NOISE SUPPRESSING COMPONENTS · 2014-09-19 · Okaya characterizes all capacitors using the...

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Customer’s Trust.

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HIGH PULSE CAPACITORSHIGH PULSE CAPACITOR TECHNICAL DATA --------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -38

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -39-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -40~42--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -43~44--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -45

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -46~47--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -48

AFV SERIESC7NP SERIESHCP-S SERIESC1NP SERIESHHC SERIESMEMO

37~48

SPARK QUENCHING R-C NETWORKSSPARK QUENCHER TECHNICAL DATA --------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -50~59

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -60-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -61-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -62-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -63

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -64-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -65

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -66

AU, TA SERIESRE SERIESXE SERIESXEB SERIESCRE, 3CRE, 6CRE SERIESCRH, 3CRH SERIESMEMO

49~66

NOISE SUPPRESSION CAPACITORS 3~26NOISE SUPPRESSION CAPACITOR TECHNICAL DATA --------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -4~11

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -12-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -13

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -14-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -15-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -16-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -17

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -18-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -19-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -20-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -21

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -22-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -23

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -24~25--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -26

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -27-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -28

LE SERIESLE-MX SERIESLE-K, LE-K-M SERIESRE-L SERIESPA-L SERIESVEA SERIESXH SERIESREB SERIESXEB SERIESXE-Z SERIESYF SERIESYE SERIESXYE SERIES3XYG SERIESEPC SERIESMEMO

NEW

PFC CAPACITORS 29~36PFC CAPACITOR TECHNICAL DATA --------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -30

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -31-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -32-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -33-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -34~35

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -36

AFX SERIESAFS SERIESAFC SERIESAFP SERIESMEMO

NEW

AC POWER LINE NOISE FILTERS 67~102NOISE FILTER TECHNICAL DATA --------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -68~71

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -72~73--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -74~75

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -76~77--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -78

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -79-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -80

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -81-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -82

SUP -EX SERIESSUP -EY SERIESSUP-ET SERIESSUP-EH SERIESSUP-EH-EP SERIESSUP-GH-EPR SERIESSUP-PH-EPR SERIESSUP-PH-E1PR/ -R SERIES

2

AC POWER LINE NOISE FILTERS 67~102- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -83-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -84-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -85-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -86-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -87-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -88

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -89-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -90

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -91~92--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -93-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - -94~95--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -96

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -97-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -98

-------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -99-------- - - - - - - - - - - - - - - - - -100

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -101--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -102

SUP-EP SERIESSUP-EQ SERIESSUP-EK SERIESSUP-EL SERIESSUP-EV SERIESSUP-EW SERIESSUP-JH SERIESSUP-MH-ER-4 SERIES3SUP -BE 6~30 SERIES3SUP -BE 50, 60 SERIES3SUP -BH 6~30 SERIES3SUP -BH 50, 60 SERIES3SUP -AE SERIES3SUP -AH SERIES3SUP-HL-ER-6 SERIESSUP-BR-E SERIES, SUP-CG-E SERIESRZR SERIESSUP-KH-ERB SERIES

TRANSIENT VOLTAGE SURGE ABSORBERS 103~165SURGE PROTECTIVE DEVICE TECHNICAL DATA --------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -104~105

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -106~107--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -108~109

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -110~111--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -112~113

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -114~115----------------116~117

-------118~119--------- - - - - -120

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - -121--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -122

--------- - - - -123--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -124

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -125--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -126--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -127--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -128--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -129--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -130~131--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -132~133

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -134~135--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -136~137--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -138~139

--------- - - - - - - - - - - - - - - - - - - - - - - -140~141--------- - - - - - - - - - - - - - - - - -142~143

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -144~145--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -146~147

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -148~151--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -152

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -153~154--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -155

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -156--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -157

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - -158--------- - - - - - - - - - - - - - - - - - - - - - - - - - -159

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -160--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -161--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -162

--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -163--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -164--------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -165

LV SERIESRSPD SERIESSV SERIESLVF SERIESR·C·M SERIESR·A·V-BWZ-4 / -5, R·A·V-BXZ-4 / -5 SERIESR·A·V-BWZ-2A, R·A·V-BXZ-2A, R·A·V-BYZ-2SERIESR·A·M-BWZ(LED), BXZ(LED), BUZ-N(LED) SERIESR·A·M-152BQZ(LED) SERIESR·A·M-LAS SERIESR·A·V-LDEZ, R·A·V-BWZ-3C, R·A·V-BXZ-3C SERIESCTSPD SERIESR28-S SERIESR28 SERIESR26 SERIESR38 SERIESR36 SERIESR5K SERIESR5K3 SERIESRHCA5039 SERIESRHCA4532 SERIESRHCA3216 SERIESRA-MX-V7-Y/ -Y(5) SERIESRA-MX-V7-Y/ -Y(5)(SQJ) SERIESRA-V7 SERIESRA-C6 SERIESR·A·V-L-A SERIESRSSAZP, CP, U, B SERIESSA SERIESRSP-DC SERIESRSP-LAN-B SERIESRSP-232-9, RSP-Tel SERIESRSP-485(RS-485-422) SERIESRSD5-485 SERIESR·A·V-LD SERIESR·S·M-GL SERIESR·S·M-GL-PT SERIESRLAN SERIESRLAN2 SERIES

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NOISE SUPPRESSIONCAPACITORS

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SAFETY STANDARDS

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NOISE SUPPRESSION CAPACITORS

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Subclass Peak Voltage ApplicationIEC 664Category

Okaya characterizes all capacitors using the standard test procedures outlined in JIS C 5102, 5150, 5151.These test parameters are confirmed by a Q.A. audit and are published as guaranteed specifications shown as "dielectric withstanding voltage".

Okaya performs 100% screen testing of all capacitors during the production process. These tests are subject to changes due to improvements in test equipment and procedures and are published for reference only.

Class X: Across-the-line

Class Y: Antenna couplingClass Y: Line bypass

Class X: Across-the-line

Capacitor are classified by the IEC into two categories (these designations are used by most European countries).Class Y: Capacitors used in applications where

damage to the capacitor may involve danger of electrical shock.

Class X: Capacitors used in applications where damage to the capacitor will not lead to the danger of electrical shock.

These X and Y Classifications are further divided into subcategories as shown in the tables.(Ref. IEC60384-14, 2nd edition, 1993)

In addition, in North America, Designations of Across-the-Line capacitors, Antenna couplings, and Line bypass capacitors refer to the following applications:

OUTLINE OF CAPACITOR CLASS RATINGS

X1 III Hi-pulse>2,500V<4,000V

X2 <2,500V

<1,200V

II

I

General

GeneralX3

Subclass VoltageRange

PeakVoltage

TypeInsulation

Y2 5,000V>150V<300V

Y1 <500V

Basic

Y3 None>150V<150VBasic

Double 8,000V

Y4 <250VBasic 2,500V


6

WINDING MELTED

Important point: This gentle edge performs afunction of dispersing the level of dv/dt, thus improving voltagecharacteristics and Corona characteristics.

Special metallizing process

Okaya's proprietary processGeneral method

Sharp edge Gentle edge

The design and manufacture of OKAYA AC capacitors incorporates many features which make them superior in noise suppression applications.

Both single and double wound construction of the metallized polyester and polypropylene films insure long term reliability.

Many series are oil impregnated to prevent annoying buzz and hum. This also provides additional protection against "Corona" by eliminating air gaps.

The electrical connection to the metallized film is made via a special multi-element solder which provides excellent surge current withstand capability and a decrease in Dissipation Factor.

The special metallizing method is effective in lowering the level of dv/dt at the boundary between the margin section and the active section, thus improving voltage characteristics and Corona characteristics.

OKAYA's proprietary potting process prevents the outer case of the capacitor from exploding when exposed to "killer surges". Some competitive devices are designated "suitable for use with special enclosure only" by certain safety approval agencies.

OKAYA's AC capacitors employ a case made of FR-PBT (Polybutylene Terephthalate) which is impervious to most cleaning processes. The case and potting material are both rated UL94 Flame Class V-0.

OKAYA has one of the highest dv/dt ratings of any capacitor in its class. In many cases 1.5 to 4 times higher than competitive devices.

The capacitors in the general purpose series have been improved specially in AC voltage withstand characteristics by the Okaya's proprietary process for metallizing dielectric, resulting in smaller size and enhanced safety.

FEATURES

PartNo.

RE103RE153RE223RE333RE473RE683RE104RE154RE224RE334RE474RE684RE105RE155RE225

400400400400200200200200200100100100100100100

dv/dt at 390Vdc (V/� sec)

PartNo.

LE103LE153LE223LE333LE473LE683LE104LE154LE224LE334LE474LE684LE105LE155LE225LE335

40040040040015015015015015015010010010010010070


PartNo.

LE104-MXLE154-MXLE224-MXLE334-MXLE474-MXLE684-MXLE105-MXLE155-MXLE225-MX

1501501501501001001007070


PartNo.

LE155-KLE225-KLE335-KLE475-KLE685-KLE106-K

1001001001007070


PartNo.

LE155-K-MLE225-K-MLE335-K-MLE475-K-MLE685-K-MLE106-K-M

10010070707070



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OKAYA Spark Quenchers have the following characteristics which make it possible to easily use them in a wide range of applications.1) The Overload capacity is large.2) They are not polarized; thus can be used in both

AC an DC circuits.3) They have a favorable effect on surge voltage and

accompanying oscillations caused by contact chatter.

4) They are effective against spurious potentials having magnitudes below circuit voltage.

5) They offer a high degree of protection for semiconductor devices, and as thyristors and SCRs.

6) They improve the dv/dt ratio.

Capacitors are classified by the IEC into the following categories (these designations are used by most European countries) :Class Y: Capacitors used in applications where

damage to the capacitor may involve the danger of electrical shock.


European Safety Agencies subdivide Class X into X1, X2 and X3 classifications. The test criteria for these subclasses is shown in the table.


RC COMBINATION TABLE

X1X2X3

>2,500V 4,000V2,500V1,200V

4,000V2,500VNone

Peak Voltageon Service

Peak Voltage Test1.2/50 sec. Subclass

�F

0.01XE

XEB

XEXEBAU

XEXEBAU

XEXEB

XEXEB

XEXEB

XEXEB

XEXEB

XEXEBAU

XEXEBAU

XEXEB

CRHXE

XEB

XECRE3CRE6CRE

XEXEBREXE

XEBAUREXE

XEBAUREXE

XEBRE

XEXEB

XEXEB

XEXEB

XEXEB

XEXEB

XEXEB

XEXEB

XEXEB

XEXEB

10 27 33 47 50 68 100 120 150 160 200 220 470 500

CRE

CRH

CRE3CRE

CRH3CRH

CRH3CRH

CRE

0.033

0.1

0.2

0.22

0.3

0.33

0.47

0.5

1.0

SPARK QUENCHERS

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Electrical noise, which effects the correct operation of electrical equipment, can originate from sources both external and internal to the product. For example, high frequency noise can be generated by the rotation of a brush motor. As a counter measure to such noise, a capacitor can be introduced into the noise prevention circuitry to lower the circuit impedance. It is necessary to use a capacitor with excellent, high-frequency characteristics. This is why metallized polyester film is used by OKAYA as the capacitor dielectric in all AC noise suppression capacitors.

Examples of Uses:a) Effective as countermeasure for low-energy noise

produced by high frequencies in DC motor brushes.Applications include power tools using multi-pole brush motors, vacuum cleaners, mixers, etc.

b) Here, a common coil is used to compose a filter circuit as a means of improving attenuation and expanding band range.Applications include a wide variety of office appliances, switching power units, etc.

c) This shows countermeasures against common mode noise taken in addition to the measures shown in b).

*NOTE: For applications of the type shown in b) and c), see the Noise Filter section.

APPLICATION EXAMPLES

The following is used to calculate the current for a supply voltage. Values for 250Vac, 50/60Hz are shown in the table (Precautions should be taken with regard to voltage fluctuation and permissible deviation of electrostatic capacitance when calculating maximum values).

RATED CURRENT: Current ............................................. Amps (A): Operating frequency ................................. (Hz): Electrostatic capacitance ................. Farads (F): Supply voltage ................................... AC (V)

Unit: mACapacitance

�FFrequency

Capacitance�FFrequency

50Hz60Hz

50Hz60Hz

0.0010.10.1

0.00150.10.1

0.00220.20.2

0.00330.30.3

0.00470.40.4

0.00680.50.6

0.010.80.9

0.0151.181.41

0.0221.732.07

0.0332.593.11

0.0473.694.43

0.0685.346.41

0.17.859.42

0.1511.814.1

0.2217.320.7

0.3325.931.1

0.4736.944.3

0.6853.464.1

1.078.594.2

IfCE

l = 2 fCE (A)


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Noise suppression capacitors are most widely applied as countermeasures to noise occurring in inverters, switching power units, brush motors, and to the full range of Office Automation equipment.

EXAMPLES OF NOISE SUPPRESSION EFFECTS

These illustrations show examples of the noise suppression effects produced with a 500W class brush motor used on a commercial 120V line. The load is driven through an isolation transformer.

2msec/div100V/div

A) This illustration shows the line waveform without any noise countermeasures. A damped oscillation wave of about 800Vp-p is visible at the instant of positive and negative peak.

B) This illustration shows an observation of the noise component alone. (Time axis 10�sec/div.)

C) This illustration shows the results of noise countermeasures taken by inserting an XE474 (0.47�F) capacitor in the line. A minute amount of noise appears to remain in the sine curve, but it is not considered significant.

D) This illustration shows the same isolation of the noise at a time axis of 10�sec/div. By the insertion of the electrostatic capacitance of 0.47�F, the period of damping oscillation has become longer, but the peak voltage is well damped, thus producing excellent results.

10�sec/div100V/div

2msec/div100V/div

10�sec/div100V/div


10

PERFORMANCE CHARACTERISTICS

Temperature Endurance: At maximum rated temperature and at 125% of rated voltage.The voltage is increased to 1,000Vac for 0.1 second.

TEST CONDITIONSDamp Heat Endurance:

2×WVTemperature Characteristics:-50°C to +100°C100% Rated Voltage

Endurance (XE-Z type)

Endurance (LE type)

Damp Heat Endurance (XE-Z type)

Damp Heat Endurance (LE type)

Temperature Characteristics (XE-Z type)

Temperature Characteristics (LE type)


11

SUPP

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ION

CAPA

CITO

RS

FORM

APPLICATIONS

310Vac*275Vac*300Vac*275Vac*275Vac*300Vac500Vac275Vac*250Vac*275Vac*300Vac*250Vac250Vac250Vac250Vac440Vac310Vac

* UL and cUL, CSA = 250Vac

Bare WireBare WireBare WireBare WireBare WireBare WireBare WireFlex WireFlex WireBare WireBare WireBare WireBare WireFlex Wire, Earth TerminalFlex WireFlex WireBare Wire

aaaaaaabcaaadef-a

LE-MX SeriesLE SeriesLE-K,LE-K-M SeriesRE-L SeriesPA-L SeriesVEA SeriesXH SeriesREB SeriesXEB SeriesXE-Z SeriesYF SeriesYE SeriesXYE-AN SeriesXYE-BE SeriesXYE-BN Series3XYG SeriesEPC Series

121314151617181920212223

24~25

2627

AC MotorsDC MotorsBrush MotorsGrindersMotor ControlsMixersDryers

Machine ToolsWashersPower SuppliesAutomotiveLightingFrequency Controls

Contact ProtectionIndustrial ControlsRoboticsNC ControlsCNC ControlsAntenna Coupling

AC Line SuppressionVacuum CleanersTumblersElectric SwitchingPower SnubbersMechanical Switching

DESIGN CAUTIONS1) When protecting switching contacts, always include

a resistor in series with the noise suppression capacitors. See Spark Quencher section for products specifically designed for such applications.

2) In high speed circuits, the addition of a noise suppression capacitor may slow the response time of the circuit. For best response characteristics, do not use a larger capacitor than is absolutely necessary to suppress the noise level.

3) Noise suppression capacitors are most effective when located close to the offending noise source.Excessive lead length may cause abnormal oscillation and decrease the energy absorption capability of the capacitor.

4) When noise suppression capacitors are connected across power lines, care must be taken that the resulting in-rush current does not cause the fuse or circuit breaker to open. Special consideration must be given to both the capacitor value and the breaker ratings.

5) OKAYA noise suppression capacitors are specifically designed for standard line frequencies and should not be used in circuits where normal operation will exceed 70Hz.

6) To prevent permanent damage to noise suppression capacitors, they should not be allowed to self-heat more than 5 degrees centigrade above ambient.

7) These products do absorb normal line surges. However they are not intended to absorb high-energy surges such as induced lightning. SeeTransient Voltage Suppressor section for products specifically designed for such applications.

a. b. c. d. e. f.

RatedVoltage Safety Standard Lead Type Forms Model Page

--


12

5.06.06.57.57.08.510.013.015.5

Rated Voltage 310Vac

Features

Applications

Electrical Specifications

Operating Temperature: -55~+110°C

Dimensions

voltage 310Vac.

Capacitance�F±10% W H T F

0.10.15

0.33

0.681.01.5

17.5

30.5 0.8

18.0

16.5

11.0

15.0

Unit: mm

Circuit

L E M X

nameCapacitance

17.0

0.60.003max.

1,000Vac

or

C 0.33�F

C �F5,000 min.

min.

Factor

F±0.5

15m

in.

H±0

.5T±

0.5

W±0.5

LE-MX SERIES NOISE SUPPRESSION CAPACITOR

13

SUPP

RESS

ION

CAPA

CITO

RS


Features

Applications



X2

0.003max.(f=10kHz)

0.002max.(f=1kHz)

Line to Line

1,250Vac50/60Hz60sec

1,000Vac50/60Hz60sec

Line to Case2,000Vac50/60Hz60sec

Line to Line103~334

474~225

Line to Case

(at 100Vdc)

Dimensions

Circuit

L ESeries name Capacitance

Model numbering system

Metalized polypropylene film capacitor.

class X2.

in power line of electrical appliances.

ULcUL

Safety Standard

SafetyStandard Class Model Capacitance

W H T dTest Voltage

0.010.0150.0220.0330.047

0.10.150.220.330.47

1.01.52.23.3 30.0

30.5

25.5

17.5

17.0

12.010.5 4.5

11.5

11.5

5.5

5.514.0 6.515.0

19.522.024.5

27.5

17.59.5

10.512.015.0

11.0 5.0

10.0

15.0

22.5

27.5

0.6

15m

in.

Unit: mm

LE SERIES NOISE SUPPRESSION CAPACITOR

14


Features

Applications



Dimensions

Circuit

voltage 300Vac, Class X2 series.Tolerance of Capacitance ±10%(LE-K), ±20% (LE-K-M).

Capacitance 1.5 ~ 10�F.

in power line of electrical appliances.

ULcULENEC

:UL60384-14:CSA E60384-14:IEC/EN60384-14

E47474E47474SE/0142-1

File No.

Class Capacitance�F±20% W T F Factor

InsulationTest Voltage

24.5

28.0

31.038.043.0

15.018.018.521.023.028.0

27.5

35.0

37.5

0.8

1.0

Unit: mm

W±0.5 T±0.

