SOLID-ELECTROLYTE TANTALUM CAPACITORS
(TANCHIP SERIES)
2006.12
®
RoHS COMPLIANT, LEAD-FREE
TYPE
CAUTIONS
267M
This capacitor is polarized, do not apply reverse voltage.
The sum of peak value of AC and DC voltage should not exceed the
rated voltage.
● Information in this catalog is subject to change without prior notice.
Please inquire of us to confirm specifications prior to use.
●
●
Epoxy resin molding chip
Standard Series
CHARACTERISTICS
ITEM
Failure rate level
Operating temperature range
Rated voltage
Capacitance range
Capacitance tolerance
CHARACTERISTICS
1%/1000h
Ϫ55ϳϩ85°C to ϩ125°C with voltage derating
4Ϫ6.3Ϫ10Ϫ16Ϫ20Ϫ25Ϫ35Ϫ50VDC
0.047ϳ220µF
±10%, ±20%
Available capacitance tolerance ±5%(J) upon request.
DIMENSIONS
mm
[A case]
L
[B case]
W
T
T
W
P2
[D3, H case]
P1
[C3, E case]
W
P1
W
T
T
C
Type 267 is specially designed to
SMD, based on our technology of
chip tantalum capacitors acquired
over many years. Fully-molded construction provides excellent mechanical protection, superior moisture
resistance and high soldering heat
resistance.
FEATURES
1. Small size: A case 3.2ϫ1.6mm
2. Suitable for surface mounting.
3. Dimensional accuracy and symmetrical terminal structure suitable for high-density mounting
ensures excellent “Self-Alignment”.
4. Soldering: 260°C for 10 second
by re-flow or flow soldering.
5. #376 series of 267M, which are
low ESR(Equivalent Series
Resistance) series, were developed to meet recent customer's
requirement in high ripple current
applications such as DC/DC
Converter, Switching Regulator,
Personal Computer, etc.
Case Code EIA Code
L ± 0.2
W ± 0.2
T ± 0.2
A
3216
3.2
1.6
1.6
B
3528
3.5
2.8
1.9
C3
6032
6.0
3.2
2.5
D3
7343
7.3
4.4
2.8
H
7343H
7.3
4.4
4.1
E
7257
7.3
5.8
3.5
A, B, C3, D3 Case is in conformity with EIA-535BAAC.
E Case is in conformity with EIA-535BAAD.
NOTIFICATIONS FOR USE
Prior to use, please refer to
Application Notes for Tantalum Solid
Electrolytic Capacitors.
MATSUO ELECTRIC CO., LTD.
P1 ± 0.2
P2 min.
C ± 0.1
0.75
0.8
1.3
1.3
1.3
1.3
1.4
1.5
3.0
4.0
4.0
4.0
1.2
2.2
2.2
2.4
2.4
3.5