EEH-ZC Series, V Type Datasheet by WEC

Panasonic Surface Mount Type fig 9 ($15 3; ”e e ‘sl ZC series Vtype UPGRAD High temperature lead-free reflow Features Endurance: 4000 h at 125 C (High temperature / Long life) 0 Low ESR and high ripple current (55 ”/0 over, Lower EbR than current V-TP) o High-Withstand voltage ( to 80 V.DC), Low LC (0.01 CV or 3 pA) 0 Equivalent to conductive polymer type aluminum electrolytic capacitor (Ihere are “(tie Characteristlcs change by temperature and frequency) 0 Vibration-proof product is available upon request. New lineup of $6.3 product. (p63, (1)8, (p10) 0 AEC-QZOO compliant RoHS compliant Specifications size code C i D i D8 i F i G Category temp. range —55 ”C to +125 ”C Rated voltage range 5 .DC to 50 .DC 5 .DC to 5 .DC 5 .DC to 80 .DC Nominal cap.range 10 “F to 33 “F 10 uF to 56 uF i 22 “F to 100 “F 22 uF to 220 uF i 33 “F to 330 “F Capacitance tolerance :20 % (120 HZ/ +20 ) DC leakage current 1 s 0.01 C or 3 (u ) lter minutes (whlchever is greater) Dissipation factor (tan 6) Please see the attached characteristics list +125 C e 2 C, 4000 h, apply the rated ripple current Without exceeding the rated voltage. Capacitance change within e 0 a of the initial value Dissipation factor (tan ) s 00 a of the initial limit ESR s 200 % of the initial limit DC leakage current within the initial limit +1 5 C e C, 000 h, apply the rated ripple current Without exceeding the rated voltage. Capacitance change within ism/a of the initial value Dissipation factor (tan o) s 200 % of the initial limit E R s 00 ocfthe initial limit DC leakage current within the initial limit After storage for 1000 hours at +125 ”C e 2 ”C With no voltage applied and then being stablilzed at +20 °C, capacitors shall meet the limits specified in endurance. (With voltage treatment) +85 “C e 2 C, 85 "/0 to 90 "/0, 2000 h, rated voltage applied Capacitance change within e 0 a of the initial value Dissipation factor (tan ) s 00 a of the initial limit ESR s 200 % of the initial limit DC leakage current within the initial limit After reflow soldering and then being stabilized at + 0 C, capacitors shall meet the followmg limits. Capacitance change Within e10% of the initial value Dissipation factor (tan ) Within the initial limit DC ieakage Current Within the initlai ilmlt m Dimensions (not to scale) Example: 25 VDC 33 pF [Standard] Marking Coior: BLACK [Vlbration-proof product] < size="" code:="" d,="" ds=""> < size="" code="" r,="" g=""> fink fill» , _ j , 7 w H ‘ 33 . t Pg, i 7 e ‘i Rwoi code uiiit voc unit min E 25 K 80 Design and specincations are each subiect to change Without notice. Ask factory for the current technical specincatiohs before purchase and/or use should a safetv concern arise regarding this product, please be sure to contact us immediately JDrJunrlg
Conductive Polymer Hybrid Aluminum Electrolytic Capacitors
Endurance: 4000 h at 125 (High temperature / Long life)
Low ESR and high ripple current (85 % over, Lower ESR than current V-TP)
High-withstand voltage ( to 80 V.DC), Low LC (0.01 CV or 3 μA)
Equivalent to conductive polymer type aluminum electrolytic capacitor
(There are little characteristics change by temperature and frequency)
Vibration-proof product is available upon request. New lineup of φ6.3 product. 6.3, φ8, φ10)
AEC-Q200 compliant
RoHS compliant
Example : 25 V.DC 33 μF
[Standard]
Marking color : BLACK
Unit:mm
[Vibration-proof product]
< Size codeD, D8 > < Size codeF, G >
· The dimensions of the vibration-proof products, please refer to the page of the mounting specification.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
10-Jun-19
Should a safety concern arise regarding this product, please be sure to contact us immediately.