515

min

.F±0.5

Series name Capacitance Tolerance of capacitance

NoneM

±10%±20%

X2

LE155-K-MLE225-K-MLE335-K-MLE475-K-MLE685-K-MLE106-K-M

1.52.23.34.76.810.0

30.5

41.0

38.0 0.002max.

Line to Line

1,250Vac

4.7�F

Line to Case2,100Vac

Line to Line

Line to Case

Class Capacitance�F±10% W T F Factor

InsulationTest Voltage

28.032.035.5

16.020.521.526.027.031.0

22.5

27.5

35.042.5

0.8

1.0

X2

LE155-KLE225-KLE335-KLE475-KLE685-KLE106-K

1.52.23.34.76.810.0

25.5

39.046.5

31.040.0

43.5

0.002max.

Line to Line

1,250Vac


Line to Line

Line to Case

E K ML

LE-K, LE-K-M SERIES NOISE SUPPRESSION CAPACITOR

15

SUPP

RESS

ION

CAPA

CITO

RS

Features

Applications

Dimensions

Circuit R E L

L

UL

H±

T±

±

F±

Rated Voltage 275Vac (CSA: 250V)Electrical Specifications

W H T F

RE-L SERIES NOISE SUPPRESSION CAPACITOR

16


Features

Applications



Rated voltage 275Vac.IEC/EN 60384-14 class X2.

Designed mainly for suppressing noise occurring in power line of electrical appliances.

ULcULCSAVDESEMKONEMKODEMKOFIMKOElectrosuisse

:UL-60384-14:CSA E60384-14:CSA E60384-14, C22.2 No.8:IEC/EN 60384-14:IEC/EN 60384-14:IEC/EN 60384-14:IEC/EN 60384-14:IEC/EN 60384-14:IEC/EN 60384-14

E47474E47474LR37404, LR10492640018318, 40017808917611, 1111621P08209479, P06206040315316-01, D-00242FI25733, FI2726812.0939, 12.0937

Safety Standard

SafetyStandard Class Model

NumberCapacitance

�F±20%Dimensions

W H T F dDissipation

FactorInsulation

ResistanceTest Voltage

PA103-LPA123-LPA153-LPA183-LPA223-LPA273-LPA333-LPA393-LPA473-LPA563-LPA683-LPA823-LPA104-LPA124-LPA154-LPA184-LPA224-LPA274-LPA334-LPA394-LPA474-LPA564-LPA684-LPA824-LPA105-LPA125-LPA155-LPA185-LPA225-L

0.010.0120.0150.0180.0220.0270.0330.0390.0470.0560.0680.0820.10.120.150.180.220.270.330.390.470.560.680.821.01.21.51.82.2

Dimensions

Unit: mm

T±0.

5H

±0.5

F±1.0

d±0.05

W±0.5

30m

in.

Circuit

X2

17.0

12.0

12.5

13.5

15.0

16.0

17.5

22.0

24.5

28.0

32.5

17.019.5

5.0

5.5

6.5

8.0

6.5

8.022.5

11.0

13.5

15.537.5

16.0

17.5

8.510.0

27.522.5

27.5

15.0

0.6

0.8

1.0

25.0

30.025.0

30.0

30.5

41.0

0.01max.(at 1kHz)

Line to Line1,250Vac50/60Hz

60sec


50/60Hz 60sec

Line to Line103~334

474~225

Line to Case

(at 500Vdc)

PA-L SERIES NOISE SUPPRESSION CAPACITOR

P A LSeries name


LCapacitance

lead length 30mm min.

Supported mark

File No.

17

SUPP

RESS

ION

CAPA

CITO

RS

Features

Applications


Dimensions

~ 10�

Circuit

EV A K

K ±10%

:UL

Unit: mm

±T±

F±F±

±

W±

T±±

±2

±

Rated Voltage 300VacElectrical Specifications

a

�F±10% W T F

X2

VEA SERIES NOISE SUPPRESSION CAPACITOR

18


Features

Applications


Operating Temperature:-40~+100°C

Dimensions

Circuit

UL

�F±20% W H T FXH102

XH222

XH104

XH224

Unit: mm

T

±

X H

X2

(at 1kHz)

XH SERIES NOISE SUPPRESSION CAPACITOR

19

SUPP

RESS

ION

CAPA

CITO

RS

Features

Applications


Dimensions

CircuitW±

±

±10

H±

T±

R E B


�F±10% W H T

C FM

�F

REB SERIES NOISE SUPPRESSION CAPACITOR

20


Features

Applications



Dimensions

Circuit

CSA

�F± 0% W H T F

a

a

Unit: mm

EX B

(at 500(at 500

(at 500

W±

H±

F±

T±

T±

W±

H±

F±

T±

W±

F±

H±

XEB SERIES NOISE SUPPRESSION CAPACITOR

21

SUPP

RESS

ION

CAPA

CITO

RS

Rated Voltage

Features

Applications


Operating Temperature:-40~+100°C*Rated voltage of Y2 is 250Vac.

Dimensions

Circuit

configurations.

requirement.

ULcULCSA

40021020

102~105

Standard Class Capacitance�F±20% W T F d Factor ResistanceTest Voltage

12.5

0.0010.00150.0022

0.010.0150.022

0.10.150.22

1.0

25.0

12.0

12.5

15.0

22.024.5

5.5

5.0

5.5

10.011.0

20.0

22.5

1.0

15.0

Unit: mm

X E ZSeries name Capacitance

andY2*

0.01max.

Line toCase

Line to CaseLine to Line

Line to Line

Line to Line

Line to Line

T±0.

515

min

.

F±1.0

d±0.05

W±0.5

Supportedmark

XE-Z SERIES NOISE SUPPRESSION CAPACITOR

102~105

X1（102～105）: 275VacY1（102～682）: 250Vac

22

Features

Applications


Dimensions

Circuit

Temperature Characteristic

Y F

T

-100

0

-50 -10 0 10 50 90 100 110

Temperature (°C)


W H T F

YF SERIES NOISE SUPPRESSION CAPACITOR

Temperature Characteristic

23

SUPP

RESS

ION

CAPA

CITO

RSRated Voltage 250Vac

Features

Applications



Dimensions

Circuit

0% W H T

Unit: mm

Y E

UL

CSA

YE SERIES NOISE SUPPRESSION CAPACITOR

24

T±0.

5

W±0.5

15m

in.

H±0

.5

F1±1 F1±1

0.8±0.05

F2±0.4

F3±1

W±0.5

10±2

T±0.

510

0±10

H±0

.5

4.3

10 0.5

20±3

Soldering

10±2

H±0

.510

0±10

W±0.5

T±0.

5

UL-1007AWG202)

Black

Soldering

Features

Applications

Dimensions

LR37404cUL

XYE SERIES NOISE SUPPRESSION CAPACITOR

25

SUPP

RESS

ION

CAPA

CITO

RS


Operating temperature: -40~85°C

Circuit

SafetyStandard Class Model

NumberCapacitance Dimensions

W H T F2 F3Dissipation

FactorXYE-473472ANXYE-104102ANXYE-104222ANXYE-104332ANXYE-104472ANXYE-224102ANXYE-224222ANXYE-224332ANXYE-224472ANXYE-334222ANXYE-334332ANXYE-334472ANXYE-474222ANXYE-474332ANXYE-474472ANXYE-104102BNXYE-104222BNXYE-104332BNXYE-104472BNXYE-224102BNXYE-224222BNXYE-224332BNXYE-224472BNXYE-334222BNXYE-334332BNXYE-334472BNXYE-474222BNXYE-474332BNXYE-474472BNXYE-104102BEXYE-104222BEXYE-104332BEXYE-104472BEXYE-224102BEXYE-224222BEXYE-224332BEXYE-224472BEXYE-334222BEXYE-334332BEXYE-334472BEXYE-474222BEXYE-474332BEXYE-474472BE

4,7001,0002,2003,3004,7001,0002,2003,3004,7002,2003,3004,7002,2003,3004,7001,0002,2003,3004,7001,0002,2003,3004,7002,2003,3004,7002,2003,3004,7001,0002,2003,3004,7001,0002,2003,3004,7002,2003,3004,7002,2003,3004,700

0.047

0.1

0.22

0.33

0.47

0.1

0.22

0.33

0.47

0.1

0.22

0.33

0.47

Cy(pF±20%)Cx(�F±20%)

30.0

26.0

31.0

26.0

31.0

25.0 1.5

F1

11.5

7.1

26.0

20.0

23.0

27.5

20.0

23.0

27.5

20.0

22.5

18.5

19.0 13.5 1.8 9.7

12.5

15.0

18.5

- - -12.5

15.0

18.5

12.0

14.5 8.6

10.5 6.1


X Y ESeries name

ANBNBE

Capacitance(line to line)

Capacitance(line to ground)

Lead type

Bare wireFlex PVC wireFlex PVC wire & metal terminal

Cx: Line to Line (X capacitor)

Cy: Line to Ground (Y capacitor)

Cx

Cy

Cy

X2.

Y2

Test Voltage InsulationResistance

Line to Line

Cx =0.47�F

Line to Ground

Terminal to Case

(at 500Vdc)

0.01maxat 1k

±100Hz

Line to Line1,250Vac50/60Hz60sec

Line to Ground2,000Vac50/60Hz60sec

Terminal to Case2,000Vac50/60Hz60sec

XYE SERIES NOISE SUPPRESSION CAPACITOR

26


Features

Applications


Dimensions

Circuit

Cx

Cx

Cx

26±148±16±

1±1

1±

9±111±11±11±6±1

°C

1126

±110

±2±1

48±122

20%

��

3 X Y G 1 0 0 3

1 �

003 �

TYNone

3XYG SERIES NOISE SUPPRESSION CAPACITOR

27

SUPP

RESS

ION

CAPA

CITO

RS

NEW


Features

Applications


Dimensions

EPC SERIES NOISE SUPPRESSION CAPACITOR

Circuit

W H F L

E P C 1 0 6 J

J

28

MEMO

29

PFC

CAPA

CITO

RS

PFC CAPACITORS

30

PERMISSIBLE CURRENT (type; AFC450V series)

CIRCUIT EXAMPLE

Recently, electric equipment and household electrical appliances have begun to utilize inverter technology to improve power efficiency. Therefore, many products generate a harmonic current. For suppressing the harmonic current, these products have an “Active filter circuit (*PFC circuit)”. Capacitors that are used in these circuits are called “Active-filter capacitors” or “PFC capacitors”.

Resin-coated film capacitors are generally used for these circuits. Our film capacitors use a flame-retardant resin plastic case. Therefore, withstand voltage between line and ground is very high and safe. Also, the printed-wiring board mounting is stable.*PFC: Power Factor Correction.

0.0

1.0

2.0

3.0

4.0

5.0

10 100Frequency (kHz)

1,000

Per

mis

sibl

e C

urre

nt (A

rms)

474105225335475

GateDriver

FilterCircuit

PFC capacitor

PFC CAPACITORS

31

PFC

CAPA

CITO

RS

Features

Applications


Metalized PolypropyleneFilm Capacitor AFX SERIES PFC CAPACITOR

A F X 4 5 0 V 4 7 4 K

K

NEW

Circuit

Dimensions

Permissible current data

XVoltage dereting by temperature

7

W

32

Features

Applications


Metalized PolypropyleneFilm Capacitor AFS SERIES PFC CAPACITOR

Circuit

Dimensions


A F S 4 5 0 V 4 7 4 K

K

W0

i i

00

0

0 00 000

50V

2 2

5

Voltage dereting by temperature

20 0 20 0 0 0 000

25

50

5

00

25

0

225

0 20

33

PFC

CAPA

CITO

RS

Features

Applications


Metalized PolypropyleneFilm Capacitor AFC SERIES PFC CAPACITOR

CircuitDimensions

A F C 4 5 0 V 4 7 4 K

K

W


34

Features

Applications


Dimensions

Circuit

±

W±

±±

± A F P 4 5 0 V 1 0 4 K

K

AFP SERIES PFC CAPACITORMetalized PolypropyleneFilm Capacitor

�

�

W

35

PFC

CAPA

CITO

RS

AFP SERIES PFC CAPACITORMetalized PolypropyleneFilm Capacitor

The representative capacity value’s permissible current characteristics per rated voltage is shown below. Please ask a sales representative for capacitance data not shown below.

0.0

1.0

2.0

3.0

4.0

5.0

10 100 1000

Frequency (kHz)

Perm

issi

ble

Cur

rent

(Arm

s)

AFP450V series

0.0

1.0

2.0

3.0

4.0

5.0

10 100 1000

Frequency (kHz)

Perm

issi

ble

Cur

rent

(Arm

s)

AFP630V series

2.2 F

2.2 F

1.5 F

1.0 F

0.47 F

0.22 F0.1 F

1.5 F1.0 F

0.47 F

0.33 F0.22 F

0.1 F


36

MEMO

37

HIGH

PUL

SE C

APAC

ITOR

S

HIGH PULSE CAPACITORS

38

POWER ELECTRONICS APPLICATIONS

WHAT IS HIGH PULSE CAPACITOR?

Capacitor for active filter

Capacitor for resonance

Snubber capacitorNoise Suppression Capacitor

Device for 3-Phase

HIGH PULSE CAPACITORS

39

HIGH

PUL

SE C

APAC

ITOR

S

Features

Applications


a

AFV SERIES HIGH PULSE CAPACITORMetalized PolypropyleneFilm Capacitor

Dimensions

� K

A F V 4 5 0 V 1 0 5 K

K

Circuit

�


1

1

1

1 1 1

1

1

1

1 1 1

40

Features

Applications


rs p

ul

Circuit

N7C P 2 E 1 0 4 K

JK

C7NP SERIES HIGH PULSE CAPACITORMetalized PolypropyleneFilm Capacitor

Dimensions

9±2

2

J=

W T

2E

2G

22

41

HIGH

PUL

SE C

APAC

ITOR

S

C7NP SERIES HIGH PULSE CAPACITOR


Metalized PolypropyleneFilm Capacitor

Operating Temperature: -40~+85°C:J=Tolerance of Capacitance ±5%, K=Tolerance of Capacitance ±10%

C7NP2J103C7NP2J153C7NP2J223C7NP2J333C7NP2J473C7NP2J683C7NP2J104C7NP2J154C7NP2J224C7NP2J334C7NP2J474C7NP2J684C7NP2J105C7NP2J155C7NP2J225C7NP2J335C7NP2J475C7NP2J685C7NP3B472C7NP3B682C7NP3B103C7NP3B153C7NP3B223C7NP3B333C7NP3B473C7NP3B683C7NP3B104C7NP3B154C7NP3B224C7NP3B334C7NP3B474C7NP3B684C7NP3B105C7NP3C102C7NP3C152C7NP3C222C7NP3C332C7NP3C472C7NP3C682C7NP3C103C7NP3C153C7NP3C223C7NP3C333C7NP3C473

0.001max. (at 1kHz)

Rated Voltage×1.75Vdc(2~5sec)

(at 20°C, 100Vdc)

(at 20°C, 100Vdc)

W17.0 17.0 17.0 17.0 17.0 17.0 25.0 25.0 25.0 30.0 30.0 30.0 30.5 41.0 49.5 59.5 59.5 59.5 17.0 17.0 25.0 25.0 25.0 25.0 25.0 30.0 30.0 30.5 41.0 41.0 41.0 59.5 59.5 17.0 17.0 17.0 25.0 25.0 25.0 25.0 25.0 30.0 30.0 30.0

H 13.5 13.5 13.5 13.5 13.5 15.0 16.0 17.5 19.5 22.0 22.0 24.5 28.0 28.0 33.0 35.5 43.5 43.5 13.5 15.0 16.0 16.0 17.5 19.5 19.5 22.0 24.5 28.0 28.0 28.0 32.5 35.5 43.5 13.5 13.5 15.0 16.0 16.0 17.5 17.5 19.5 22.5 24.5 24.5

T 6.5 6.5 6.5 6.5 6.5 8.0 6.5 8.0

10.0 11.0 11.0 13.5 16.0 15.5 20.5 21.5 30.5 30.5 6.5 8.0 6.5 6.5 8.0

10.0 10.0 11.0 13.5 16.0 15.5 15.5 17.5 21.5 30.5 6.5 6.5 8.0 6.5 6.5 8.0 8.0

10.0 11.0 13.5 13.5

15.0 15.0 15.0 15.0 15.0 15.0 22.5 22.5 22.5 27.5 27.5 27.5 27.5 37.5 45.0 55.0 55.0 55.0 15.0 15.0 22.5 22.5 22.5 22.5 22.5 27.5 27.5 27.5 37.5 37.5 37.5 55.0 55.0 15.0 15.0 15.0 22.5 22.5 22.5 22.5 22.5 27.5 27.5 27.5

0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 1.0 1.0

----

0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 1.0 1.0 1.0 1.0

--

0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8

Typeaaaaaaaaaaaaaabbbbaaaaaaaaaaaaabbaaaaaaaaaaa

Dissipationfactor

Testvoltage

Insulationresistance

RatedVoltage

2J(630Vdc)

3B(1250Vdc)

3C(1600Vdc)

Model Number

0.010.0150.0220.0330.0470.0680.10.150.220.330.470.681.0 1.52.23.34.76.80.00470.00680.010.0150.0220.0330.0470.0680.10.150.220.330.470.681.0 0.00010.00150.00220.00330.00470.00680.010.0150.0220.0330.047

Capacitance�

Dimensions (mm)

42


0.0

1.0

2.0

3.0

4.0

5.0

6.0

7.0

8.0

9.0

10.0

10 100 1000

7NP2E

0.0

1.0

2.0

3.0

4.0

5.0

6.0

7.0

8.0

9.0

10.0

10 100 1000

7NP3B

0.0

1.0

2.0

3.0

4.0

5.0

6.0

7.0

8.0

9.0

10.0

10 100 1000

7NP2G

0.0

1.0

2.0

3.0

4.0

5.0

6.0

7.0

8.0

9.0

10.0

10 100 1000

7NP3

0.0

1.0

2.0

3.0

4.0

5.0

6.0

7.0

10 100 1000

7NP2J


43

HIGH

PUL

SE C

APAC

ITOR

S

Features

Applicationsh

s p

Circuit

Dimensions

HCP-S SERIES HIGH PULSE CAPACITORMetalized PolypropyleneFilm Capacitor

CH P 054 V 1 0 4 K S

K


>

W�

44

HCP-S SERIES HIGH PULSE CAPACITOR



0.0

1.0

2.0

3.0

4.0

10 100 1000

series

0.0

1.0

2.0

3.0

4.0

5.0

10 100 1000

series

0.0

1.0

2.0

3.0

4.0

5.0

7.0

10 100 1000

series

0.0

1.0

2.0

3.0

4.0

5.0

7.0

10 100 1000

series

0.0

1.0

2.0

3.0

4.0

5.0

7.0

10 100 1000

series

0.0

1.0

2.0

3.0

4.0

5.0

7.0

10 100 1000

series

45

HIGH

PUL

SE C

APAC

ITOR

S

Features

Applications

Circuit

Dimensions

(3B

)


N1C P 2 E 2 2 5 K

JK


°C

W T

3B

�

46

Features

Applications

HHC SERIES HIGH PULSE CAPACITOR

Dimensions

Circuit

CHH 04 0 V 1 0 2 J

JK

±5%±10%

400V630V

1250V



J= ±5% ±10%

50

W�

47

HIGH

PUL

SE C

APAC

ITOR

S

HHC SERIES HIGH PULSE CAPACITOR



1000

1000

0.01 F0.022 F0.027 F

0.047 F

0.039 F

0.033 F

Frequency (kHz)

0.047 F0.056 F0.1 F

0.22 F

0.0

1.0

2.0

3.0

4.0

5.0

10 100 1000

HHC400V series

Perm

issi

ble

Cur

rent

(Arm

s)

Frequency (kHz)

0.0

1.0

2.0

3.0

4.0

5.0

10 100

HHC630V series

Perm

issi

ble

Cur

rent

(Arm

s)

Frequency (kHz)

0.0

1.0

2.0

3.0

4.0

10 100 1000

HHC630V series

Perm

issi

ble

Cur

rent

(Arm

s)

Frequency (kHz)

0.0

1.0

2.0

3.0

4.0

10 100

HHC1250V series

Perm

issi

ble

Cur

rent

(Arm

s)

0.082 F

0.10 F

0.22 F

0.068 F

0.056 F

0.033 F

0.022 F

0.01 F

0.0047 F

0.0033 F

0.001 F

DissipationFactor Test Voltage Insulation

ResistanceRated

Voltage Model NumberCapacitance

�FHHC1250V392HHC1250V472HHC1250V562HHC1250V682HHC1250V822HHC1250V103HHC1250V123HHC1250V153HHC1250V183HHC1250V223HHC1250V273HHC1250V333

Operating Temperature: -40~+105°C:J=Tolerance of Capacitance ±5%, K=Tolerance of Capacitance ±10%

0.001max.(at 1kHz)

Rated Voltage×1.75Vdc(2~5sec)

50,(at 20°C, 100Vdc)

WDimensions (mm)H T F

1250Vdc

0.00390.00470.00560.00680.00820.010.0120.0150.0180.0220.0270.033

17.017.017.017.017.017.025.025.025.025.025.025.0

12.512.513.513.515.015.016.016.017.517.519.519.5

5.55.56.56.58.08.06.56.58.08.0

10.010.0

15.015.015.015.015.015.022.522.522.522.522.522.5

0.80.80.80.80.80.80.80.80.80.80.80.8

The representative capacity value’s permissible current characteristics per rated voltage is shown below. Please ask a sales representative for capacitance data not shown below.


