 min. interval
up to 10 times : 2 min. interval
6
up to 10 times : 10 sec. interval
Test Current Waveform
10-6 to 10-3 A: Direct Current
10-1 to 104 A: 8/20 µs
331
221
-5
-4
10
10
-3
10
10
-2
-1
0
10
10
Current (A)
1
2
10
10
10
3
4
10
1000
10
10
Max. Clamping Voltage
Max.
Leakage Current
1
T
Ti ime
10 3
10 me
s
T
10 4 Time 10 2 ime
Tim s
10 5 Tim s
es
T es
100
10 6 imes
Tim
es
2
5
5000
3000
1000
ERZV14D561 to ERZV14D112
101
820
ERZV14D561 to ERZV14D182CS
4000
100
Impulse Width (µs)
201
151
121
Surge Current (A)
200
182CS
102
911
821
1
20
112
102
911
821
751
681
621
561
2000
CS
182
100
1000
10000
Impulse Width (µs)
ERZV14D182CS
10000
2 times : 5 min. interval
up to 10 times : 2 min. interval
6
up to 10 times : 10 sec. interval
1000
2
11
Surge Current (A)
500
400
1
56
Ti
m
es
T
10 3 10 2 im
e
s
T
T
100 10 4 ime im
es
s
10 5 Time
s
T
10 6 imes
Tim
es
e
600
m
2
700
Ti
1000
900
800
1
Voltage (V)
e
m
Ti es
m
151
121
10 3
T
10 4 ime
Tim s
10 5
e
Tim s
100
10 6 es
Tim
es
Ti
Voltage (V)
1000
2
471
431
391
361
500
400
2 times : 5 min. interval
up to 10 times : 2 min. interval
6
up to 10 times : 10 sec. interval
511
471
431
391
361
331
271
241
221
201
1
1000
900
800
700
600
Max.
Leakage Current
Surge Current (A)
2000
Max. Clamping Voltage
10
10
300
200
10-6
Test Current Waveform
10-6 to 10-3 A: Direct Current
10-1 to 104 A: 8/20 µs
751
681
621
10-5
10-4
10-3
10-2
10-1
100
Current (A)
101
102
103
104
105
1
20
100
1000
10000
Impulse Width (µs)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 20 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
20 Series
Ratings and Characteristics
●
Operating Temperature Range : –40 to 85 °C
Maximum
Allowable
Voltage
Part No.
Varistor
Voltage
ERZV20D180
18(16 to 20)
11
ERZV20D220
22(20 to 24)
ERZV20D270
27(24 to 30)
ERZV20D330
33(30 to 36)
ERZV20D390
39(35 to 43)
25
ERZV20D470
47(42 to 52)
30
ERZV20D560
56(50 to 62)
35
ERZV20D680
68(61 to 75)
40
V1 mA (V)
ACrms (V)
DC (V)
●
Storage Temperature Range : –40 to 125 °C
Clamping
Voltage
(max.)
✽
Ip
Rated
Power
(V)
(W)
Maximum
Peak Current Capacitance
(8/20 µs)
(max.)
(10/1000 µs) (2 ms) 1 time 2 times
Maximum
Energy
(J)
(J)
(A)
(A)
at 1 kHz (pF)
14
36
0.2
13
12
3000 2000
40000
14
18
43
0.2
16
14
3000 2000
30000
17
22
53
0.2
19
17
3000 2000
24500
20
26
65
0.2
24
21
3000 2000
20000
31
77
0.2
28
25
3000 2000
13800
38
93
0.2
34
30
3000 2000
13500
45
110
0.2
41
36
3000 2000
12200
56
135
0.2
49
44
3000 2000
11500
ERZV20D820
82(74 to 90)
50
65
135
1.0
56
40
10000 7000
7500
ERZV20D101
100(90 to 110)
60
85
165
1.0
70
50
10000 7000
6500
ERZV20D121
120(108 to 132)
75
100
200
1.0
85
60
10000 7000
5500
ERZV20D151
150(135 to 165)
95
125
250
1.0
106
75
10000 7000
4500
ERZV20D201
200(185 to 225)
130
170
340
1.0
140
100
10000 7000
1700
ERZV20D221
220(198 to 242)
140
180
360
1.0
155
110
10000 7000
1600
ERZV20D241
240(216 to 264)
150
200
395
1.0
168
120
10000 7000
1500
ERZV20D271
270(247 to 303)
175
225
455
1.0
190
135
10000 7000
1300
ERZV20D331
330(297 to 363)
210
270
545
1.0
228
160
10000 6500
1100
ERZV20D361
360(324 to 396)
230
300
595
1.0
255
180
10000 6500
1100
ERZV20D391
390(351 to 429)
250
320
650
1.0
275
195
10000 6500
1100
ERZV20D431
430(387 to 473)
275
350
710
1.0
303
215
10000 6500
1000
ERZV20D471
470(423 to 517)
300
385
775
1.0
350
250
10000 6500
900
ERZV20D511
510(459 to 561)
320
410
845
1.0
382
273
10000 6500
800
ERZV20D561
560(504 to 616)
350
450
930
1.0
382
273
7500 6500
750
ERZV20D621
620(558 to 682)
385
505
1025
1.0
382
273
7500 6500
700
ERZV20D681
680(612 to 748)
420
560
1120
1.0
382
273
7500 6500
650
ERZV20D751
750(675 to 825)
460
615
1240
1.0
420
300
7500 6500
600
ERZV20D821
820(738 to 902)
510
670
1355
1.0
460
325
7500 6500
530
ERZV20D911
910(819 to 1001)
550
745
1500
1.0
510
360
7500 6500
500
ERZV20D102 1000(900 to 1100)
625
825
1650
1.0
565
400
7500 6500
450
ERZV20D112
1100(990 to 1210)
680
895
1815
1.0
620
440
7500 6500
400
ERZV20D182 1800(1700 to 1980)
1000
1465
2970
1.0
1020
720
7500 6500
250
✽Ip Measuring current of clamping voltage 180 to 680 : 20 A, 820 to 182 : 100 A
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 21 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Dimensions in mm (not to scale)
✽ Refer to page 24 to 26 about leads cut type and taping.
L±1.0
D
1.5
1.6
1.7
1.9
1.9
2.0
2.1
2.2
W
1.8
2.0
f 1.0
2.2
2.5
2.1
2.2
2.3
(ERZV20D182)
2.5
2.8
D
3.0
3.1
3.3
3.5
3.7
4.2
4.4
4.7
5.1
5.4
f 1.0
5.9
6.4
7.0
10.7(±2.0)
T
L
L
24.5
24.5
24.5
24.5
24.5
24.5
24.5
24.5
24.5
24.5
24.5
24.5
24.5
24.5
24.5
24.5
24.5
24.5
24.5
24.5
24.5
24.5
25.5
25.5
25.5
25.5
25.5
25.5
25.5
25.5
28.0
W
T
W2
L
H max.
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
10.0
15.0✽
H
W±1.0
5.1
5.2
5.3
5.5
5.5
5.6
5.7
5.8
4.9
5.1
5.3
5.6
5.2
5.3
5.4
5.6
5.9
6.1
6.2
6.4
6.6
6.8
7.1
7.5
7.8
8.2
8.5
9.0
9.5
10.1
14.8
20.0 min.
T max.
21.5
21.5
21.5
21.5
21.5
21.5
21.5
21.5
21.5
21.5
21.5
21.5
21.5
21.5
21.5
21.5
21.5
21.5
21.5
21.5
21.5
21.5
22.5
22.5
22.5
22.5
22.5
22.5
22.5
22.5
23.5
H
D max.
L
20.0 min.
Part No.
ERZV20D180
ERZV20D220
ERZV20D270
ERZV20D330
ERZV20D390
ERZV20D470
ERZV20D560
ERZV20D680
ERZV20D820
ERZV20D101
ERZV20D121
ERZV20D151
ERZV20D201
ERZV20D221
ERZV20D241
ERZV20D271
ERZV20D331
ERZV20D361
ERZV20D391
ERZV20D431
ERZV20D471
ERZV20D511
ERZV20D561
ERZV20D621
ERZV20D681
ERZV20D751
ERZV20D821
ERZV20D911
ERZV20D102
ERZV20D112
ERZV20D182
✽: W2
Typical Characteristics
Voltage vs. Current
Impulse Derating (Relation between impulse
width and impulse current multiple)
ERZV20D180 to ERZV20D680
10000
Max. Clamping Voltage
Max.
Leakage Current
400
ERZV20D180 to ERZV20D680
2 times : 5 min. interval
up to 10 times : 2 min. interval
6
up to 10 times : 10 sec. interval
680
560
470
390
330
300
200
1000
220
100
90
80
70
60
50
Voltage (V)
Impulse Current (A)
270
180
0
68
0
56 70
4
0
39
0
3
3 0
27
40
30
20
10
0
22
0
18
10
9
8
7
6
100
1T
im
e
2
T
10 ime
Tim s
10 2 es
10 3 Time
Ti s
10 4 mes
Tim
es
10 5
Tim
es
10 6
Time
s
1
20
100
1000
Impulse Width (µs)
10000
Test current waveform
10–6 to 10–3 A: Direct current
10–1 to 104 A: 8/20 µs
5
4
3
10–6
10–5
10–4
10–3
10–2
10–1
100
101
102
103
104
105
Current (A)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 22 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Typical Characteristics
Voltage vs. Current
Impulse Derating (Relation between impulse
width and impulse current multiple)
ERZV20D820 to ERZV20D511
ERZV20D820 to ERZV20D511
10000
151
Voltage (V)
100
90
80
70
60
50
271
1
20
201
151
121
10000
2 times : 5 min. interval
up to 10 times : 2 min. interval
6
up to 10 times : 10 sec. interval
820
Test Current Waveform
10-6 to 10-3 A: Direct Current
10-1 to 104 A: 8/20 µs
241
331
221
10-3
10-2
10-1
100
Current (A)
101
102
103
104
105
100
10
Max. Clamping Voltage
Max.
Leakage Current
182
1
20
112
102
911
821
751
681
621
561
102
911
821
10000
10000
2 times : 5 min. interval
up to 10 times : 2 min. interval
6
up to 10 times : 10 sec. interval
Surge Current (A)
500
1
56
e
600
Ti
m
Tim es
2
e
10 3 Tim s
es
T
10 4 im
e
100
10 5 Time s
Tim s
es
10 6
Tim
es
10
10
m
1
Ti
12
1
2
1000
400
1000
ERZV20D182
2
1000
900
800
100
Impulse Width (µs)
18
Voltage (V)
2
T
10 ime
10 Tim s
2
10 3 Tim es
10 4 Tim es
10 5 Tim es
e
10 6 Time s
Tim s
es
e
10-4
1000
m
10-5
2000
700
10000
ERZV20D561 to ERZV20D112
101
5000
3000
1000
Impulse Width (µs)
ERZV20D561 to ERZV20D182
4000
100
Ti
30
10-6
10
101
820
1
40
100
2
1 Tim
10 0 Ti es
2
m
10 3 Tim es
e
T
10 4 im s
e
10 5 Tim s
Tim es
10 6
e
Tim s
es
121
511
300
200
Surge Current (A)
271
241
221
201
500
400
1000
e
m
Ti
471
431
391
361
1
1000
900
800
700
600
511
471
431
391
361
331
Surge Current (A)
2000
2 times : 5 min. interval
up to 10 times : 2 min. interval
6
up to 10 times : 10 sec. interval
Max. Clamping Voltage
Max.
Leakage Current
10
300
200
10-6
Test Current Waveform
10-6 to 10-3 A: Direct Current
4
10-1 to 10 A: 8/20 µs
751
681
621
10-5
10-4
10-3
10-2
10-1
100
Current (A)
101
102
103
104
105
1
20
100
1000
10000
Impulse Width (µs)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 23 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Straight Leads Cut Type (Bulk Type)
Ratings and Characteristics
✽ Refer to bulk standard type part no. (P9 to P23).
Dimensions in mm (not to scale)
T✽✽
fd
B
H
D
L✽
W
✽ Dimension “L”: Conforms to each individtual specification.
✽✽ Dimension “T”: Conforms to each individual specification.
notes
Unit : mm
Series
Symbol
Varistor
Voltage
D
H
W
fd
B
Standard
Products
Part No.
7
9
10
14
5
180 to 471 180 to 511 180 to 511 180 to 511 561 to 751 821 to 112 180 to 511 561 to 751 821 to 112
8.5 max. 11.5 max. 11.5 max. 12.5 max. 12.5 max. 15.5 max. 16.0 max. 16.0 max.
7.0 max.
10.0 max. 11.5 max. 14.0 max. 14.5 max. 15.5 max. 15.5 max. 18.5 max. 19.0 max. 19.0 max.
7.5±1.0
7.5±1.0
7.5±1.0
7.5±1.0
5.0±1.0
5.0±1.0
7.5±1.0
7.5±1.0
5.0±1.0
–0.05
–0.05
–0.05
–0.05
–0.05
–0.05
–0.05
–0.05
–0.05
0.80 +0.08
0.80 +0.08
0.80 +0.08
0.80 +0.08
0.60 +0.06
0.60 +0.06
0.80 +0.08
0.80 +0.08
0.60 +0.06
4.0±1.0
4.0±1.0
4.0±1.0
4.0±1.0
4.0±1.0
4.0±1.5
4.0±1.0
4.0±1.0
4.0±1.5
ERZV05D□□□CS ERZV07D□□□CS ERZV09D□□□CS ERZV10D□□□CS ERZV10D□□□CS ERZV10D□□□C1 ERZV14D□□□CS ERZV14D□□□CS ERZV14D□□□C1
Crimped Leads Cut Type (Bulk Type)
Ratings and Characteristics
✽ Refer to bulk standard type part no. (P9 to P23).
Dimensions in mm (not to scale)
T✽✽
A
D
C
C
fd
W
notes
B
✽✽✽
L✽
✽ Dimension “L”: Conforms to each individual specification.
✽✽ Dimension “T”: Conforms to each individual specification.
✽✽✽ Resin extenyions : No resin below the center of the hook.
Unit : mm
Series
Varistor
Symbol Voltage
A
D
C
W
fd
B
Standard
Products
Part No.
9
10
14
7
5
180 to 471 180 to 511 180 to 511 180 to 511 561 to 751 821 to 112 180 to 511 561 to 751 821 to 112
13.0 max. 14.5 max. 17.5 max. 17.5 max. 19.0 max. 20.0 max. 21.0 max. 22.0 max. 23.5 max.
8.5 max. 11.5 max. 11.5 max. 12.5 max. 12.5 max. 15.5 max. 16.0 max. 16.0 max.
7.0 max.
1.4±0.4
1.2±0.4
1.4±0.4
1.4±0.4
1.4±0.4
1.4±0.4
1.4±0.4
1.2±0.4
1.2±0.4
7.5±1.0
5.0±1.0
7.5±1.0
7.5±1.0
7.5±1.0
7.5±1.0
7.5±1.0
5.0±1.0
5.0±1.0
–0.05
–0.05
–0.05
–0.05
–0.05
–0.05
–0.05
–0.05
–0.05
0.80 +0.08
0.60 +0.06
0.80 +0.08
0.80 +0.08
0.80 +0.08
0.80 +0.08
0.80 +0.08
0.60 +0.06
0.60 +0.06
4.0±1.0
4.0±1.0
4.0±1.0
4.0±1.0
4.0±1.0
4.0±1.5
4.0±1.0
4.0±1.0
4.0±1.5
ERZV05V□□□CS ERZV07V□□□CS ERZV09V□□□CS ERZV10V□□□CS ERZV10V□□□CS ERZV10V□□□C1 ERZV14V□□□CS ERZV14V□□□CS ERZV14V□□□C1
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 24 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Taping Specifications for Automated Assembly
(Straight Leads and Taping)
Ratings and Characteristics
✽ Refer to bulk standard type part no. (P9 to P23).
Taping Dimensions in mm (not to scale)
P2
△h
fD
P
T✽
A
Type I·II
F1
H0
H
W
W1
L
W0
W2
P1
F
Position of H0 dimension
fd
f D0
t
P0
Position of F1 dimension
✽ Dimension “T”: Conforms to each individual specification.
Type III·IV
△h
fD
P2
T✻
A
P
F1
H0
H
W
W1
L
W0
W2
P1
F
Position of H0 dimension
fd
f D0
t
P0
Position of F1 dimension
✽ Dimension “T”: Conforms to each individual specification.
Unit : mm
Series
Varistor Voltage
Symbol
Type
P
P0
P1
P2
fd
F
Δh
W
W0
W1
W2
H
H0
F1
f D0
t
L
fD
A
Standard
Products
Part No.
5
180 to 471
Type I
12.7±1.0
12.7±0.3
3.85±0.70
6.35±1.30
0.60 +0.06
–0.05
5.0±0.5
0±2
18.0 +1.0
–0.5
5.0 min.
9.0±0.5
3 max.
Approx. 20
17.0±0.5
7
180 to 511
Type I
12.7±1.0
12.7±0.3
3.85±0.70
6.35±1.30
0.60 +0.06
–0.05
5.0±0.5
0±2
18.0 +1.0
–0.5
5.0 min.