Surface Mount Type
Within ±30% of the initial value
Endurance 2
Shelf life
Damp heat (Load)
Capacitance tolerance
Nominal cap.range
Rated voltage range
Specifications
Size code
Features
High temperature lead-free reflow
After storage for 1000 hours at +125 ± 2 with no voltage applied and then being
(With voltage treatment)
±20 % (120 Hz / +20 ℃)
P K
C5.0 5.8±0.3
22 μF to 100 μF
22 μF to 220 μF
33 μF to 330 μF
DC leakage current
Dissipation factor (tan δ)
Endurance 1
+125 ± 2 ℃, 4000 h, apply the rated ripple current without exceeding the rated voltage.
Within the initial limit
Resistance to
soldering heat
following limits.
Within the initial limit
After reflow soldering and then being stabilized at +20 , capacitors shall meet the
stabilized at +20 , capacitors shall meet the limits specified in endurance.
+125 ± 2 ℃, 3000 h, apply the rated ripple current without exceeding the rated voltage.
200 % of the initial limit
200 % of the initial limit
Within ±30% of the initial value
Within ±30% of the initial value
200 % of the initial limit
300 % of the initial limit
Within the initial limit
Within ±10% of the initial value
Within the initial limit
200 % of the initial limit
Within the initial limit
200 % of the initial limit
+85 ± 2 ℃, 85 % to 90 %, 2000 h, rated voltage applied
ZC
10 μF to 33 μF
10 μF to 56 μF
D
series
V
type
I 0.01 CV or 3 (μA) After 2 minutes (whichever is greater)
Please see the attached characteristics list
D8
F
G
–55 to +125
C
Category temp. range
25 V.DC to 63 V.DC
25 V.DC to 80 V.DC
25 V.DC to 50 V.DC
Marking
Dimensions (not to scale)
Size
φD LA、B
H
IW
code
max.
5.3 6.5 2.2 0.65±0.1 1.5 0.35
+0.15
-0.20
D6.3 5.8±0.3 6.6 7.8 2.6 0.65±0.1 1.8 0.35
+0.15
-0.20
+0.15
-0.20
F8.0 10.2±0.3 8.3 10 3.4 0.90±0.2 3.1 0.70±0.2
D8 6.3 7.7±0.3 6.6 7.8 2.6 0.65±0.1 1.8 0.35
G
10.0
10.2±0.3
10.3
12.0
3.5
0.90±0.2
4.6
0.70±0.2
R. voltage code
UnitV.DC
E
25
V
35
Unit:mm
H
50
φD
L
A、B
H
F
I
W
P
K
R
S
T
max.
1.1±0.2 3.3 1.05±0.2
-0.20
K
80
6.3 8.0±0.3 6.6 7.8 0 to +0.15 2.4 0.65±0.1 2.2 0.35
+0.15
1.1±0.2 3.3 1.05±0.2
J
63
6.3 6.1±0.3 6.6
10.0 0 to +0.15 3.4 1.2±0.2 3.1 0.70±0.2
0.65±0.1 2.2 0.35
+0.15
7.8 0 to +0.15 2.4
G
F
D8
D
Size code
0.70±0.2 5.3 1.3±0.2
10.0 10.5±0.3 10.3 12.0 0 to +0.15 3.5 1.2±0.2 4.6 0.70±0.2 0.70±0.2 6.9 1.3±0.2
-0.20
8.0 10.5±0.3 8.3
UPGRADE
33
EZC
Negative polarity marking ()
Capacitance F)
Series identification
Rated voltage code
Lot number
Pressure relief (φ10 ≦) ( ) Reference size
0.3 max.
