EEV-HA1A330WR Datasheet EEV-HA1E471P, EEV-HA1J220UP, EEV-HA1A330WR | P1-P3

Design and speciﬁ cations are subject to change without notice. Ask factory for technical speciﬁ cations before purchase and/or use.

Whenever a doubt about safety arises from this product, please contact us immediately for technical consultation.

4.0 5.4 4.3 5.5 MAX 1.8 0.65 ± 0.1 1.0 0.35

5.0 5.4 5.3 6.5MAX 2.2 0.65 ±0.1 1.5 0.35

6.3 5.4 6.6 7.8MAX 2.6 0.65±0.1 1.8 0.35

6.3 7.9 6.6 7.8MAX 2.6 0.65±0.1 1.8 0.35

8.0 6.2 8.3 9.5MAX 3.4 0.65±0.1 2.2 0.35

8.0 10.2 8.3 10.0MAX 3.4 0.90±0.2 3.1 0.70

10.0 10.2 10.312.0MAX 3.5 0.90±0.2 4.6 0.70

±10% of initial measured value

=Y initial specified value

=Y=initial specified value

±20% of initial measured value (±30% for E~G size of 6.3V & UP suffix)

Y 200% of initial specified value (Y300% for E~G size of 6.3V & UP suffix)

Y=initial specified value

Series : HA

■ Features

● Life time: 105°C 1000 h

● 5.5 mm height (Y φ 6.3)

■ Specifications

Operating Temp.Range -40 to +105°C

Rated W.V.Range 6.3 to 100 V .DC

Nominal Cap.Range 0.1 to 1500µF

Capacitance Tolerance ± 20 % (120Hz/+20°C)

D.C. Leakage Current

I Y= 0.01 CV or 3(µA) after 2 minutes (Whichever is greater)

W.V. (V) 6.3 10 16 25 35 50 63 100

-25 / +20 °C4322223 3

-40 / +20 °C8644334 4

Endurance

After applying rated working voltage for 1000 hours for B~D size, 2000 hours for E~G size at

+105°C and then being stabilized at +20°C, capacitors shall meet the following limits .

After storage for 1000 hours at +105

C ±2°C with no voltage applied and then being stabilized

at +20°C, capacitor shall meet the limits specified in “Endurance.” (With voltage treatment)

Af ter reflow soldering (refer to Application Guidelines) and then being stabilized at +20°C,

capacitor shall meet the following limits.

Resistance to

Soldering Heat

Refer to standard products table.

Characteristics

at Low Temperature

Capacitance change

D.F.

D.C leakage current

■ Dimensions in mm (not to scale)

Shelf Life

Dissipation Factor (tan £)

Capacitance change

D.F.

D.C leakage current

Surface Mount Type

(Impedance ratio max

at 120 Hz )

● Polarized

■ Case size

-0.2

0.3 max

φD±0.5

(I)

(P)

(I)

]A ± 0.2

( )reference size

■ Marking

Example;50V1µF(polarized)

W.V.code

Capacitance(µF)

Series

identification

Lot.number

Negative

polarity

marking

H HA

E,F,G = L±0.3

Long life

↑

Series : HA

Series : VS

W.V.code

V 6.3 10 16 25 35 50 63 100

code J A C E V H

J 2A

+0.1

D L A H I W P K

+0.15

-0.20

+0.15

-0.20

+0.15

-0.20

+0.15

-0.20

±0.2

(mm)

Size

code

±0.2

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PP _ _I` ` `Ia aIb

UIbIc

QT _I` ` `Ia aIb bIc

UIcId

cId

NMM `Ia aIb a bIc a

IcId cId

OOM a

UIc aUIcId

cId cId d

PPM a

UIc cId cId d

QTM c cId cId d

NMMM cId d

NRMM d

ENeF

ENsF

ENgF

NMM

EO^F

SKP

EMgF

EN^F

EN`F

ENbF

Aluminum Electrolytic Capacitors/HA Series

Design and speciﬁ cations are subject to change without notice. Ask factory for technical speciﬁ cations before purchase and/or use.