9.0±0.5
3 max.
Approx. 20
17.0±0.5
9
180 to 511
Type I
12.7±1.0
12.7±0.3
3.85±0.70
6.35±1.30
0.60 +0.06
–0.05
5.0±0.5
0±2
18.0 +1.0
–0.5
5.0 min.
9.0±0.5
3 max.
Approx. 20
17.0±0.5
f 4.0±0.2
0.6±0.3
11 max.
7.0 max.
10.0 max.
f 4.0±0.2
0.6±0.3
11 max.
8.5 max.
11.5 max.
f 4.0±0.2
0.6±0.3
11 max.
11.5 max.
14.0 max.
10
180 to 331 361 to 511
Type II
Type I
15.0±1.0 15.0±1.0
15.0±0.3 15.0±0.3
3.75±0.70 3.75±0.70
7.5±1.3
7.5±1.3
0.80 +0.08
0.80 +0.08
–0.05
–0.05
7.5±0.5
7.5±0.5
0±2
0±2
18.0 +1.0
18.0 +1.0
–0.5
–0.5
5.0 min.
5.0 min.
9.0±0.5
9.0±0.5
3 max.
3 max.
Approx. 22 Approx. 22
0
18.0 +2.0
16.00 +0.75
–0.50
f 4.0±0.2 f 4.0±0.2
0.6±0.3
0.6±0.3
11 max.
11 max.
11.5 max. 11.5 max.
14.5 max. 14.5 max.
561 to 112
Type II
15.0±1.0
15.0±0.3
3.75±0.70
7.5±1.3
0.80 +0.08
–0.05
7.5±0.5
0±2
18.0 +1.0
–0.5
5.0 min.
9.0±0.5
3 max.
Approx. 22
–0.50
16.00 +0.75
f 4.0±0.2
0.6±0.3
11 max.
12.5 max.
15.5 max.
180 to 331
Type III
30.0±1.0
15.0±0.3
3.75±0.70
7.5±1.3
0.80 +0.08
–0.05
7.5±0.5
0±2
18.0 +1.0
–0.5
5.0 min.
9.0±0.5
3 max.
Approx. 22
18.0 +2.0
0
14
361 to 511
Type IV
30.0±1.0
15.0±0.3
3.75±0.70
7.5±1.3
0.80 +0.08
–0.05
7.5±0.5
0±2
+1.0
18.0 –0.5
5.0 min.
9.0±0.5
3 max.
Approx. 22
–0.50
16.00 +0.75
f 4.0±0.2 f 4.0±0.2
0.6±0.3
0.6±0.3
11 max.
11 max.
15.5 max. 15.5 max.
18.5 max. 18.5 max.
561 to 112
Type IV
30.0±1.0
15.0±0.3
3.75±0.70
7.5±1.3
0.80 +0.08
–0.05
7.5±0.5
0±2
18.0 +1.0
–0.5
5.0 min.
9.0±0.5
3 max.
Approx. 22
–0.50
16.00 +0.75
f 4.0±0.2
0.6±0.3
11 max.
16.0 max.
19.0 max.
ERZVA5D□□□ ERZVA7D□□□ ERZVA9D□□□ ERZVGAD□□□ ERZVGAD□□□ ERZVGAD□□□ ERZVGED□□□ ERZVGED□□□ ERZVGED□□□
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 25 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Taping Specifications for Automated Assembly
(Crimped Leads and Taping)
Ratings and Characteristics
✽ Refer to bulk standard type part no. (P9 to P23).
Taping Dimensions in mm (not to scale)
P2
△h
fD
P
T✽
H
W
W1
L
W0
P1
H0
W2
A
Type I
F
fd
f D0
t
P0
✽ Dimension “T”: Conforms to each individual specification.
△h
fD
P2
Type II
T✽
H
W
W1
L
W0
P1
H0
W2
A
P
F
fd
t
f D0
P0
✽ Dimension “T”: Conforms to each individual specification.
Series
Varistor Voltage
Symbol
P
P0
P1
P2
fd
F
Δh
W
W0
W1
W2
H
H0
f D0
t
L
fD
A
Type
5
180 to 471
Type I
12.7±1.0
12.7±0.3
3.85±0.70
6.35±1.30
0.60 +0.06
–0.05
5.0±0.5
0±2
+1.0
18.0 –0.5
5.0 min.
9.0±0.5
3 max.
Approx. 22
17.0±0.5
f4.0±0.2
0.6±0.3
11 max.
7.0 max.
13.0 max.
7
180 to 511
Type I
12.7±1.0
12.7±0.3
3.85±0.70
6.35±1.30
0.60 +0.06
–0.05
5.0±0.5
0±2
+1.0
18.0 –0.5
5.0 min.
9.0±0.5
3 max.
Approx. 22
17.0±0.5
f4.0±0.2
0.6±0.3
11 max.
8.5 max.
14.5 max.
9
180 to 511
Type I
12.7±1.0
12.7±0.3
3.85±0.70
6.35±1.30
0.60 +0.06
–0.05
5.0±0.5
0±2
+1.0
18.0 –0.5
5.0 min.
9.0±0.5
3 max.
Approx. 22
17.0±0.5
f4.0±0.2
0.6±0.3
11 max.
11.5 max.
17.5 max.
Unit : mm
180 to 331
Type I
15.0±1.0
15.0±0.3
3.75±0.70
7.5±1.3
0.80 +0.08
–0.05
7.5±0.5
0±2
+1.0
18.0 –0.5
5.0 min.
9.0±0.5
3 max.
Approx. 22
16.0±0.5
f4.0±0.2
0.6±0.3
11 max.
11.5 max.
17.5 max.
10
361 to 511
Type I
15.0±1.0
15.0±0.3
3.75±0.70
7.5±1.3
+0.08
0.80 –0.05
7.5±0.5
0±2
+1.0
18.0 –0.5
5.0 min.
9.0±0.5
3 max.
Approx. 22
16.0±0.5
f4.0±0.2
0.6±0.3
11 max.
11.5 max.
17.5 max.
561 to 112
Type I
15.0±1.0
15.0±0.3
3.75±0.70
7.5±1.3
+0.08
0.80 –0.05
7.5±0.5
0±2
+1.0
18.0 –0.5
5.0 min.
9.0±0.5
3 max.
Approx. 22
16.0±0.5
f4.0±0.2
0.6±0.3
11 max.
12.5 max.
✽ (refer)
180 to 331
Type II
30.0±1.0
15.0±0.3
3.75±0.70
7.5±1.3
0.80 +0.08
–0.05
7.5±0.5
0±2
+1.0
18.0 –0.5
5.0 min.
9.0±0.5
3 max.
Approx. 22
16.0±0.5
f4.0±0.2
0.6±0.3
11 max.
15.5 max.
21.0 max.
14
361 to 511
Type II
30.0±1.0
15.0±0.3
3.75±0.70
7.5±1.3
+0.08
0.80 –0.05
7.5±0.5
0±2
+1.0
18.0 –0.5
5.0 min.
9.0±0.5
3 max.
Approx. 22
16.0±0.5
f4.0±0.2
0.6±0.3
11 max.
15.5 max.
21.0 max.
561 to 112
Type II
30.0±1.0
15.0±0.3
3.75±0.70
7.5±1.3
+0.08
0.80 –0.05
7.5±0.5
0±2
+1.0
18.0 –0.5
5.0 min.
9.0±0.5
3 max.
Approx. 22
16.0±0.5
f4.0±0.2
0.6±0.3
11 max.
16.0 max.
✽ (refer)
Standard
Products ERZVA5V□□□ ERZVA7V□□□ ERZVA9V□□□ ERZVEAV□□□ ERZVEAV□□□ ERZVEAV□□□ ERZVEEV□□□ ERZVEEV□□□ ERZVEEV□□□
Part No.
✽ Dimension “A”
ERZV□□V561
ERZV□□V621
ERZV□□V681
ERZV□□V751
10 Series
19.0 max.
19.0 max.
19.0 max.
19.0 max.
14 Series
22.0 max.
22.0 max.
22.0 max.
22.0 max.
ERZV□□V821
ERZV□□V911
ERZV□□V102
ERZV□□V112
10 Series
20.0 max.
20.0 max.
20.0 max.
20.0 max.
14 Series
23.5 max.
23.5 max.
23.5 max.
23.5 max.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 26 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Application Note for Safety Standards
● Approvals
products lists in "Reference Guide to Standard Products."
VDE and CSA : Registered in "Type name", it isn’t registered in "Panasonic Part No."
● CQC : Registered in "Panasonic Part No."
● "Rated Voltages" are specified for UL recognized components in list shown below.
● UL,
■ The AC Rated Voltage and Maximum Allowable Voltage
Type Name
V✽820U
V✽101U
V✽121U
V✽151U
V✽201U
V✽221U
V✽241U
V✽271U
V✽331U
V✽361U
V✽391U
V✽431U
V✽471U
V✽511U
V✽561U
V✽621U
V✽681U
V✽751U
V✽821U
V✽911U
V✽102U
V✽112U
V✽182U
Maximum Allowable
Voltage
Rated Voltage (Vrms)
ACrms (V)
DC (V)
UL1449
CSA C22.2 No.1
50
60
75
95
130
140
150
175
210
230
250
275
300
320
350
385
420
460
510
550
625
680
1000
65
85
100
125
170
180
200
225
270
300
320
350
385
410
450
505
560
615
670
745
825
895
1465
45
55
68
86
118
127
136
159
189
209
227
250
272
291
320
350
381
418
463
500
568
600
600
N/A
N/A
N/A
N/A
118
127
136
159
189
209
227
250
272
291
320
350
381
418
463
500
568
618
909
✽:5 Series is blank, 7 series is 7, 9 series is 9, 10 series is 10, 14 series is 14, 20 series is 20
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 27 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Marking Contents
Explanation of the contents
Mark
Explanation of the content
ZNR
Product Name
[□□□]
Nominal Varistor
Volage
V✽□□□
V✽□□□U
Abbreviation of Part No.
(Type Name)
◯
Factory Identication Mark
None:Japan
Q:Indonesia
◆
Year Code
2013:3, 2014:4, 2015:5
2016:6, 2017:7, 2018:8
◇
Monthly Code
Jan:1 to Sep:9,
Oct:O, Nov:N, Dec:D
Marking
1)
UL Recognized Components Mark
CSA Monogram
✽ : 5 series is blank, 7 series is 7, 9 series is 9, 10 series is 10, 14 series is 14,
20 series is 20
1) : If the 10's digit of a Christian year is an even year, as an end abbreviation, an
alphabetic character is used.
1:A, 2:B, 3:C, 4:D, 5:E, 6:F, 7:G, 8:H, 9:J, 0:K
If the 10's digit of a Christian year is an odd year, as an end abbreviation, a
number is used.
Marking Contents
Series
(Example)
5
7
9
10
14
20
(ERZV05D□□□)
(ERZV07D□□□)
(ERZV09D□□□)
(ERZV10D□□□)
(ERZV14D□□□)
(ERZV20D□□□)
180 to 680
V□□□
V7□□□
V9□□□
ZNR
V10□□□
ZNR
V14□□□
ZNR
V20□□□
820 to 151
V□□□U
V7□□□U
V9□□□U
ZNR
V10□□□U
ZNR
V14□□□U
ZNR
V20□□□U
201 or more
V□□□U
V7□□□U
V9□□□U
ZNR
V10□□□U
ZNR
V14□□□U
ZNR
V20□□□U
Varister
Voltage
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 28 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Performance Characteristics
Characteristics
Test Methods/Description
Specifications
Standard Test Condition
Electrical measurements (initial/after tests) shall be conducted at
temperature of 5 to 35 °C, relative humidity of maximum 85 %
———
Varistor Voltage
The voltage between two terminals with the specified measuring
current CmA DC applied is called VC or VCmA. The measurement
shall be made as fast as possible to avoid heat affection.
Maximum
Allowable Voltage
The maximum sinusoidal RMS voltage or maximum DC voltage
that can be applied continuously.
The maximum voltage between two terminals with the specified
standard impulse current (8/20 µs) illustrated below applied.
Clamping Voltage
Current(%)
100
90
50
To meet the
specified value.
10
0
8 µs
Rated Power
Maximum Energy
20 µs
Time
The power that can be applied in the specified ambient
temperature.
The maximum energy within the varistor voltage change of ±10 %
when a single impulse current of 2 ms or 10/1000 µs is applied.
Electrical
The maximum current within the varistor voltage change of ±10 %
Maximum
2 times when a standard impulse current of 8/20 µs is applied two times
Peak
with an interval of 5 minutes.
Current
(Withstanding
The maximum current within the varistor voltage change of ±10 %
Surge
1 time
with a single standard impulse current of 8/20 µs is applied.
Current)
1
Temperature Coef ficient VCmA at 85 °C – VCmA at 25 °C
×
× 100 (%/°C)
of Varistor Voltage
60
VCmA at 25 °C
Capacitance
Withstanding Voltage
(Body Insulation)
Capacitance shall be measured at 1 kHz ±10 %, 1 Vrms max.
(1 MHz ±10 % below 100 pF), 0 V bias and 20±2 °C.
0 to -0.05 %/°C max.
To meet the
specified value
The specified voltage shall be applied between both terminals of
the specimen connected together and metal foil closely wrapped
round its body for 1 minute.
Classification (Nominal varistor voltage)
V0.1 mA, V1 mA < 330 V
V0.1 mA, V1 mA > 330 V
Test Voltage (AC)
1000 Vrms
1500 Vrms
No breakdown
The change of VC shall be measured after the impulse current
listed below is applied 10000 or 100000 times continuously with
the interval of 10 seconds at room temperature.
Impulse Life
Item
Times
Part No.
Current
ERZV05D180 to ERZV05D680
ERZV07D180 to ERZV07D680
ERZV09D180 to ERZV09D680
ERZV10D180 to ERZV10D680
ERZV14D180 to ERZV14D680
ERZV20D180 to ERZV20D680
ERZV05D820 to ERZV05D471
ERZV07D820 to ERZV07D511
ERZV09D820 to ERZV09D511
ERZV10D820 to ERZV10D112
ERZV10D182CS
ERZV14D820 to ERZV14D112
ERZV14D182CS
ERZV20D820 to ERZV20D112
ERZV20D182
Impulse Life (I) Impulse Life (II)
×104 Times
×10 5 Times
Impulse Current
8 A (8/20 µs)
5 A (8/20 µs)
25 A (8/20 µs)
15 A (8/20 µs)
50 A (8/20 µs)
35 A (8/20 µs)
50 A (8/20 µs)
35 A (8/20 µs)
90 A (8/20 µs)
50 A (8/20 µs)
130 A (8/20 µs)
65 A (8/20 µs)
40 A (8/20 µs)
25 A (8/20 µs)
100 A (8/20 µs)
60 A (8/20 µs)
150 A (8/20 µs)
85 A (8/20 µs)
150 A (8/20 µs)
85 A (8/20 µs)
120 A (8/20 µs)
75 A (8/20 µs)
200 A (8/20 µs) 110 A (8/20 µs)
150 A (8/20 µs)
90 A (8/20 µs)
250 A (8/20 µs) 120 A (8/20 µs)
200 A (8/20 µs) 100 A (8/20 µs)
ΔVCmA /VCmA < ±10 %
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 29 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type D)
Performance Characteristics
Characteristics
Test Methods
Robustness of
Terminations
(Bending)
The unit shall be secured with its terminal kept vertical and the force
specified below shall be applied in the axial direction.
The terminal shall gradually be bent by 90 ° in one direction, then 90 ° No remarkable
in the opposite direction, and again back to the original position.
mechanical damage
The damage of the terminal shall be visually examined.
Terminal diameter
Force
4.9 N
00.6 mm, 00.8 mm
9.8 N
01.0 mm
Vibration
After repeadly applying a single harmonic vibration (amplitude: 0.75
mm, double amplitude: 1.5 mm) with 1 minute vibration frequency
cycles (10 Hz to 55 Hz to 10 Hz) to each of three perpendicular
directions for 2 hours. Thereafter, the unit shall be visually examined.
Solderability
Approximately 95 %
After dipping the terminals to a depth of approximately 3 mm from the
of the termainals shall
body in a soldering bath of 235±5°C for 2±0.5 seconds, the terminal
be covered with new
shall be visually examined.
solder uniformly.
Resistance to
Soldering Heat
After each lead shall be dipped into a solder bath having a temperature
of 260±5 °C to a point 2.0 to 2.5 mm from the body of the unit, using ΔVCmA/VCmA < ±5 %
shielding board (t=1.5 mm), be held there for 10±1 s and then be stored No remarkable
at room temperature and normal humidity for 1 to 2 hours. The change of mechanical damage
VCmA and mechanical damages shall be examined.
High Temperature
Storage/
Dry Heat
The specimen shall be subjected to 125±2 °C for 1000 hours in a
thermostatic bath without load and then stored at room temperature
ΔVCmA/VCmA < ±5 %
and normal humidity for 1 to 2 hours. Thereafter, the change of VCmA
shall be measured.
Humidity
The specimen shall be subjected to 40±2 °C, 90 to 95 % RH for 1000
hours without load and then stored at room temperature and normal
ΔVCmA/VCmA < ±5 %
humidity for 1 to 2 hours. Thereafter, the change of VCmA shall be
measured.