H
L
φD±0.5
K
0.2
W
(I)
(P)
(I)
0.2
Supportive terminals ( ) Reference size
0.2
0.2
K
(I)
(I) (P)
W
(S)
R
T
φD±0.5
H
F
L
Supportive terminals ( ) Reference size
Pressure relief (φ10 ≦)
F
H
L
K
0.2
W
(I)
(P)
(I)
T
R
(S)
0.2
φD±0.5
Panasonic Case S‘Ze (mm) *1 prp‘e current (100 kHz /+125 r) *2: ESR (100 kHz / +20 “c; *3: tan a (120 Hz/ +20 “c; o Please refer to tne page of"Reflcw profile" and "The taplng drmenstons". Frequency correct factor for ripple current Rated ca citance c Frequency 100 Hz s < 200="" hz="" 200="" hz="" 5="">< 300="" hz="" 300="" hz="" 5="">< 500="" hz="" 500="" hz="" 5="">< 1="" khz="" p="" .="" .="" .="" .="" u="" s="" u="" s="" capa="" nce="" u="" frequency="" u="" s="" u="" s="" .="" .="" .="" .="" rated="" capacitance="" (c)="" frequency="" (f)="" 10="" khz="" 5="">< 15="" khz="" 15="" khz="" 5="">< 20="" khz="" 20="" khz="" 5="">< 30="" khz="" 30="" khz="" 5="">< 40="" khz="" c="">< 47="" “f="" 0.60="" 0.65="" 0.70="" 0.75="" 47="" “f="" s="" c="">< 150="" “f="" 0.70="" 0.75="" 0.80="" 0.80="" 150="" “f="" s="" c="" 0.75="" 0.80="" 0.85="" 0.85="" capa="" nce="" u="" frequency="" 5="" s="" z="" s="" p="" s="" s="" after="" endurance="" esr="" (100="" khz,="" 40="" °c="" size="" (prls.8="" we.3xl5.8="" (p5.3xt7.7="" (”me2="" (p10xl10.z="" esr="" (q)="" 2="" 1.4="" 0.8="" 0.4="" 0.3="" desrgn="" and="" specuficatmns="" are="" eacn="" subject="" to="" change="" wrtnout="" nonce="" ask="" (actory="" ror="" tne="" current="" lechmca‘="" specmcauons="" before="" purchase="" and/or="" use.="" snoum="" a="" sarelv="" concern="" anse="" regarmng="" {m5="" prqquct,="" p‘ease="" he="" sure="" to="" contact="" us="" rmmeqetery.="" iovjunrlg="">
Conductive Polymer Hybrid Aluminum Electrolytic Capacitors
Endurance 1 : 125 ℃ 4000 h
Endurance 2 : 125 ℃ 3000 h
*1: Ripple current (100 kHz / +125 )
*2: ESR (100 kHz / +20 )
*3: tan δ (120 Hz / +20 )
Please refer to the page of Reflow profile and The taping dimensions.
◆ The dimensions of the vibration-proof products, please refer to the page of the mounting specification.
Rated
voltage
(V.DC)
Size
code
Capacitance
(±20 %)
(μF) φD
6.1
6.1
8.0
6.3
6.3
6.3
6.3
8.0
8.0
10.0
10.5
10.5
10.5
5.8
7.7
6.1
8.0
8.0
EEHZC1E220R
1000
EEHZC1E330R
1000
EEHZC1E470P
EEHZC1E470V
1000
0.14
0.14
0.14
30
0.14
27
0.14
27
0.12
8.0
120
10.5
10.5
10.5
10.5
10.5
33
47
68
100
10.2
10.2
10.2
270
10.0
10.0
8.0
10.5
10.2
10.2
10.0
10.0
6.3
10.2
68
150
8.0
100
150
8.0
330
5.0
6.3
8.0
0.60
5 kHz f 10 kHz
0.30
0.30
Rated capacitanceC
150 μF C
0.25
0.25
300 Hz f 500 Hz
0.25
0.20
200 Hz f 300 Hz
0.15
0.15
100 Hz f 200 Hz
47 μF C 150 μF
3 kHz f 5 kHz
0.20
500 Hz f 1 kHz
0.40
0.55
0.15
150 μF C
47 μF C 150 μF
C 47 μF
Frequency (f)
Correction
factor
1 kHz f 2 kHz
0.30
Rated capacitanceC
2 kHz f 3 kHz
C 47 μF
0.10
0.10
0.85
0.85
40 kHz f 50 kHz
0.75
0.70
10 kHz f 15 kHz
0.45
0.80
0.85
Should a safety concern arise regarding this product, please be sure to contact us immediately.