Whenever a doubt about safety arises from this product, please contact us immediately for technical consultation.

■ Standard Products

tan £ = at 120Hz/+20

C, Ripple current = at 120Hz/+105

ai ai

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MKPM OV Q RKQ

bbse^NbPPNrm

MKNS NUM U NMKO

bbse^MgPPMto

MKPR OV Q RKQ

bbse^NbPPNm

MKNS PQM NM NMKO

bbse^MgQTMto

MKPR PS Q RKQ QTM

bbse^NbQTNm

MKNS PSM NM NMKO

bbse^MgQTMo MKPM QS R RKQ QKT bbse^NsQoTo MKNO OO Q RKQ

bbse^MgNMNto

MKPR QT R RKQ

bbse^NsNMMto

MKNS OO Q RKQ

bbse^MgNMNm

MKPM TN SKP RKQ

bbse^NsNMMo

MKNO PM R RKQ

OOM

bbse^MgOONtm

MKPR TQ SKP RKQ

bbse^NsOOMto

MKNS PR R RKQ

bbse^MgPPNum

MKPM NMR SKP TKV

bbse^NsOOMm

MKNO SM SKP RKQ

bbse^MgPPNm MKPR OPM U NMKO bbse^NsPPMtm MKNS QO SKP RKQ

QTM

bbse^MgQTNrm

MKPR PMM U NMKO

bbse^NsPPMm

MKNQ UQ U SKO

bbse^MgNMOrm=

MKPR PMM U NMKO

bbse^NsQTMrm

MKNQ UQ U SKO

bbse^MgNMOm

MKPR QMM NM NMKO

bbse^NsQTMm

MKNQ VU U NMKO

NRMM

bbse^MgNROm

MKPR QUM NM NMKO

bbse^NsNMNum

MKNO UQ SKP TKV

OO bbse^N^OOMto MKPM OU Q RKQ bbse^NsNMNrm MKNQ NOM U NMKO

bbse^N^PPMto

MKPM OV Q RKQ

bbse^NsNMNm

MKNQ NSM NM NMKO

bbse^N^PPMo

MKOO QP R RKQ

bbse^NsOONrm

MKNQ NTM U NMKO

bbse^N^QTMto

MKPM QP R RKQ

bbse^NsOONm

MKNQ ONM NM NMKO

bbse^N^NMNtm

MKPM TM SKP RKQ PPM

bbse^NsPPNm

MKNQ ORM NM NMKO

bbse^N^NMNm MKOS NNM U SKO MKN bbse^NeoNMo MKNO N Q RKQ

bbse^N^OONum

MKOO NMR SKP TKV MKOO

bbse^NeoOOo

MKNO O Q RKQ

bbse^N^OONm

MKOS NSM U NMKO MKPP

bbse^NeoPPo

MKNO P Q RKQ

bbse^N^QTNrm

MKOS OMM U NMKO MKQT

bbse^NeoQTo

MKNO R Q RKQ

bbse^N^QTNm

MKOS OTM NM NMKO N

bbse^NeNoMo

MKNO NM Q RKQ

NMMM

bbse^N^NMOm

MKOS RUM NM NMKO OKO

bbse^NeOoOo

MKNO NS Q RKQ

bbse^N`NMMo

MKNS OU Q RKQ PKP

bbse^NePoPo

MKNO NS Q RKQ

bbse^N`OOMto

MKOS OU Q RKQ QKT

bbse^NeQoTo

MKNO OP R RKQ

bbse^N`OOMo

MKNS PV R RKQ NM

bbse^NeNMMm

MKNO PR SKP RKQ

bbse^N`PPMto

MKOS PR R RKQ OO

bbse^NeOOMm

MKNO TM U SKO

bbse^N`QTMto MKOS PV R RKQ bbse^NePPMum MKNO SM SKP TKV

bbse^N`QTMm

MKNS TM SKP RKQ

bbse^NePPMrm

MKNO TM U SKO

NMM

bbse^N`NMNtm

MKOS TM SKP RKQ

bbse^NePPMm

MKNO VN U NMKO

bbse^N`OONum

MKNS NMR SKP TKV

bbse^NeQTMum

MKNO SP SKP TKV