Mechanical
Robustness of
Terminations
(Tensile)
After gradually applying the force specified below and keeping the
unit fixed for 10 seconds, the terminal shall be visually examined for
any damage.
Terminal diameter
Force
9.8 N
00.6 mm, 00.8 mm
19.6 N
01.0 mm
The temperature cycle shown below shall be repeated five cycles and
then stored at room temperature and normal humidity for 1 to 2 hours.
The change of VCmA and mechanical damage shall be
examined.
Environmental
Specifications
Temperature
Cycle
Step
1
2
3
4
Temperature (°C) Period (minutes)
–40±3
30±3
Room temperature
15±3
125±2
30±3
Room temperature
15±3
ΔVCmA/VCmA < ±5 %
No remarkable
mechanical damage
High Temperature
Load/
Dry Heat Load
After being continuously applied the Maximum Allowable Voltage
at 85±2 °C for 1000 hours, the specimen shall be stored at room
temperature and normal humidity for 1 to 2 hours. Thereafter, the
change of VCmA shall be measured.
Damp Heat Load/
Humidity Load
The specimen shall be subjected to 40±2 °C, 90 to 95 % RH and the
Maximum Allowable Voltage for 1000 hours and then stored at room
temperature and normal humidity for 1 to 2 hours. Thereafter, the
change of VCmA shall be measured.
Low Temperature
Storage/Cold
The specimen shall be subjected to –40±2 °C without load for 1000
hours and then stored at room temperature and normal humidity for ΔVCmA/VCmA < ±5 %
1 to 2 hours. Thereafter, the change of VCmA shall be measured.
ΔVCmA/VCmA < ±10 %
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 30 –
Jan. 2015
“ZNR” Surge Absorbers (Type SMD)
“ZNR” Surge Absorbers
Type:
Series:
SMD
HF
Features
● Meet
for Load Dump Surge Test (JASO D 001-94)
[Vp=70 V, t=200 ms, Ri=0.8 Ω]
● Meet for Load Dump Surge Test ISO7637-2 and ISO16750-2
● Suitable for requirements of Automotive
● Compact size SMD
● Meet flow/reflow/iron soldering
● Strong against “Soldering heat shock” due to molded construction
● RoHS compliant
Recommended Applications
● Protection
of Body & Accessory ECU about DC12 V automotive against Load Dump Surge
■ As for Handling Precautions and Minimum Quantity / Packing Unit
Please see Related Information
Explanation of Part Numbers
1
2
3
4
5
6
7
8
9
10
11
E
R
Z
H
F
2
M
2
2
0
D
Product Code
Series
Construction
Nominal
Varistor Voltage
Embossed Taping
12
Design No.
Construction
2
1
1 Multilayer Varistor
ZnO, others
2 Mold Resin
Epoxy (UL94 V-0 approved)
3 Lead Terminal
Sn plated Ni-Fe alloy
3
Dimensions in mm (not to scale)
Unit : mm
H
Part No.
S
S
L
E
W
ERZHF2M220D
ERZHF2M270
W
L
6.4±0.4 8.0±0.5
H
5.5±0.5
4.5±0.5
S
1.3±0.3 2.5±0.2
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 31 –
E
Jan. 2015
“ZNR” Surge Absorbers (Type SMD)
Ratings and Characteristics
●
●
Operating Temperature Range : –40 to 125 °C
Storage Temperature Range : –40 to 125 °C
Varistor Voltage
Part No.
V1 mA (V)
ERZHF2M220D
Maximum
Allowable
Voltage
DC (V)
Short Time
Over-voltage
16
DC24(V) 5 min.
Clamping
Voltage
(V) at Ip 5(A)
20 to 23.2
ERZHF2M270
Load Dump Surge
JASO
Category:A ,A-1
70V, 1time
35(V) max.
27±20 %
43(V) max.
Marking Contents
1 Part No.
1
ZNR
H F 2 2 0
◆◇●
2
ZNR Surge Absorbers
2 Abbreviation of P/N
✽
HF220(ERZHF2M220D), HF270(ERZHF2M270)
◆
Yearly
2011:1, 2012:2 ,2013:3, 2014:4, 2015:5, 2016:6
◇
Monthly
Jan.:1, Feb.:2, Mar.:3, Apr.:4, May:5, Jun.:6,
Jul.:7, Aug.:8, Sep.:9, Oct.:O, Nov.:N, Dec.:D
●
10 Days
1st to 10th:1, 11th to 20th:2, 21st to 31st:3
3
3 Date Code
✽ If the 10's digit of a Christian year is an even year, as an end abbreviation, an alphabetic
character is used.
1 : A, 2 : B, 3 : C, 4 : D, 5 : E, 6 : F, 7 : G, 8 : H, 9 : J, 0 : K
If the 10's digit of a Christian year is an odd year, as an end abbreviation, a number is
used.
Packaging Methods
Packing Quantity
Style
Embossed Taping
●
Part No.
Quantity
ERZHF2M220D
800 pcs./reel
ERZHF2M270
1,000 pcs./reel
●
Reel
T
Embossed Taping
Width of Tape :16mm
t1
Feeding hole
fD0
E
P2
P0
r
W
B
B
F
C
Chip pocket
E
●
D
t2
A
Chip component
A
W
P1
Direction of feed
t
(not to scale)
Unit : mm
Part No.
A
B
C
D
Unit : mm
E
Part No.
A
B
W
F
E
P1
ERZHF2M220D
7.5 max. 11.9 max. 16.0±0.3 7.5±0.1 1.75±0.10 12.0±0.1
ERZHF2M270
ERZHF2M□□□ 382 max. 50 min. 13.0±0.5 21.0±0.8 2.0±0.5
Part No.
W
+2.0
0
ERZHF2M□□□ 16.4
T
t
22.4 max. 2.5±0.5
Part No.
P2
P0
t1
t2
fD0
9.0 max.
ERZHF2M220D
+0.1
2.0±0.1 4.0±0.1 1.5 0 0.8 max.
ERZHF2M270
8.0 max.
r
1.0
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 32 –
Jan. 2015
“ZNR” Surge Absorbers (Type SMD)
Performance Characteristics
Characteristics
Test Methods
Specifications
Standard Test Condition
Environmental conditions under which every measuring is done
without doubt on the measuring results. Unless specially, specified,
temperature, relative humidity are 5 °C to 35 °C, 45 to 85% RH
respectively.
———
Maximum Allowable
Voltage
The maximum DC voltage that can be applied continuously in the
specified environmental temperature range.
Short Time Over-Voltage
The maximum DC Voltage that can be applied specified period
without breakdown
Varistor Voltage
Voltage between both terminals of ZNR measured when 1 mA of To meet the
DC current is applied under standard conditions. It is called V1. specified value.
Measuring the varistor voltage should be made promptly to avoid
heat affection.
Clamping Voltage
The maximum voltage between two terminals with the specified
impulse current (8/20 µs).
The test waveform of transient voltage which specified JASO
Category A A-1 70 V without breakdown.
Load Dump Surge
No breakdown
Vp=70 V
36.8 %
PS Voltage
0V
t=200 ms
✽ Please Check Specification of the products about Mechanical & Environmental etc. requirements
Recommendation Land Size
Land
8.0
3.0
6.4
Product
Occupied Space
5.0
Unit : mm
10.0
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 33 –
Jan. 2015
“ZNR” Surge Absorbers (Type SMD)
“ZNR” Surge Absorbers
Type:
Series:
SMD
VF
Features
● Large
withstanding surge current capability, in compact size
for flow/reflow solderings
● Low clamping voltage
● RoHS compliant
● Designed
Recommended Applications
● Protection of communication modules (Modem,
● Protection of consumer, industrial equipment
● Absorption of switching surge from relays
xDSL, Terminal Adopter)
Applicable Standards
● PCQC
(GB/T10193, GB/T10194)
Registered in "Panasonic Part No."
■ As for Handling Precautions and Minimum Quantity / Packing Unit
Please see Related Information
Explanation of Part Numbers
1
2
3
4
5
E
R
Z
V
F
Product Code
6
7
8
9
10
11
12
M
Series
Construction
Nominal
Varistor Voltage
Design No.
Packaging Style
1
Bulk
2
Taping
Construction
4
2
3
1
5
1 ZNR element
ZnO etc.
2 Resin mold
Epoxy Resin(UL94V-0 approved)
3 Conductive
adhesive
Silver
4 Electrode
Silver
5 Lead terminals
Sn plated Ni-Fe Alloy
Dimensions in mm (not to scale)
Unit : mm
H
Part No.
W
L
H
S
E
ERZVF□M□□□ 6.0±0.4 8.0±0.5 3.2±0.3 1.3±0.3 2.5±0.2
S
S
L
E
W
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 34 –
Jan. 2015
“ZNR” Surge Absorbers (Type SMD)
Ratings and Characteristics
●
●
Operating Temperature Range : –40 to 85 °C
Storage Temperature Range : –40 to 125 °C
Type VF□M
Part No.
Varistor
Voltage
Maximum
Allowable
Voltage
V1 mA (V)
ACrms (V) DC (V)
ERZVF□M220
22(20 to 24)
14
Clamping
Voltage at Ip
(max.)
18
Rated
Power
Maximum MaximumPeak
Energy
Current
(2 ms)
(8/20 μs, 2 times)
(W)
(J)
(A)
43
Measuring
Current (A)
2.5
0.02
0.9
125
(V)
ERZVF□M270
27(24 to 30)
17
22
53
2.5
0.02
1.0
125
ERZVF□M330
33(30 to 36)
20
26
65
2.5
0.02
1.2
125
ERZVF□M390
39(35 to 43)
25
31
77
2.5
0.02
1.5
125
ERZVF□M470
47(42 to 52)
30
38
93
2.5
0.02
1.8
125
ERZVF□M560
56(50 to 62)
35
45
110
2.5
0.02
2.2
125
ERZVF□M680
68(61 to 75)
40
56
135
2.5
0.02
2.5
125
ERZVF□M820
82(74 to 90)
50
65
135
0.25
3.5
600
ERZVF□M101
100(90 to 110)
60
85
165
10
0.25
4.0
600
ERZVF□M121
120(108 to 132)
75
100
200
10
0.25
5.0
600
ERZVF□M151
150(135 to 165)
95
125
250
10
0.25
6.0
600
ERZVF□M201
200(185 to 225)
130
170
340
10
0.25
8.0
600
ERZVF□M221
220(198 to 242)
140
180
360
10
0.25
9.0
600
ERZVF□M241
240(216 to 264)
150
200
395
10
0.25
10.0
600
ERZVF□M271
270(247 to 303)
175
225
455
10
0.25
12.0
600
ERZVF□M331
330(297 to 363)
210
270
545
10
0.1
8.0
300
ERZVF□M361
360(324 to 396)
230
300
595
10
0.1
9.0
300
ERZVF□M391
390(351 to 429)
250
320
650
10
0.1
9.0
300
ERZVF□M431
430(387 to 473)
275
350
710
10
0.1
10.0
300
ERZVF□M471
470(423 to 517)
300
385
775
10
0.1
10.0
300
10
Packaging Style Code: “1” for bulk, “2” for embossed taping
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 35 –
Jan. 2015
“ZNR” Surge Absorbers (Type SMD)
Typical Characteristics
Voltage vs. Current
Impulse Derating (Relation between impulse
width and impulse current multiple)
ERZVF1(2)M220 to ERZVF1(2)M680
ERZVF1(2)M220 to ERZVF1(2)M680
Max.
Leakage Current
400
300
200
Max. Clamping Voltage
680
560
470
390
330
270
220
300
10
0
40
68
30
0
56
0
47
04
s
m
es
T
im
e
s
im
es
5 10 6 T
ime
4
s
3
2
1
0.5
0.4
0.3
0.2
0.1
20
270
0
22
20
100
1000
10000
Impulse Width (μs)
10
9
8
7
6
5
Test Current Waveform
10–6 to 10–3A: Direct Current
10–1 to 103 A: 8/20 μs
390
330
ERZVF1(2)M820 to ERZVF1(2)M271
2000
2 times : 5 min. interval
up to 10 times : 2 min. interval
up to 106 times :10 sec. interval
1000
500
400
300
200
2
T
10 ime
Ti s
10 2 me
s
100 1 Ti
0 3 me
10 4 Tim s
50
T es
4
10–5
10–4
10–3
10–2
10–1
100
Current (A)
101
102
103
104
Impulse Current (A)
10–6
ERZVF1(2)M820 to ERZVF1(2)M471
Max.
Leakage Current
Max. Clamping Voltage
2000
471
431
391
361
431
391
400
100
90
80
70
60
50
40
30
10–6
es
T
im
10 6
e
s
Tim
es
5
4
3
2
1
101
361
271
820
2
10 Tim
Ti es
m
100
10 2 es
Tim
10 3 e
Tim s
1
es
0
T
10 5 ime
Tim s
10
10 6 es
Tim
es
4
1
Test Current Waveform
10–6 to 10–3 A : Direct Current
10–1 to 104 A : 8/20 μs
241
221
10–5
10000
2 times : 5 min. interval
up to 10 times : 2 min. interval
up to 106 times :10 sec. interval
1
20
1
15
1
2
1
1
10
0
2
8
1000
Impulse Width (μs)
ERZVF1(2)M331 to ERZVF1(2)M471
121
47
100
1000
Impulse Current (A)
200
10
im
5
0.1
20
271
241
221
201
151
500
300
40 1
30 0
20
1
1000
900
800
700
600
Voltage (V)
Ti
1
10 5
T
100
90
80
70
60
50
3
2T
50 10 imes
Tim
40
es
30 10 2
20 10 3Time
Impulse Current (A)
Voltage (V)
200
100
2 times : 5 min. interval
up to 10 times : 2 min. interval
up to 106 times :10 sec. interval
10–4
10–3
10–2
10–1
100
Current (A)
101
102
103
104
0.1
20
100
1000
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 36 –
10000
Impulse Width (μs)
Jan. 2015
“ZNR” Surge Absorbers (Type SMD)
Marking Contents
1
ZNR
VFM
2
01
3
4
1 Product Name
ZNR, ZNR Surge Absorbers
2 Series
VF□M, VF Series
3 Abbreviation of
Part No.
The first two digits are significant figures and the third one
denotes the number of zeros following.
✽
Left (Year) 2011:1, 2012:2, 2013:3, 2014:4, 2015:5, 2016:6
4 Date Code
Right(Month) Jan. to Sep.:1 to 9, Oct.:O, Nov.:N, Dec.:D
✽ If the 10's digit of a Christian year is an even year, as an end abbreviation, an
alphabetic character is used.
1 : A, 2 : B, 3 : C, 4 : D, 5 : E, 6 : F, 7 : G, 8 : H, 9 : J, 0 : K
If the 10's digit of a Christian year is an odd year, as an end abbreviation, a number
is used.
Packaging Methods
Packing Quantity
Style
Quantity
Embossed taping
2,000 pcs./reel
Bulk
●
Reel
T
Embossed Taping
(W=16 mm)
t1
E
Feeding hole
Chip pocket
C
f D0
A
F
B
B
r
P2 P0
E
●
200 pcs./bag
W
●
D
P1
t2
Chip component
A
W
Tape running
direction
t
(not to scale)
(not to scale)
Part No.
A
B
C
D
E
ERZVF□M□□□ 382 max. 50 min. 13.0±0.5 21.0±0.8 2.0±0.5
Part No.
A
B
W
F
E
P1
ERZVF□M□□□ 6.8±0.2 11.9 max. 16.0±0.3 7.5±0.10 1.75±0.10 8.0±0.1
Part No.
W
T
t
ERZVF□M□□□ 16.4+2.0
22.4 max. 2.5±0.5
0
Part No.
P2
P0
fD0
ERZVF□M□□□ 2.0±0.1 4.0±0.1 1.5+0.1
0
r
1.0
t1
t2
0.6 max. 6.5 max.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 37 –
Jan. 2015
“ZNR” Surge Absorbers (Type SMD)
Performance Characteristics
Characteristics
Test Methods
Specifications
Standard Test
Condition
Electrical measurements (initial/after tests) shall be conducted at
temperature of 5 to 35 °C, relative humidity of maximum 85 %
———
Varistor Voltage
The voltage between two terminals with the specified measuring
current 1mA DC applied is called V1 or V1mA. The measurement
should be made as fast as possible to avoid heat effects.
Maximum Allowable
Voltage
The recommended maximum sinusoidal wave voltage (rms) or
the maximum DC voltage that can be applied continuously.
Clamping Voltage
The maximum voltage between two terminals with the specified
impulse current (8/20 μs).
Rated Power
The maximum power that can be applied within the specified
ambient temperature.
Maximum Energy
Maximum energy of less than ±10 % of the varistor voltage
change when the standard impulse (2 ms) is applied one time.
Maximum
Peak Current
Maximum current of less than ±10 % of the varistor voltage change
when impulse current (8/20 μs) is applied twice continuously with an
interval of 5 minutes.
Temperature Co ef ficient
of Varistor Voltage
V1mA at 85 °C – V1mA at 25 °C
V1mA at 25 °C
×
1
× 100(%/°C)
60
To meet the
specified value.