10-Jun-19
Size
ESRΩ
φ5L5.8
φ6.3L5.8
φ6.3L7.7
φ8xL10.2
2
1.4
0.8
0.4
0.3
φ10xL10.2
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Characteristics list
Frequency correction factor for ripple current
500 kHz f
0.80
0.85
30 kHz f 40 kHz
Frequency (f)
Frequency (f)
20 kHz f 30 kHz
0.60
0.65
Correction
factor
C 47 μF
Frequency (f)
Rated capacitanceC
Rated capacitanceC
150 μF C
100 kHz f 500 kHz
0.85
0.80
47 μF C 150 μF
0.45
0.40
Correction
factor
After endurance ESR (100 kHz,40 °C)
0.45
0.50
0.60
0.65
0.70
0.75
0.90
50 kHz f 100 kHz
0.80
0.75
15 kHz f 20 kHz
0.50
1.05
Correction
factor
0.90
C 47 μF
1.00
1.00
1.00
150 μF C
47 μF C 150 μF
1.00
1.00
25
22
5.0
5.8
C
550
80
33
5.0
5.8
C
550
80
47
5.8
6.1
D
900
50
56
D
900
50
0.14
EEHZC1E560P
EEHZC1E560V
1000
900
100
D8
1400
30
0.14
EEHZC1E101XP
EEHZC1E101XV
900
7.7
D8
1400
EEHZC1E680XP
EEHZC1E680XV
EEHZC1E151P
EEHZC1E151V
500
220
F
1600
1900
27
0.14
EEHZC1E221P
EEHZC1E221V
500
10.2
10.2
1900
F
1600
G
2000
2900
20
0.14
EEHZC1E331P
EEHZC1E331V
500
10.2
35
10
C
550
100
0.12
EEHZC1V100R
33
D
900
60
0.12
EEHZC1V330P
EEHZC1V330V
68
D8
1400
35
0.12
EEHZC1V680XP
1000
22
C
550
100
0.12
EEHZC1V220R
1000
5.8
5.8
5.0
5.0
1000
47
D
900
60
0.12
EEHZC1V470P
EEHZC1V470V
1000
5.8
5.8
6.3
6.3
EEHZC1V680XV
900
10.2
F
1600
1900
27
0.12
EEHZC1V101P
EEHZC1V101V
500
7.7
10.5
EEHZC1V151P
EEHZC1V151V
500
220
10.2
G
2000
2800
20
0.12
EEHZC1V221P
EEHZC1V221V
500
F
1600
1900
10.5
G
2000
2800
20
0.12
EEHZC1V271P
EEHZC1V271V
500
50
10
5.8
C
500
120
0.10
EEHZC1H100R
1000
22
6.3
5.8
6.1
D
750
80
0.10
EEHZC1H220P
EEHZC1H220V
1000
7.7
D8
1100
40
0.10
EEHZC1H330XP
EEHZC1H330XV
900
F
1250
30
0.10
EEHZC1H470P
EEHZC1H470V
500
EEHZC1H680P
EEHZC1H680V
500
G
1600
28
0.10
EEHZC1H101P
EEHZC1H101V
500
30
0.10
F
1250
G
1600
28
0.10
EEHZC1H121P
EEHZC1H121V
500
63
10
6.1
D
700
120
0.08
EEHZC1J100P
33
8.0
10.2
10.5
F
1100
1000
22
6.3
7.7
8.0
D8
900
80
0.08
EEHZC1J220XP
EEHZC1J220XV
900
5.8
EEHZC1J100V
6.3
500
47
8.0
10.2
10.5
F
1100
40
0.08
EEHZC1J470P
EEHZC1J470V
500
40
0.08
EEHZC1J330P
EEHZC1J330V
500
68
10.0
10.2
10.5
G
1400
30
0.08
EEHZC1J680P
EEHZC1J680V
500
56
10.0
10.2
10.5
G
1400
30
0.08
EEHZC1J560P
EEHZC1J560V
82
10.0
10.2
10.5
G
1400
30
0.08
EEHZC1J820P
EEHZC1J820V
500
80
22
8.0
10.2
10.5
F
1050
45
0.08
EEHZC1K220P
EEHZC1K220V
500
33
10.0
10.2
10.5
G
1360
36
0.08
EEHZC1K330P
EEHZC1K330V
500
47
10.0
10.2
10.5
G
1360
36
0.08
EEHZC1K470P
EEHZC1K470V
500
Specification Part number Min.
packaging
q'ty
Taping
(pcs)
Case size
(mm)
Vibration-proof
product
Standard
Product
ESR*2
(mΩ) tan δ*3
L
Standard Vibration
-proof Endurance
2
Endurance
1
Ripple current *1
(mA r.m.s.)
