T495X227K010ATE100

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KEMET

TANTALUM CAPACITOR, POLARIZED, TANTALUM (DRY/SOLID), 10V, 10% +TOL, 10% -TOL, 220UF, SURFACE MOUNT, 2917, CHIP

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DocumentsDatasheet T495X227K010ATE100 +4

T495X227K010ATE100

Active

KEMET

TANTALUM CAPACITOR, POLARIZED, TANTALUM (DRY/SOLID), 10V, 10% +TOL, 10% -TOL, 220UF, SURFACE MOUNT, 2917, CHIP

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DocumentsDatasheet T495X227K010ATE100 +4

Specifications Pricing Series Description Documents

Technical Specifications

Parameters and characteristics for this part

Specification	T495X227K010ATE100

Capacitance	220 µF
ESR (Equivalent Series Resistance)	100 mOhms
Features	General Purpose
Height - Seated (Max) [Max]	0.169 "
Height - Seated (Max) [Max]	4.3 mm
Lifetime @ Temp.	2000 Hrs
Manufacturer Size Code	X
Mounting Type	Surface Mount
Operating Temperature [Max]	125 °C
Operating Temperature [Min]	-55 °C
Package / Case	7343 Metric
Package / Case	2917
Size / Dimension [x]	0.287 "
Size / Dimension [x]	7.3 mm
Size / Dimension [y]	4.3 mm
Size / Dimension [y]	0.169 "
Tolerance	10 %
Type	Molded
Voltage - Rated	10 V

T495X Series

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Part	Lifetime @ Temp.	Type	Mounting Type	Size / Dimension [y]	Size / Dimension [x]	Size / Dimension [x]	Size / Dimension [y]	Package / Case	Package / Case	Features	Height - Seated (Max) [Max]	Height - Seated (Max) [Max]	Voltage - Rated	ESR (Equivalent Series Resistance)	Tolerance	Manufacturer Size Code	Capacitance	Operating Temperature [Min]	Operating Temperature [Max]
KEMET T495X107M016ATE125	2000 Hrs	Molded	Surface Mount	4.3 mm	0.287 "	7.3 mm	0.169 "	7343 Metric	2917	General Purpose	0.169 "	4.3 mm	16 V	125 mOhm	20 %	X	100 µF	-55 °C	125 °C
KEMET T495X686K020ATE200	2000 Hrs	Molded	Surface Mount	4.3 mm	0.287 "	7.3 mm	0.169 "	7343 Metric	2917	General Purpose	0.169 "	4.3 mm	20 V	200 mOhm	10 %	X	68 µF	-55 °C	125 °C
KEMET T495X687K004ATE060	2000 Hrs	Molded	Surface Mount	4.3 mm	0.287 "	7.3 mm	0.169 "	7343 Metric	2917	General Purpose	0.169 "	4.3 mm	4 V	60 mOhm	10 %	X	680 µF	-55 °C	125 °C
KEMET T495X106K035ATE200	2000 Hrs	Molded	Surface Mount	4.3 mm	0.287 "	7.3 mm	0.169 "	7343 Metric	2917	General Purpose	0.169 "	4.3 mm	35 V	200 mOhm	10 %	X	10 µF	-55 °C	125 °C
KEMET T495X227K010ATE100	2000 Hrs	Molded	Surface Mount	4.3 mm	0.287 "	7.3 mm	0.169 "	7343 Metric	2917	General Purpose	0.169 "	4.3 mm	10 V	100 mOhms	10 %	X	220 µF	-55 °C	125 °C
KEMET T495X476K035AHE300	2000 Hrs	Molded	Surface Mount	4.3 mm	0.287 "	7.3 mm	0.169 "	7343 Metric	2917	General Purpose	0.169 "	4.3 mm	35 V		10 %	X	47 µF	-55 °C	125 °C
KEMET T495X337M010ATE035	2000 Hrs	Molded	Surface Mount	4.3 mm	0.287 "	7.3 mm	0.169 "	7343 Metric	2917	General Purpose	0.169 "	4.3 mm	10 V	35 mOhm	20 %	X	330 µF	-55 °C	125 °C
KEMET T495X476M025ATE185	2000 Hrs	Molded	Surface Mount	4.3 mm	0.287 "	7.3 mm	0.169 "	7343 Metric	2917	General Purpose	0.169 "	4.3 mm	25 VDC	185 mOhm	20 %	X	47 µF	-55 °C	125 °C
KEMET T495X226M035ATE260	2000 Hrs	Molded	Surface Mount	4.3 mm	0.287 "	7.3 mm	0.169 "	7343 Metric	2917	General Purpose	0.169 "	4.3 mm	35 V	260 mOhm	20 %	X	22 µF	-55 °C	125 °C
KEMET T495X686K020AHE150	2000 Hrs	Molded	Surface Mount	4.3 mm	0.287 "	7.3 mm	0.169 "	7343 Metric	2917	General Purpose	0.169 "	4.3 mm	20 V	150 mOhm	10 %	X	68 µF	-55 °C	125 °C

Pricing

Prices provided here are for design reference only. For realtime values and availability, please visit the distributors directly

Distributor	Package	Quantity	$

Digikey	Cut Tape (CT)	1	$ 2.97
		10	$ 2.28
		50	$ 2.10
		100	$ 1.74
	Digi-Reel®	1	$ 2.97
		10	$ 2.28
		50	$ 2.10
		100	$ 1.74
	Tape & Reel (TR)	500	$ 1.40
		1000	$ 1.22
		2500	$ 1.18
		5000	$ 1.14
Newark	Each (Supplied on Full Reel)	500	$ 1.30
		1000	$ 1.15

Description

General part information

T495X Series

The T495 series capacitors are low ESR, surge robust MnO2 polarized tantalum chip capacitors. These capacitors are designed for demanding applications that require high surge current and high ripple current capability. T495 capacitors builds upon proven capabilities of industrial grade tantalum chip capacitors to offer several advantages such as low ESR, high ripple current capability, excellent capacitance stability and improved resistance to high inrush currents. These benefits are achieved through a combination of proprietary design, materials and process parameters as well as high stress, low impedance electrical conditioning performed prior to screening.

Documents

Technical documentation and resources

Datasheet