0 to –0.05 %/°C
The change of Vc shall be measured after the specified impulse is
applied 10000 times continuously with an interval of 10 seconds at
room temperature.
Impulse Life (I)
Part No.
ERZVF□M220 to ERZVF□M680
ERZVF□M820 to ERZVF□M271
ERZVF□M331 to ERZVF□M471
Waveform
8/20 μs
8/20 μs
8/20 μs
Current
18 A
50 A
30 A
ΔV1mA /V1mA < ±10 %
The change of Vc shall be measured after the specified impulse is
applied 100000 times continuously with an interval of 10 seconds at
room temperature.
Impulse Life (II)
Part No.
ERZVF□M220 to ERZVF□M680
ERZVF□M820 to ERZVF□M271
ERZVF□M331 to ERZVF□M471
Waveform
8/20 μs
8/20 μs
8/20 μs
Current
12 A
35 A
20 A
ΔV1mA /V1mA < ±10 %
Recommendation Land Size
Land
8.0
3.0
6.0
Product
Occupied Space
5.0
10.0
Unit : mm
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 38 –
Jan. 2015
“ZNR” Transient/Surge Absorbers
“ZNR”Transient/Surge Absorbers, Type D, Series V
“ZNR”Transient/Surge Absorbers, Type SMD, Series HF, VF
Handling Precautions
Safety Precautions
In case that a ZNR Surge Absorber (hereafter referred to as the ZNR, or product name) is used, if an
abnormality takes place because of peripheral conditions of the ZNR(material, environments, power source
conditions, circuit conditions, etc. in equipment design), fire, electric shock, burn, or product failure may be occur.
The precautions for this product are described below, understand the content thoroughly before usage. For more
questions, contact us.
1.
Precautions to be strictly observed
1.1 Confirmation of performance ratings
Use the ZNR within its rated range of performance such as the Max. allowable voltage, withstanding surge
current, withstanding energy, impulse life(surge life), average pulse power, and operating temperature range.
If used outside the range, the ZNR can be degrade and have element fracture, which may result in smoking
and ignition.
1.2 To avoid accidents due to unexpected phenomena, take the following measures
1) In the event of fracture of the ZNR, its pieces may scatter ; hence, put the case or cover of the set product in place.
2) Do not install the ZNR near combustible substances(polyvinyl chloride wires, resin moldings, etc.). If it is difficult to do,
install a nonflammable cover.
3) Across-the-line use
When the ZNR is used across a line, put a current fuse in series with the ZNR(Refer to Item 2.1.1). (4) and
Table 1.
4) Use between line to ground
(1) If the case that the ZNR is used between a line to the ground, the short-circuit of the ZNR may not blow the
current fuse because of grounding resistance, which may cause smoking and ignition of the ZNR’s exterior resin.
As the measure against it, install an earth leakage breaker on the power supply side of the ZNR position. If no
earth leakage breaker is installed, use a thermal fuse together wth a current fuse in series. (Refer to Table 1.)
(2) If the case that the ZNR is used between a live part to metal case, an electric shock may develop at a
shortcircuit of the ZNR ; hence, ground the metal case to the ground or keep it from the human body.
2. Application notes
2.1 Pay attention to the following items to avoid the shortened life and failure of the ZNR
1) Circuit conditions
(1) Select a ZNR of which the maximum voltage including fluctuations in source voltage allows for the
maximum permissible circuit voltage. (Refer to Table 1.)
(2) In cases that surges are intermittently applied at short intervals(for example, in case that the voltage of the
noise simulator test is implemented etc.), do not let them exceed the ZNR’s rated power.
(3) Select a ZNR recommended in Table 1.
<1> Across-the-line use
If possible, use a Part No. marked with ✽ in case of voltage temporarily rises load unbalance of
separately-wired loads, short between hot and neutral-line, open of neutral line in single-phase-three-wired
system, and due to resonance at switching for a capacitive, inductive load.
<2> Used between line to ground
Use a different Part No. from “Across-the-line use” as table 1, because of raising voltage in case of
“Line to Ground Fault”.
Use a Part No. marked with ✽✽ in table 1, in case of the insulation resistance test(500 VDC) for
equipment. When using a Part of the varistor voltage that the insulation efficiency examination can not
be cleared, there is a case where the surge absorber can be done by removing it from the circuit
depending on the circuit condition(Refer examination of Japan Domestic Safety Regulations).
Use a Part No. marked with ✽✽✽ in table 1, in case of the withstanding voltage test(1000 VAC or 1200
VAC) for equipment.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
04
– 39 –
Mar. 2015
“ZNR” Transient/Surge Absorbers
(4) Concerning current fuse
<1> We recommend selecting a ZNR and the rated current of a current fuse as follows.
Finally, please be sure that there is no danger if the ZNR mounted on the equipment breaks.
●
Type D, Series V
Standard Part No. ERZV05D□□□ ERZV07D□□□ ERZV09D□□□ ERZV10D□□□ ERZV14D□□□ ERZV20D□□□
Fuse rated current
3 A max.
5 A max.
7 A max.
7 A max.
10 A max.
10 A max.
✽ Fuses shall use rated voltages appropriate for circuits.
●
Type SMD, Series VF
Standard Part No. ERZVF□M□□□
Fuse rated current
5 A max.
✽ Fuses shall use rated voltages appropriate for circuits.
✽ Concerning HF series, please confirm adjusted to load dump surge and protection cooperation.
<2> The recommended fuse position is shown in table 1, “Example of ZNR application”, however, if the load
current of protected equipment is larger than that of the above recommended fuse rated current, install
a current fuse at the position shown below.
Current Fuse
Protected
Equipment
Power Source Side
ZNR
(5) Concerning thermal fuse
Set a thermal fuse to get high thermal conductivity with ZNR.
Table 1 Example of ZNR application
Across-the-Line use
Use between Line to ground
Connections example
DC/AC
Single-phase
L
DC/AC
Single-phase
fuse
ZNR1
N
Protected
Equipment
N
AC
3-phase
L
fuse
AC
3-phase
ZNR3 ZNR3
Example of varistor voltage
ZNR1
ZNR3
Protected
Equipment
ZNR2 {
Thermal
coupling
ZNR3 {
ZNR3 {
Thermal Fuse
Protected
Equipment
ZNR4 {
Thermal
coupling
ZNR3
Source
voltage
ZNR1
fuse
Protected
Equipment
ZNR
fuse
Nominai varistor voltage
Type D
SMD Mold Type
AC100 V
201 to 361✽
201 to 361✽
AC120 V
241 to 431✽
241 to 431✽
AC200 V
471 to 621✽
471
AC220 V
✽
471 to 621
471
AC240 V
511, 621✽
—
AC380 V
821
—
ZNR
Source
voltage
AC100 V
AC220 V
ZNR2
ZNR4
AC230 V
AC240 V
AC380 V
Thermal Fuse
Nominai varistor voltage
Type D
SMD Mold Type
471
511
621✽
821 and more✽✽
182✽✽✽
471
—
—
—
—
—
—
—
—
—
—
511
621✽
821 and more✽✽
182✽✽✽
112✽✽
182✽✽✽
Note : Element size is selected by impulse Condition.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
04
– 40 –
Mar. 2015
“ZNR” Transient/Surge Absorbers
2) Operating environments
(1) The ZNR is designed to be used indoors. Do not use it exposed outdoors.
(2) Do not use the ZNR in places exposed to temperatures beyond the operating temperature range, such
as places exposed to sunlight and vicinities of heating equipment.
(3) Do not use the ZNR in places exposed to high temperatures and high humidity, such as places exposed
directly to rain, wind, dew condensation, and vapor.
(4) Do not use the ZNR in dusty and salinity environment and atmospheres polluted by corrosive gases.
3) Processing conditions
(1) Do not wash the ZNR by such solvents(thinner, acetone, etc.) as its exterior resin deteriorates.
(2) Do not apply a strong vibration or shock (by falling, etc.) to the ZNR, cracking to its exterior resin
and element may occur.
(3) When coating the ZNR with resin(including molding), do not use such resin.
(4) Do not bend the ZNR type D lead wires at the position close to its ZNR type D exterior resin, or apply
external force to the position.
(5) When soldering the ZNR lead wires, follow the recommended conditions and do not melt the solder
and insulating materials constituting the ZNR.
Flow soldering
Recommended
Condition
260 °C, within 10 sec.
Flow soldering
260 °C, within 10 sec.
Reflow soldering
Refer to Reflow
soldering profile
Soldering Method
Type D
SMD Type
Attention Item
Type D is not Reflow soldering object part.
When the package density of the part is high pill out gas
because the solderability sometimes becomes bad.
When Land is too big compared with the size of the
terminal surface of the part, be careful because the part
sometimes upset when solder fuses.
✽1 Soldering iron temperature should not exceed 400 °C and should not be applied for mor than 5 seconds.
✽2 Profile be careful because there is a margin of error in the way of measuring.
✽3 The temperature depend on the size and the package density of the substrate. Therefore, confirm every kind of the substrate.
Soldering temperature-time profile to recommend
Flow soldering
Soldering
Gradual cooling
Temperature (°C)
Preheating
Temperature (°C)
Reflow soldering
Rising
temperature(I)
The limits of resistance to
reflow solderling heat
260
Preheating
Rising
temperature(II)
Gradual
cooling
Main heating
Temperature (°C)
●
250
240
230
220
210
Time
Time
200
Preheating
Soldering
Gradual
cooling
The normal to 130 °C
max. 260 °C
max. 120s
max. 10s
Gradual cooling
0
10
20 30 40
Time (s)
50
60
Rising temperature I
The normal to preheating temperature
30 to 60 s
Preheating
150 to 180 °C
60 to 120 s
Rising temperature II
Preheating to 200 °C
2 to 6 °C/s
Main heating
(cf. The limit of resistance to reflow soldering heat)
Gradual cooling
200 to 100 °C
1 to 4 °C/s
(Reflow soldering shall be within two times)
(6) Mounting (only for SMD Type)
In case of mounting ZNR on a Printed Circuit Board, be careful not to put excessive impact load, such
as pressure from adsorption nozzle, and mechanical impact/stress of position-shifting or positioning.
Also, we recommend you to fix a Printed Circuit Board to sheathing resin with an adhesive in case of
position-shifting of ZNR when mounting.
4) Long-term storage
(1)Do not store the ZNR under high temperature and high humidity. Store it at a temperature up to 40 °C
and at humidity below 75 %RH, and use it within two years.
Before using the ZNR that has been stored for a long period(two years or longer), confirm the solderability.
(2) Avoid atmospheres full of corrosive gases(hydrogen sulfide, sulfurous acid, chlorine, ammonia, etc.).
(3) Avoid direct sunlight and dew condensation.
3. Notices
3.1 In cases that the ZNR is used in equipment(aerospace equipment, medical equipment, etc.) requiring extremely
high reliability, ask us for a selection of Part No., and protection coordination, etc. in advance.
3.2 Note that we do not take any responsibility for faults and abnormalities resulting from the use not in conformity
with the contents of entries in the delivery specification.
3.3 There is a possibility that the ZNR will unexpectedly cause smoke or ignite because of an abnormal rise of the
circuit voltage and invasion of excessive surge. To prevent that accident from spreading over the equipment and not
to expand the damage, use multiplex protection such as the adoption of frame-retardant materials for housing parts
and structural parts.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
04
– 41 –
Mar. 2015
“ZNR” Transient/Surge Absorbers (Type SC)
“ZNR” Transient/Surge Absorbers
Type :
SC
The ZNR Type SC protects power supply facilities,
communications equipment from steep lightning surges,
and it is a suitable product to incorporate it in a serge
protective device corresponding to the Japanese
Industrial Standards (JIS C 5381-1).
Features
● Very
large surge withstanding capability with a compact size
response to steep impulse voltage
● Low clamping voltage for better surge protection
● No follow-on current
● RoHS compliant
● Fast
Recommended Applications
● Power suppliers for OA, FA, telecommunication or industrial equipment
● Traffic or railroad systems
● Surge protection of automatic control devices for power distribution line
■ As for Handling Precautions and Minimum Quantity / Packing Unit
Please see Related Information
Explanation of Part Numbers
1
2
3
4
5
6
7
8
E
R
Z
V
S
3
4
C
Series
Shape
Product Code
Element Size
9
Type
10
Nominal
Varistor Voltage
11
12
Design No.
Dimensions in mm (not to scale)
(Unit : mm)
T
D
Part No.
Part Number
ERZVS34C201
ERZVS34C241
ERZVS34C271
ERZVS34C361
ERZVS34C431
ERZVS34C471
ERZVS34C511
ERZVS34C621
ERZVS34C751
ERZVS34C821
ERZVS34C951
H
ZNR
Date code
18
25
7
36
H max.
T max.
47
9.0
9.2
9.5
10.4
11.1
11.3
9.7
9.7
10.5
11.0
11.5
8
7
D max.
2-f3.4
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 42 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type SC)
Ratings and Characteristics
●
●
Operating Temperature Range : –40 to 85 °C
Storage Temperature Range : –40 to 125 °C
Maximum Allowable
Voltage
Varistor Voltage
Part No.
Maximum
Clamping
Voltage
Voltage
Protection
Level
V250 A
UP(V) (at In)
V1mA (V)
ACrms (V)
DC (V)
ERZVS34C201
200(185 to 225)
130
170
340
800
ERZVS34C241
240(216 to 264)
150
200
395
900
ERZVS34C271
270(247 to 303)
175
225
455
1000
ERZVS34C361
360(324 to 396)
230
300
595
1200
ERZVS34C431
430(387 to 473)
275
350
710
1500
ERZVS34C471
470(423 to 517)
300
385
775
1500
ERZVS34C511
510(459 to 561)
320
415
845
1500
ERZVS34C621
620(558 to 682)
385
505
1025
2000
ERZVS34C751
750(675 to 825)
460
615
1240
2500
ERZVS34C821
820(738 to 902)
510
670
1355
2500
ERZVS34C951
950(855 to 1045)
575
765
1570
3000
Nominal
Discharge
Current
Maximum
Discharge
Current
In(8/20 μs) Imax(8/20 μs)
20 kA
40 kA
Typical Characteristics
Voltage vs. Current (ERZVS34C201 to ERZVS34C951)
10000
Max. Leakage Current
Max. Clamping Voltage
ERZVS34C951
ERZVS34C821
ERZVS34C751
ERZVS34C621
ERZVS34C511
ERZVS34C471
ERZVS34C431
ERZVS34C361
ERZVS34C271
ERZVS34C241
ERZVS34C201
ERZVS34C951
ERZVS34C821
ERZVS34C751
ERZVS34C621
ERZVS34C511
ERZVS34C471
Voltage (V)
1000
100
ERZVS34C431
ERZVS34C361
ERZVS34C271
ERZVS34C241
ERZVS34C201
Test Current Waveform
10-6 to 10-3 A: Direct Current
10-1 to 105 A: 8/20 μs
10
1.E-06
1.E-05
1.E-04
1.E-03
1.E-02
1.E-01
1.E+00
1.E+01
1.E+02
1.E+03
1.E+04
1.E+05
Current (A)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 43 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type E)
“ZNR” Transient/Surge Absorbers
Type :
E
The ZNR Type E is capable of handling larger surge
energy than Type D in applications to protect electronic
equipment or semiconductor devices from switching and
induced lightning surges.
Features
● Very large surge withstanding capability with a compact size
● Direct mounting on boards like a power distribution board available
● Fast response to steep impulse voltage
● Low clamping voltage for better surge protection
● RoHS compliant
Recommended Applications
● Transistor, diode, IC, thyristor or triac semiconductor protection
● Surge protection in industrial power plant operations
● Relay or electromagnetic valve surge absorption
● Surge absorption applications in broadcasting, communications devices, traffic/railroad, agricultural facilities, waterworks
● Surge protection of automatic control devices for power distribution line
Note : Ask our factory for Product Specification before use.
Related Standards
UL/CSA recognized models are available on request]
● UL1449 File No. E321499 (Title: Surge Protective Devices)
● CSA C22.2 No.1 Class 2221 01 File No. LR-92226 (Title: Accessories and Parts for Electronic Products)
● Each type designation is not registered by Part Number.
If you have any question on type designation, please contact and ask our office.
■ As for Handling Precautions and Minimum Quantity / Packing Unit
Please see Related Information
Explanation of Part Numbers
1
2
3
4
E
R
Z
C
Product Code
5
6
Element Size
7
8
E
K
Type
Tolerance
9
10
11
Nominal
Varistor Voltage
12
Design No.
Dimensions in mm (not to scale)
ISO
M4
(Unit : mm)
4.3
24
W
H
L
ERZC20EK□□□□
48±1
42±1
39±1
ERZC32EK□□□□
60±1
55±1
51±1
H
5
L
W
12
Part No.
ZNR
Part No.
Date code
14
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 44 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type E)
20 Series
Ratings and Characteristics(ERZC20EK)
●
●
Operating Temperature Range : –40 to 85 °C
Storage Temperature Range : –40 to 110 °C
Part No.