NEW
NEW
NEW
NEW
NEW
NEW
NEW
NEW
NEW
Panasonic ' IfY . P 9 3PP q 9 P '3' q , Y, aPP . ~ 0 av fly] 0 p Iallv e D J y (9-9 P q ipment, p q ipment, eq ipment, q ipment, ident p n, q ipment, y Eq in t), v v p r P aPP Y q W P r P aPP Y P e q Y and P P 9 nlY aPP'Y p isolation. Therefore, please ensure y y ur p p r products are assembled in y p p ally l Ify p q ip req ig eg y, reg fthe app , mmended that y p p y y fv q in e p p p g are subj ge for imp prior notice. Therefore, please be sure to req , P P . exp P r P a", Y '9 Y aPP I P E, P 9 provides examp p YP P aPP 9 9 third p y al p p y rig g y e, rig , 3' P P Y I If any r p , p p 9 be exp P S, d reg exp g y, p ially ith reg y and exp |, l The switchover date for comp g dep g n the part number or series of our p I When y y r p p mP . 9 I P q Y q IVY Y P tY P P p , crip .9 p 9
ٹ,I
\
RXZDQWWRXVHRXU
S
URGXFWVGHVFULEHGLQWKLVRQOLQHFDWDOR
J
IRUD
SS
OLFDWLRQVUH
T
XLULQ
J
V
S
HFLDO
T
XDOLWLHVRUUHOLDELOLW
\
RUIRUD
SS
OLFDWLRQVZKHUHWKHIDLOXUHRUPDOIXQFWLRQRIWKH
S
URGXFWVPD
\
GLUHFWO
\
M
HR
S
DUGL]HKXPDQOLIHRU
S
RWHQWLDOO
\
FDXVH
S
HUVRQDOLQ
M
XU
\
H
J
DLUFUDIWDQGDHURV
S
DFHH
T
XL
S
PHQW
WUDIILFDQGWUDQV
S
RUWDWLRQH
T
XL
S
PHQW
FRPEXVWLRQ
H
T
XL
S
PHQW
PHGLFDOH
T
XL
S
PHQW
DFFLGHQW
S
UHYHQWLRQ
DQWLFULPHH
T
XL
S
PHQW
DQGRUVDIHW
\
H
T
XL
S
PHQW

LWLVQHFHVVDU
\
WRYHULI
\
ZKHWKHUWKHV
S
HFLILFDWLRQVRIRXU
S
URGXFWVILWWRVXFK
D
SS
OLFDWLRQV3OHDVHHQVXUHWKDW
\
RXZLOODVNDQGFKHFNZLWKRXULQ
T
XLU
\
GHVNDVWRZKHWKHU
WKHV
S
HFLILFDWLRQVRIRXU
S
URGXFWVILWWRVXFKD
SS
OLFDWLRQVXVHEHIRUH
\
RXXVHRXU
S
URGXFWV
ٹ7KH
T
XDOLW
\
DQG
S
HUIRUPDQFHRIRXU
S
URGXFWVDVGHVFULEHGLQWKLVRQOLQHFDWDOR
J
RQO
\
D
SS
O
\
WRRXU
S
URGXFWVZKHQXVHGLQLVRODWLRQ7KHUHIRUH
S
OHDVHHQVXUH
\
RXHYDOXDWHDQGYHULI
\
RXU
S
URGXFWVXQGHUWKHV
S
HFLILFFLUFXPVWDQFHVLQZKLFKRXU
S
URGXFWVDUHDVVHPEOHGLQ
\
RXU
RZQ
S
URGXFWVDQGLQZKLFKRXU
S
URGXFWVZLOODFWXDOO