48

MEMO

49

SPAR

K QU

ENCH

ERS

SPARK QUENCHINGR-C NETWORKS

50

Electrical apparatus are classified roughly into two categories, i.e., (a)household appliances and (b) office appliances including office automation (OA) and others.The standards for noise suppression capacitors to be used in the household appliances are more strict than those in the office appliances and others.The products enumerated in the following pages (with a few exceptions) have been approved under standards applicable to the household appliances, so that you may use them for almost all applications.In order to avoid any accidents in machine applications which may experience unexpected abnormal surge voltage, or which are subjected to continuous 24-hour use, it is necessary to build in an extra measure of reliability. Here, the strict test conditions conducted by the above-mentioned safety standards organizations can be considered as one of the criteria from a reliability point of view.

The information provided in this catalog, as well as any additional data supplied by Okaya or Okaya representatives, is for general use only to assist the buyer in making its own independent decision as to the suitability of the products for the buyer's intended use and application.Except for any limited warranties contained in Okaya Terms and Conditions, OKAYA DISCLAIMS WITH RESPECT TO THEIR GOODS AND DATA AND INFORMATION RELATED TO THEM, ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND ALL IMPLIED WARRANTIES OF FITNESS FOR A PARTICULAR PURPOSE.The specifications contained in this catalog are subject to change without notice.For improvement, specifications are subject to change without prior notice.When components are used for special applications requiring high reliability (life maintenance equipment, atomic energy, airplanes, artificial satellites, etc.) , contact us beforehand. Also make sure to evaluate and verify the components in a state that they are mounted on actual equipment.

SAFETY STANDARDSOkaya spark quenchers have been recognized by the following safety standards organizations:

SPARK QUENCHERS

Organization (Country)Applicable Standard

Household Appliances

PUB 65 PUB 950IEC

UL60384-14 (capacitor) UL1283 (filter)UL (U.S.A)

CSA E60384-14 CSA E60384-14cUL (C.S.A)

CSA E60384-14 CSA E60384-14CSA (Canada)

VDE (Germany)

ENEC ALL EUROPIAN COUNTRIES

SEV (Switzerland)

BS (Great Britain)

SEMKO (Sweden)

DEMKO (Denmark)

NEMKO (Norway)

FIMKO (Finland)

------------ÖVE (Austria)

------------IMQ (Italy)

Office Appliances and others

IEC/EN 60384-14 IEC/EN 60384-14

IEC/EN 60384-14

IEC/EN 60384-14

IEC/EN 60384-14

IEC/EN 60384-14

IEC/EN 60384-14

IEC/EN 60384-14

IEC/EN 60384-14

IEC/EN 60384-14

IEC/EN 60384-14

IEC/EN 60384-14

IEC/EN 60384-14

IEC/EN 60384-14

IEC/EN 60384-14

IEC/EN 60384-14

IEC/EN 60384-14

IEC/EN 60384-14

51

SPAR

K QU

ENCH

ERS

Some key factors affecting circuit performance are:1) Arcing between relay and switch contacts result in

wear and binding.2) Contact arcing, results in high frequency noise and

abnormal high voltages.3) The generation of back electromotive force (EMF)

is due to the self-inductance of inductive loads.4) The occurrence of high frequency noise is the

result of contact chatter in magnetic relays and switches.Back EMF, due to self-inductance, affects Silicon

Control Rectifiers (SCRs) and Solid-state Relays (SSRs) and can result in the breakdown of other semi-conductor devices. Power line surges must also be carefully considered. Either may be a contributing factor in equipment malfunctions, failures and in extreme cases fire and/or electrical shock.

To illustrate these factors, consider that relay contact chatter is capable of inducing oscillations of several Kilohertz, contact arcing frequencies of several Megahertz and amplitudes 10 to 20 times normal circuit voltages. Voltage surges from external sources may approach thousands of volts.

To protect electronic equipment against costly failures or malfunctions, Okaya has developed advanced components to suppress contact arcing and filter unwanted electrical noise.

It is possible to select a suitable OKAYA Spark Quencher using the chart or the formulas shown below. Keep in mind that there is no one exact value of Spark Quencher which will satisfy all applications. The chart and formula are guide-lines to give the user a starting point from which to work. The final selection must be evaluated in the application to determine its acceptability.

SPARK QUENCHERS INTRODUCTIONRC NETWORKS

Recent developments in electronic equipment have shown the following trends:

robotics and technically advanced appliances are requiring progressive electronic technologies.

microcomputer technology, today's equipment is required to perform multifunction in limited size.

the components must be miniaturized and of lighter weight.

1) Functional limits of magnetic relays and switches have narrowed due to increasing contact amperage.

2) Miniaturization of electronic components has reduced their dielectric strength.

3) Circuit noise has increased as a result of the coexistence of signal and power lines.

4) Safety standards for electronic equipment and components have become increasingly restrictive.

DETERMINING RC VALUEIn general, the RC determining formula is regarded

as quite complex, but since the RC combination has the decisive effect of integrating the rapid changes of the waveform to a smoothed average, the determination of RC values by complex formulas becomes unnecessary.

C = Capacitance in MFDI = Load Current in AmpsR = Resistance in OhmsV = Source Voltage

C= I²10

R=10 (1+ ) I50

V

V

LOAD CURRENT - AMPERES

SourceVoltage

R+CValues

125Vacor

125Vdc

250Vacor

250Vdc

MFD+

OHMs

MFD+

OHMs

0.050.01

+4700.01

+470

0.10.01

+4700.01

+470

0.20.01

+2200.01

+470

0.30.01

+1200.01

+470

0.50.022

+120

0.022+

120

1.00.1+470.1+

120

2.00.3+470.3+

120

3.00.5+470.5+47

5.01.0+101.0+47

SPARK QUENCHERS

52

Arc suppression

Back electromotive force suppression

Damping oscillation

Dv/dt suppression

Spark Quenchers consist of specially designed capacitors and resistors connected in series. Spark discharges and induced noise are absorbed over a wide range by the accumulation characteristic and impedance of the capacitor, while the RC time constant delays and averages surge voltage and oscillations.

The RC combination absorbs the high frequency oscillations caused by mechanical vibrations such as relay contact chattering. Similarly the oscillations created by arcing are also averaged and suppressed by the RC combination regardless of their origin.

The RC combination allows the dv/dt of the "on" and "off" operation of thyristors or similar devices to decrease; thus surge voltages are suppressed and semi-conductor elements are protected.

Even in the case of zero crossing circuits, such as AC circuits, protection is necessary since harmonic noise occurs when there is a gap between phases or current and voltage of the load circuit.

EFFECT OF SPARK QUENCHER

Spark Quenchers are easily selectable electronic components designed to prevent or substantially minimize the occurrence of arcing and noise generation in relay and switch contacts.

At the moment of switch opening, the RC combination absorbs and suppresses the energy of the arc by letting it bypass the switch.

With back electromotive force due to self-inductance, the surge voltage peak is suppressed by conducting it through the RC circuit on the low impedance side. The peak is absorbed by the capacitance of RC. The wave-form is averaged and smoothed by the time constant of the RC; thus generated noise is eliminated or substantially minimized.

SPARK QUENCHERS

53

SPAR

K QU

ENCH

ERS

OKAYA Spark Quenchers have the following characteristics which make it possible to easily use them in a wide range of applications.1) The Overload capacity is large.2) They are not polarized; thus can be used in both

AC an DC circuits.3) They have a favorable effect on surge voltage and

accompanying oscillations caused by contact chatter.

4) They are effective against spurious potentials having magnitudes below circuit voltage.

5) They offer a high degree of protection for semiconductor devices, and as thyristors and SCRs.

6) They improve the dv/dt ratio.

Capacitors are classified by the IEC into the following categories (these designations are used by most European countries) :Class Y: Capacitors used in applications where

damage to the capacitor may involve the danger of electrical shock.


European Safety Agencies subdivide Class X into X1, X2 and X3 classifications. The test criteria for these subclasses is shown in the table.


RC COMBINATION TABLE

X1X2X3

>2,500V 4,000V2,500V1,200V

4,000V2,500VNone

Peak Voltageon Service

Peak Voltage Test1.2/50 sec. Subclass

�F

0.01XE

XEB

XEXEBAU

XEXEBAU

XEXEB

XEXEB

XEXEB

XEXEB

XEXEB

XEXEBAU

XEXEBAU

XEXEB

CRHXE

XEB

XECRE3CRE6CRE

XEXEBREXE

XEBAUREXE

XEBAUREXE

XEBRE

XEXEB

XEXEB

XEXEB

XEXEB

XEXEB

XEXEB

XEXEB

XEXEB

XEXEB

10 27 33 47 50 68 100 120 150 160 200 220 470 500

CRE

CRH

CRE3CRE

CRH3CRH

CRH3CRH

CRE

0.033

0.1

0.2

0.22

0.3

0.33

0.47

0.5

1.0

SPARK QUENCHERS

54

Standard example in DC circuits.

a. g.f.e.d.c.b.

Spark Quenchers must have the capacity to store surge voltages and current energy, and afford protection against inductively induced potentials. The dielectric material of the OKAYA capacitors, used in Spark Quenchers, affords a very high degree of voltage withstand strength. All resistors are non-inductive solid slug type to insure a high degree of protection against pulse potentials. To provide additional protection for equipment and users, especially when these components are used in AC applications, all OKAYA Spark Quenchers are packaged in cases which meet UL-94 Flame Class V-O.

GENERAL CONSTRUCTION

A) Protection for contacts and from noise during switching operations of equipment such as radio, TV, copiers, mixers, coffee grinders, dryers, tool machine equipment, etc.

B) Protection of electronic instruments during operation of relays, solenoids, motors, etc.

C) Electrical noise protection of semiconductor devices during control of triacs, thyristors, motors, welders, illumination equipment, etc.

Safety standards for capacitors used in conjunction with AC power sources have recently been adopted by many world wide standards agencies.

OKAYA Spark Quenchers are fully tested to these standards (see Chart). As well, Okaya is able to offer some products with 500 Vac ratings.

SAFETY STANDARDS

APPLICATIONS

FORM

APPLICATIONSStandard example in AC circuits.

For phase control circuitsemploying SCR or TRIAC, etc.

(30680 : not approved)

Line Voltage250Vac250Vac275Vac*250Vac250Vac250Vac250Vac250Vac500Vac500Vac

Bare wireBare wireBare wireBare wireFlex PVC wireFlex PVC wireFlex PVC wireFlex PVC wireFlex PVC wireFlex PVC wire

aaaabdegcf

60606162636464646565

AU seriesTA seriesRE seriesXE seriesXEB seriesCRE series3CRE series (3 phase delta connection)6CRE series (3 individual circuits)CRH series3CRH series (3 phase delta connection)

Safety Standard Lead Type Forms Model Page

* UL and CSA = 250Vac

SPARK QUENCHERS

10

55

SPAR

K QU

ENCH

ERS

The rated voltage of OKAYA Spark Quenchers is expressed by the steady-state (line) voltage rating. They can, however, withstand much higher voltages from power surges. In this catalog, the maximum voltage (including the line voltage) that the Spark Quenchers can withstand is expressed as the "Peak Pulse Voltage". For example, the XE series is rated 250Vac RMS (350Vac Peak) maximum line voltage, but can withstand surge voltages up to 1,200Vac (including Peak line voltage). "Pulse Condition" means the maximum voltage that can be input between terminals of the Spark Quencher (excluding line voltage) during operation. For example, when the XE series is used in a 250Vac RMS (350Vac Peak) line voltage application, it can withstand surge voltages up to 800Vac (P-P) above the Peak line voltage. The following drawing shows examples of both "Peak Pulse Voltage" and "Pulse Condition" for clarification.

1) Using OKAYA Spark Quenchers will help prevent abnormal operation due to electrical noise and/or surge pulses. It is not recommended that these devices be used in circuits with frequencies greater than 70 Hz. When used in 3-phase, full wave rectified applications, care must be taken to insure that the Spark Quencher does not self heat by more than 5 degrees centigrade or permanent damage to the Spark Quencher may occur.

2) When protecting contacts feeding small circuit loads, it is recommended that the Spark Quencher be placed in parallel with the load, rather than the contacts, for the most effective application.

3) In high speed circuits, the addition of a Spark Quencher may slow the response time of the circuit. For best response characteristics, do not use a larger Spark Quencher than is absolutely necessary to suppress the noise level.

4) Spark Quenchers should be connected as close as possible to the noise source. Excessive lead length may allow abnormal oscillation and/or decrease energy absorption capacity.

5) When a thyristor, triac or invertor circuit is to be protected by a Spark Quencher, care must be taken that high harmonic currents do not cause over heating of the Spark Quencher resistor. If heating occurs, we suggest the employment of a Spark Quencher with a lower resistance. The Spark Quencher must not self heat by more than 5 degrees centigrade. In invertor applications, it is recommended that an OKAYA noise suppression capacitor be used across the power lines, instead of the Spark Quencher.

6) While it may appear effective to protect contacts with a capacitor only, the capacitor discharge current will cause accumulative damage to the contacts when they close. The proper technique is to apply a Spark Quencher across either the contacts or the load.

7) Regarding the pulse condition (superimposed pulse condition), value of ( ) shows the condition of rated voltage. Please be careful not to raise the temperature rise when use in the phase control circuit.

8) Peak to peak value of pulse condition shows the maximum pulse voltage that is able to apply between terminals of spark quencher with superimposed line voltage. It must not exceed the peak pulse voltage when add the line voltage.

EXPRESSION OF RATED VOLTAGEDESIGN CAUTIONS

"Pulse Condition"1,200

1,000

800

600

400

200

0

-200

-400

-600

-800

-1,000

* Pulse Condition (Surge pulse p.p.)

** Peak Pulse Voltage (Peak line voltage plus surge pulse)

*

**

*

*

*

**

SPARK QUENCHERS

56

PERFORMANCE CHARACTERISTICS

Temperature Endurance:While operating at maximum rated temperature and at 125% of rated voltage, input the table voltages four times per hour for 0.1 second.

TEST CONDITIONSDamp Heat Endurance:60°C, 90~95% RH100% Rated Voltage

Temperature Characteristics:-50°C to ~100°C100% Rated Voltage

Temperature Endurance Damp Heat Endurance Temperature Characteristics

ModelAU, CRE

XECRH

Applied voltage880 Vac

1,000 Vac1,500 Vac

SPARK QUENCHERS

57

SPAR

K QU

ENCH

ERS

In general, inductive load circuit malfunctions occur as a result of component dielectric breakdown induced by excessive peak potential, or unnecessary radiation accompanied by occurrences of high frequency oscillations due to rapid changes of voltage. Spark Quenchers are effective in preventing both types of electrical noise.

In the following illustrations of noise waves, note that the time base is quite small compared with the normal 50/60 Hz line (16-20 msec).

The following illustrations show examples of the operation of a variety of commonly used magnetic relays and contactors with and without a Spark Quencher. The ability of the Spark Quencher to integrate peak power surges and suppress high frequency oscillations is visibly demonstrated.

Without a Spark Quencher in the circuit, surge voltage becomes 10 to 30 times larger than the normal circuit voltage and the noise frequency approaches 10 MHz. Spark Quenchers effectively absorb high frequency oscillations induced by contact chattering and attenuate peak surge voltages.

EXAMPLES OF ABSORPTION OF NOISE

Example 1. Magnetic relay closed in 12Vdc circuit.

Example 2. Magnetic relay opened in 12Vdc circuit.

With XE-1201

With XE-1201

0.1mSec/div

100V

/ di

v

Without Spark Quencher

0.1mSec/div

100V

/ di

v


0.1mSec/div

100V

/ di

v

0.1mSec/div

100V

/ di

v

SPARK QUENCHERS

58

Example 3. Magnetic relay opened in 120Vac circuit.

Example 4. Large magnetic relay opened in 120Vac circuit.

Example 5. Magnetic contactor opened in 240Vac circuit.

Example 6. Rotary solenoid opened in 120Vac circuit.

With XE-120033

With XE-1202

With XE-1202

With XE-1201

0.1mSec/div

500V

/ di

v

0.2mSec/div

500V

/ di

v

0.2mSec/div

500V

/ di

v

0.2mSec/div

500V

/ di

v

0.1mSec/div

500V

/ di

v


0.2mSec/div

500V

/ di

v


0.2mSec/div

500V

/ di

v


0.2mSec/div

500V

/ di

v


SPARK QUENCHERS

59

SPAR

K QU

ENCH

ERS

Example 7. Motor timer opened in 120Vac circuit.