Varistor
Voltage
Maximum
Allowable
Voltage
V1 mA (V)
ACrms (V) DC (V)
ERZC20EK201 200 (185 to 225)
130
170
ERZC20EK241 240 (216 to 264)
150
200
ERZC20EK271 270 (247 to 303)
175
225
ERZC20EK361 360 (324 to 396)
230
300
ERZC20EK391 390 (351 to 429)
250
320
275
350
ERZC20EK431 430 (387 to 473)
ERZC20EK471 470 (423 to 517)
300
385
ERZC20EK511 510 (459 to 561)
320
415
385
505
ERZC20EK621 620 (558 to 682)
ERZC20EK681 680 (612 to 748)
420
560
ERZC20EK751 750 (675 to 825)
460
615
ERZC20EK781 780 (702 to 858)
485
640
ERZC20EK821 820 (738 to 902)
510
670
ERZC20EK911 910 (819 to 1001)
550
745
ERZC20EK102 1000 (900 to 1100)
625
825
ERZC20EK112 1100 (990 to 1210)
680
895
Maximum
Clamping
Voltage
Rated
Power
Energy
(2 ms)
V100 A (V)
340
395
455
595
650
710
775
845
1025
1120
1240
1290
1355
1500
1650
1815
(W)
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
(J)
80
95
100
120
130
140
150
150
160
175
190
200
215
240
245
250
Maximum
Clamping
Voltage
Rated
Power
Energy
(2 ms)
V200 A (V)
340
395
455
595
650
710
775
845
1025
1120
1240
1290
1355
1500
1650
1815
(W)
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
(J)
210
240
255
325
350
400
405
405
415
450
500
520
545
600
620
640
Maximum
Typical
Peak Current
Capacitance
(8/20 μs)
(Reference)
1 time 2 times
(A)
(A)
at 1kHz (pF)
8000
5000
2300
8000
5000
1500
8000
5000
1400
8000
5000
1300
8000
5000
1200
8000
5000
1000
8000
5000
950
8000
5000
930
8000
5000
900
8000
5000
850
8000
5000
800
8000
5000
800
8000
5000
700
8000
5000
700
8000
5000
400
8000
5000
350
32 Series
Ratings and Characteristics(ERZC32EK)
●
●
Operating Temperature Range : –40 to 85 °C
Storage Temperature Range : –40 to 110 °C
Part No.
ERZC32EK201
ERZC32EK241
ERZC32EK271
ERZC32EK361
ERZC32EK391
ERZC32EK431
ERZC32EK471
ERZC32EK511
ERZC32EK621
ERZC32EK681
ERZC32EK751
ERZC32EK781
ERZC32EK821
ERZC32EK911
ERZC32EK102
ERZC32EK112
Varistor
Voltage
Maximum
Allowable
Voltage
V1 mA (V)
ACrms (V) DC (V)
200 (185 to 225)
130
170
240 (216 to 264)
150
200
270 (247 to 303)
175
225
360 (324 to 396)
230
300
390 (351 to 429)
250
320
430 (387 to 473)
275
350
470 (423 to 517)
300
385
510 (459 to 561)
320
415
620 (558 to 682)
385
505
680 (612 to 748)
420
560
750 (675 to 825)
460
615
780 (702 to 858)
485
640
820 (738 to 902)
510
670
910 (819 to 1001)
550
745
1000 (900 to 1100)
625
825
1100 (990 to 1210)
680
895
Maximum
Typical
Peak Current
Capacitance
(8/20 μs)
(Reference)
1 time 2 times
(A)
(A)
at 1kHz (pF)
25000 20000
5500
25000 20000
5000
25000 20000
4200
25000 20000
3500
25000 20000
3000
25000 20000
2500
25000 20000
2500
25000 20000
2400
25000 20000
2200
25000 20000
2100
25000 20000
2000
25000 20000
1900
25000 20000
1800
25000 20000
1700
25000 20000
1000
25000 20000
800
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 45 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type E)
Typical Characteristics(Type E)
Voltage vs. Current
(ERZC20EK201 to ERZC20EK511)
Max. Leakage Current
Max. Clamping Voltage
2000
1000
900
800
700
600
91
EK3
C20
431
ERZ
K
E
C20
71
ERZ
EK4
C20
ERZ
511
0EK
ZC2
ER
500
Voltage (V)
ERZC20EK511
ERZC20EK471
ERZC20EK431
ERZC20EK391
ERZC20EK361
ERZC20EK271
ERZC20EK241
400
300
ERZC20EK201
1
271
K36 20EK
20EERZC
ZC
ER
200
41
EK2
C20
01
ERZ 20EK2
ZC
ER
100
90
80
70
60
Test Current Waveform
10-6 to 10-3 A: Direct Current
10-1 to 104 A: 8/20 μs
50
40
30
10-6
(ERZC20EK621 to ERZC20EK112)
10-5
10-4
10-3
10-2
10-1
100
Current (A)
Max. Leakage Current
101
102
103
104
105
Max. Clamping Voltage
4000
ERZC20EK112
ERZC20EK102
ERZC20EK911
ERZC20EK821
ERZC20EK781
ERZC20EK751
ERZC20EK681
3000
Voltage (V)
2000
ERZC20EK621
1
K82
20E 81
ZC
7
K
ER
20E 51
ZC
K7
ER
20E
ZC
681
ER
EK
0
2
ZC
ER
112
K
20E 102
ZC
EK
ER
20
ZC
11
R
K9
E
20E
ZC
ER
1000
900
800
700
600
500
21
K6
400
20E
ZC
ER
300
Test Current Waveform
10-6 to 10-3 A: Direct Current
10-1 to 104 A: 8/20 μs
200
10-6
10-5
10-4
10-3
10-2
10-1
100
Current (A)
101
102
103
104
105
Impulse Derating Curve (Relation between impulse width and surge, repetitively)
20 Series
20 Series
20 Series
(ERZC20EK201 to ERZC20EK271)
(ERZC20EK361 to ERZC20EK681)
(ERZC20EK751 to ERZC20EK112)
2 times : 5 minutes
to 10 times : 2 minutes
6
to 10 times : 10 seconds
4000
2000
2000
1000
800
600
400
1000
800
600
400
200
100
80
60
40
20
1
Ti
m
2
e
Ti
m
10 es
T
10 2ime
s
Ti
m
10 3 es
Ti
10 4 mes
Tim
es
10 5
T
10 6 imes
Tim
es
200
100
80
60
40
20
10000
8000
6000
2 times : 5 minutes
to 10 times : 2 minutes
6
to 10 times : 10 seconds
4000
Impulse Current (A)
Impulse Current (A)
10000
8000
6000
1
2000
Ti
m
10
2
Ti
Ti
e
m
m
es
es
10 2
Ti
m
10 3 es
Ti
m
es
10 4
Tim
es
10 5
Ti
10 6 mes
Tim
es
1000
800
600
400
200
100
80
60
40
20
10
8
6
4
10
8
6
4
2
2
2
1
1
10
8
6
4
20
100
1000
Impulse Width (μs)
10000
20
2 times : 5 minutes
to 10 times : 2 minutes
6
to 10 times : 10 seconds
4000
Impulse Current (A)
10000
8000
6000
2
1
Ti
Ti
m
m
10
es
Ti
e
m
es
10 2
10 3 Tim
e
s
T
10 4 ime
Tim s
10 5
es
10 6
Tim
e
Tim s
es
1
100
1000
Impulse Width (μs)
10000
20
100
1000
Impulse Width (μs)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 46 –
10000
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type E)
Typical Characteristics(Type E)
Voltage vs. Current
(ERZC32EK201 to ERZC32EK511)
Max. Leakage Current
Max. Clamping Voltage
ERZC32EK511
ERZC32EK471
ERZC32EK431
ERZC32EK391
ERZC32EK361
2000
Voltage (V)
1000
900
800
700
600
ERZC32EK271
ERZC32EK241
ERZC32EK201
71
K4
32E 31
4
ZC
ER 32EK 1
39
ZC
ER 32EK
ZC
ER
11
K5
32E
ZC
ER
500
400
300
1
36
EK
32 71
ZC K2
ER C32E
Z
41
ER
K2
2E
C3 K201
Z
ER 32E
ZC
ER
200
100
90
80
70
60
50
Test Current Waveform
10-6 to 10-3 A: Direct Current
10-1 to 104 A: 8/20 μs
40
30
10-6
(ERZC32EK621 to ERZC32EK112)
10-5
10-4
10-3
10-2
10-1
100
Current (A)
Max. Leakage Current
4000
101
102
103
104
ERZC32EK112
ERZC32EK102
ERZC32EK911
ERZC32EK821
ERZC32EK781
ERZC32EK751
ERZC32EK681
ERZC32EK621
Max. Clamping Voltage
3000
Voltage (V)
2000
105
2
11
EK 2
32 10
ZC 2EK 11
R
E C3 K9
Z
E
ER C32
Z
ER
81
K7
2E 51
C3 EK7 1
Z
ER C32 K68
Z
E
ER C32
Z
21
ER
K8
2E
C3
Z
ER
1000
900
800
700
600
500
1
62
EK
400
32
C
RZ
E
300
Test Current Waveform
10-6 to 10-3 A: Direct Current
10-1 to 104 A: 8/20 μs
200
10-6
10-5
10-4
10-3
10-2
10-1
100
Current (A)
101
103
102
104
105
Impulse Derating Curve (Relation between impulse width and surge, repetitively)
32 Series
32 Series
(ERZC32EK201 to ERZC32EK271)
(ERZC32EK361 to ERZC32EK681)
20000
10000
8000
6000
e
10 s
2000
Ti
m
Tim
10 3
40
20
es
Tim
es
200
100
80
60
es
10 2
10 4
10 5
10 6
2
Ti
1
m
e
Tim
es
Tim
1000
800
600
400
200
100
80
60
es
40
es
20
es
4000
Ti
10
e
2000
m
1000
800
600
Ti
es
10 2
Tim
10 3
es
Tim
es
10 4
10 5
10 6
Tim
2
m
Tim
Tim
es
400
Tim
10
8
6
4
4
4
2
2
10000
20
m
Ti
es
m
es
10 4
10
8
6
100
1000
Impulse Width (μs)
1
10 2 0 T
i
10 3
10
8
6
20
es
100
80
60
20
es
m
200
40
es
Ti
e
Impulse Current (A)
m
10000
8000
6000
m
400
4000
Ti
m
2 times : 5 minutes
to 10 times : 2 minutes
6
to 10 times : 10 seconds
20000
Ti
1000
800
600
Ti
10000
8000
6000
(ERZC32EK751 to ERZC32EK112)
1
2000
1
2
20000
Impulse Current (A)
4000
2 times : 5 minutes
to 10 times : 2 minutes
6
to 10 times : 10 seconds
Impulse Current (A)
2 times : 5 minutes
to 10 times : 2 minutes
6
to 10 times : 10 seconds
32 Series
Tim
10 5
10 6
es
Tim
es
es
Tim
Tim
es
2
100
1000
Impulse Width (μs)
10000
20
100
1000
Impulse Width (μs)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 47 –
10000
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type E)
Performance Characteristicsv (Type E)
Electrical
Characteristics
Test Methods/Description
Specifications
Standard Test
Condition
Electrical characteristics shall be measured at following conditions
(Temperature: 5 to 35 °C,Humidity: Max. 85 %)
———
Varistor Voltage
The voltage between two terminals with the specified measuring
current CmA DC applied is called Vc or VCmA. The measurement shall
be made as fast as possible to avoid heat affection.
Maximum Allowable
Voltage
The maximum sinusoidal wave voltage (rms) or the maximum DC
voltage that can be applied continuously.
Clamping Voltage
The maximum voltage between two terminals with the specified
standard impulse current (8/20 μs).
Rated Power
The maximum power that can be applied within the specified To meet the
ambient temperature.
specified value.
Energy
The maximum energy within the varistor voltage change of ±10 %
when one impulse of 2 ms is applied.
Maximum
Peak Current
The maximum current within the varistor voltage change of ±10 %
2 times with the standard impulse current (8/20 μs) applied two times with
an interval of 5 minutes.
1 time
Temperature Coefficient
of Varistor Voltage
Impulse Life
The maximum current within the varistor voltage change of ±10 %
with the standard impulse current (8/20 μs) applied one time.
VC at 70 °C – VC at 20 °C
1
×
× 100 (%/°C)
50
VC at 20 °C
0 to –0.05 %/°C max.
The change of Vc shall be measured after the impulse listed
below is applied 10000 times continuously with the interval of ten
seconds at room temperature.
ΔV1 mA /V1 mA < ±10 %
20 Series
32 Series
200 A (8/20 μs)
300 A (8/20 μs)
Mechanical
Withstanding Voltage The commercial frequency voltage of AC 2.5 kV shall be applied No remarkable
between terminals and the bottom of the unit for one minute.
damage
(Body Insulation)
Robustness of
Terminations
(Tensile)
After gradually applying the load of 49 N (5 kgf) and keeping the
unit fixed for 10 seconds in an axial direction, the terminal shall
be visually examined for any damage.
Vibration
After repeadly applying a single harmonic vibration (amplitude: No remarkable
0.75 mm): double amplitude: 1.5 mm with 1 minute vibration damage
frequency cycles (10 Hz to 55 Hz to 10 Hz) to each of three
perpendicular directions for 2 hours. Thereafter, the damage of
the terminals is visually examined.
Environmental
Dry Heat/ High
Temperature
Storage
The specimen shall be subjected to 110±3 °C for 500 hours
in a thermostatic bath without load and then stored at room
temperature and humidity for one to two hours. Thereafter, the
change of Vc shall be measured.
Step
1
2
3
4
Temperature (°C)
–25 –30
Room Temp.
85+30
Room Temp.
Period (minutes)
30+30
3 max.
30+30
3 max.
ΔV1 mA /V1 mA < ±5 %
Temperature Cycle
The temperature cycle shown below shall be repeated five No remarkable
times and then stored at room temperature and humidity for damage
one to two hours. The change of Vc and mechanical damage ΔV1 mA 1 mA
/V
< ±5 %
shall be examined.
Dry Heat Load/
High Temperature
Load
After being continuously applied the Maximum Allowable Voltage
at 85±5 °C for 500 hours, the specimen shall be stored at room ΔV1 mA /V1 mA ±10 %
<
temperature and humidity for one to two hours. Thereafter, the
change of Vc shall be measured.
The specimen shall be subjected to 40±2 °C, 90 to 95 %RH for
Damp Heat/Humidity 1000 hours without load and then stored at room temperature ΔV1 mA /V1 mA ±5 %
<
(Steady State)
and humidity for one to two hours. Thereafter, the change of Vc
shall be measured.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 48 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type CK)
UL and CSA Recognized
“ZNR” Transient/Surge Absorbers with Tabs
Type : CK
ZNR Transient/Surge Absorber with Tabs is a heavy duty
type ZNR with very unique tab terminals which bring forth
a higher reliability.
These tabs are used as electrical connecting terminals
and also its mounting legs. This type of ZNR is meant for
applications in power supplies or transient voltage surge
suppressor units where large surge current or high surge
energy absorption is required.
Features
● UL
and CSA recognized components
energy handling capability (210 to 750 joules)
● Large withstanding peak current (25 to 30 kA, 8/20 µs, 1 time)
● Common terminals for electrical connection and mounting
● RoHS compliant
● High
Recommended Applications
● Power suppliers for OA, FA, telecommunication
● Power strips
● Transient voltage surge suppressor units
or industrial equipment
Note : Ask our factory for Product Specification before use.
■ As for Handling Precautions and Minimum Quantity / Packing Unit
Please see Related Information
Related Standards
Standard No.
UL1449
CSA C22.2 No.1 Class 2221 01
Title
Surge Protective Devices
Accessories and Parts for Electronic Products
(Varistor for Across-The-Line use as transient
protection on 120V ac nominal system)
File No.
E321499
LR-92226
● Each type designation is not registered by Part Number.
Please contact us for further questions regarding type designation.
Explanation of Part Numbers
1
2
3
4
E
R
Z
C
Product Code
Series
5
6
Element Size
7
8
C
K
Type
Tolerance
9
10
Nominal
Varistor Voltage
11
12
Design No.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 49 –
Mar. 2015
“ZNR” Transient/Surge Absorbers (Type CK)
Ratings and Characteristics
●
Operating Temperature Range : –40 to 85 °C ● Storage Temperature Range : –40 to 125 °C
Part No.
