935133427710 - IPDiA - Datasheet.Live

XTSC427.xxx - 1206 Extreme Temperature

Silicon Capacitor

Rev 3.1

The IPDiA technology features a capacitor

integration capability (up to 250nF/mm²) which

allows a capacitance value similar to X8R

dielectric, but with better electrical performances

than C0G/NP0 dielectrics.

This technology also offers high reliability, up to

10 times better than alternative capacitor

technologies, such as Tantalum or MLCC, and

eliminates cracking phenomena.

This Silicon based technology is RoHS compliant

and compatible with lead free reflow soldering

process.

Thanks to the unique IPDiA Silicon capacitor

technology, most of the problems encountered in

demanding applications can be solved.

EXtreme Temperature Silicon Capacitors are

appropriate for applications used in extreme

operating temperature range (up to 250°C).

XTSC industry leading performances offer a 1µF

in 1206 package with a TC<1,5% over the full

-55°C/+250°C temperature range.

This technology also offers a negligible ageing

and a stable insulation resistance, even at very

high temperature, as well as a stable capacitor

value over the full operating.

Key features

 Ultra High temperature up to 250°C:

 Temperature Coeff: <2% (-55 °C to +250 °C)

 Voltage <0.1 %/V

 Negligible capacitance loss through aging

 Unique high capacitance in EIA/1206 package

size, up to 1 µF

 High reliability (FIT <0.017 parts / billion hours)

 Low leakage current down to 100 pA

 Low ESL and Low ESR

 Suitable for lead free reflow-soldering *Please refer

to our assembly Application Note for further recommendations

Key applications

 250°C requirements, high temperature

applications, such as military, aerospace,

automotive and downhole industries

 High reliability applications

 Replacement of X8R and C0G dielectrics

 Decoupling / Filtering / Charge pump

(i.e.: pressure sensor, motor management)

 Downsizing

Reproduction in whole or in part is prohibited without the

prior written consent of the copyright owner. The information

presented in this document does not form part of any

quotation or contract, is believed to be accurate and reliable

and may be changed without notice. No liability will be

accepted by the publisher for any consequence of its use.

Publication thereof does not convey nor imply any license

under patent- or other industrial or intellectual property rights.

For more information, please visit: http://www.ipdia.com

To contact us, email to: sales@ipdia.com

Date of release: 14th February 2014

Document identifier: CL431 111 615 119

XTSC427.xxx

Electrical specification

(*) Thinner thickness (as low as 100 µm thick) available, see Low Profile Silicon Capacitor product: LPSC

(**) Other values on request.

Part Number

935.133. B.2 S. U xx

i.e.: 1 µF/1206 case (XTSC type)

 935.133.427.710

Termination and Outline

(1206 PCB footprint)

Packaging

Parameters

Value

Capacitance range

10 nF to 1µF(**)

Capacitance tolerances

±15 %(**)

Operating temperature range

-55 °C to 250 °C

Storage temperatures

- 70 °C to 265 °C

Temperature coefficient

<±1.5 %, from -55 °C to +250 °C

Breakdown voltage (BV)

11 VDC(**)

Capacitance variation versus

RVDC

0.1 % /V (from 0 V to RVDC)

Equivalent Serial Inductor (ESL)

Max 1nH

Equivalent Serial Resistor (ESR)

Max 500m(**)

Insulation resistance

50G



min @ 3V,25°C

10G



min @ 3V,250°C

Ageing

Negligible, < 0.001 % / 1000 h

Reliability

FIT<0.017 parts / billion hours,

Capacitor height

Max 400 µm (*)

Capacitance value

Unit

1 nF

10nF

935.133.427.510

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10 nF

100nF

935.133.427.610

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0,1 µF

1µF

935.133.427.710

1 µF

Typ.

1206

Comp.

size

3.40±0.05

1.80±0.05

Arial 18 Bold

Rev.

Commercial Leaflet

Termination

Lead-free nickel/solder coating compatible

with automatic soldering technologies:

reflow and manual.

Typical dimensions, all dimensions in mm.

Package outline

Land

pattern IPD

component

Solder

Resist

Tape and reel, tray, waffle pack or wafer delivery.

Fig.1 Capacitance change versus temperature

variation compared with alternative dielectrics

DC Voltage stability

MLCC capacitors vs. PICS

-100

-90

-80

-70

-60

-50

-40

-30

-20

-10

0 1 2 3 4 5 6 7

Bias voltage (V)

Capacitance change (%)

Y5V

X7R

PICS

C0G

Fig.2 Capacitance change versus voltage

variation compared with alternative dielectrics

ESL (nH) @25°C

0402 C0G(NPO) vs. PICS

0,1

0,2

0,3

0,4

0,5

0,6

0,7

0,8

0,9

1,1

050 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000

Capacitance (pF)

ESL(nH)

PICS

C0G

Fig.3 ESL versus capacitance value

compared with alternative dielectrics

Size

7 = 1206

Breakdown

Voltage

4 = 11V

5 = 1 n

6 = 10 n

7 = 0.1 µ

8 = 1 µ

9 = 10 µ

Unit

0 = 10 f

1 = 0.1 p

2 = 1 p

3 = 10 p

4 = 0.1 n

Value (E6)