Example 8. Induction motor opened in 240Vac circuit.

With AU-1201

With XE-1201

Without Spark Quencher With XE-120033 With XE-1202

0.2mSec/div

500V

/ di

v

0.2mSec/div

500V

/ di

v

0.2mSec/div

500V

/ di

v

0.2mSec/div

500V

/ di

v

0.2mSec/div

500V

/ di

v

0.2mSec/div

500V

/ di

v

0.2mSec/div

500V

/ di

v

Two of the illustrations in example 8 are the result of the switch opening without Spark Quencher protection. The variation in the wave forms is due to the difference in the AC voltage at the instant of circuit opening.

Three of the noise-graph illustrations are the result of the switch opening with Spark Quencher protection. Noise that occurs at the time of load disconnect is absorbed by the LRC loop. Proportionally as the capacitor becomes larger, the noise prevention becomes more effective.



SPARK QUENCHERS

60

AU120033AU1201AU047033AU0471AU010033AU0101

TA120033

20m

in

F±1.0

0.8±0.07

H±1

.0(0

.5)

W±1.0(0.5)

0.6±0.05)

T±1.

0(0.

5)


Dimensions

Circuit

Features

Applications

010047120

0331

0.033�F0.1�F

AUTA

0.0330.1

0.0330.1

0.0330.1

0.033

120(1/2W)

47(1/2W)

10/(1/2W)

120(1/4W)

UL

LR37404126004

�F±20% W H T F

700V

X2

X2 20.0

18.0

17.0

12.0

8.0

5.0

17.5

16.0

3(0.8)

6(1.5)

10(2.5)

3(0.8)

700V

800V

min.

min.


UL

40007824

AU, TA SERIES SPARK QUENCHER

61

SPAR

K QU

ENCH

ERS

RE12001RE120033RE1201RE1202


Features

Applications

UL

�F±20% H F

X2

Rated Voltage 275Vac (UL, CSA: 250V)

Circuit

Dimensions

±

H±

0103312

R E 1 2 0

RE SERIES SPARK QUENCHER

62

XE01001XE04701XE12001XE22001XE47001XE010033XE047033XE120033XE220033XE470033XE0101XE0471XE1201XE2201XE4701XE0102XE0472XE1202XE2202XE0103XE0473XE1203XE2203XE0105XE0475XE01010


Dimensions

Circuit

Features

Applications

°C

UL

VDE

E47474E47474LR37404

1214750P07207757

�F±20% 30% H F

1,200V


*XE0103 XE01010

X2 50

XE0105

010047120220470

1047120220470

01033123510

�F�F

�F�F�F�F�F

X E

XE SERIES SPARK QUENCHER

63

SPAR

K QU

ENCH

ERSXEB01001

XEB04701XEB12001XEB22001XEB47001XEB010033XEB047033XEB120033XEB220033XEB470033XEB0101XEB0471XEB1201XEB2201XEB4701XEB0102XEB0472XEB1202XEB2202XEB0103XEB0473XEB1203XEB2203XEB0105XEB0475XEB01010


Dimensions

Features

Applications

°C

UL E47474E47474

1214750P07207757FI27517

�F±20%


Circuit

010331235

10

�F�F

�F�F�F�F�F

010047120220470

1047120220470

EX B

W±

H±

F±1

±

11*1

00±1

0

±

W±

*100

±10

H±

F±1

10±2

±

W±

F±1

10±2

10±2

*100

±10

H±

*200± ±

X2

W H F

XEB0105

1×105

XEB SERIES SPARK QUENCHER

64

X2

CRE-10201CRE-20151CRE-30680CRE-505003CRE-30680*3CRE-505006CRE-50500


Dimensions

Circuit

Features

Applications

°C

ULVDE


11

22W±1

H±1

±110

±2

UL-1015

10±2

±111

F±3 F±3

22W±1

UL-1015

H±1

810

H±1

±1

F±1

15W±1

UL-1015

3

6CRE3CRECRE

CRE 3CRE 6CRE

�F±20% W

23

25

H

26

32 16

F

13

-

15

35 26

800V

CRE, 3CRE, 6CRE SERIES SPARK QUENCHER

201151680500

10203050

None36

RC E

65

SPAR

K QU

ENCH

ERS

Features

Applications

°C

UL

Circuit Circuit

Dimensions

Electrical Specifications Rated Voltage 500Vac

W H±

270330470680

10203050

None3

RC H

CRH, 3CRH SERIES SPARK QUENCHER

66

MEMO

67

NOIS

E FI

LTER

S

AC POWER LINE NOISE FILTERS

68

The information provided in this catalog, as well as any additional data supplied by Okaya or Okaya representatives, is for general use only to assist the buyer in making its own independent decision as to the suitability of the products for the buyer's intended use and application.Except for any limited warranties contained in Okaya Terms and Conditions, OKAYA DISCLAIMS WITH RESPECT TO THEIR GOODS AND DATA AND INFORMATION RELATED TO THEM, ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND ALL IMPLIED WARRANTIES OF FITNESS FOR A PARTICULAR PURPOSE.The specifications contained in this catalog are subject to change without notice.For improvement, specifications are subject to change without prior notice.When components are used for special applications requiring high reliability (life maintenance equipment, atomic energy, airplanes, artificial satellites, etc.), contact us beforehand. Also make sure to evaluate and verify the components in a state that they are mounted on actual equipment.

SUP-E H

SUP-E H-EP

*Terminal: PVC=Flex PVC Terminal, F=Faston® Terminal, SW=Screw Terminal, SR=Solder Terminal, SWB= Screw Terminal Block

SUP -EXSUP -EYSUP-ET -ER-0

SUP-G H-EPRSUP-P H-EPRSUP-P H-E1PR /-RSUP-EP -ER-6SUP-EQ -ER-6SUP-EK -ER-6SUP-EL -ER-6SUP-EV -ER-6SUP-EW -ER-6SUP-J H-ERSUP-MH-ER-43SUP -BE-6~303SUP -BE-50, 603SUP -BH-6~303SUP -BH-50, 603SUP -AE3SUP -AH3SUP-HL -ER-6SUP-B R-ESUP-C G-ERZR-NSUP-K H-ERB

Model NumberRatedVoltage(Vac)

250250250250250250250250250250250250250250250250250250250250500500250500500250250

-125/250

UL,cUL,SEMKOUL,cUL,SEMKOUL,cUL,SEMKO

CSA,SEMKOUL,CSA,SEMKO

CSA,SEMKOUL,CSA,SEMKOUL,CSA,SEMKOUL,CSA,SEMKOUL,CSA,SEMKO

UL,cUL,TÜVUL,cUL,TÜVUL,cUL,TÜVUL,cUL,TÜV

UL,cUL,SEMKOUL,cUL,SEMKO

CSA,SEMKOUL

UL,cUL,SEMKOUL,cUL,SEMKOUL,cUL,SEMKOUL,cUL,SEMKOUL,cUL,SEMKOUL,cUL,SEMKO

UL,TÜVUL---

1 2 3 4 5 6 8 10 15 20 30 40 50 60 70 75 80 100 150 200 250 300

Rated CurrentPage

72~7374~7576~77

787879798081828384858687888990

91~9295

93~9496979899

100100101102

ResinResinMetalMetalMetalMetalMetalMetalMetalMetalMetalMetalMetalMetalMetalMetalMetalMetalResinResinResinResinMetalMetalMetalPlasticPlastic

-Metal

SafetyStandard Terminal*

SWBSWB

FPVC

F, SW, SRPVCSW

F, SW, SRF, SW, SRF, SW, SR

SWBSWBSWBSWBSWBSWBSWSW

SWBSWBSWBSWBSWBSWBSWBLeadLead

-SW

Case

NOISE FILTERS

69

NOIS

E FI

LTER

S

INTRODUCTIONRecent years have witnessed tremendous

advances in electronics. In the field of computers andrelated equipment, legal restrictions regarding safety and noise generation have grown more strict with each passing year. In most cases, electronic devices exported must now conform to the noise regulations of the target country in order for them to be given market approval.

The following is an introductory description of the ways in which noise is generated and the various noise regulations currently enforced throughout the world.

As shown in Figure 2, conductive noise can also be divided into two types, normal mode noise involving symmetrical noise components oscillating between lines (L1-L2) and common mode noise involving asymmetrical noise components transmitted between a line and ground (L1-E, L2- E).

The noise generated by electronic devices consists of two kinds. Radiated noise is transmitted directly into the air from an electronic device, taking the form of an electric wave that interferes with other electronic devices. In contrast Conductive noise interferes with other components and devices by being transmitted along power lines and the wiring of electronic circuits. These two kinds of noise can be briefly explained in the context of an electronic device by means of the following diagram (Figure 1).

NOISE GENERATION AND TRANSMISSION

A key counter measure taken against noise is the use of noise filters. The operating principles of these devices are described in the following:

Viewed from the perspective of the circuit network, the noise filter is a kind of low range or low pass filter. It is designed to pass only frequencies lower than the cut off frequency of the filter, while attenuating or blocking all ranges higher than the cut off frequency.

As shown in Figure 3, the filter operates according to a principle whereby inductance connected directly in series with the line has virtually no affect on the noise current at low frequencies, but at high frequencies it demonstrates a high interruptive effect with respect to the noise current.

Also, a capacitor connected in parallel with the line is used as a side path to return high frequency back to the power line. The result is that normal mode noise passes through the capacitor and is shunted back to the other line. In the case of common mode noise, the result is that the noise passes through the midpoint of the two capacitors to ground.

The use of special materials such as amorphous alloys and toroidal cores gives the Okaya noise filters excellent insertion loss characteristics and high voltage pulse attenuation capability.

OPERATING PRINCIPLES OF NOISE FILTERS

1. Conductive noise from electric power line.2. Conductive noise along the signal lines connecting

electronic devices.3. Radiated noise transmitted from an electronic

device which interferes with another device.4. Radiated noise picked up and generated by the

power line which acts as an antenna.5. Radiated noise picked up and generated by the

signal lines which act as an antenna.6. Noise produced from a source within the electronic

device.7. Noise entering from the ground line..

A) Electronic device

Figure 1 Figure 2 Figure 3

NOISE FILTERS

70

2. Dynamic CharacteristicsIn order to achieve measurement results as near as

possible to actual application conditions, the following method is used: With a noise simulator as the noise generating source, a rated current is allowed to flow through the test device and a simulated power circuit network. The amount or normal mode and common mode attenuation is measured.

1. Static CharacteristicsWith a measuring impedance of 50 ohms, the

amount of attenuation (insertion loss) is determined by using a level meter to measure the voltage before and after insertion of a noise filter into the test circuit. Using this method, both normal mode and common mode attenuation can be measured.

EVALUATION METHODS OF NOISEFILTER CHARACTERISTICS

3. Pulse Attenuation CharacteristicsThe following method is used to measure the noise

margin for the external noise in an electronic device: a noise simulator is connected and the input/output voltages are measured. The formula noted below is then used to calculate the amount of attenuation in the form of the pulse absorption effect produced. In general, the noise condition used to test malfunctions is a high voltage pulse of 50nsec. to 1�sec at 1,000V to 2,000V in amplitude.

Measuring Circuit

Attenuation = 20 log 10 ( V2 / V1 ) [dB]V1 Level when test material is insertedV2 Level when test material is not insertedTest material: Noise filter.

Attenuation = 20 log 10 ( Vo / Vi ) [dB]

SUP-G H-EPR-4

Normal Mode Common Mode

NOISE FILTERS

71

NOIS

E FI

LTER

S

Bundling or parallel arrangement of input/output lines (poor example)

Separation of input/output lines (good example)

The following points should be kept in mind with regard to the installation of noise filters.

When mounting on the noise producing side, they should be mounted as close as possible to the source of the noise with noise electrical or mechanical contact between the input and output side of the filter.(Example) When the input/output lines are bundled together or arranged parallel with each other, high frequency noise components induced on the input side, results in the production of noise current on the output side.

APPLICATION PRECAUTIONS

1.

When the device is directly installed on the equip-ment exposed to interference, it is important to mount the noise filter as close as possible to the machines power unit or input wiring. If a power line is allowed to enter the case of the equipment without passing through the noise filter, noise current can be radiated throughout the inside of the equipment enclosure, affecting the internal electronics.

2.

Precautions should be taken to insure that the ground line for the noise filter has a lower imped-ance than that of the noise current. If this is not done, the noise prevention effect will be lost. Also, ground lines should be as short as possible. The use of long ground lines will result in substantial reduction of the noise prevention effects (particularly in the high frequency ranges above several MHz.).

3.

Whenever possible, the outer case of the noise filter should be mounted directly to the outer case of the electronic equipment. When this is not possible, a short grounding line should be used to link the outer case of the filter and the equipment.

4.

InputOutput

Input

Output

NOISE FILTERS

72

SUP -EX SERIES NOISE FILTERS

Features

Applications

s are UL


Circuit

Dimensions

=

LR

SUPSUPSUPSUPSUPSUP RSUP RSUP RSUP RSUP R

S U XP E R 6

FH E

E1

NoneDIN

73

NOIS

E FI

LTER

S

Tolerances: ±0.5Unit: mm

Static characteristics

Dimensions

SUP -EX SERIES NOISE FILTERS

(96)

88

52

44

39

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

SUPF-EX5-ER-6

Atte

nuat

ion

(dB

)

Frequency (MHz)

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

SUPF-EX30-ER-6

Atte

nuat

ion

(dB

)

Frequency (MHz)

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

SUPH-EX30-ER-6

Atte

nuat

ion

(dB

)

Frequency (MHz)

SUPH-EX5-ER-6

Note when installing EMI filter on DIN railEven though the ground connects correctly through the DIN rail, may not get noise attenuation. Be sure to connect the FG ground of EMI filter to the ground directory.

0

10

20

30

40

50

60

70

80

90

100

00.1 1 10 100

10

20

30

40

50

60

70

80

90

100

Atte

nuat

ion

(dB

)

Frequency (MHz)

Normal ModeCommon Mode


Impedance


Impedance

Impedance


Impedance

DIN rail type (option)

74

L

CyCx CyCxR

SUP -EY SERIES NOISE FILTERS

Features

Applications

UL


Circuit

Dimensions

=

SUPSUPSUPSUPSUPSUP RSUP RSUP RSUP RSUP R

S U YP E R 6

FH E1

None

NoneDIN

75

NOIS

E FI

LTER

S

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

SUPF-EY10-E1R-6

Atte

nuat

ion

(dB

)

Frequency (MHz)

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

SUPF-EY10-R-6

Atte

nuat

ion

(dB

)

Frequency (MHz)

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

SUPH-EY10-E1R-6

Atte

nuat

ion

(dB

)

Frequency (MHz)

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

SUPH-EY10-R-6

Atte

nuat

ion

(dB

)

Frequency (MHz)



Dimensions

SUP -EY SERIES NOISE FILTERS

(96)

88

52

44

39





Impedance


Impedance

Impedance


Impedance

76

SUP-ET SERIES NOISE FILTER

Features

Applications

UL

Circuit

S U TP E RE 0

NoneDIN

Dimensions (5 ~ 20A)


RL

77

NOIS

E FI

LTER

S

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

SUP-ET15-ER-0

Atte

nuat

ion

(dB

)

Frequency (MHz)

SUP-ET5-ER-0

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

Atte

nuat

ion

(dB

)

Frequency (MHz)

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

SUP-ET10-ER-0

Atte

nuat

ion

(dB

)

Frequency (MHz)

0.1 1 10 1000

10

20

30

40

50

60

70

80

90

100SUP-ET20-ER-0

Atte

nuat

ion

(dB

)

Frequency (MHz)



Dimensions

SUP-ET SERIES NOISE FILTER





Impedance


Impedance

Impedance


Impedance

(96)

88

52

52

47

78

SUP-E1HSUP-E2HSUP-E3HSUP-E5H( )SUP-E10H( )SUP-E15H( )SUP-E20H( )


Dimensions

Features

Applications


Dimensions

SUP-E1HSUP-E2HSUP-E3H

B D

20

E F

70

H

2525

30 15 20

SUP-E2H

SUP-E

SUP-E


2-

1235101520

-------

100

130

270

-25 ~ +55

-25 ~ +50

-0-2

-0-2-0-2-0-2

0102030

50

70

100

10 20 30

Circuit

1

2

3

NOISE FILTERSSUP-EH SERIES

ons

79

NOIS

E FI

LTER

S

SUP-E1H-EPSUP-E2H-EPSUP-E3H-EPSUP-E5H-EPSUP-E10H-EPSUP-E15H-EPSUP-E20H-EP

Dimensions

Dimensions

Features

Applications

Circuit

SUP-ESUP-E

Static characteristicsSUP-E3H-EP

UL


1235101520

30K

35K

25±111±1

100±2

F±1

M±1

E±1

TVSS Characteristics Pulse width 800nsec

1

2

3

1

2

3

0102030

50

70

100

10 20 30

0

00

20

100

120

200

2 10 12 20 ×10²

E2H-EP

E3H-EP

E3H E1H-EP

0

00

20

100

120

200

2 10 12 20 ×10²

E5H

E20H-EP

E5H-EP

E15H-EP

E10H-EP

E20H

E10H

E15H

SUP-E1H-EPSUP-E2H-EPSUP-E3H-EP

D

20

E F

70

H

25

M

25

30 15 20 3

NOISE FILTERSSUP-EH-EP SERIES

105

135

270

80

SUP-G5H-EPR( )SUP-G10H-EPR( )SUP-G15H-EPR( )SUP-G20H-EPR( )


Dimensions

Features

Applications

®UL :UL1283



5101520

-25 ~ +55*-25 ~ +50

-2

-2

-2

-2

*85

TVSS characteristics

® ®

®(#250)

®(#250)

Circuit

NOISE FILTERSSUP-GH-EPR SERIES

270

SUP-G5H-EPR

0102030

50

7080

100

10 20 30

1

0

G5H

G5HG10H

G10H

G20HG15HG20H

G15H

00

20

80

100

120

180

1 2

1

2

3RR

1

2

3

81

NOIS

E FI

LTER

S

SUP-P H-EPR

Dimensions

Features

Applications

®SEMKO


CircuitStatic characteristics

®

®®

®

TVSS characteristics

R

NOISE FILTERSSUP-PH-EPR SERIES

82

100±2

24±1

84±1

5-M4®

®

®

®


Dimensions

Circuit

Features

Applications

®

ov


SUP-PSUP-PSUP-P

58101520

58101520

-0-2-4-0-2-4-0-2-4-0-2-4-0-2-4

-0-2-4-0-2-4

-0-2-4-0-2-4-0-2-4

------

TVSS characteristicsStatic characteristics

1

2 4

1

2 4

1020

4050

80

100

10

1 ×10²

(

0

20

40

80

100

120

140

180

200

2 4 8 10 12 14 18 201 ×10²

(

0

20

40

80

100

120

140

180

200

2 4 8 10 12 14 18 20

NOISE FILTERSSUP-PH-E1PR / -R SERIES

83

NOIS

E FI

LTER

S

SUP-EP5-ER-6SUP-EP10-ER-6SUP-EP15-ER-6SUP-EP20-ER-6SUP-EP30-ER-6

Features

Applications

UL :UL1283E78644

R2-50006831


Dimensions (5~30A)