Type Designation
(UL/CSA Recognized)
ERZC32CK201W
ERZC32CK241W
ERZC32CK271W
ERZC32CK361W
ERZC32CK391W
ERZC32CK431W
ERZC32CK471W
ERZC32CK511W
ERZC32CK621W
ERZC32CK681W
ERZC32CK751W
ERZC32CK781W
ERZC32CK821W
ERZC32CK911W
ERZC32CK951W
ERZC40CK201W
ERZC40CK241W
ERZC40CK271W
ERZC40CK361W
ERZC40CK391W
ERZC40CK431W
ERZC40CK471W
ERZC40CK511W
ERZC40CK621W
ERZC40CK681W
ERZC40CK751W
ERZC40CK781W
ERZC40CK821W
ERZC40CK911W
ERZC40CK951W
32K201U
32K241U
32K271U
32K361U
32K391U
32K431U
32K471U
32K511U
32K621U
32K681U
32K751U
32K781U
32K821U
32K911U
32K951U
40K201U
40K241U
40K271U
40K361U
40K391U
40K431U
40K471U
40K511U
40K621U
40K681U
40K751U
40K781U
40K821U
40K911U
40K951U
Maximum
Allowable
Voltage
Varistor
Voltage
V1 mA (V)
ACrms (V)
200 (185 to 225)
130
240 (216 to 264)
150
270 (247 to 303)
175
360 (324 to 396)
230
390 (351 to 429)
250
430 (387 to 473)
275
470 (423 to 517)
300
510 (459 to 561)
320
620 (558 to 682)
385
680 (612 to 748)
420
750 (645 to 825)
460
780 (702 to 858)
485
820 (738 to 902)
510
910 (819 to 1001)
550
950 (855 to 1045)
575
200 (185 to 225)
130
240 (216 to 264)
150
270 (247 to 303)
175
360 (324 to 396)
230
390 (351 to 429)
250
430 (387 to 473)
275
470 (423 to 517)
300
510 (459 to 561)
320
620 (558 to 682)
385
680 (612 to 748)
420
750 (645 to 825)
460
780 (702 to 858)
485
820 (738 to 902)
510
910 (819 to 1001)
550
950 (855 to 1045)
575
DC (V)
170
200
225
300
320
350
385
415
505
560
615
640
670
745
765
170
200
225
300
320
350
385
415
505
560
615
640
670
745
765
Maximum
Clamping
Voltage
VXA (V)
340
395
455
595
650
710
775
845
1025
1120
1240
1290
1355
1500
1570
340
395
455
595
650
710
775
845
1025
1120
1240
1290
1355
1500
1570
Energy
(2 ms,
1 time)
Ip (A)
200
200
200
200
200
200
200
200
200
200
200
200
200
200
200
250
250
250
250
250
250
250
250
250
250
250
250
250
250
250
(J)
210
240
255
325
350
400
405
405
415
450
500
520
545
600
600
260
300
340
405
435
500
505
505
515
560
625
650
680
750
750
Maximum
Peak Current
(8/20 µs)
1 time 2 times
(kA)
(kA)
25
20
25
20
25
20
25
20
25
20
25
20
25
20
25
20
25
20
25
20
25
20
25
20
25
20
25
20
25
20
30
25
30
25
30
25
30
25
30
25
30
25
30
25
30
25
30
25
30
25
30
25
30
25
30
25
30
25
30
25
Dimensions in mm (not to scale)
Part No.
(UL/CSA Recognized)
ZNR
Abbreviation of Part No.
Date code
H
T
18
25
D
7
8
d
7
2-f 3.4
ERZC32CK201W
ERZC32CK241W
ERZC32CK271W
ERZC32CK361W
ERZC32CK391W
ERZC32CK431W
ERZC32CK471W
ERZC32CK511W
ERZC32CK621W
ERZC32CK681W
ERZC32CK751W
ERZC32CK781W
ERZC32CK821W
ERZC32CK911W
ERZC32CK951W
ERZC40CK201W
ERZC40CK241W
ERZC40CK271W
ERZC40CK361W
ERZC40CK391W
ERZC40CK431W
ERZC40CK471W
ERZC40CK511W
ERZC40CK621W
ERZC40CK681W
ERZC40CK751W
ERZC40CK781W
ERZC40CK821W
ERZC40CK911W
ERZC40CK951W
Type Designation D max. H max. T max.
32K201U
32K241U
32K271U
32K361U
32K391U
32K431U
32K471U
32K511U
32K621U
32K681U
32K751U
32K781U
32K821U
32K911U
32K951U
40K201U
40K241U
40K271U
40K361U
40K391U
40K431U
40K471U
40K511U
40K621U
40K681U
40K751U
40K781U
40K821U
40K911U
40K951U
36
46
44
55
7.5
7.5
8.5
9.0
9.0
9.0
9.7
9.7
9.7
9.7
10.5
10.5
10.5
11.5
11.5
7.5
7.5
8.5
9.0
9.0
9.0
9.7
9.7
9.7
9.7
10.5
10.5
10.5
11.5
11.5
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 50 –
d
5.7±1.0
5.4±1.0
5.2±1.0
4.6±1.0
4.4±1.0
4.1±1.0
3.9±1.0
4.5±1.0
3.9±1.0
3.6±1.0
3.3±1.0
3.1±1.0
2.9±1.0
2.5±1.0
2.3±1.0
5.7±1.0
5.4±1.0
5.2±1.0
4.6±1.0
4.4±1.0
4.1±1.0
3.9±1.0
4.5±1.0
3.9±1.0
3.6±1.0
3.3±1.0
3.1±1.0
2.9±1.0
2.5±1.0
2.3±1.0
Mar. 2015
“ZNR” Transient/Surge Absorbers (Type CK)
Typical Characteristics
Voltage vs. Current (ERZC32CK201W to ERZC32CK951W)
6000
Max. Leakage Current
Max. Clamping Voltage
ERZC32CK951W
ERZC32CK911W
ERZC32CK821W
ERZC32CK751W
ERZC32CK681W
ERZC32CK621W
ERZC32CK511W
ERZC32CK471W
ERZC32CK431W
ERZC32CK391W
ERZC32CK361W
4000
ERZC32CK951W
ERZC32CK911W
ERZC32CK821W
ERZC32CK751W
ERZC32CK681W
ERZC32CK621W
Voltage (V)
2000
ERZC32CK511W
ERZC32CK471W
ERZC32CK431W
ERZC32CK391W
ERZC32CK361W
1000
800
ERZC32CK271W
ERZC32CK241W
ERZC32CK201W
600
400
200
100
80
ERZC32CK271W
ERZC32CK241W
ERZC32CK201W
Test Current Waveform
10-6 to 10-3 A: Direct Current
10-1 to 104 A: 8/20 µs
60
10-6
10-5
10-4
10-3
10-2
10-1
100
101
102
103
104
105
Current (A)
(ERZC40CK201W to ERZC40CK951W)
6000
Max. Leakage Current
Max. Clamping Voltage
4000
2000
Voltage (V)
ERZC40CK951W
ERZC40CK911W
ERZC40CK821W
ERZC40CK751W
ERZC40CK681W
ERZC40CK621W
ERZC40CK951W
ERZC40CK911W
ERZC40CK821W
ERZC40CK751W
ERZC40CK681W
ERZC40CK621W
ERZC40CK511W
ERZC40CK471W
ERZC40CK431W
ERZC40CK391W
ERZC40CK361W
ERZC40CK511W
ERZC40CK471W
ERZC40CK431W
ERZC40CK391W
ERZC40CK361W
1000
800
ERZC40CK271W
ERZC40CK241W
ERZC40CK201W
600
400
200
100
80
ERZC40CK271W
ERZC40CK241W
ERZC40CK201W
Test Current Waveform
10-6 to 10-3 A: Direct Current
10-1 to 104 A: 8/20 µs
60
10-6
10-5
10-4
10-3
10-2
10-1
100
101
102
103
104
105
Current (A)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 51 –
Mar. 2015
“ZNR” Transient/Surge Absorbers (Type CK)
UL, CSA Recognized Components and The A.C. Rated Voltage
Part No.
(UL/CSA Recognized)
Maximum Allowable Voltage
Rated Voltage (Vrms)
ACrms (V)
DC (V)
UL1449
CSA (Class 2221 01)
ERZC32CK201W
130
170
118
118
ERZC32CK241W
150
200
136
136
ERZC32CK271W
175
225
159
159
ERZC32CK361W
230
300
209
209
ERZC32CK391W
250
320
227
227
ERZC32CK431W
275
350
250
250
ERZC32CK471W
300
385
272
272
ERZC32CK511W
320
415
291
291
ERZC32CK621W
385
505
350
350
ERZC32CK681W
420
560
381
381
ERZC32CK751W
460
615
418
418
ERZC32CK781W
485
640
440
440
ERZC32CK821W
510
670
463
463
ERZC32CK911W
550
745
500
500
ERZC32CK951W
575
765
522
522
ERZC40CK201W
130
170
118
118
ERZC40CK241W
150
200
136
136
ERZC40CK271W
175
225
159
159
ERZC40CK361W
230
300
209
209
ERZC40CK391W
250
320
227
227
ERZC40CK431W
275
350
250
250
ERZC40CK471W
300
385
272
272
ERZC40CK511W
320
415
291
291
ERZC40CK621W
385
505
350
350
ERZC40CK681W
420
560
381
381
ERZC40CK751W
460
615
418
418
ERZC40CK781W
485
640
440
440
ERZC40CK821W
510
670
463
463
ERZC40CK911W
550
745
500
500
ERZC40CK951W
575
765
522
522
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 52 –
Mar. 2015
“ZNR” Transient/Surge Absorbers (Type CK)
Performance Characteristics (Type CK)
Characteristics
Electrical
Standard Test Condition
Mechanical
Specifications
Electrical characteristics shall be measured at following conditions
(Temperature: 5 to 35 °C, Humidity: Max. 85 %).
———
Varistor Voltage
The voltage between two terminals with the specified measuring
current 1mA DC applied is called V1 or V1mA. The measurement
shall be made as fast as possible to avoid heat affection.
Maximum Allowable
Voltage
The maximum sinusoidal wave voltage (rms) or the maximum DC
voltage that can be applied continuously.
Clamping Voltage
The maximum voltage between two terminals with the specified
standard impulse current (8/20 µs).
Rated Power
The maximum power that can be applied within the specified
ambient temperature.
Energy
The maximum energy within the varistor voltage change of ±10 %
when one impulse of 2 ms is applied.
Maximum
Peak
Current
Environmental
Test Methods/Description
2 times
The maximum current within the varistor voltage change of
±10 % with the standard impulse current (8/20 µs) applied
two times with an interval of 5 minutes.
1 time
The maximum current within the varistor voltage change of ±10 %
with the standard impulse current (8/20 µs) applied one time.
To meet the
specified value.
Robustness of
Terminations
(Tensile)
After gradually applying the force of 19.6 N (2 kgf) and keeping
the unit fi xed for ten seconds, the terminal shall be visually
examined for any damage.
No remarkable
damage
Vibration
After repeatedly applying a single harmonic vibration (amplitude:
0.35 mm): double amplitude: 0.7 mm with 1 minute vibration
frequency cycles (10 Hz to 55 Hz to 10 Hz) to each of three
perpendicular directions for 2 hours. Thereafter, the unit shall be
visually examined.
No remarkable
damage
Solderability
After dipping the terminal to a depth of approximately 3 mm from
the body in a soldering bath of 230±5 °C for 5.0±0.5 seconds,
the terminal shall be visually examined.
Approximately 95 %
of the terminals shall
be covered with new
solder uniformly.
Resistance to
Soldering Heat
The terminal shall be dipped into a soldering bath having a
temperature of 350±10 °C to a point 4.0±0.8 mm from the body
of the unit and then be held there for 3.0±0.5 seconds. The
change of Vc and mechanical damage shall be examined.
ΔV1mA /V1mA < ± 5 %
No remarkable
damage
Dry Heat/ High
Temperature
Storage
The specimen shall be subjected to 125±2 °C for 500 hours in a
thermostatic bath without load and then stored at room temperature
and humidity for one to two hours. Thereafter, the change of Vc
shall be measured.
Damp Heat/
Humidity
(Steady State)
The specimen shall be subjected to 40±2 °C, 90 to 95 %RH for
1000 hours without load and then stored at room temperature
and humidity for one to two hours. Thereafter, the change of Vc
shall be measured.
The temperature cycle shown below shall be repeated five
times and then stored at room temperature and humidity for
one to two hours. The change of Vc and mechanical damage
shall be examined.
Temperature Cycle
Dry Heat Load/
High Temperature
Load
Step
1
2
3
4
Temperature (°C)
–25±3
Room Temp.
85±2
Room Temp.
Period (minutes)
30+30
3 max.
30+30
3 max.
After being continuously applied the Maximum Allowable Voltage
at 85±2 °C for 500 hours, the specimen shall be stored at room
temperature and humidity for one to two hours. Thereafter, the
change of Vc shall be measured.
ΔV1mA /V1mA < ± 5 %
ΔV1mA /V1mA < ± 5 %
No remarkable
damage
ΔV1mA /V1mA < ± 10 %
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 53 –
Mar. 2015
“ZNR” Transient/Surge Absorbors
“ZNR” Transient/Surge Absorbers, Type E
“ZNR” Transient/Surge Absorbers, Type CK, SC
Handling Precautions
1.
Precautions for Safety
The “ZNR” Transient/Surge Absorbers (hereafter referred to as “The ZNR Varistors”) may fail in a short-circuit mode or
in an open-circuit mode, when subjected to severe conditions of electrical, environmental and/or mechanical stresses
beyond their specified “Ratings” and specified “Conditions”, resulting in burnout, flaming or glowing in the worst case.
Following “ Precautions for Safety” and “Application Notes” shall be taken in your major consideration. If you have
a question about the “Precautions for Handling”, please contact our engineering section or factory.
1.1
Operating Conditions
1.1.1 The ZNR Varistors shall not be operated beyond the specified “Ratings” and “Environmental Conditions” in the
Catalog or the Specifications to prevent them from deterioration, breakdown, flaming or glowing.
● The ZNR Varistors shall not be operated exceeding the specified “Maximum Allowable Voltage” in the Catalog or
the Specification.
● The ZNR Varistors shall not be subjected to energy levels above their specified “Maximum Energy Ratings”
in the Catalog or the Specifications.
● In case of application to repeated surge/overvoltages, the ZNR Varistors shall not be subjected to surge
currents and energy levels above the specified maximum ratings in “Impulse Life Rating” in the Catalog or the
Specifications.
● When surge/overvoltages are intermittently applied to the ZNR Varistors with short durations, the devices
shall not be operated beyond the specified “Rated Power” in the Catalog or the Specifications.
● The ZNR Varistors shall not be operated beyond the specified “Operating Temperature Range” in the
Catalog or the Specifications.
● It is recommended that the ZNR Varistors, if not fused, shall be located away from other combustible
components.
1.1.2 The ZNR Varistor shall be operated correctly under following conditions to prevent Varistors from causing
mechanical damages and ruptures and to protect human from serious injuries;
● The ZNR Varistors shall not be operated exceeding the specified “Maximum Allowable Voltage Ratings” in
the Catalog.
● The ZNR Varistors shall not be operated beyond the “Maximum Peak Current Ratings” in the Catalog.
● Some safety countermeasure such as a protective case covering the Varistor is recommended, if necessary.
1.1.3 When the ZNR Varistors are applied to between a live part and a metallic chassis of equipment, following
safety countermeasures shall be taken to protect human from electric shock.
A) The metallic chassis shall be earthed to the ground.
B) The live part shall be equipped with a protective cover for preventing electric shock.
●
Recommendation fuse
Series
ERZC20EK□□□
ERZC32□K□□□
ERZVS34C□□□
ERZC40CK□□□
Current Fuse
10 A max.
20 A max.
20 A max.
20 A max.
(Line - Line)
Thermal. Fuse
100 to 120 °C 5 A 100 to 120 °C 10 A 100 to 120 °C 10 A 100 to 120 °C 10 A
(Line - Ground)
✽ Fuses shall use rated voltages appropriate for circuits.
✽ Finally, confirm that the secondary disaster does not occur even if the ZNR mounted on equipment breaks.
✽ Set a thermal fuse to get high thermal conductivity with ZNR.
2. Application Notes
2.1 Protective Devices for Varistors
2.1.1 The ZNR Varistors shall be protected from serious accidents due to unexpected physical phenomenor by
following safety countermeasures.
● In case of “Across-the Line Use”, the ZNR Varistors shall be protected by connecting a ground fault circuit
interrupter of fusing in series to the devices. (See Table 1)
● In case of “Line to Ground Use”, the short-circuit of the Varistor may not blow the current type fuse due
to the grounding resistance (between Line and Ground), which may cause flaming or burnout of the
devices in the worst case.
Following safety countermeasures (A or B) are recommended;
A) Connecting a “leakage current circuit breaker” in series to the Varistor to be protected. (See Table 1)
B) Use current type fuses and a thermal type fuse which are thermally coupled each others. (See Table 1)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 54 –
Mar. 2015
“ZNR” Transient/Surge Absorbors
2.2 Circuit Design 1 (Selection of Varistor Voltage Rating)
2.2.1 General Precautions
In selection of Varistor Voltage Ratings for line protection, following general precautions shall be taken in your
consideration;
(1) Maximum operating voltage shall be lower than the specified “Maximum Allowable Voltage” of the Varistor
applied.
(2) Some reasonable margin is required against fluctuation of the primary AC line Voltage where the Varistor is
applied for preventing mechanical and/or electrical failures of the device.
2.2.2 Across-the-Line Use(Line to Line surge protection)
● Select the ZNR Varistors recommended in Table 1.
Notes : Because the primary line voltage temporarily rises due to load unbalance of separately wired loads,
short circuit between the live line and the nutral line or LC resonance at switching for a capacitive load,
ZNR Varistors with ✽ are recommended for AC120 V or 240 V applications. (See Table 1)
2.2.3 Line to Ground Use(Line to Ground Surge protection)
● Select the ZNR Varistors recommended in Table 1.