bbse^N`OONrm

MKOM NRM U NMKO

bbse^NeQTMrm

MKNO VR U NMKO

bbse^N`OONm MKOM ONM NM NMKO bbse^NeQTMm MKNO NMM NM NMKO

bbse^N`PPNrm

MKOM NTM U NMKO

bbse^NeNMNrm

MKNO NNM U NMKO

bbse^N`PPNm

MKOM OPM NM NMKO

bbse^NeNMNm

MKNO NOM NM NMKO

bbse^N`QTNrm

MKOM NVM U NMKO OOM

bbse^NeOONm

MKNO NRM NM NMKO

bbse^N`QTNm

MKOM PQM NM NMKO NM

bbse^NgNMMm

MKNU OR U SKO

QKT bbse^NbQoTo MKNQ OO Q RKQ bbse^NgOOMrm MKNU PM U SKO

bbse^NbNMMto

MKOM OO Q RKQ

bbse^NgOOMm

MKNU PM U NMKO

bbse^NbNMMo

MKNQ OU R RKQ PP

bbse^NgPPMm

MKNU QR NM NMKO

bbse^NbOOMto

MKOM PR R RKQ

bbse^NgQTMrm

MKNU RM U NMKO

bbse^NbOOMm

MKNQ RR SKP RKQ

bbse^NgQTMm

MKNU RM NM NMKO

bbse^NbPPMto MKOM QO R RKQ PKP bbse^O^PoPm MKNU PM U SKO

bbse^NbPPMm

MKNQ SR SKP RKQ

bbse^O^QoTrm

MKNU PM U SKO

bbse^NbQTMtm

MKOM TM SKP RKQ

bbse^O^QoTm

MKNU RM U NMKO

bbse^NbQTMm

MKNS VN U SKO NM

bbse^O^NMMm

MKNU RR U NMKO

bbse^NbNMNrm

MKNS VN U SKO

bbse^O^OOMrm

MKNU RR U NMKO

bbse^NbNMNm MKNS NPM U NMKO bbse^O^OOMm MKNU SM NM NMKO

bbse^NbOONrm

MKNS NSM U NMKO PP

bbse^O^PPMm

MKNU SR NM NMKO

bbse^NbOONm

MKNS NVM NM NMKO

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xsKa`z

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oK`K

xã^=êãëz

tKsK

xsKa`z

QTM

NMM

páòÉ=xããz

NMM

NMMM

páòÉ=xããz

í~å=£

m~êí=kçK

í~å=£

m~êí=kçK

`~éK

oK`K

xã^=êãëz

PPM

QTM

OOM

NMM

OOM

PPM

OOM

NMM

SKP

PPM

OOM

NMM

QKT

Aluminum Electrolytic Capacitors/HA Series

Design and speciﬁ cations are subject to change without notice. Ask factory for technical speciﬁ cations before purchase and/or use.

Whenever a doubt about safety arises from this product, please contact us immediately for technical consultation.

■ Temperature Characteristics Data

■ Load Life Data

Aluminum Electrolytic Capacitors/HA Series

P1-P3 P4-P5

EEV-HA1A330WR

Mfr. #:

Buy EEV-HA1A330WR

Manufacturer:

Panasonic

Description:

Aluminum Electrolytic Capacitors - SMD Al Lytic Cap 105C SMT HA Series

Lifecycle:

New from this manufacturer.

Delivery:

DHL FedEx Ups TNT EMS

Payment:

T/T Paypal Visa MoneyGram Western Union

EEV-HA1A330WR

EEV-HA1A330WR

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