0

10

20

30

40

50

60

70

80

100

1 1 10 100

Circuit (5 ~ 30A)

1

2

3

4

RL


510152030

45K

SUP-EP5-ER-6

NOISE FILTERSSUP-EP SERIES

450

84

SUP-EQ5-ER-6SUP-EQ10-ER-6SUP-EQ15-ER-6SUP-EQ20-ER-6SUP-EQ30-ER-6

Features

Applications

ULUL

:UL1283E78644


(A) (°C)


Dimensions (5~30A)

Circuit (5~30A)

1

2

3

4

RL

510152030

45K

SUP-EQ5-ER-6

0

10

20

30

40

50

60

70

80

100

1 1 10 100

100

2- × 2-

LINE

/LOAD

LINE

/LOAD

NOISE FILTERSSUP-EQ SERIES

450

85

NOIS

E FI

LTER

S

SUP-EK5-ER-6SUP-EK10-ER-6SUP-EK15-ER-6SUP-EK20-ER-6SUP-EK30-ER-6

Features

Applications

UL :UL1283E78644

R2-50006837


Dimensions (5~30A)

Circuit (5 ~ 30A)


510152030

45K

SUP-EK5-ER-6

0

10

20

30

40

50

60

70

80

100

1 1 10 100

1

2

3

4

RL

100

2- × 2-

LINE

/LOAD

LINE

/LOAD

NOISE FILTERSSUP-EK SERIES

500

86

SUP-EL5-ER-6SUP-EL10-ER-6SUP-EL15-ER-6SUP-EL20-ER-6SUP-EL30-ER-6

Features

Applications

UL :UL1283E78644

R2-50006835



Dimensions (5~30A)

Circuit (5~30A)

510152030

45K

SUP-EL5-ER-6

0

10

20

30

40

50

60

70

80

100

1 1 10 100

100

2- × 2-

LINE

/LOAD

LINE

/LOAD

1

2

3

4

RL

NOISE FILTERSSUP-EL SERIES

500

87

NOIS

E FI

LTER

S

SUP-EV5-ER-6SUP-EV10-ER-6SUP-EV15-ER-6SUP-EV20-ER-6SUP-EV30-ER-6

Features

Applications

UL :UL1283

:

E78644

SE/0142-12


Dimensions (5~30A)

Circuit (5 ~ 30A)


20

2020

20

510152030

45K20

2020

2

6-M4

12

75

10

50 60

10088

×

1

2

3

4

RL

NOISE FILTERSSUP-EV SERIES

300

SUP-EV15-ER-6

0

10

20

30

40

50

60

70

80

0

100

0 1 1 10 100

88

SUP-EW5-ER-6SUP-EW10-ER-6SUP-EW15-ER-6SUP-EW20-ER-6SUP-EW30-ER-6

Features

Applications

UL :UL1283E78644

SE/0142-12


20

2020

20

202020


Dimensions (5~30A)

Circuit (5~30A)

1

2

3

4

RL

510152030

45K

SUP-EW15-ER-6

0

10

20

30

40

50

60

70

80

100

1 1 10 100

12

6-M4

2

60

10

50

100

75

88

2-2- ×

NOISE FILTERSSUP-EW SERIES

300

89

NOIS

E FI

LTER

S

SUP-J5H-ER-4SUP-J10H-ER-4SUP-J15H-ER-4SUP-J20H-ER-4SUP-J30H-ER-4

Features

Applications

:


Dimensions

Circuit


20510152030

SUP-J

J5H

SUP-J10H-ER-4

100

50403020100

30201030

1

2

3

4

R

NOISE FILTERSSUP-JH-ER SERIES

230

1

90

Safety Standard File No.UL : UL1283 E78644

Guaranteed attenuation of *1 is 30dB, *2 is 35dB, *3 is 40dB, *4 is 25dB and *5 is more than 20dB.

Features

Applications

406080100200300

2.0 ~ 302.0 ~ 302.0 ~ 302.0 ~ 302.0 ~ 302.0 ~ 30

*4

*5

*5

*5

*5

*5

1.0 ~ 300.6 ~ 300.6 ~ 300.4 ~ 300.4 ~ 300.4 ~ 30

35KLess than1.0

Line to Groundmin

Line to Line1,000

Line to Ground2,000

*1

*2

*2

*3

*3

*3

Rated Voltage 250VacNumber

Insertion losses

max.max.max.

InsulationSafety


NOISE FILTERSSUP-MH-ER-4 SERIES


dB

0.1 1 10 100

100

90

80

70

60

50

40

30

20

10

0


Impedance

1

2

3

4

LCircuit

Unit: mm

0.40.91.02.07.2

12.0

270±1.5290±1

310±1.5386±4

120±1.5

20±1.560±1.5

130±

1.5

195±

122

0±1.

5

260±1240±1.5

280±1.5343±4

100±1.550±1.5

20±1.5

138±

190

±1.5

160±

1.5

58±0

.5

60±130±1

40±1

70±1

188±2160±1130±1

144±0.5

190±1.5

150±1.5170±1

110±

1.5

95±1

60±1

.5

70±1.540±1.515±1.5

251±4

114±4103±1.593.1±174±1.5

46±1.5

11±1.531±1.5

56±1

.530

±1.5

Dimensions

91

NOIS

E FI

LTER

S

Line to case

(at 500Vdc)1.0Vac 60K


50/60Hz 60sec(at 250Vac

60Hz)

-25 ~ +50(Derating of

50 to 85°C)

3SUP -BE(6~30) SERIES NOISE FILTERS

Features

Applications

ULcULSEMKO

:UL1283:C22.2, No.8-M1986:EN60939

E78644

SE/0142-32

File No.

Circuit

(MHz)Electrical Specifications Rated Voltage 250VacTest Voltage

InsulationResistanceStandard

RatedCurrent Current *2

VoltageRise

(°C)

3SUP3SUP3SUP3SUP

*1

6102030

Dimensions

Tolerances: ±1.0

Weight

490510530540

558

65±1

.5

124114

65

M4

M4

R

L

C 2C 1

C

S U EP3Rated CurrentCore Material

B RE 6

FH

Ferrite NoneDIN

A*8 varieties (0.8~54mA)

92



Dimensions

3SUP -BE(6~30) SERIES NOISE FILTERS



0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

3SUPF-BE6-ER-6-A

Atte

nuat

ion

(dB

)

Frequency (MHz)

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

3SUPF-BE30-ER-6-A

Atte

nuat

ion

(dB

)

Frequency (MHz)

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

3SUPH-BE30-ER-6-A

Atte

nuat

ion

(dB

)

Frequency (MHz)

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

3SUPH-BE6-ER-6-A

Atte

nuat

ion

(dB

)

Frequency (MHz)

(135.2)

65

124

71

66


Impedance


Impedance

Impedance


Impedance


93

NOIS

E FI

LTER

S

Line to case

(at 500Vdc)1.0Vac 60K



60Hz)


50 to 85°C)

3SUP -BE(50, 60) SERIES NOISE FILTERS

Features

Applications

ULcULSEMKO

:UL1283:C22.2, No.8-M1986:EN60939

E78644

SE/0142-33

File No.

Circuit

(MHz)Electrical Specifications Rated Voltage 250VacTest Voltage *2



VoltageRise

(°C)

3SUP

3SUP

50

60


Dimensions

Tolerances: ±1.0

162172

5510

80 90

2-M4 6-M5

1724

ttenu

atio

n (d

B)

0102030405060708090

100

0.1 1 10 100

Impedance


MHz)

0102030405060708090

100

0.1 1 10 100

3SUPH-BE50-

ttenu

atio

n (d

B)

Impedance


MHz)

R

L

C 2C 1

C

Weight

1,000

94

NOISE FILTERS

Features

Applications

Circuit

Dimensions

558

65

S U HP3 B RE 6

FH

NoneDIN

F*7 varieties (0.8~37mA)

60K

3SUP -BH(6~30) SERIES

MElectrical Specifications Rated Voltage 500Vac

6

L

95

NOIS

E FI

LTER

S

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

3SUPH-BH6-ER-6-F

Atte

nuat

ion

(dB

)

Frequency (MHz)

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

3SUPH-BH30-ER-6-F

Atte

nuat

ion

(dB

)

Frequency (MHz)

3SUPF-BH6-ER-6-F

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

Atte

nuat

ion

(dB

)

Frequency (MHz)

0

10

20

30

40

50

60

70

80

90

100

0.1 1 10 100

3SUPF-BH30-ER-6-F

Atte

nuat

ion

(dB

)

Frequency (MHz)



Dimensions

3SUP -BH(6~30) SERIES NOISE FILTERS




Impedance


Impedance

Impedance


Impedance


(135.2)

65

124

71

66

96

Line to case

(at 500Vdc)1.0Vac



60Hz)

60K(Part of coil)


50 to 85°C)

3SUP -BH(50, 60) SERIES NOISE FILTERS

Features

ULcULSEMKO

:UL1283:C22.2, No.8-M1986:EN60939

E78644

SE/0142-33

File No.

Circuit

(MHz)Electrical Specifications Rated Voltage 500VacTest Voltage *2



VoltageRise

(°C)

3SUP -BH50-ER-6-F

3SUP -BH60-ER-6-F

50

60


Dimensions

Tolerances: ±1.0

Applications

162172

5510

80 90

2-M4 6-M5

1724

R C C

C

L

3SUPF-BH50-ER-6-F

3SUPH-BH50-ER-6-F

ttenu

atio

n (d

B)

0102030405060708090

100

0.1 1 10 100

Impedance


(MHz)

ttenu

atio

n (d

B)

0102030405060708090

100

0.1 1 10 100

Impedance


(MHz)

1,000

97

NOIS

E FI

LTER

SModel Number *¹

Features

Applications


*²

NOISE FILTERS3SUP -AE SERIES


Dimensions

Circuit

R

F R

R

ModelNumber

Dimensions

S3 U P A E E R 6

FH

F

J

ModelNumber D F J M

D F J M N

98

Model Number *¹ Weighttyp.(kg)

Features

Applications

:

File No.


(A) *²Drop

NOISE FILTERS3SUP -AH SERIES

ModelNumber

ModelNumber


Circuit

Dimensions

Dimensions

S3 U P A H E R 6

FH

Ferrite

.

G .

.

.

.

..

(J)

R

A R

( ).

( ).

.

.

.

.

..

F

(G)

J

A B D F G J M

A B D F G J M N

99

NOIS

E FI

LTER

S

-25 ~ +50(85°C withTemp. rise)

35K1.5VacLine-Case

(at 500Vdc)

Line-Case2,000Vac50/60Hz

60sec

Model Number

3SUP-HL5-ER-63SUP-HL10-ER-63SUP-HL15-ER-63SUP-HL30-ER-63SUP-HL50-ER-63SUP-HL75-ER-63SUP-HL100-ER-63SUP-HL150-ER-63SUP-HL200-ER-6

ModelNumber

Dimensions(mm)A

226226226246286396396484484

B220220220230270370370440440

C195195195215255350350420420

D180180180200240330330400400

E100100100100120170170200200

F8585858590140140170170

G131313131318182525

H181818181823233030

I120120130140150155155200200

J5.5×75.5×75.5×75.5×75.5×76.5×86.5×86.5×86.5×8

K5.55.55.55.55.56.56.56.56.5

LM4M4M4M4M6M6M6M8M8

3SUP-HL5-ER-63SUP-HL10-ER-63SUP-HL15-ER-63SUP-HL30-ER-63SUP-HL50-ER-63SUP-HL75-ER-63SUP-HL100-ER-63SUP-HL150-ER-63SUP-HL200-ER-6

Features

Applications

TÜV).

ULTÜV

:UL1283:EN60939

E78644R50056176

File No.


Standard

RatedCurrent

(A)

Guaranteed attenuation is more than 30dB (*more than 40dB) in normal mode and more than 25dB (*more than 20dB) in common mode.

Dimensions

Unit: mm

51015305075100150200


0

20

40

60

80

100

0.1 1 10 100

3SUP-HL75-ER-6

Atte

nuat

ion

(dB

)

Normal modeCommon mode

Normal Mode(MHz)

Common Mode(MHz)

Insertion lossesTemperature

(°C)

TemperatureRisemax.

Dropmax.

Currentmax.

8.0mA(at 500Vac

60Hz)

InsulationResistance

Test

*0.15 ~ 30

0.15 ~ 30

0.15 ~ 10

*0.15 ~ 10

0.15 ~ 10

Circuit

123

456

LINE LOAD

NOISE FILTERS3SUP-HL-ER-6 SERIES

3.03.34.05.26.5

12.012.523.524.5

100

Static characteristics Static characteristics

Circuit


Dimensions

Applications

Features

Applications

Features

Rated

Circuit

Dimensions

NOISE FILTERSSUP-CG-E SERIESSUP-BR-E SERIES

101

NOIS

E FI

LTER

S

Dimensions

Applications

Features

Zero Phase Reactive Coil

)

Z -6Z -99Z -68Z - 834

NOISE FILTERSRZR-N SERIES

D

A

X7

-- 4

RZR-6815NRZR-9920NRZR-12834N

A DWeight

4

6

9

-

3 4

6 7

73

- 4

RZR-6020N

102

SUP-K10H-ERB-4P1SUP-K15H-ERB-4P1SUP-K20H-ERB-4P1SUP-K30H-ERB-4P1SUP-K10H-ERB-4P2SUP-K15H-ERB-4P2SUP-K20H-ERB-4P2SUP-K30H-ERB-4P2

Features


Guaranteed attenuation is more than 30dB.

Applications

Features

Withstand

Rated

max. max.Risemax.

0.5 ~ 201.0~300.9~302.0~300.5~301.0~300.9~302.0~30

125

250

Rated

1015203010152030

100 min. 1.5 30K-25 ~ +55

0.6 ~ 301.0~300.5~300.7~300.6~301.0~300.5~300.7~30

Line to

1.2

0.5 mA

1.0 mA


SUP-K15H-ERB-4

Dimensions

100908070605040302010

00.1 0.3 0.5 1.0 3.0 5.0 10 20 30

Circuit1

2

3

4

R

NOISE FILTERSSUP-KH-ERB-4 SERIES

660680

660680

SURG

E PR

OTEC

TIVE

DEV

ICES

103

TRANSIENT VOLTAGESURGE ABSORBERS(SURGE PROTECTIVE DEVICES)

104

SURGE PROTECTIVE DEVICES

Application FeaturesModel Series Impulse DischargeCurrent 8/20�s (A) Page

IEC61643-1 approvalIEC61643-1 approval IEC61643-1 approvalIEC61643-1 approval

Lightning surgeLightning surgeLightning surgeLightning surgeLightning surgeLightning surge

Micro gap Gas dischargeLightning surge

Ceramic gas arresterCeramic gas arresterCeramic gas arrester

SMD Gas discharge tubeFast response Gas discharge tube w/tapingFast response Gas discharge tube w/taping

Fast response Gas discharge tube Fast response Gas discharge tube

IEC61643-1 approvalIEC61643-1 approvalIEC61643-1 approvalIEC61643-1 approval

Lightning surgeLightning surgeLightning surgeLightning surgeLightning surge

Ceramic gas arresterCeramic gas arresterCeramic gas arrester

SMD Gas discharge tubeSMD Gas discharge tube

Fast response Gas discharge tubeFast response, high capacity surge protectionFast response, high capacity surge protectionFast response Gas discharge tube w/tapingSurge protector for Cat8e PoE1000BASESurge protector for LAN10/100BASE -T

Surge protector for RS232, 9 pinLightning surge protector for phone line

Lightning surge protector for RS485/422 Lightning surge protector for RS485/422

Lightning surge protector for data lineFast response, high capacity surge protectionFast response, high capacity surge protectionFast response Gas discharge tube w/taping

Lightning surge protector for DC power circuitresponse, high capacity surge protection

Fast response, high capacity surge protectionSMD Gas discharge tube

Fast response Gas discharge tubeFast response Gas discharge tube w/taping

Surge protector for RS(EIA)232

LV-QSV-QLVF-Q

RSPD-QR·C·M-BQZ-4, -5R·A·V-BWZ-4, -5R·A·V-BWZ-2A

R·A·M-BWZ,BXZ(LED)R·A·M-152BQZ(LED)

R·A·M-LASR·A·V-LDEZ, BWZ-3C

CTSPDR28-S

R28, R38R26, R36

RHCA5039RA-MX-V7-Y/ Y(5)

RA-MX-V7-Y/ Y(SJQ)RA-V7RA-C6LV-U

LVF-USV-U

RSPD-UR·C·M-BUZ-4, -5R·A·V-BXZ-4, -5

R·A·V-BXZ-2A, BYZ-2R·A·M-BUN-Z(LED)

R·A·V-BWZ-3CR28-S

R28, R38R26, R36

R5K, R5K3RHCA3216, 4532

RA-C6R·A·V-L-AR·A·V-LD

ZP, CP, U, B, SARLAN, RLAN2RSP-LAN-B

RSP-232RSP-TELRSP-485

RSD5-485R·S·M-GL, GL-PT

R·A·V-L-AR·A·V-LD

ZP, CP, U, B, SARSP-DC

R·A·V-L-AR·A·V-LD

RHCA3216RA-C6

ZP, CP, U, B, SARSP-232

106~107110~111112~113108~109114~115116~117118~119

120121122123124125

126, 128127, 129134~135140~141142~143144~145146~147106~107110~111112~113108~109114~115116~117118~119

120123125

126, 128127, 129130~133136~139146~147148~151

161152~155164, 165

157158158159160

162, 163148~151

161152~155

156148~151

161136~137146~147152~155

158

5,0005,00010,0005,0005,0002,5002,5002,0002,0002,0001,000

9,000~20,00010,0005,0002,0003,5003,5003,5002,0005,0005,00010,0005,0005,0002,500

1,000~2,0002,40020,00010,0005,0005,000500~2,0002,4002,40025.5~5,000

-2,000

-2,0005,0001,0002,4002,40025.5~128~2,4002,400500

2,00025.5~2,000

AC Power Line Lightning

Surge Single Phase

DC Power LineOn-Off Surge

Surge Protection for Network Line

SinglePhase

ThreePhase

ElectrostaticSurge

The information provided in this catalog, as well as any additional data supplied by Okaya or Okaya representatives, is for general use only to assist the buyer in making its own independent decision as to the suitability of the products for the buyer's intended use and application.Except for any limited warranties contained in Okaya Terms and Conditions, OKAYA DISCLAIMS WITH RESPECT TO THEIR GOODS AND DATA AND INFORMATION RELATED TO THEM, ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND ALL IMPLIED WARRANTIES OF FITNESS FOR A PARTICULAR PURPOSE.The specifications contained in this catalog are subject to change without notice.For improvement, specifications are subject to change without prior notice.When components are used for special applications requiring high reliability (life maintenance equipment, atomic energy, airplanes, artificial satellites, etc.), contact us beforehand. Also make sure to evaluate and verify the components in a state that they are mounted on actual equipment.

