Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
Aluminum Electrolytic Capacitors (SMD Type)
A±0.2
W
( ) Reference size
L
0D±0.5
H
B±0.2
(I)
K
(P) (I)
+
0.3 max.
Pressure Relief
1800
TPE
Capacitance (µF)
Rated voltage code
Series identification
Lot number
Negative polarity
marking (–)
Frequency correction factor for ripple current
High ripple current (2 to 5 times as high as TK series)
Low ESR (40 to 70 % lower than TK series)
Large capacitance (Up to 80 % larger than TK series)
Endurance : 3000 to 4000 h at 125 °C
Vibration-proof product is available upon request
RoHS directive compliant
Features
Speci cations
DimensionsMarking
(Unit : mm)
Category temperature range
–55 °C to +125 °C
Rated voltage range 25 V.DC to 80 V.DC
Capacitance range 390 µF to 3300 µF
Capacitance tolerance ±20 % (120 Hz/+20 °C)
Leakage cur rent l < 0.01 CV (A) after 2 minutes
Dissipation factor (tan d)
Please see the attached characteristics list
Characteristics
at low temperature
V.DC 25 35 to 80
(Impedance ratio at 120 Hz)Z(–25 °C)/Z(+20 °C) 2 2
Z(–40 °C)/Z(+20 °C) 4 3
Endurance
After applying rated working voltage for 4000 hours at +125 °C±2 °C and then being stabilized
at +20 °C, Capacitors shall meet the following limits. (J16, K16 size : 3000 h)
Capacitance change Within ±30 % of the initial value (35 V.DC or less : Within ±35 %)
tan d< 300 % of the initial limit
DC leakage current Within the initial limit
Shelf life After storage for 1000 hours at +125 °C±2 °C with no voltage applied and then being stabilized
at +20 °C, capacitors shall meet the limits specifi ed in Endurance.(With voltage treatment)
Resistance to
soldering heat
After refl ow soldering and then being stabilized at +20 °C, capacitors shall meet the following limits.
Capacitance change Within ±10 % of the initial value
tan dWithin the initial limit
DC leakage current Within the initial limit
AEC-Q200 AEC-Q200 compliant
Example : 25 V.DC 1800 µF
Marking color : BLACK
Surface Mount Type
Series : Medium-size TP Type : V
High temperature
Lead-Free re ow
Frequency (Hz) 120 1 k 10 k 100 k to
Correction factor 0.75 0.90 0.95 1.00
R. Voltage
(V.DC) 25 35 50 63 70 80
Code E V H J 70 K
Size
codev 0D L A, B H I W P K
J16 16.0 16.5±0.5 17.0 19.0 max. 5.5 1.20±0.3 6.7 0.70±0.30
K16 18.0 16.5±0.5 19.0 21.0 max. 6.7 1.20±0.3 6.7 0.70±0.30
K21 18.0 21.5±0.5 19.0 21.0 max. 6.7 1.20±0.3 6.7 0.70±0.30
· The dimensions of the vibration-proof products, please refer to the page of
the mounting specifi cation.
Nov. 201700
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
Aluminum Electrolytic Capacitors (SMD Type)
Endurance : 125 °C 4000 h (J16, K16 size : 3000 h)
· Please refer to the page of “Refl ow Profi le” and “The Taping Dimensions”.
· The dimensions of the vibration-proof products, please refer to the page of the mounting specifi cation.
Characteristics list
Rated
voltage
(V.DC)
Cap.
(±20 %)
(µF)
Case size (mm)
Standard product
Size
code
Specifi cation Part No.
Refl ow
Min. Packaging Q'ty
0DL
Ripple
current
(100 kHz)
(+125 °C)
(mA r.m.s.)
ESR
(100 kHz)
(+20 °C)
(Ω)
tan d
(120 Hz)
(+20 °C)
Standard
Product
Vibration-proof
Product
Taping
(pcs)
25
1800 16 16.5 J16 2400 0.047 0.18 EEETP1E182M EEETP1E182V (9) 125
2700 18 16.5 K16 2600 0.045 0.20 EEETP1E272M EEETP1E272V (9) 125
3300 18 21.5 K21 3250 0.032 0.22 EEETP1E332M EEETP1E332V (9) 75
35
1300 16 16.5 J16 2400 0.047 0.16 EEETP1V132M EEETP1V132V (9) 125
1800 18 16.5 K16 2600 0.045 0.16 EEETP1V182M EEETP1V182V (9) 125
2400 18 21.5 K21 3250 0.032 0.18 EEETP1V242M EEETP1V242V (9) 75
50
750 16 16.5 J16 2000 0.080 0.14 EEETP1H751M EEETP1H751V (10) 125
1000 18 16.5 K16 2100 0.078 0.14 EEETP1H102M EEETP1H102V (10) 125
1300 18 21.5 K21 2900 0.060 0.14 EEETP1H132M EEETP1H132V (10) 75
63
560 16 16.5 J16 1900 0.100 0.12 EEETP1J561M EEETP1J561V (11) 125
750 18 16.5 K16 2000 0.095 0.12 EEETP1J751M EEETP1J751V (11) 125
1000 18 21.5 K21 2600 0.068 0.12 EEETP1J102M EEETP1J102V (11) 75
70
470 16 16.5 J16 1900 0.100 0.12 EEETP70471M EEETP70471V (11) 125
680 18 16.5 K16 2000 0.095 0.12 EEETP70681M EEETP70681V (11) 125
820 18 21.5 K21 2600 0.068 0.12 EEETP70821M EEETP70821V (11) 75
80
390 16 16.5 J16 1900 0.100 0.12 EEETP1K391M EEETP1K391V (11) 125
510 18 16.5 K16 2000 0.095 0.12 EEETP1K511M EEETP1K511V (11) 125
680 18 21.5 K21 2600 0.068 0.12 EEETP1K681M EEETP1K681V (11) 75
Nov. 201700
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VXFKD
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LQLVRODWLRQ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ZKLFKH[
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
HFLILFDWLRQV
GHVFUL
WLRQV
XLGHOLQHVDQG
UHFDXWLRQVGHVFULEHGLQWKLVRQOLQHFDWDOR
*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!