Notes : When 500 V insulation resistance test of the circuits employing ZNR Varistor is conducted, the ZNR
Varistor shall be removed after getting approval from the customer, or the ZNR Varistor ✽ ✽ with the
Maximum Allowable Voltage exceeding to the test voltage shall be applied. (See Table 1)
When AC1000 V or 1200 V dielectric with standing test is conducted, ZNR Varistors shall be removed after
getting approval from the customer according to the relevant regulations, or ZNR Varistor ✽ ✽ ✽ with the
Maximum Allowable Voltage exceeding to the test voltage shall be applied. (See Table 1)
2.3 Circuit Design 2 (Fusing Varistors)
2.3.1 When a line current of equipment is higher than the recommended current rating of the fuse in Table 2, the
location of the fuse shall be arranged according to Fig 2.
Fuse
Protected
Equipment
ZNR
Varistor
Fig. 2 Alternative Fuse Location/placement
for Varistor Protection
2.4 Environmental Conditions
(1) The ZNR Varistors shall not be exposed
outdoors, because of being designed for indoors use.
(2) The ZNR Varistors shall not be operated beyond the Specified Operating Temperature Range and shall not
be exposed to direct sunlight and heating part of equipment.
(3) The ZNR Varistors shall not be operated under severe conditions of high temperatures and high humidities
such as places exposed to rain, wind and vapor.
(4) The ZNR Varistors shall be free from dust, salinity environment and atomospheres polluted by corrosive gas.
2.5 Precautions for Assemblies and Handlings
2.5.1 Solvent Cleaning
Organic solvents such as thinner and acetone etc. shall not be applied to the ZNR Varistors for preventing
deterioration of the external coating or molding resin.
2.5.2 Abnormal Mechanical Stresses
Abnormal mechanical stresses beyond the specified values such as strong falling shocks, ribrations and
bending/pulling forces, shall be kept minimum to preventmechanical/electrical failures of the devices.
2.5.3 Plastic Molding
If another plastic molding is applied to the ZNR Varistors on your option, the influences on reliability of the
ZNR Varistors shall be carefully investigated in your equipment.
2.6 Long Term Storage
(1) The ZNR Varistors shall not be stored under severe conditions of high temperatures and high humidities.
Store them indoors under 40 °C max. and 75 %RH max. Use them within one year, if stored beyond the
limit, check the solderbility before use.
(2) The ZNR Varistors shall not be stored under corrosive atomospheres such as hydrogen
sulfide, sulfurous acid, chlorine and ammonia.
(3) The ZNR Varistors shall not be exposed to direct sunlight and shall not be stored under dew
formation.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 55 –
Mar. 2015
“ZNR” Transient/Surge Absorbors
2.7 Regarding to “Safety Regulations of the Varistors”
In case of applications to UL and CSA standards, refer to “Application Notes for UL and CSA Recognized” ZNR
“Varistors”
2.8 Parallel Capacitances of the ZNR Varistors
The ZNR Varistors have relatively high capacitances specified in the individual specifications, special consideration
shall be taken into account in applications to high frequency transmission lines or circuits.
Table 1. Application Examples
Across-the-Line/Line to Line Protection
Line to Line and Line to Ground Protection
D.C.
A.C. Single phase
D.C.
A.C. Single phase
f
f
ZNR1
Protected
ZNR1
Protected
Equipment
Equipment
ZNR2
Connections
Thermal
coupling
Thermal. Fuse
f : fuse
A.C. 3 phase
f : fuse
A.C. 3 phase
f
f
ZNR3
ZNR3
Protected
f
Equipment
Protected
f
Equipment
ZNR4
Thermal
coupling
Thermal. Fuse
f : fuse
f : fuse
Across the Line Use/Line to Line
Selection Examples
ZNR
Nominal
Line Voltage
Part Number of ZNR
Type E, CK, SC
AC 120 V
AC 200 V
to AC 220 V
AC 240 V
ZNR
201
241
271
AC 100 V
ZNR1
ZNR3
Line to Ground Use
ERZC□□EK
ERZC□□CK
ERZVS34C
241
271 ✽
Nominal
Line Voltage
AC 100 V
to AC 220 V
ZNR2
ZNR4
471
AC 240 V
511
Part Number of ZNR
Type E, CK, SC
ERZC□□EK
ERZC□□CK
ERZVS34C
471
511
821 ✽✽
511
821 ✽✽
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03
– 56 –
Mar. 2015
“ZNR” Transient/Surge Absorbers (Type P)
“ZNR” Transient/Surge Absorbers
Type : P
ZNR Transient/Surge Absorber, Type P is a suitable
device to protect various electric equipment and
semiconductive devices from instantaneous over-voltages
like switching surges and induced lightnings. The Type P
is characterized by the unique construction of plug-in type
with a deterioration indicator.
● RoHS
compliant
Recommended Applications
Protection of semiconductor devices used for the electronic equipment includes:
● Broadcasting, communication equipment
● Traffic or railroad systems
● Automatic control devices for power distribution
● Waterworks
● Protection of motor coils, vacuum switches
■ As for Minimum Quantity / Packing Unit
Please see Related Information
Explanation of Part Numbers
1
2
3
4
E
R
Z
A
Product Code
5
Series
6
Element Size
7
8
P
K
Type
Tolerance
9
10
11
Nominal
Varistor Voltage
12
Design No.
Ratings and Characteristics
●
●
Operating Temperature Range : –25 to 70 °C
Storage Temperature Range : –25 to 70 °C
Part No.
Varistor
Voltage
Maximum
Allowable
Voltage
Maximum
Clamping
Voltage
Maximum
Peak Current
(8/20 µs, 2 times)
Energy
(2 ms, 1 time)
Typical
Capacitance
(Reference)
V1 mA (V)
ACrms (V)
DC (V)
V100 A (V)
(A)
(J)
at 1 kHz (pF)
ERZA20PK251
250±10 %
130
180
410
5000
90
1200
ERZA20PK501
500±10 %
260
360
825
5000
150
600
ERZA20PK102
1000±10 %
520
730
1650
5000
240
300
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03 Aug. 2015
– 57 –
“ZNR” Transient/Surge Absorbers (Type P)
Dimensions in mm (not to scale)
f 30
47
3
78
88
NP
f9
66
Mounting pitch
16
7
Mounting hole
f 4.5
M4
Life indicator
Typical Characteristics
Voltage vs. Current (ERA20PK251 to ERZA20PK102)
Max. Leakage Current
Max. Clamping Voltage
4000
3000
2000
Voltage (V)
PK102
1000
900
800
700
600
ERZA20
102
0PK
ZA2
ER
0PK501
ERZA2
500
400
501
0PK
ZA2
ER
200
251
0PK
ZA2
ER
1
0PK25
ERZA2
300
100
90
80
70
60
10-6
Test Current Waveform
10-6 to 10-3 A: Direct Current
10-1 to 104 A: 8/20 µs
10-5
10-4
10-3
10-2
10-1
1
10
102
103
104
105
Current (A)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
03 Aug. 2015
– 58 –
“ZNR” Transient/Surge Absorbers (Type J)
“ZNR” Transient/Surge Absorbers
Type : J
ZNR Transient/Surge Absorbers, Type J, are designed
especially for surge protection of industrial equipment
from high energy transient voltages which are generated
by switching of the inductive loads such as DC magnet
relays or transformers.
Features
● Low
clamping voltage
response to steep impulse voltage
● A bilateral and symmetrical V-I characteristic curve
● Higher energy handling capability (5000 to 44000 J)
● No follow-on current
● Wide product range
[Varistor Voltage] 500 V to 1300 V
● RoHS compliant
● Fast
Recommended Applications
● Suppression
of volume surges such as those produced by switching of DC lifting magnets and within
equipment in railroad vehicles
● Protection of a current transformer from overheating caused with secondary opening
● Protection of thyristors or diodes employed in power supply equipment
Note: Ask our factory for Product Specification before use.
■ As for Minimum Quantity / Packing Unit
Please see Related Information
Explanation of Part Numbers
1
2
3
4
E
R
Z
A
Product Code
Series
5
6
Element Size
7
8
J
K
Type
Tolerance
9
10
Nominal
Varistor Voltage
11
12
Design No.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 59 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type J)
Ratings and Characteristics
●
●
Operating Temperature Range : –25 to 70 °C
Storage Temperature Range : –25 to 110 °C
Part No.
Varistor
Voltage
Maximum
Allowable
Voltage
Maximum
Clamping
Voltage
V1 mA (V)
ACrms (V) DC (V)
V100 A (V)
Energy
Maximum
(Derated sinusoidal Peak Current
wave, 1 time)
(4/10 µs, 2 times)
(J)
ERZA80JK561
(kA)
5000
ERZA80JK561A
Typical
Capacitance
(Reference)
at 1 kHz (pF)
80
9800
10000
80 × 2
19600
15000
80 × 3
29400
ERZA80JK561C
20000
80 × 4
39200
ERZA80JK112
10000
80
4800
20000
80 × 2
9600
30000
80 × 3
14400
ERZA80JK112C
40000
80 × 4
19200
ERZA80JK122
11000
80
4400
22000
80 × 2
8800
33000
80 × 3
13200
44000
80 × 4
17600
560
(505 to 615)
ERZA80JK561B
ERZA80JK112A
1100
(980 to 1200)
ERZA80JK112B
ERZA80JK122A
ERZA80JK122B
250
1250
(1120 to 1380)
485
550
350
925
680
1800
775
2070
ERZA80JK122C
Typical Characteristics
Voltage vs. Current
Impulse Derating
106
5,000
Max.
Leakage Current
Max. Clamping Voltage
105
1.0
0 T
3,000
22
ERZA80JK1
104
12
ERZA80JK1
1,000
ER
700
500
K561
ERZA80J
2
J K12
ZA 8 0
Impulse Current (A)
Voltage (V)
2,000
K112
A80J
ERZ
K 56 1
A8 0 J
ERZ
300
200
Test current waveform
10–4 to 10–3 A: Direct current
10–1 to 104 A: 8/20 µs
100
10–6
10–5
10–4
10–3
10–2
10–1
100
Current (A)
101
102
103
104
105
103
102
(100 µs
to 1s)
1.0
0.5
0 T (10 to
1
40 µs)
10
2
10
10
4 1
0
10 3
5
10
1
0.1
0.01
10 µs 100 µs 1 ms
10 ms 100 ms
1s
Impulse Width
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 60 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type J)
Dimensions in mm (not to scale)
ERZA80JK□□
ERZA80JK□□□B
5.5 mm2 Terminal 7±1.0
96±0.2
Name plate
M6
5.5 mm2 Terminal 7±1.0
A
140
140
85
85
Hole
Bar
B
C
3 18
ZNR connection
40±0.4
62
ERZA80JK□□□A
96±0.2
Name plate
M6
A
5.5 mm2 Terminal
7±1.0
96±0.2
Name plate
7±1.0
7±1.0
7±1.0
140
85
85
140
Terminal
□110
Terminal
Terminal
□110
Terminal
Hole
Bar
Hole
B
C
8.5
ZNR connection
26
39
3 18
8.5
3 18
B
C
ZNR connection
40±0.4
62
ERZA80JK□□□C
5.5 mm2 Terminal
Bar
26
39
8.5
26
39
3 18
8.5
ZNR connection
A
Terminal
□110
Terminal
Hole
B
C
M6
Name plate
7±1.0
Terminal
□110
Terminal
Bar
96±0.2
40±0.4
62
A
B
C
ERZA80JK561
Part No.
14.0
125.0±4.0
161.0±4.0
ERZA80JK561A
14.0
138.0±8.0
174.0±8.0
ERZA80JK561B
40.0
151.0±8.0
187.0±8.0
ERZA80JK561C
40.0
164.0±8.0
200.0±8.0
ERZA80JK112
19.0
130.0±4.0
166.0±4.0
ERZA80JK112A
19.0
148.0±8.0
184.0±8.0
ERZA80JK112B
56.0
167.0±8.0
203.0±8.0
ERZA80JK112C
56.0
185.0±8.0
221.0±8.0
ERZA80JK122
21.0
132.0±4.0
168.0±4.0
ERZA80JK122A
21.0
152.0±8.0
188.0±8.0
ERZA80JK122B
61.0
172.0±8.0
208.0±8.0
ERZA80JK122C
61.0
192.0±8.0 228.0±8.0
26
39
A
7±1.0
M6
40±0.4
62
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 61 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type G)
“ZNR” Transient/Surge Absorbers
Type : G
High energy transient over voltages generated by switching on/off of a vacuum relay in power distribution line
can cause insulation breakdown of high voltage electronic equipment/devices and power cables etc...
The ZNR Type F and G are gapless type arresters using sintered bodies of zinc-oxide and are characterized
by the excellent characteristics of high energy handling capability, fast response time and low clamp ratio etc...
The ZNR and G have wide applications for
protection of high-voltage motors, tranformers, rectifiers and anticorrosion layers of powercables from high
energy transient overvoltages/surges.
● RoHS
compliant
Recommended Applications
● Protection of high voltage motors, transformers or rectifiers from switching surges
● Switching surge absorption in vacuum circuit interrupters
● Protection of anti-corrosion layer of under ground electric power cable from induced lightning or switching surges
Note : Ask our factory for Product Specification before use.
■ As for Minimum Quantity / Packing Unit
Please see Related Information
Ratings and Characteristics
●
●
Operating Temperature Range : –25 to 70 °C
Storage Temperature Range : –40 to 85 °C
Part No.
Characteristics
Connection
Varistor Voltage (V1 mA)
Maximum Clamping Voltage
@ 100 A (8/20 µs)
Maximum Peak Current
(8/20 µs, 2 times)
Maximum Allowable Voltage
Impulse Life
(2 ms, 104 times)
Maximum Allowable Energy
ERZA20GS852H
ERZA20GS173H
AC 3.3 kV
Line-Ground
AC 6.6 kV
Line-Ground
−0.50 kV
8.50+0.75
17.0−1.0 kV
12.75 kV
25.5 kV
5000 A
5000 A
AC 3.45 kV
AC 6.9 kV
20 A
20 A
1300 J
2600 J
+1.5
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 62 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type G)
Dimensions in mm (not to scale)
ERZA20GS173H
M10 Terminal
5.5 mm2 Terminal
M10 Terminal
5.5 mm2 Terminal
N.P
80
28
10
16
Mounting pitch
20.0±0.5
Mounting hole
2-f 8.5
22
200
22
28
160
105
Mounting hole
2-f 8.5
145
ERZA20GS852H
N.P
16
10
Mounting pitch
20.0±0.5
100
f 54
f 54
Ratings and Characteristics
●
●
Operating Temperature Range : –25 to 70 °C
Storage Temperature Range : –40 to 85 °C
Characteristics
ERZA48GK502
Across the
Anti-corrosion layers
Connection
Varistor Voltage
(V1 mA)
5.0 kV±0.5 kV
Clamping Voltage
(8/20 µs)
14 kV at V23 kA
Maximum Peak Current (8/20 µs)
21 kA 100 times
Dimensions in mm (not to scale)
ERZA48GK502
15
85
15
22
32
f 14
2
33
49
33
f 70
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02
– 63 –
Jan. 2015
Surge Absorber Units
“ZNR”
Surge Absorber Units
The Surge Absorber Unit contains Y, Δ or p connected ZNRs surge absorbers (and, if necessary, a circuit
breaker) in a box.
These Surge Absorber Units are designed for surge protection of industrial electric equipment where reliability
is essential.
● RoHS
compliant
Recommended Applications
Surge Protection of
● Railway/traffic signal control systems
● Distribution line control systems
● Broadcasting systems, communication systems
● Measuring instruments
● Controllers of low voltage distribution line
● Controllers of waterworks
Note : Ask our factory for Product Specification before use.
■ As for Minimum Quantity / Packing Unit
Please see Related Information
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
04
– 64 –
Jan. 2015
Surge Absorber Units
ZNR Surge Absorber Units
Circuits
Maximum
Application Peak
Current
Rated
Voltage
Single-phase two-wire system
Dim.
Part No.
Connection
ERZA1P251ASA
AC 100/
120 V
✽✽
ERZA1P251AR
5000 A
For
Power
Source
1
A
7
AC 400/
440 V
B
7
Part No.
Dim.
Connection
B
ERZA4P251ASA
2
ERZA2P501AS
B
2
7
AC 200/
ERZA1E471BS
220/240 V
AC 400/
440 V
B
7
ERZA3P501AS
ERZA3P102AS
ERZA2E271AS
ERZA2E471AS
ERZA2E471BS
3
B
3
4
B
8
ERZA3E471AS
B
9
B
9
B
8
ERZA3E471BS
ERZA3E102BS
7
4
ERZA4P102AS
4
B
10
B
ERZA4E471AS
10
B
ERZA4E102AS
10
B
ERZA4E271BS
8
B
B
ERZA4P501AS
ERZA4E271AS
8
ERZA3E102AS
ERZA2E271BS
B
B
7
B
B
ERZA1E102BS
B
1
AC 200/
ERZA1E471ASA
220/240 V
ERZA1E271BS
Dim.