SURG

E PR

OTEC

TIVE

DEV

ICES

105

BASIC CIRCUIT TO PROTECT EQUIPMENT APPLICATION Input impedance is high Protecting telephone lines

Protecting telecommunications and signal lines

Single phase power supply

Three-phase inverter power supply

Protecting power supply for vending machine

Input impedance is low

R·A·V-LD

PTC

T

R

RA-C6

T

T

R

R

R·A·V-L-A×3

NFB

*1

*1

*2

NFB

RAV

RAV

RAV

RAV

PROTECTED

EQUIPMENT

PROTECTED

EQUIPMENT PROTECTEDEQUIPMENT

PROTECTEDEQUIPMENT

PROTECTEDEQUIPMENT

PROTECTEDEQUIPMENT

PROTECTEDEQUIPMENT

PROTECTEDEQUIPMENT

PROTECTEDEQUIPMENT

Z, R

RAV

Z, R

Z, RRAV

RAV

PROTECTED

EQUIPMENT

PROTECTED

EQUIPMENT

The resistors (R) or MOV (Z) control continuous flow discharge and low value ones should be selected so as not to reduce the capacity of the surge protection device.


LV-Q4RSPD-Q4, 5

*2 SV-U4LV-U4RSPD-U4, 5

NFB *3PROTECTEDEQUIPMENT

*3 LV-Q4RSPD-Q4, 5

106

Features

circuit components and offers the same voltage

ion

Applications


L V D I 4

QU

LV SERIES SURGE PROTECTIVE DEVICES

Indicator of disconnector status

Status

SURG

E PR

OTEC

TIVE

DEV

ICES

107

Dimensions

Circuit

LV DI-Q4 LV DI-U4

LV SERIES SURGE PROTECTIVE DEVICES

LV-LV-

1 2 3

MOV

1 2

MOV

+ - + -

108

Features

Applications

:


RSPD SERIES SURGE PROTECTIVE DEVICES

R S P D

QU

45

SURG

E PR

OTEC

TIVE

DEV

ICES

109

Dimensions

Circuit RSP1 321 2

RSPD SERIES SURGE PROTECTIVE DEVICES

±

A

23

28±1

2

1 23

28±1

2

1 3

A

1 2

±

±

11

28±1

200

+30

11±1

1 2 3

±

11

28±1

200

+30

11±1

±

110

Features

for remote detection of separation.

Applications

SV SERIES SURGE PROTECTIVE DEVICES


±

QU

VS D A 4

SURG

E PR

OTEC

TIVE

DEV

ICES

111

SPD (Surge Protective Device)SV SERIES

SV- DI-Q4 series (Single-Phase) SV- DI-U4 series (Three-Phase)

Disconnector

MOV

GDT

Green.Yellow

Black Black Black

Blue

Blue

Contact : Mechanical typeMaximum rating for contact circuit : DC26.4V, 200mAContact switching condition : Normal (Close)Abnormal (Open)

Flexible wires in black color can connect to each phase without any specific control.

Unit: mm

MOV

GDT

Black

Blue

Blue

Green.YellowBlack

Disconnector

SV- DI-Q4 series SV- DI-U4 series

Dimensions

Circuit

200

+30

-037

.5±1

44±1

4±0.

5

9.5±

15±

1

42±1

Flexible cableUL1015 AWG16

Signal cableUL1007 AWG20

Main body installation

CaseUL94 V-0

200

+30

-037

.5±1

44±1

4±0.

5

9.5±

15±

1

42±1

UL1015 AWG16

UL1007 AWG20


Flexible cable

Signal cable

CaseUL94 V-0

112

5,000 10,000

LVF150DI-Q4LVF250DI-Q4LVF250DI-U4LVF300DI-Q4LVF300DI-U4LVF480DI-Q4LVF480DI-U4

AC150V

AC250V

AC300V

AC480V

SinglePhaseSinglePhaseThreePhaseSinglePhaseThreePhaseSinglePhaseThreePhase

450

700

1,000

1,400

1,200

1,500

2,000

2,500

Rated Voltage50/60HzModel Number

VoltageProtection Level

(V)

Nominal Discharge Current

Max. Discharge Current

ImpulseLife Test

000A

DC OperatingVoltage

(V) ±25%

Approx.500 times

FeaturesCompliant to the standard specification of the Ministry of Land, Infrastructure, Transport and Tourism

short-circuit (separation of circuit and element is visually confirmable)

can protect as the same level.

Applications

etc.


LVF SERIES SURGE PROTECTIVE DEVICES


NormalAbnormal

Status


VL F D I 4

Series name

Rated Voltage

QU

1 Phase3 Phase

SURG

E PR

OTEC

TIVE

DEV

ICES

113

LVF- DI-Q4 series LVF- DI-U4 series

1 2 3

GDT

Green.Yellow

1 2

GDT

MOV

Black Black Green.Yellow

LVF SERIES SURGE PROTECTIVE DEVICES

DisconnectorDisconnector

Flexible wires in black color can connect to each phase without any specific control.

LVF- DI-U4 series (Three-Phase)LVF- DI-Q4 series (Single-Phase)

Unit: mm

Dimensions

Circuit

Black Black Black

26±0.5

9.5±

15±

138

.5±1

200

+30

-030

±1

52±1

4±0.

5

MTW-H07TK AWG16Flexible cable

Green: NormalNo Green: Abnormal

Status



CaseUL94 V-0

4±0.

5

52±1

30±1

200

+30

-0

38.5

±15±

19.

5±126±0.5

Flexible cable

MTW-H07TK AWG16

Green: NormalNo Green: Abnormal

Status



CaseUL94 V-0

MOV

114

ULcULTÜV

:UL1449 3rd. :C22.2 No.8 :EN60099-1:1994+A1

E322107

J2150288

Safety Standard File No.

Applications

Rated Voltage

SURGE PROTECTIVE DEVICESR·C·M- SERIESBQZ-4, BQZ-5BUZ-4, BUZ-5

ModelNumber

SafetyStandard Rated Voltage

NominalDischargeCurrent

ins8/20�s (A)

Max. Standard lightning Impulse

SparkoverVoltage us

Max. SparkoverVoltage at tront of wave lighting

Impulse uas10,000V/�s (V)

Max.Residual

Voltage ur8/20/�s-2,500A

(V)

ImpulseLife Test

1,000A

Max.Impulse

DischargeCurrent ls

PowerFrequencySparkoverVoltage Ua(V) ±20%

R·C·M-601BQZ-R·C·M-601BUZ-R·C·M-781BQZ-R·C·M-781BUZ-R·C·M-801BUZ-

1 Phase3 Phase3 Phase3 Phase3 Phase

AC250V

AC430VAC250/430VAC290/500V

AC560

AC700

AC800

2,5002,000

2,320

3,000

3,480

2,000

2,320

300 times 5,000


Series name

R C M B Z

QU

1 Phase3 Phase

45

Wire typeLead type

- Y connection - Δ connection

R·C·M-XXX-4: Wire typeR·C·M-XXX-5: Lead type


Features

protection.

Phase applications.

Specification is different by delta connection and Y connection in Japan and overseas.Please use the RCM-BQZ and RCM-BUZ series at the rated voltage below.

machinery.

Y connection - (Line-Line)(Line-Line)

: R·C·M-781BQZ-4: R·C·M-781BUZ-4: R·C·M-801BUZ-4

AC250VAC250VAC290V

: R·C·M-601BQZ-4: R·C·M-601BUZ-4: R·C·M-781BUZ-4

SURG

E PR

OTEC

TIVE

DEV

ICES

115

SURGE PROTECTIVE DEVICESR·C·M- SERIESBQZ-4, BQZ-5BUZ-4, BUZ-5

Circuit

1 2

4.5±

0.5

28±1

200

41±1

5.5±

1.0

11±1

28.5

±1.0

Resin

Case

UL94V-0

UL94V-0

4.5±

0.5

200

28±1

28.5

±1.0

5.5±

1.0

31 2

UL94V-0

11±1

41±1

UL94V-0

Resin

Case

7

4±1

31.3

±115

.52.

7523

35.522.53.95

*2

*1

2

1

*2

*1

1

2

3

7

2.75

23 15

35.5

27.5

22.53.95

4±1

31.3

±1

+30

-0

+30

-0

1 2 31 2

Marking Marking

Dimensions

±

116

SURGE PROTECTIVE DEVICESR·A·V- SERIESBWZ-4, BWZ-5BXZ-4, BXZ-5

R·A·V-XXX-4: Wire typeR·A·V-XXX-5: Lead type

ULCSATÜV

:UL1449 3rd.:C22.2 No.8:EN60099-1

E322107LR105073J9551051


Circuit

Features

AC250VAC250VAC250V

: R·A·V-781BWZ-4: R·A·V-781BXZ-4: R·A·V-801BXZ-4

: R·A·V-781BWZ-4: R·A·V-781BXZ-4: R·A·V-801BXZ-4


R·A·V-781BWZ-4R·A·V-781BWZ-5R·A·V-781BXZ-4R·A·V-781BXZ-5R·A·V-801BXZ-4R·A·V-801BXZ-5

Model

AC250V

SafetyStandard

700

800

±20%

2,500

L-L, L- L-L, L-

Max. Standard

2,000

2,320

Max.at tront of

3,000

3,480

2,000

2,320

SURG

E PR

OTEC

TIVE

DEV

ICES

117

SURGE PROTECTIVE DEVICESR·A·V- SERIESBWZ-4, BWZ-5BXZ-4, BXZ-5

Dimensions

Circuit

*2

*23

A

2

A

*

*23

2

3

2

Resin

Case 2

Resin

Case

2

2 3

118

BWZ-2ABXZ-2A, BXZ-2BYZ-2A, BYZ-2

R·A·V-BWZ-2AThis model is designed specifically for use in AC

power line applications. This model uses specially treated discharge electrodes for greatly enhanced noise immunity test and surge life, making it optimum for the protection of single-phase power supply circuits.

R·A·V-BXZ-2AThis model is designed specifically for use in

three-phase power circuit applications. Combing multiple PAVs with specially treated electrodes for greatly enhanced noise immunity test and surge life, this model is constructed in a unit-molded body.

R·A·V-BYZ-2This model is designed specifically for use in

three-phase power circuit applications. It is designed to protect against “normal mode” noise transient surges.

When used in conjunction with the RAV-BXZ-2A, it will furnish complete protection of equipment from both Normal and Common mode transient voltage surges.

ULCSA

:UL1449 3rd.:C22.2 No.8

E322107LR105073


Surge Absorption Capacitance Remain Voltage Comparison Chart

0

Vp

Vf

Is

Surge voltage

MOV remain voltage

R·A·V series remain voltage

R·A·V series current absorptionMOV current absorption

A

B

Z1 V1.0(Z1)

R·A·VZ2 V1.0(Z2)

V1.0(R·A·V)

A

B

Surge

Surge

Surge Absorber

MOV

Vf:Vp:

Is:

Breakdown voltagePeak circuit voltageVp=Vac × 2Max. surge currentV1.0(R·A·V) +V1.0(Z2)=V1.0(Z1)

SURGE PROTECTIVE DEVICESR·A·V- SERIES

SURG

E PR

OTEC

TIVE

DEV

ICES

119

SafetyStandard

* Reference Value

R·A·V-401BWZ-2AR·A·V-781BWZ-2AR·A·V-781BXZ-2AR·A·V-781BYZ-2R·A·V-142BXZ-2R·A·V-142BYZ-2R·A·V-152BXZ-2AR·A·V-152BYZ-2A


ModelNumber

Max.Line

Voltage(V)

145

300

450

500

Line Voltage50/60Hz

403

783

1,385

1,470

2,500

1,000

2,500

ImpulseDischarge

Current8/20�s (A)

WithstandingImpulse Voltage

1.2/50�s (V)

12,000

20,000

20,000

Capacitance(pF) *

100

50

75

35

OperatingTemp.

Range (°C)

-20 ~ +70

ClampingVoltage

(V) ±10%

Weight(g)

Approx.

5060

100

140

100

C

16

28.5

30.6

28.5

B

28

43.5

28

D

4.5

5

4.5

A

40

41

59.9

41

Dimensions (mm)

Single PhaseSingle Phase

Three Phase

Three Phase

Three Phase

AC125VAC250V

AC250V

AC400V

AC460V

4050

Unit: mm

Circuit

Dimensions

SURGE PROTECTIVE DEVICESR·A·V- SERIES

BWZ-2ABXZ-2A, BXZ-2BYZ-2A, BYZ-2

142BYZ-2

Black Black Black

152BYZ-2A781BYZ-2

BlackBlack Black Black BlackBlackGreen / Yellow

Green / Yellow

142BXZ-2A BXZ-2A

Black Black Black

BWZ-2A

Green / Yellow

Black Black

BYZ series BXZ series BWZ series

1 2 3

11 ±

1C

± 1

B ±

1

D ±

0.5

200

+30

-0

1 2 3

5.5

± 1

A ± 1

11 ±

1C

± 1

B ±

1

D ±

0.5

200

+30

-05.

5 ±

1

A ± 1

1 2

UL1015 AWG16 UL1015 AWG16

11 ±

1C

± 1

B ±

1

D ±

0.5

200

+30

-05.

5 ±

1

A ± 1

UL1015 AWG16

120

TÜV :IEC60384-14Safety Standard File No.

J9650111

Features

Circuit

Dimensions

R·A·M- SURGE PROTECTIVE DEVICES


SafetyStandard

-

-

-

-

-

540-

940-

940-

940-

470-

140-

300-

300-

300-

300-

-

-3,000

-3,600

-3,600

-3,000

-

-

-

-

-1 ,3-

40

50

>1,000

NEW

Green Green

M-M- M-

BWZ(LED)BXZ(LED)BUZ-N(LED) SERIES

+30

-0 +30

-0

1

15.

516

11

3

16

+30

-0

1

16

1 3

~ +70

Applications

*

SURG

E PR

OTEC

TIVE

DEV

ICES

121

R·A·M-152BQZ(LED) SERIES SURGE PROTECTIVE DEVICES

R·A·M-152BQZ (LED)

28±1

+30

-0

4.5±

0.5

40±1

5.5±

111

±116

±120

0１２

WithstandVoltage

Test(Vac)

-

NEW


Features

Applications

Dimensions

ResinUL94 V-2

UL94 V-0

LeadUL1015 AWG#16

Circuit

1 2

·

-

Weight(g)

401-2 250-

RatedVoltage

(Vac)300

-

LineVoltage(Vac)

470-

Voltage(V) ±10% Voltage

+30- ＞

ResistanceRange

-40 ~ +70

122

ULCSATÜV

:UL1449 3rd.:C22.2 No.8:IEC60384-14

E332107LR105073J9650111


Features

9

Dimensions

Circuit

20±1

9.5±

128

±1

0.6 0.5

12.5 4.7±1


SafetyStandard

UL CSA TÜV

- R·A·M-242LASR·A·M-302LASR·A·M-362LAS

Rated

125

250

Line

140 2,400V3,000V3,600V

2,000300

DC

+30, -20%

10,000

IR

-20 ~ +802.0

R·A·M-LAS SERIES SURGE PROTECTIVE DEVICES

SURG

E PR

OTEC

TIVE

DEV

ICES

123

R·A·V-LDEZDesigned specifically for use in AC power line

applications. This model uses specially treated discharge electrodes for greatly enhanced noise immunity test and surge life making it optimum for the protection of single-phase power supply circuits.

R·A·V-BWZ-3C, BXZ-3CUse of surge protectors: Inverter, NC control systems, Welding machines and etc.

* Reference Value

1

3

2

23.5

±1

33±1

10±1

±0.1±1 10

min

.23

±116.6±1

1 2

15±1

33±1

23±1

10m

in.

4.4±1A±1

±0.1

10±1

1 2

22.5±3

5±25±2

10±3

11±2

B±2

A +2-3

Dimensions

Print circuit board hole dimensions

BWZ-3C series

BXZ-3C series

Unit: mm

Unit: mm

Dimensions

Unit: mm

Circuit

Circuit

3- a

b

L2L1

c a

5- b

L2L1

L3

BWZ-3C series BXZ-3C series

401LDEZ

401BWZ-3C

Model NumberDimensions (mm)a

6.57.56

6.916.6

b

10

c

-1.2*

R·A·V-401LDEZ

R·A·V-401BWZ-3C


ModelNumber

Max. Line Voltage

(V)

145300145

300

Line Voltage50/60Hz

SafetyStandard

403

403

ImpulseDischarge

Current

1,000

2,500

WithstandingImpulseVoltage

12,000

20,000

Capacitance(pF)*

10050100

50

OperatingTemp.

Range (°C)

-20 ~ +70

ClampingVoltage

(V) ±10%

Weight(g)*

10

20

30

LDEZ, BWZ-3C BXZ-3C

A6

6.9401BWZ-3C

Model

A1112

B6.57.5

401LDBZModel

ULCSA

:UL1449 3rd. E322107LR105073


R·A·V-LDEZ, BWZ-3C, BXZ-3C SERIES SURGE PROTECTIVE DEVICES

Single PhaseSingle PhaseSingle PhaseSingle PhaseThree Phase

AC125VAC250VAC125VAC250VAC250V

* Reference Value

124

3 pole

NominalLine

Voltage50/60Hz

Max. LineVoltage50/60Hz


DC100V

Capacitance1MHz

max. (pF)

ImpulseDischargeVoltage8/20�s1 time

(A)

ImpulseLife Test10/200�s

400A(times)

Model NumberType

CTSPD-125D14CTSPD-125D20CTSPD-250D14CTSPD-250D20CTSPD-125D14SCTSPD-125D20SCTSPD-250D14SCTSPD-250D20S

AC125V

AC250V

AC150V

AC300V> <3pF

9,00015,0009,00015,000

1,000

1,000

BetweenL-E

>300V

>500V

BetweenL-L

>300V

>500V

BetweenL-E

<800V

<1,300V

BetweenL-L

<1,500V

<2,000V

BetweenL-E

<550V

<1,000V

BetweenL-L

<1,100V

<1,600V

AC125V

AC250V

AC150V

AC300V> <3pF

4,5007,5004,5007,500

>300V

>500V

-

-

<800V

<1,300V

<550V

<1,000V

2 pole

DC OperatingVoltage2,000V/s

ResidualVoltage

10/200�s200A

±0.1

E

D* D*

A

CB

3 pole type

±0.1

E

C

D*

B

A

2 pole type

3 pole

Model NumberType

CTSPD-125D14CTSPD-125D20CTSPD-250D14CTSPD-250D20CTSPD-125D14SCTSPD-125D20SCTSPD-250D14SCTSPD-250D20S

Dimensions (mm) B

max.2225222520

25.520

25.5

Cmin.

10

10

Amax.

