XTSC427.xxx - 1206 Extreme Temperature Silicon Capacitor Rev 3.1 Key features Key applications Ultra High temperature up to 250C: 250C requirements, high temperature applications, such as military, aerospace, automotive and downhole industries Voltage <0.1 %/V High reliability applications Negligible capacitance loss through aging Temperature Coeff: <2% (-55 C to +250 C) Replacement of X8R and C0G dielectrics Unique high capacitance in EIA/1206 package size, up to 1 F Decoupling / Filtering / Charge pump (i.e.: pressure sensor, motor management) High reliability (FIT <0.017 parts / billion hours) Downsizing 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 Thanks to the unique IPDiA Silicon capacitor The technology, most of the problems encountered in integration capability (up to 250nF/mm ) which demanding applications can be solved. allows a capacitance value similar to X8R EXtreme Temperature Silicon Capacitors are dielectric, but with better electrical performances appropriate for applications used in extreme than C0G/NP0 dielectrics. operating temperature range (up to 250C). This technology also offers high reliability, up to XTSC industry leading performances offer a 1F 10 in 1206 package with a TC<1,5% over the full technologies, such as Tantalum or MLCC, and -55C/+250C temperature range. eliminates cracking phenomena. This technology also offers a negligible ageing This Silicon based technology is RoHS compliant and a stable insulation resistance, even at very and compatible with lead free reflow soldering high temperature, as well as a stable capacitor process. value over the full operating. IPDiA technology features a capacitor times better than alternative capacitor XTSC427.xxx Electrical specification Capacitance value 10 10nF 935.133.427.510 100nF 10 nF 935.133.427.610 1F 0,1 F 935.133.427.710 22 33 47 68 Contact IPDIA Sales Contact IPDIA Sales Contact IPDIA Sales Contact IPDIA Sales Contact IPDIA Sales Contact IPDIA Sales Contact IPDIA Sales Contact IPDIA Sales Contact IPDIA Sales Contact IPDIA Sales Parameters Capacitance range Capacitance tolerances Operating temperature range Storage temperatures Temperature coefficient Breakdown voltage (BV) Capacitance variation versus RVDC Equivalent Serial Inductor (ESL) Equivalent Serial Resistor (ESR) 1 F (*) Thinner thickness (as low as 100 m thick) available, see Low Profile Silicon Capacitor product: LPSC Value 10 nF to 1F(**) 15 %(**) -55 C to 250 C - 70 C to 265 C <1.5 %, from -55 C to +250 C 11 VDC(**) 0.1 % /V (from 0 V to RVDC) Max 1nH Max 500m (**) 50G min @ 3V,25C 10G min @ 3V,250C Negligible, < 0.001 % / 1000 h FIT<0.017 parts / billion hours, Max 400 m (*) Insulation resistance (**) Other values on request. Ageing Reliability Capacitor height DC Voltage stability MLCC capacitors vs. PICS ESL (nH) @25C 0402 C0G(NPO) vs. PICS 10 1,1 PICS 0 1 -10 C0G 0,9 C0G 0,8 -20 Capacitance change (%) 0,7 -30 X7R ESL(nH) Unit 1 nF 15 -40 -50 0,6 0,5 0,4 -60 0,3 -70 0,2 -80 Y5V PICS 0,1 -90 0 -100 0 0 1 2 3 4 5 6 50 100 150 200 250 300 350 450 500 550 600 650 700 750 Capacitance (pF) Fig.2 Capacitance change versus voltage variation compared with alternative dielectrics Fig.3 ESL versus capacitance value compared with alternative dielectrics Part Number 935.133. i.e.: 1 F/1206 case (XTSC type) 935.133.427.710 B.2 S. Breakdown Voltage 4 = 11V U Size 7 = 1206 Value (E6) 10 15 22 33 47 68 xx Unit 0 = 10 f 1 = 0.1 p 2=1p 3 = 10 p 4 = 0.1 n 5=1n 6 = 10 n 7 = 0.1 8=1 9 = 10 Termination and Outline Termination Lead-free nickel/solder coating compatible with automatic soldering technologies: reflow and manual. Package outline Typical dimensions, all dimensions in mm. L Typ. 1206 W Comp. size L 3.400.05 W 1.800.05 Land pattern IPD component Solder Resist (1206 PCB footprint) Packaging Tape and reel, tray, waffle pack or wafer delivery. 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. 800 7 Bias voltage (V) Fig.1 Capacitance change versus temperature variation compared with alternative dielectrics 400 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 111 615 119 850 900 950 1000