Connection
6
A
ERZA1E102AS
ERZA2P251ASA
Part No.
C
B
ERZA1E271ASA
Connection
Three-phase four-wire system
5
AC 400/
440 V
ERZA1P102AS
Dim.
Part No.
Three-phase three-wire system
C
A
AC 100/
120 V
50000 A
1
AC 200/
ERZA1P501AS
220/240 V
AC 100/
120 V
20000 A
✽
ERZA1P251BC
A
Single-phase three-wire system
B
9
B
9
10
B
ERZA4E471BS
10
B
ERZA4E102BS
10
✽ p connection with inductors (specified current: 2 A)
✽✽ p connection with resistors (specified current: 2 A)
5000 A
Rated
Voltage
Part No.
DC 12 V
ERZA5F220AC
DC 24 V
ERZA5F390AC
DC 48 V
ERZA5F680AC
DC 80 V
ERZA5F101AC
Dimensions
Coil: 1 mH max.
Max. continuous current: 0.6 A
D
DC 100 V ERZA5F201ACA
For signal system
(Line to Line use only)
5000 A
DC 12 V
ERZA5F220BC
DC 24 V
ERZA5F390BC
DC 48 V
ERZA5F680BC
DC 80 V
ERZA5F101BC
DC 100 V ERZA5F201BC
Connection
Equipment
For signal system
(Line to Line and
Line to Ground use)
Maximum
Peak
Current
Type D (other : Type E)
Coil: 1 mH max.
Max. continuous current: 0.6 A
Equipment
Application
C
Type D (other : Type E)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
04
– 65 –
Jan. 2015
Surge Absorber Units
250
300
Dimensions in mm (not to scale)
300
120
120
400
(B)
(A)
3-f 6
160
135
Mounting pitch
160
Mounting pitch
135
3-f 6
Mounting pitch
85
83
83
Mounting pitch
85
105
105
(C)
(D)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
04
– 66 –
Jan. 2015
Surge Absorber Units
Circuit Diagrams
L1 N L2
L1 L2
L1
N
L2
L1
L2
E
Equipment
E
Equipment
(2)
(1)
R S T N
R
S
T
N
E
R S T
R
S
T
E
Equipment
Equipment
(3)
Resistance : 0.3 Ω
Inductance : 1 mH max.
L1
L1
Equipment
L2
(4)
Equipment
L2
Max. continuous current : 2 A
Max. continuous current : 2 A
(5)
(6)
L1 L2
L1 N L2
L1
L2
E
Equipment
Equipment
(7)
L1
N
L2
E
(8)
R S T N
R S
T
Equipment
R
S
T
N
E
R
S
T
E
Equipment
(9)
(10)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
04
– 67 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type E/J)
“ZNR” Transient/Surge Absorbers,
For Thyristor Protection
Type :
Type :
E
J
Type E
Type J
“ZNR” Transient/Surge Absorber for thyristors is especially designed to protect SCR power controllers and
SCR power sources from high energy transient over voltages.
The ZNR is smaller in size and excellent in the clamping voltage characteristics as compared with a
conventional selenium surge absorber.
Type E is for relatively low handling capacity of trans-former and Type J is for heavy duty use.
● RoHS
compliant
Recommended Applications
protection of SCR ✽ power controllers
protection of SCR ✽ power sources
✽ SCR = Silicone Controlled Rectifiers
● Surge
● Surge
Note : Ask our factory for Product Specification before use.
■ As for Minimum Quantity / Packing Unit
Please see Related Information
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
04
– 68 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type E/J)
“ZNR” Transient/Surge Absorbers, Type E
Ratings and Characteristics (Type E)
●
●
Operating Temperature Range : –40 to 85 °C
Storage Temperature Range : –40 to 110 °C
Maximum
Allowable
Voltage
Varistor
Voltage
Part No.
Maximum
Clamping
Voltage
Impulse Life
4
(2 ms, 10 times)
Commutation
Surge Ratio
(A)
——
V1 mA (V)
ACrms (V)
DC (V)
VIp (V)
ERZC20EK511P
498 to 542
242
342
760
1.45
ERZC20EK541P
523 to 560
264
373
785
1.40
ERZC20EK681P
630 to 678
330
467
950
ERZC20EK821P
788 to 848
412
583
1185
Ip (A)
1.35
10
10
1.35
ERZC20EK911P
840 to 904
440
622
1265
1.35
ERZC20EK102P
945 to 1017
495
700
1425
1.35
ERZC20EK112P
1051 to 1181
550
775
1655
1.35
ERZC32EK511P
498 to 542
242
342
760
1.45
ERZC32EK541P
523 to 560
264
373
785
1.40
ERZC32EK681P
630 to 678
330
467
950
ERZC32EK821P
788 to 848
412
583
1185
1.35
20
20
1.35
ERZC32EK911P
840 to 904
440
622
1265
1.35
ERZC32EK102P
945 to 1017
495
700
1425
1.35
ERZC32EK112P
1051 to 1181
550
775
1655
1.35
Dimensions in mm (not to scale) (Type E)
ISO
M4
4.3
24
L
W
H
5
12
Dot
ZNR
Part No.
Date code
14
(Unit : mm)
Part No.
W
H
L
ERZC20EK□□□P
48±1
42±1
39±1
ERZC32EK□□□P
60±1
55±1
51±1
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
04
– 69 –
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type E/J)
“ZNR” Transient/Surge Absorbers, Type J
Dimensions in mm (not to scale)
Style (1)
Style (2)
104±1
104±1
60
A
6.5
22
14 3
B
22
6.5
B
C
N.P.
14 3
A
122±1
60
C
N.P.
141±1
M4
M4
20
46
20
46
(Unit : mm)
(Unit : mm)
Ratings and Characteristics (Type J)
●
●
Operating Temperature Range : –40 to 70 °C
Storage Temperature Range : –40 to 110 °C
Part No.
Connection
Maximum
Allowable
Voltage
ACrms
(V)
DC
(V)
Maximum
Clamping
Voltage
VIp
(V)
Ip
(A)
Impulse Life
(2 ms,
4
10 times) Commutation
Surge Ratio
(A)
Dimensions in mm
Style
A
B
ERZU11JP511
40
40
88
108
EZRU12JP511
70
70
104
124
ERZU13JP511
95
95
121
141
ERZU14JP511
125
125
138
158
ERZU15JP511
150
150
155
175
ERZU16JP511
180
180
172
192
ERZU17JP511
210
210
189
209
ERZU11JP511B
40
40
120
140
ERZU12JP511B
70
70
169
189
95
95
219
239
ERZU13JP511B
Single
Delta
242
242
342
—
760
760
ERZU14JP511B
1.45
1.45
(1)
(2)
125
125
268
288
ERZU11JP541
40
40
88
108
ERZU12JP541
70
70
105
125
ERZU13JP541
95
95
122
142
ERZU14JP541
125
125
139
159
ERZU15JP541
150
150
156
176
ERZU16JP541
180
180
172
192
ERZU17JP541
210
210
189
209
ERZU11JP541B
40
40
121
141
ERZU12JP541B
70
70
171
191
95
95
221
241
125
125
270
290
ERZU13JP541B
ERZU14JP541B
Single
Delta
264
264
373
—
785
785
1.40
1.40
(1)
(2)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
04
– 70 –
C
20
20
20
20
Jan. 2015
“ZNR” Transient/Surge Absorbers (Type E/J)
Part No.
Connection
Maximum
Allowable
Voltage
ACrms
(V)
ERZU21JP102
ERZU22JP102
ERZU23JP102
ERZU24JP102
ERZU25JP102
ERZU26JP102
ERZU21JP102B
ERZU22JP102B
ERZU21JP112
ERZU22JP112
ERZU23JP112
ERZU24JP112
ERZU25JP112
ERZU26JP112
ERZU21JP112B
ERZU22JP112B
ERZU21JP132F
ERZU22JP132F
ERZU23JP132F
ERZU24JP132F
ERZU25JP132F
ERZU26JP132F
ERZU21JP132H
ERZU22JP132H
ERZU21JP162F
ERZU22JP162F
ERZU23JP162F
ERZU24JP162F
ERZU25JP162F
ERZU26JP162F
ERZU21JP162H
ERZU22JP162H
ERZU21JP192F
ERZU22JP192F
ERZU23JP192F
ERZU24JP192F
ERZU25JP192F
ERZU26JP192F
ERZU21JP192H
ERZU22JP192H
ERZU21JP222F
ERZU22JP222F
ERZU23JP222F
ERZU24JP222F
ERZU21JP222H
ERZU31JP252F
ERZU32JP252F
ERZU33JP252F
ERZU34JP252F
ERZU31JP252H
DC
(V)
Maximum
Clamping
Voltage
VIp
(V)
Single
484
684
1520
Delta
484
—
1520
Single
528
746
1570
Delta
528
—
1570
Single
660
933
1900
Delta
660
—
1900
Single
825
1167
2375
Delta
825
—
2375
Single
990
1400
2850
Delta
990
—
2850
Single
1100
1550
3325
Delta
1100
—
3325
Single
1320
1867
3800
Delta
1320
—
3800
Ip
(A)
Impulse Life
(2 ms,
4
10 times) Commutation
Surge Ratio
(A)
40
70
95
125
150
180
40
70
40
70
95
125
150
180
40
70
40
70
95
125
150
180
40
70
40
70
95
125
150
180
40
70
40
70
95
125
150
180
40
70
40
70
95
125
40
40
70
95
125
40
40
70
95
125
150
180
40
70
40
70
95
125
150
180
40
70
40
70
95
125
150
180
40
70
40
70
95
125
150
180
40
70
40
70
95
125
150
180
40
70
40
70
95
125
40
40
70
95
125
40
Dimensions in mm
Style
1.45
(1)
1.45
(2)
1.40
(1)
1.40
(2)
1.35
(1)
1.35
(2)
1.35
(1)
1.35
(2)
1.35
(1)
1.35
(2)
1.35
(1)
1.35
(2)
1.35
(1)
1.35
(2)
A
B
102
135
168
199
230
261
166
261
103
136
169
200
232
264
168
264
149
182
214
246
278
310
213
309
150
184
218
252
286
320
217
317
152
187
222
257
292
327
222
327
154
190
227
264
227
167
218
269
320
266
122
155
188
219
250
281
186
281
123
156
189
220
252
284
188
284
169
202
234
266
298
330
233
329
170
204
238
272
306
340
237
337
172
207
242
277
312
347
242
347
174
210
247
284
247
187
238
289
340
288
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
04
– 71 –
C
20
20
20
20
40
40
40
40
40
40
40
40
40
40
Jan. 2015
“ZNR” Transient/Surge Absorbers
Minimum Quantity / Packing Unit
✽ Please contact local sales office about packing specifications.
Product
Series/Type
Straight Leads
<Bulk>
Type D
Leads Cut Type
<Bulk>
“ZNR”
Transient/
Surge
Absorbers
Straight Leads and Taped
Crimped Lead and Taped
Type SMD
Bulk
Embossed
Embossed
Type E
UL and CSA Recognized
Type CK
UL and CSA Recognized
Type SC
Type P
Type J
Type G
Surge Absorber Units
For Tyristor Protection Type E
Type J
Part Number
ERZV05D180 to 271
ERZV05D331 to 471
ERZV07D180 to 470
ERZV07D560 to 680
ERZV07D820 to 121
ERZV07D151 to 271
ERZV07D331 to 511
ERZV09D180 to 121
ERZV09D151 to 271
ERZV09D331 to 511
ERZV10D180 to 121
ERZV10D151 to 271
ERZV10D331 to 621
ERZV10D681 to 821
ERZV10D911 to 112
ERZV10D182CS
ERZV14D180 to 121
ERZV14D151 to 271
ERZV14D331 to 621
ERZV14D681 to 821
ERZV14D911 to 112
ERZV14D182CS
ERZV20D180 to 271
ERZV20D331 to 511
ERZV20D561 to 821
ERZV20D911 to 112
ERZV20D182
ERZV05D(V)180CS to 271CS
ERZV05D(V)331CS to 471CS
ERZV07D(V)180CS to 271CS
ERZV07D(V)331CS to 511CS
ERZV09D(V)180CS to 121CS
ERZV09D(V)151CS to 511CS
ERZV10D(V)180CS to 121CS
ERZV10D(V)151CS to 621CS
ERZV10D(V)681CS to 751CS
ERZV10D(V)821C1 to 112C1
ERZV14D(V)180CS to 271CS
ERZV14D(V)331CS to 821C1
ERZV14D(V)911C1 to 112C1
ERZVA5D180 to 271
ERZVA5D331 to 471
ERZVA7D180 to 271
ERZVA7D331 to 511
ERZVA9D180 to 271
ERZVA9D331 to 511
ERZVGAD180 to 621
ERZVGAD681 to 112
ERZVGED180 to 511
ERZVGED561 to 112
ERZVA5V180 to 271
ERZVA5V331 to 471
ERZVA7V180 to 271
ERZVA7V331 to 511
ERZVA9V180 to 271
ERZVA9V331 to 511
ERZVEAV180 to 621
ERZVEAV681 to 112
ERZVEEV180 to 511
ERZVEEV561 to 112
ERZVF1
ERZVF2
ERZHF2
ERZC□□EK□□□
ERZC□□EK□□□Y
ERZC□□CK□□□W
ERZVS34C□□□
ERZA20PK□□□
ERZA80JK□□□
ERZA□□GK□□□
ERZA□□□□□□□
ERZC□□EK□□□P
ERZU□□JP□□□
Minimum Quantity Packing Quantity
/ Packing Unit
in Carton
100
100
100
100
100
100
100
100
100
100
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
25
100
100
100
100
100
100
100
100
100
100
100
100
100
1000
1000
1000
1000
1000
1000
1000
500
500
250
1000
1000
1000
1000
1000
1000
1000
500
500
250
200
2000
1000
5
5
10
10
1
1
1
1
5
1
10000
10000
10000
10000
10000
10000
5000
5000
4000
4000
5000
4000
4000
2000
2000
1000
3000
3000
2000
2000
1000
1000
2000
1000
1000
1000
500
10000
10000
10000
10000
5000
4000
5000
4000
2000
2000
3000
2000
1000
10000
10000
10000
10000
10000
10000
5000
2500
2500
1250
10000
10000
10000
10000
10000
10000
5000
2500
2500
1250
2000
6000
4000
100
100
200
200
40
—
3
—
100
—
Carton (about)
L×W×H (mm)
210×340×160
210×340×180
210×340×160
210×340×180
210×340×160
210×340×180
210×340×110
210×340×160
210×340×130
210×340×160
210×340×160
210×340×130
210×340×160
210×340× 80
210×340×110
210×340× 80
210×340×110
210×340×130
210×340×110
210×340×110
210×340× 80
210×340× 80
210×340×160
210×340× 80
210×340×110
210×340×110
210×340× 80
210×340× 80
210×340×110
210×340× 80
210×340×110
210×340×110
210×340× 80
210×340×110
210×340× 80
210×340× 80
210×340× 80
210×340× 80
210×340× 80
210×340× 80
360×320×260
400×360×260
400×360×260
470×360×260
400×360×260
470×360×260
360×310×320
360×270×320
360×310×320
360×270×320
360×320×260
400×360×260
400×360×260
470×360×260
400×360×300
470×360×300
360×310×320
360×270×320
360×310×320
360×270×320
210×340× 80
340×345× 75
340×345×105
380×405× 85
380×405× 85
320×430× 65
320×430× 65
380×405× 75
180×260×190
220×280×195
275×345×145
300×355× 65
160×420×185
Part No., quantity and country of origin are designated on outer packages in English.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
04
– 72 –
Jan. 2015
CAUTION AND WARNING
1. The electronic components contained in this catalog are designed and produced for use in home electric appliances, office equipment, information equipment,
communications equipment, and other general purpose electronic devices.
Before use of any of these components for equipment that requires a high degree of safety, such as medical instruments, aerospace equipment, disaster-prevention
equipment, security equipment, vehicles (automobile, train, vessel),
please be sure to contact our sales representative.
2. When applying one of these components for equipment requiring a high degree of safety, no matter what sort of application it might be, be sure to install a protective
circuit or redundancy arrangement to enhance the safety of your equipment. In addition, please carry out the safety test on your own responsibility.
3. When using our products, no matter what sort of equipment they might be used for, be sure to make a written agreement on the specifications with us in advance.
4. Technical information contained in this catalog is intended to convey examples of typical performances and/or applications and is not intended to make any
warranty with respect to the intellectual property rights or any other related rights of our company or any third parties nor grant any license under such rights.
5. In order to export products in this catalog, the exporter may be subject to the export license requirement under the Foreign Exchange and Foreign Trade Law of
Japan.
6. No ozone-depleting substances (ODSs) under the Montreal Protocol are used in the manufacturing processes of Automotive & Industrial Systems Company, Panasonic
Corporation.
● Please contact
● Factory
Device Solutions Business Division
Automotive & Industrial Systems Company
Panasonic Corporation
1006 Kadoma, Kadoma City, Osaka 571-8506,
JAPAN
The information in this catalog is valid as of August 2015.