20

21

13

14

8±1

10±1

D Emax.1723172317231723

2 pole

3 pole type

2 pole type

ImpulseSparkover

Voltage10/200�s3,000V

-

-

-

-

Features

Applications


L1 L2

3 pole type 2 pole type

Circuit

protection of many types of electrical equipment. The RAV has the following features:

1) Large capacity surge protection.2) Fast response time.3) Good endurance to repetitive lightning.4) Small electrostatic capacity.5) No environmentally hazardous materials. Dimensions

Unit: mm

SPD SERIES SURGE PROTECTIVE DEVICES

NoneS

3 pole type2 pole type


DPSTC DSeries name Rated Voltage

1420

Standard typeHigh Impulse dischargeCurrent Type

*Dimension of elementary part

SURG

E PR

OTEC

TIVE

DEV

ICES

125

8001,0001,5002,4003,0003,6004,0004,500

90150230250300350400470600

Features

Applications

Dimensions

±±

Electrical Specifications (Low Voltage Type)

±20

R28-R28-R28-

Electrical Specifications (High Voltage Type)

±20

-S-S-S-S-S-S-S-S-S

450500

600

650750800900

1,300

20,00010010,000 10

-S-S-S-S-S-S-S-S

---

20,0001000

10,000(

10,000(

10,000(

R28 S SERIES SURGE PROTECTIVE DEVICES

126

Features

Applications

Dimensions±±


±

R28 SERIES SURGE PROTECTIVE DEVICES

R 2 8 53 1 HB L

351

HJKR

B

LNone

R38

*

*

*

*

**


******************

±

SURG

E PR

OTEC

TIVE

DEV

ICES

127

Features

Applications

Dimensions



(M

R 2 6 53 1 GB L

351

GB

LNone

R26

************

*

*

*

*

**


128

Dimensions

Length

R 3 8 53 1 OB L

351 35X10¹=350V

OB

LNone

R38

��1MHz


UL E139599

1.0�

10�

900V

700V

Features

Applications


Impulse Absorption Characteristics

1.0

4.4±0.44.4±0.4

4.5

+1.5 0

15±1

10.0±0.3

8±

90

350

450

750900

101001.5

(DC50V)

(DC100V)

SURG

E PR

OTEC

TIVE

DEV

ICES

129

Dimensions

4.4±0.4

ax.

4.4±0.4

-0

VoltageSafetyVoltage


UL

Features

Applications


R 3 6 53 1 PB L

Voltage

351

P 7.4

B

LNone

R36

90

900

(

( )

130

*1 : Tolerance ±20%=P, Tolerance ±30%=Q*2 Comforms to ITU-T K.20,K.21 Enhanced test


300 times Positive/Negative

R5K SERIES SURGE PROTECTIVE DEVICES

Features

Applications

solder

4±0.3

Dimensions

Unit: mm

NEW

1.0230

420

Positive/Negative

DC*2

SURG

E PR

OTEC

TIVE

DEV

ICES

131

R5K SERIES SURGE PROTECTIVE DEVICES

Packing form


5R K 32 1 4 5 USeries Name

Dc BreakdownVoltage

Tolerance

Size45 4.0(L)×5.0(W)

U TapingPQ

±20%±30%

Reel Dimensions (2,000pcs per one reel)

Dimensions (mm)

Unit: mm

ABCDEWtr

2.0±0.5

231 =230V Land pattern

Recommended Land Pattern (Typical value)

Unit: mm

Dimensions (mm)

Reflow Solderinga

2.5 5.5b

5.4c

Taping Dimensions

Unit: mm

5.6±0.34.6±0.3

5.5±0.2

2.0±0.24.0±0.2

0.35±0.25.35±0.2

Dimensions(mm)

ABWFEPP2

P0

D0

Dtt2

5.4

2.5

W

t

B

E

A

C

Dr

P0

P

A

B

W

FE

P2D0t

t2

D

Recommended thickness of copper foil is

132



R5K3 SERIES SURGE PROTECTIVE DEVICES

Features

Applications

solder

NEW

Dimensions

6.6±0.3


DC

s,

*2

1.0230

600

1,000

1,000

SURG

E PR

OTEC

TIVE

DEV

ICES

133

5.6±0.37.3±0.316.0±0.47.5±0.21.75±0.28.0±0.22.0±0.24.0±0.2

0.40±0.25.35±0.2

ABWFEP1

P2

P0

D0

D1

t1t2

Taping Dimensions

R5K3 SERIES SURGE PROTECTIVE DEVICES

5R K 3 32 1 6 5 U

65

UPQ

±20%±30%


ABCDEWt

2±117.5±2.02.0±0.51.0±0.2

231 23X101=230V

P0

P1

A

B

W

FE

P2D0t1

t2

D1

W

t

B

E

A

C

D

a1.8 1.8 5.3

c8.1 5.4

1.4 1.45 2.4 1.45 1.4

5.4


134

Impulse Absorption Characteristics Dimensions

Application (Example: Telecommunication Line)

RHCA

T

R

ULcUL

Features

RHCA5039 SERIES SURGE PROTECTIVE DEVICES


SURG

E PR

OTEC

TIVE

DEV

ICES

135

Land pattern

Solder resist

Size

Packing form


HR C A 42 2 5H 3 USeries Name

DC BreakdownVoltage

Tolerance

53 5.0(L)×3.9(W)

U TapingH ±20%


Taping Dimensions


Unit: mm

Dimensions (mm)

Reflow Soldering

a

b

c

t

B

EC

Dr

AW

t1

t2 P0

P2

P1

W

EF

B

A

1

0

Unit: mm

Dimensions (mm)ABWFEP1

P2

P0

D0

D1

t1t2

4.5±0.35.6±0.312.0±0.35.5±0.11.75±0.18.0±0.12.0±0.14.0±0.1

0.40±0.24.3±0.2

a3.7 6.5

b4.3c

242 24X10²=2,400V


Unit: mm

Dimensions (mm)ABCDEWtr

2±113.5±2.02.0±0.51.0±0.2

136


UL :UL497B E139599

Dimensions

1

Example


43U43U43U43U43U

43U43U

Safety1MHz

Features


SURG

E PR

OTEC

TIVE

DEV

ICES

137

Land pattern

Solder resist

Size

Packing form


HR C A 02 1 4Q 3 USeries Name DC Breakdown

Voltage

Tolerance201 20X10¹=200V

43 4.5(L)×3.2(W)

PQR

±20%±30%+30%-17%

U Taping

Recommended Land Pattern(Typical value)

Taping Dimensions


Unit: mm

Dimensions (mm)a

Reflow SolderingFlow Soldering

2.72.9

6.5 ~ 8.56.5 ~ 9.5

3.43.6

b c

a

b

ct1

t2 P0

P2

P1

W

EF

B

A

1

0

t

B

E

C

Dr

AW

Unit: mm

+0.1-0


P2

P0

D0

D1

t1t2

3.6±0.24.9±0.212.0±0.35.5±0.051.75±0.18.0±0.12.0±0.054.0±0.1

0.30±0.13.0±0.2

Dimensions (mm)

Unit: mm

+1.0-0.5

ABCDEWtr

2.0±0.513.51.6±0.5

1.0


138

10 s/div1,00

0V/d

iv

10 s/div

1,00

0V/d

iv

1,00

0V/d

iv

10ns/divBreakdown

voltage 600V

Voltage: 8,000V1,200V

Voltage: 30,000V500V

ANT

Modem tuner, STB CATV cable


UL :UL497B E139599Safety Standard File No.

Dimensions

Unit: mm

Impulse waveform 10/700�s-4,000V,IEC61000-4-5

RHCA-201Q31U

RHCA-201Q31UESD impulse waveform

Peak:4,000V

Example


RHCA-900 31URHCA-201 31URHCA-301 31URHCA-401 31URHCA-501 31U

SafetyStandard

DC BreakdownVoltage (V)

90200300400500

100(DC50V)

100(DC100V)

Model Number *1

10/700�s, 4,000V

Positive/Negative5 times


Impulse CurrentCapacity

Capacitance1MHz

(pF) max

ImpulseWithstanding

Voltage Capacity*2

8/20�s, 50A 300 times

8/20�s, 500APositive/Negative

5 times0.3

Impulse Life Test


Features

electricity/indirect lighting surge, adaptable to high density surface mount technology

RHCA3216 series is chip surge absorber for protection from static electricity/indirect lighting surge, smaller and thinner than ceramic tube lead type, adaptable for high density surface mount technology. Impulse current capacity is 2,000A


3.2±0.2

(0.3) (0.3)

1.6±

0.3

1.6±0.3

SURG

E PR

OTEC

TIVE

DEV

ICES

139

a

b

c

Land pattern

Solder resist



Unit: mm

Unit: mm

Size

Packing form


HR C A 02 1 3Q 1 USeries Name DC Breakdown

Voltage

Tolerance201 20X10¹=200V

31 3.2(L)×1.6(W)PQ

±20%±30%

U Taping

Dimensions (mm)a

Reflow SolderingFlow Soldering

1.8 ~ 2.53.8 ~ 5.52.4 ~ 3.6

1.2 ~ 2.01.2 ~ 1.6

b c

t

B

EC

Dr

AW

Taping Dimensions

B

FE

W

P0

P2

A

P1

t2t1 D0

D1

Unit: mm

Dimensions (mm)

+1.0-0.5

+0-1.5

+1-0

ABCDEWtr

2.0±0.59.0

1.6±0.51.0

+0.1-0


P2

P0

D0

D1

t1t2

1.93.5±0.18.0±0.33.5±0.051.75±0.14.0±0.12.0±0.054.0±0.1

0.3±0.12.0


+0.2-0.1

+0.1-0.4

140

ULCSATÜV

SEMKO

:UL1449 3rd.:C22.2 No.60065:EN60065:EN60950-1:IEC61643-1:EN61643-11

E322107105073

J50114145

SE-66249A11312809


Features

Applications

RA-MX-V7-Y/ Y(5) SERIES SURGE PROTECTIVE DEVICES



V-t Characteristics

0.0

1.0

2.0

3.0

4.0

5.0

6.0

7.0

8.0

9.0

10.0

e on e ti e

Il

ear

oer

olta

eV

11100n10n 10 100 10 1 10100

A-501M -V7A-102M -V7

A-452M -V7A-402M -V7A-362M -V7A-302M -V7

A-242M -V7

1 000V/10 000V/n

500V/

*4

*5

*6

*7

55555555

1.0

-----

500 400~600600 480~720

800~~~~~~~

UL TÜVCSA SEMKO

————

*1*3*1*3*2*3*2*3*2?3*1*3*1*3*1*3*1*3

*4*5*4*5*4*5*4*5*4*5*4*5*4*5*4*5*4*5

*6

*6

*6

*6

*7

*7

*7

*7

*7

Safety Standard

SURG

E PR

OTEC

TIVE

DEV

ICES

141

0.60.2

Description

Height from PCB topLamp pitchHole pitch

Lead pitchDeclining

Paper widthHole position

Lead clinch heightProduct height*Hole diameter

Paper thickness

Dimension (mm)Symbol

HighLamp DiameterLead Diameter

Leads clearance

RA

13.0 max.

4.0 min.18.0 max.

RA-MXRA-MX-V7-Y

0

LAd

L1

PP0

P1

P2

F

WW1

H0

H1

D0

t

Hole position

RA-MX-V7-Y/ Y(5) SERIES SURGE PROTECTIVE DEVICES

RA-MX-V7-Y

Taping Dimensions

Unit: mm

P2 PA

L

H0

H1

W1

Wt

P0d

FL1

P1

h h

D0

P2 PA

L

H0

H1

W1

Wt

P0d

F

L1

P1

h h

D0

RA-MX-V7-Y

Packing Quantity per Carton

Forming Dimensions

RA-MX-V7-Y

13 Max.

glicoat processed

Unit: mm

glicoat processed13 max.

+0.6

-0.2

Packing Description of Marking

Marking of Japan Production

The Substitute Factory Marking of Chinese Production

The Main Factory

………………The year manufactured eg.) ………………The month manufactured (see below)

…………DC Breakdown Voltage

F

601

A

102

J K

242

T

302

L

362

S

402

V Y

DC Sparkovervoltage brevitycode

Code

1

A

2

B

3

D

4

E F

6

G

7

H

8

J K

10

L

11

M

12

N

Month

Symbol

142

3,500RA-402MX-V7-Y(SJQ)RA-452MX-V7-Y(SJQ)


5,00

0V/d

iv

ULCSATÜV

SEMKO

JQA

:UL1449:C22.2 No.60065:EN60065-11:EN60950:IEC61643-1:EN61643-11:J60065(H20)

E322107CA105073

J50114145

SE-662491115778JQ10641-1

4,000(3,200~4,800)*6

4,500(3,600~5,400)*6

UL1449 TÜVCSA SEMKO JQA

*1*2*1*2

*3*4*3*4

*5

*5 1.0


DC BreakdownVoltage (V)

Capacitance1MHz

(pF) max.

CurrentCapacity VoltageModel Number

Safety Standard

*

*5 Reference Value

0.0

1.0

2.0

3.0

4.0

5.0

6.0

7.0

8.0

9.0

10.0

1m100n10n 10m 1 10100m

RA-452MX-V7(SJQ)RA-402MX-V7(SJQ)

V-t Characteristics

Re pon e time ( )

Impu

le

park

over

vol

tage

(kV

)

Features

Applications

RA-MX-V7-Y(SJQ) SERIES SURGE PROTECTIVE DEVICES


5,00

0V/d

iv

RA-242MX-V7

5,00

0V/d

iv

SURG

E PR

OTEC

TIVE

DEV

ICES

143

RA-MX-V7-Y(SJQ)Description DimensionSymbol

RA

13.0 max.

4.0 min.18.0 max.

LAd

L1

PP0

P1

P2

F

WW1

H0

H1

D0

t

Lamp DiameterLead Diameter

Declining

Hole position

Hole diameter

Hole position

RA-MX-V7-Y(SJQ)

P2 PA

L

H0

H1

W1

W

t

P0d

F

L1

P1

D0

RA-MX-V7-Y(SJQ)

…………

1A

2B

3D

4E F G

7H

8J K

10L

11M

12N

402(SJQ)

X

(SJQ)

Z

Japan Production

( )

-0.2


Packing Description of Marking

RA-MX-V7-Y(SJQ) SERIES SURGE PROTECTIVE DEVICES

Unit: mm

Taping Dimensions

Forming Dimensions

13 max.

eg.

Code

Unit: mm

Symbol

144

0.0

1.0

2.0

3.0

4.0

5.0

6.0

7.0

8.0

9.0

10.0

Response time (s)

Impu

lse

spar

kove

r vol

tage

(kV

)

1 100 1m 10m 100m 1 1010n 100n 10

ULCSATÜV

SEMKO

:UL1449 3rd.:C22.2 No.1:EN60065:EN60950-1:IEC-61643-1:EN61643-11

E332107LR105073


J50114145

SE-66249A1No.1312809

V-t Characteristics

Features

Applications

9

DimensionsA 23min.

4min

.

6.9

Unit: mm


*4

*5

300 times

Circuit

1.0

RA-242M-V7

1.0

ARA-M-V7

RA-MS-V71916

ss

RA-452M-V7

RA-501M-V7RA-102M-V7

RA-242M-V7

RA-302M-V7RA-362M-V7RA-402M-V7

RA-V7 SERIES SURGE PROTECTIVE DEVICES


RA-242M-V7RA-302M-V7RA-362M-V7RA-402M-V7RA-452M-V7RA-242MS-V7RA-302MS-V7RA-362MS-V7RA-402MS-V7RA-452MS-V7

-----

-

---

~

500(400~600)600(480~720)

(800~ )( ~ )( ~ )( ~ )( ~ )( ~ )( ~ )( ~ )( ~ )( ~ )( ~ )( ~ )

UL1449 TÜVCSA SEMKO

————

2.0

*1

*1*2*1*2*1*2*1

*1*2*1*2*2

*2

*1

*1*2*1*2*2

*2

*1

*3

*3

*3

*3

*1

*3

*3

*3

*3

*4

*4

*4

*4

*4

*4

*4

*4

*5

*5

*5

*5

*5

*5

*5

*5

*5

*5

(

( )

)

Voltage (V)

InpulseCurrentImpulse

Life test Voltage

Insulation

(M ) min.

Safety Standard

(

SURG

E PR

OTEC

TIVE

DEV

ICES

145

Unit: mm

Forming Dimensions

Description of marking

RA-XXXM(S)-V7-Y

RA-XXXM(S)-V7-Y(5)

Unit: mm

Taping Dimensions

W

P2 PA

L

H0

H1

W1

W

P0d

F

L1

t

P1

h h

D0

W1

H1

H0

t

L

APP2

L1

P1 F

d P0 D0

RA-XXXM(S)-V7-Y RA-XXXM(S)-V7-Y(5)

RA-XXXMS-V7-F(5)

RA-XXXM(S)-V7-F

A

4 m

in.8.

5 m

ax.

23 min.3±1

5±0.

5

6.9

A

8.5

max

.

23 min.

7.5±

0.5

6.9

3±1

RA RA242VO4A

×10

±20% O4

A

1A

2 3D

4E

5F

6G

7H

8 9K

10L

11M

12N

±20%O

%R -

+30-10

3

0.60.2

*2

High

RA

19.0 max. (16.0 max.)

4.0 min.22.0 max. (19.0 max.)

±2.018.0±0.59.0±0.516.0±0.5

38.5 (35.5)

0.7±0.2

RA-M(S)-V7-Y(5)RA-M(S)-V7-Y

12.7±1.012.7±0.3 *1

3.85±0.76.35±1.3

5.0±

15.0±1.015.3±0.3 *1

3.75±0.77.5±1.37.5±0.5

LAd

L1

PP0

P1

P2

F

WW1

H0

H1

D0

t

300±1.5254±1.5

60.0±0.650.8±0.6

RA-M(S)-V7-YRA-M(S)-V7-Y(5)

*1

RA-V7 SERIES SURGE PROTECTIVE DEVICES

*2 N


146

RA-800P/M-C6RA-151P/M-C6RA-201P/M-C6RA-231P/M-C6RA-311P/M-C6RA-351P/M-C6RA-391P/M-C6RA-501P/M-C6RA-601P/M-C6RA-102P/M-C6RA-152P/M-C6RA-202P/M-C6RA-242M-C6RA-272M-C6RA-302M-C6RA-302M-C6(AC)


-------

3

3

3

3

-

------------

----

--------

Features

Applications

1312808

-

1MHz

V-t Characteristics


1 100 1 1010

RA-601M-C6

RA-391M-C6

RA-800M-C6

RA-311M-C6RA-231M-C6RA-201M-C6

Dimensions

1449 1449

3

4

RA-C6 SERIES

10�

10�


4

4

4

4

4

SURG

E PR

OTEC

TIVE

DEV

ICES

147

O4A102

eg) In case of japan productionModel: RA-102M-C6DC Breakdown voltage: 1,000VTolerance: ±20% OCalendar: 2014 4Manufactured month: January A

6.1

max

.

7 m

ax.

15 max. 23 min.