\
EHXVHG
ٹ,I
\
RXXVHRXU
S
URGXFWVLQH
T
XL
S
PHQWWKDWUH
T
XLUHVDKL
J
KGH
J
UHHRIUHOLDELOLW
\
UH
J
DUGOHVV
RIWKHD
SS
OLFDWLRQ
LWLVUHFRPPHQGHGWKDW
\
RXVHWX
S
S
URWHFWLRQFLUFXLWVDQGUHGXQGDQF
\
FLUFXLWVLQRUGHUWRHQVXUHVDIHW
\
RI
\
RXUH
T
XL
S
PHQW
ٹ7KH
S
URGXFWVDQG
S
URGXFWV
S
HFLILFDWLRQVGHVFULEHGLQWKLVRQOLQHFDWDOR
J
DUHVXE
M
HFWWR
FKDQ
J
HIRULP
S
URYHPHQWZLWKRXW
S
ULRUQRWLFH7KHUHIRUH
S
OHDVHEHVXUHWRUH
T
XHVWDQG
FRQILUPWKHODWHVW
S
URGXFWV
S
HFLILFDWLRQVZKLFKH[
S
ODLQWKHV
S
HFLILFDWLRQVRIRXU
S
URGXFWVLQ
GHWDLO
EHIRUH
\
RXILQDOL]HWKHGHVL
J
QRI
\
RXUD
SS
OLFDWLRQV
S
XUFKDVH
RUXVHRXU
S
URGXFWV
ٹ7KHWHFKQLFDOLQIRUPDWLRQLQWKLVRQOLQHFDWDOR
J
S
URYLGHVH[DP
S
OHVRIRXU
S
URGXFWV
W
\S
LFDOR
S
HUDWLRQVDQGD
SS
OLFDWLRQFLUFXLWV:HGRQRW
J
XDUDQWHHWKHQRQLQIULQ
J
HPHQWRI
WKLUG
S
DUW
\
VLQWHOOHFWXDO
S
UR
S
HUW
\
UL
J
KWVDQGZHGRQRW
J
UDQWDQ
\
OLFHQVH
UL
J
KW
RULQWHUHVW
LQRXULQWHOOHFWXDO
S
UR
S
HUW
\
ٹ,IDQ
\
RIRXU
S
URGXFWV
S
URGXFWV
S
HFLILFDWLRQVDQGRUWHFKQLFDOLQIRUPDWLRQLQWKLVRQOLQH
FDWDOR
J
LVWREHH[
S
RUWHGRU
S
URYLGHGWRQRQUHVLGHQWV
WKHODZVDQGUH
J
XODWLRQVRIWKH
H[
S
RUWLQ
J
FRXQWU
\
HV
S
HFLDOO
\
ZLWKUH
J
DUGWRVHFXULW
\
DQGH[
S
RUWFRQWURO
VKDOOEHREVHUYHG
ٹ7KHVZLWFKRYHUGDWHIRUFRP
S
OLDQFHZLWKWKH5R+6'LUHFWLYH5($&+5H
J
XODWLRQVYDULHV
GH
S
HQGLQ
J
RQWKH
S
DUWQXPEHURUVHULHVRIRXU
S
URGXFWV
ٹ:KHQ
\
RXXVHWKHLQYHQWRU
\
RIRXU
S
URGXFWVIRUZKLFKLWLVXQFOHDUZKHWKHUWKRVH
S
URGXFWV
DUHFRP
S
OLDQWZLWKWKH5R+6'LUHFWLYH5($&+5H
J
XODWLRQ
S
OHDVHVHOHFW6DOHV,Q
T
XLU
\
LQWKH
ZHEVLWHLQ
T
XLU
\
IRUPDQGFRQWDFWXV
:HGRQRWWDNHDQ
\
UHV
S
RQVLELOLW
\
IRUWKHXVHRIRXU
S
URGXFWVRXWVLGHWKHVFR
S
HRIWKH
V
S
HFLILFDWLRQV
GHVFUL
S
WLRQV
J
XLGHOLQHVDQG
S
UHFDXWLRQVGHVFULEHGLQWKLVRQOLQHFDWDOR
J
*XLGHOLQHVDQGSUHFDXWLRQVUHJDUGLQJWKH
GHVFULEHGLQWKLVRQOLQHFDWDORJ
5HJDUGLQJWKH&HUWLILFDWHRI&RPSOLDQFHZLWK
$SU
WHFKQLFDOLQIRUPDWLRQDQGXVHRIRXUSURGXFWV
WKH(85R+6'LUHFWLYH5($&+5HJXODWLRQV!