3±1

5

*1.5~2.5 min.

glicoat processed

Unit: mm

FP1

L1

P

A

L

P2

H0

H1

W1

W

d P0

h h

t

D0

Taping Dimensions (RA-XXXP/M-C6-Y)

Unit: mm

Forming Dimensions (RA-XXXP/M-C6-F)

Description of marking

+0.6-0.2

* Accumulative pitch error: 4 pitches 50.8±0.6mm, 20 pitches 254±1.5mm

Description

Height from PCB topLamp pitchHole pitch

Lead pitchDeclining

Paper widthHole position

Lead clinch heightProduct heightHole diameter

Paper thickness

Dimension (mm)SymbolHeight

Lamp DiameterLead Diameter

RA15.0 max.

17.0 max.12.7±1.012.7±0.3*3.85±0.76.35±1.3

5.0±2.0

18.0±0.59.0±0.516.0±0.5

(33.5)

0.7±0.2

LAdL1

PP0

P1

P2

F

WW1

H0

H1

D0

t

Hole position

MonthSymbol

1A

2B

3D

4E

5F

6G

7H

8J

9K

10L

11M

12N

×10T : China production

None : Japan production ±20% (Symbol O)*1

eg.) 2013 3

*¹ Tolerance of 311 ±15% (Symbol M)

RA-C6 SERIES SURGE PROTECTIVE DEVICES

RA-C6-Y: 2,000 pcs


148

Power surges, both voltage and current, are occurring continually in today's power systems. Whether they occur naturally, such as from lightning and static electricity; or are man made, such as inductive surges from motor, transformers, solenoids, etc. power surges are a fact of life. These power surges have a very high voltage and current level as compared to electrical noise.Recent developments in electronic designs have tended toward smaller and higher density packaging of circuitry. This results in a greater susceptibility to surges. Once attacked by a surge, electronic circuits

of electronic equipment must be aware of, and be able to deal with, power surges in product design.OKAYA's R·A·V surge absorbers are designed to assist in dealing with the problem of power surges. The R·A·V series is a unique new approach which combines the features of two well known technologies. Combining the high speed capabilities of Metal Oxide Varistor (MOV) with the large power handling capability of Gas Arrester, OKAYA has developed a product which can clamp power surges faster than gas arrester alone and handle large power surges far beyond the capability of MOV.

OPERATING PRINCIPALThe R·A·V connected between lines will shunt the surge from one side of the line to the other. The high speed varistor quickly shunts the surge until the slower, but more powerful gas arrester takes over. This allows the gas arrester to handle the high energy portion of the surge and protect the MOV from damage. This interaction of the R·A·V assures safe handling of the power surge and long life stability to the MOV.

FEATURES

Structure

The R·A·V Surge Absorber is applicable for the protection of many types of electrical equipment. The R·A·V has the following features:1) Large capacity surge protection2) Fast response time3) Good endurance to repetitive lightning4) High clipping performance5) Low internal capacitance6) No environmentally hazardous materials

SymbolLead terminal

Cap

Electrode of ArresterVaristor

Ceramic Tube

Inert Gas

Circuit

(V)

Surge Wave

Absorbed Surge Wave

TimeArrester OperatingVaristor Operating

Volta

ge

Surge Absorbed Area

SURGE PROTECTIVE DEVICESR·A·V-L-A SERIES

SURG

E PR

OTEC

TIVE

DEV

ICES

149

DYNAMIC CHARACTERISTICS

Lightning surges have precipitous dv/dt values and huge electrical charge. Surge absorbers must assimilate this surge. This limiting voltage capability varies depending upon the type of absorber. The voltage and current curves in Fig. 2 characterize varistors and gas arresters.

FEATURESVaristor voltage is specified by the manufacturer at

low current (ie, 0.1-1.0 mA). The clamping voltage of the Varistor at higher current (ie, 1.0 Amp)can be several times higher and will increase as the current goes higher (See Fig. 2). Varistors have a very fast response time (ie, 50 nsec.) and will clamp at rated voltage for low currents or short periods of time. However, as a power surge increases in either current or duration, the Varistor clamping voltage can rise to unsafe levels, ultimately failing when its maximum energy level is exceeded. Although the Varistor may survive most power surges, each time it absorbs a power surge, damage occurs to the Varistor. Ultimately the MOV is rendered inoperative and unable to perform its suppression task.

GAS ARRESTERSThe rated voltage of the Gas Arrester is defined as

a DC breakdown Voltage (Ez). In contrast to the Varistor, as the surge current increases this voltage decreases. Therefore, once the Gas Arrester is triggered, the voltage level is maintained at a safe level, regardless of the increase in current or duration of the power surge. Typically the trigger response time

Gas Arrester ZnO Varistor R·A·V

Fig. 1 Shows the dynamic characteristics of Varistor, Gas Arrester & R·A·V.

(V) 200V/div

Time

Volta

ge

Surge Wave

Absorbed Surge Wave

(V) 200V/div

TimeVolta

ge Transposition

Varistor Operating Arrester Operating

(V) 200V/div

TimeVolta

ge

Beginning Point ofSuppression

Non Suppression Time

10-6 10-5 10-4 10-3 100 101 102 103

Current (A)

Vol

tage

(V)

Varistors

Gas Arresters

Fig. 2

Fig. 1

SURGE PROTECTIVE DEVICESR·A·V-L-A SERIES

150

R·A·V CHARACTERISTICSPower surges resulting from indirect lightning

strikes occur with precipitous speed. The dv/dt of the

surge absorber without excellent response performance will be unable to protect equipment from damage. The element performance of gas arresters and other general surge absorbers is evaluated by

expresses the relationship between the rise time of the voltage and the firing potential voltage of the device at the time of the surge rise. The accompanying graph shows an example of V-T characteristics.

The electrical characteristics of gas arresters are

expressed in terms of the DC breakdown voltage.

potential voltage (Vf: the voltage at which surge

value at 1about 500V (See Fig.3). The surge cannot be discharged until the voltage rises to this value. This characteristic forms the chief failing of gas arresters.

90V type permits the discharge operation to begin at a

the gas arrester.

test is used to determine the maximum discharge current the DUT can withstand. These wave forms are

standard defines the open circuit and short circuit current waveforms which can be expected to occur on

There are two standard tests which are used to classify surge absorbers. Each test uses a signal pulse which is imposed on the device under test (DUT). This pulse is described by two sets of numbers

set is the duration of the rise time of the signal

duration of the fall time of the signal imposed on the DUT.

Fig. 3


SURG

E PR

OTEC

TIVE

DEV

ICES

151

R·A·V-L-A (for protecting network line)R·A·V was developed to absorb high current

surge such as indirect lighting. specially, the R·A·V applied to communication circuits will protect it. The R·A·V is suitable for use with equipment which requires high reliability protection from external surges.

RAV Series

Dimensions

Circuit

*² Reference Value


ModelNumber

Clamping Voltage Response TimeCurrentWithstanding

Impulse Voltage Capacitance Operating Temp.

R·A·V-L-A SERIES SURGE PROTECTIVE DEVICES

V-t Characteristics

152

Features


Typical capacitance between absorber's leadvs. Breakdown voltage

+-

SG

IRIT

I

ITIR

I

I

IRIT

Nominal Breakdown Voltage (VBR)

Maximum Working Voltage (VWM)

Leakage Current (IR)

Rated Peak Impulse Current (IPPM)

Clamping Voltage (VC)

Rated Peak Impulse Power Dissipation (PPPM)

Applications

Applications

RSSA SURGE PROTECTIVE DEVICESABD(Avalanche Breakdown Diode)

SURG

E PR

OTEC

TIVE

DEV

ICES

153

RSSAZP, CP, U, B SERIES

Dimensions

W±0.4

)

D±0.4

d±0.05

10001500200030005000


1007

101210161018

1050 ²

²

101216182740506075120

VBR IT

14.521.832.440.548.660.7

20010

51

VWM IR

31126721317812083

52.642.227.3

I VC

1000 Series

14.3

22.728.434.050.573.088.0114142222


20

d0.6

1.0

1.2

W5.0

8.612.3

D2.8

5.3

8.5

1000200030005000

BBB

UUU

ABD(Avalanche Breakdown Diode)

5

5000W

154

ZP, CP, U, B SERIES SURGE PROTECTIVE DEVICES

* U: Uni-Polar type, B: Bi-Polar Type, : Both U and B

Model Number*

B5007B5008B5010

50155018

U50225033

B5036U5039B5056

5068B5082U5180

VBR (V) IT (mA)Nominal Breakdown Voltage

6.056.638.10

12.1014.5017.8026.8029.1631.6045.5055.1066.40

146.00

2,000

100

10

VWM (V) IRMaximum Working Voltage

IPPM (A) VC (V)

Rated Peak Impulse Power Dissipation5000 Series

110

7.58.2

10.015.018.022.033.036.039.056.068.082.0

180.0

296328192426162113521104737679622434358298135

15.115.918.527.633.140.560.764.871.9

103.0126.0150.0331.0

Model Number*

B3007B3008B3010

30153018

U30223033

B3036U3039B3056

3068B3082U3180

7.58.2

10.015.018.022.033.036.039.056.068.082.0

180.0


2,000

100

10


IPPM (A) VC (V)Rated Peak Impulse Current

Rated Peak Impulse Power Dissipation3000 Series

6.056.638.10

12.1014.5017.8026.8029.1631.6045.5055.1066.40

146.00

14.715.419.829.735.643.663.571.077.2

111.0135.0162.0356.0


1

10

231322081717114595578052147844030725221096

Model Number*

U2006B2007B2008B2010B2012

20182022

B2027203320392047

B2056B2068B2082B2100B2150

2180B2220B2250B2300B2400

6.87.58.2

10.012.018.022.027.033.039.047.056.068.082.0

100.0150.0180.0220.0250.0300.0400.0

10


1

5.506.056.638.109.72

14.5017.8021.8026.8031.6038.1045.5055.1066.4081.00

121.00146.00175.00202.00243.00324.00

2,0001,000

40020

5


1343.01241.01161.0

968.0829.0554.0458.0373.0305.0258.0214.0180.0148.0123.0101.0

68.057.046.540.734.025.5

IPPM (A) VC (V)Rated Peak Impulse Current

Rated Peak Impulse Power Dissipation 18,000W (8/202000 Series


13.414.515.518.621.732.539.348.359.069.784.0

100.0121.0146.0178.0265.0317.0388.0442.0529.0706.0

RSSAABD(Avalanche Breakdown Diode)

SURG

E PR

OTEC

TIVE

DEV

ICES

155

Circuit


*

*R

SA SERIES SURGE PROTECTIVE DEVICESRSSA

1

33

5 51 517

5

51 11 5

7 1

13 7

59 9

Dimensions

8 elements4 elements

+1+1 +1

3 +3

+

ABD(Avalanche Breakdown Diode)

156

R S P Q42CD 4

44.022

1515

R5.5

264.

5

7

10±2

11

5.5

:±1.0

RSP-DC05Q-4RSP-DC12Q-4RSP-DC24Q-4RSP-DC48Q-4RSP-DC60Q-4

512244860

7.518.0

68.082.0

BR

10

1

I6.05

14.5026.8055.1066.40

WM

1,241554

148128

IPPM

18011090

150

C

2,000

10

IR(

(±10%


RSP D SERIES SURGE PROTECTIVE DEVICES

Features

.

<Term meaning>

SURG

E PR

OTEC

TIVE

DEV

ICES

157

Max. Line VoltageImpulse WithstandVoltage Capacity

Breakdown Voltage

Capacitance

Ambient Temperature

5.5V

s ITU-T K20 R=25)

15.0V±10% (L-L)635V±15% (L-G)20pF Max. (L-L)1pF Max. (L-G)25°C

5

3

1

CN

1

2

7

8

6

4

1

5

7

8

4

6

3

2

CN

2

Between L-L Voltage

Impulse Wave Form

10/700�s 1,000V

Impulse Absorption Wave Form

Dimensions33

10292

26

23

min. 20082

22.5V


Features

surge by attaching this between the application and cables.

Applications

easily just by attaching this between the application and cables due to hook-up box.

Unit: mm

Insulated material：

RSP-LAN-B SERIES SURGE PROTECTIVE DEVICES

158

RSP51

17

63

3424.99

RSP-232-9

SG987654321

RS EI - RSP- E SERIES

RSP-TEL14

.5

25

7.53.27.5

5

22.5

RSP-TEL-B

51.5

57.5

22

RSP- - SERIES

Circuit

Dimensions

Circuit

Dimensions


i s

Features


SURG

E PR

OTEC

TIVE

DEV

ICES

159

PCB mounting type

RSP SERIES

Circuit

RS(EIA) - 485 / 422 Data and Signal Line

LOADLINE

Features


RSP-485 Series


Dimensions

OKAYA

IN

OKAYA

OK

AY

A

160

Circuit

Applications

Features

NEW

GDT

IN OUT

RSSA

RSSA

NNEW

Dimensions95.5±0.5

10.0±1.0

7.0±0.5105.0±1.0

45.0±1.0

4.5±0.5

9.0±1.0

8.0±

0.5

17.5±1.0

8-M3.5

58.0

±1.0

4.5±

0.5

RSD - SERIES SURGE PROTECTIVE DEVICES

3A

±10%

R


SURG

E PR

OTEC

TIVE

DEV

ICES

161

L1 L2 or

or L2

R·A·V-LD (for protecting network line)RAV-LD series are designed as surge absorbers

for protection of telecommunication lines from indirect lightning surges. They demonstrate extremely fast response time and positive surge absorption operation compared to gas arresters.

They contain two of RAV in one package with 3 leads.

Circuit

*¹ Equivalent varistor voltage@1mA*² Reference Value

Dimensions

Unit: mm

SURGE PROTECTIVE DEVICESR·A·V-LD SERIES

R·A·V-221LDR·A·V-361LDR·A·V-401LDR·A·V-621LD


ModelNumber

Clamping Voltage(V) ±10% *¹

Response Time(ns)

ImpulseDischarge Current

8/20�s (A)

220360400620

2,400

Withstanding Impulse Voltage

1.2/50�s (V)

12,000 50

Capacitance(pF) *²

Operating Temp.Range (°C)

-20 ~ +70

90373040

20.5±3 8.5±2

11±3

10±3

L2

5±2

CP wire

Epoxy resin

5±25±2

L2

162

NEW

13.3

4.75

11.5

11.5

48.6±1.032

.5±1

.020

.2±1

.0

±0.5 ±0.5 ±1.0

±1.0

±0.5

±0.5

12.0 18.0

5.0±

1.0

L1

2

3

4

RSSA×2

GDT

EW

Features

Applications

Circuit

Dimensions


30V 60V 70V 100V

3A

Rated VoltageMax. Continuous Operating VoltageRated CurrentResidual Voltage (representative value)1.2/50μsー8/20μs,10kVー5kA

Impulse Discharge Current

… 0.

………


SURG

E PR

OTEC

TIVE

DEV

ICES

163

Applications

Features

NEW

4

67

W

Circuit

Dimensions



164

Features

Applications

RLAN Series SURGE PROTECTIVE DEVICES

Circuit

4

6

7

4

6

7

FG

Avalanche Breakdown DiodeGas Dischage TubeFrame Ground


A

Dimensions

SURG

E PR

OTEC

TIVE

DEV

ICES

165

NEW

88(10)

37

Modular jack

23Modular jack

DIN rail is not attachedEarth joining terminal

Lavel

Body removal tab

Unit: mm


RLAN2-1000POE5K-D10BASE-T100BASE-Tx1000BASE-TPoE (Power over Ethernet)/PoE Plus

DC60V

500mA,000A 10 times (category C2)

) (Line - Ground)

DC~100MHzDC~100MHzDC~100MHz

Operating VoltageRated Current

Impulse Durability

Voltage Protection LevelInsertion LossNear-end CrosstalkReturn Loss

Model Name

Application

GDT

LINE EQUIP

GDT GDT GDT

ABD

Vr

R

FG

RR

RR

RR

R

ABD

Vr

ABD

Vr

ABD

Vr

Modular jack (RJ45) Modular jack (RJ45)

ABD :GDT :

FG :

Avalanche Breakdown DiodeGas Dischage TubeFrame Ground

R :Vr :

ResistorVaristor

Circuit

Applications

Features

Trasportation Ministry

5e

Dimensions

RLAN2 Series SURGE PROTECTIVE DEVICES

166

MEMO

CAT.NO. H0207E1406-2E

Please review individual technical data, specification, and manual before use.

CAUTION FOR SAFETY

� Application Specific Designs� AC Noise Suppression Capacitors� PFC Capacitors� High Pulse Capacitors� Spark Quenching R-C Networks� RFI Power Line Noise Filters� Transient Voltage Surge Absorbers� Bi-Polar Silicon Surge Absorber Arrays� Surge / Noise Protector for Telecom and Data Lines (RS485 / 422)

NOISE SUPPRESSING COMPONENTSAvailable from OKAYA

For improvement, specifications are subject to change without prior notice.

� Please make inquiries for application of these products in final products such as aerospace equipment, undersea cable, nuclear reaction control system, life maintenance device, automobile, transportation equipment, and traffic control system.

HEAD OFFICE6-16-9 Todoroki, Setagaya-ku, Tokyo 158-8543, JapanTEL: +81-3-4544-7000 FAX: +81-3-4544-7007

OVERSEAS DEPARTMENT6-16-9 Todoroki, Setagaya-ku, Tokyo 158-8543, JapanTEL: +81-3-4544-7025 FAX: +81-3-4544-7090

EUROPEAN REPRESENTATIVE OFFICE Kolberger strasse 27, 40670 Meerbusch, F.R. GermanyTEL : +49-2159-8145746

OKAYA ELECTRIC AMERICA, INC.52 Marks Road, Suite 1, Valparaiso, Indiana 46383, U.S.A.TEL: +1-219-477-4488 FAX: +1-219-477-4856

OKAYA ELECTRIC (SINGAPORE) PTE LTD.175A Bencoolen Street #08-10, Burlington Square,Singapore 189650, Republic of Singapore TEL: +65-6748-6063 FAX: +65-6748-1419

OKAYA ELECTRIC (THAILAND) CO., LTD.319 Chamchuri Square Building, Room No.2011, 20th Floor, Phayathai Road, Pathumwan, Pathumwan, Bangkok 10330, ThailandTEL: +66-2-160-5230 FAX: +66-2-160-5233

OKAYA HONG KONG TRADING LTD.Flat C 10th Floor, VGA Building, 532-532A Castle Peak Road, Lai Chi Kok, Kowloon, Hong Kong S.A.R., P.R. of ChinaTEL: +852-2744-0628 FAX: +852-2741-9801

OHT SHANGHAI REPRESENTATIVE OFFICERoom 1225, Plaza Hanzhong, No.158 Hanzhong Road, Shanghai 200070, P.R. of ChinaTEL: +86-21-6353-5978 FAX: +86-21-6353-5979

OHT SHENZHEN REPRESENTATIVE OFFICENo.D, 25th Floor, Times Plaza, Tai Zi Road, Shekou Industrial Zone,Shenzhen 518067, Guandong Province, P.R. of ChinaTEL: +86-755-2685-8910 FAX: +86-755-2685-8916

OHT TAIPEI REPRESENTATIVE OFFICE8F-5, No.91, Huayin Street, Zhongshan District,Taipei 104, Taiwan (R.O.C.)TEL: +886-2-2555-5553 FAX: +886-2-2555-5573

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