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Content Introduction 03 – 05 Tantalum Capacitors 06 − 07 Niobium Capacitors 08 Tantalum & Niobium Capacitors 09 Voltage Derating 10 − 11 Comparison of Tantalum and MLCC 12 − 13 Ultra Low ESR Technologies 14 Automotive Solutions 15 Highlights 16 − 17 Tantalum & Niobium Capacitors Our Strength – Your Benefit We are the only Top Broad Liner in Europe who generate round about one third of our turnover with Passive Components. Furthermore we have the biggest buying quantities of Passive Components in Europe. Our focus is a comprehensive product portfolio combined with high quality and technical standards. Our business partners are the worldwide leading manufacturers of all particular components. In the range of Tantalum and Niobium Capacitors we work together with AVX, Samsung, Vishay and NEC Tokin. Your Demand – Our Implicitness We understand our position as the interface between the manufacturer and the customer Guaranteed up to the minute information Our intensive cooperation with the manufacturers guarantees an ideal flow of information – from changes of the specifications up to long-term developments of the technologies or the products themselves. This detailed knowledge is one benefit for our customers referring standard products as well as for Design- in Solutions. Focus on Services Our customers‘ benefits are „tailor-made solutions from one hand“ with a broad range of products, high security of delivery and transparent prize creation via VMI and flexible DI solutions for calculation of processing costs. Individual Requirements Our excellent technical competence qualifies us as a trustful business partner in all questions of development and technology. Advantages for International Customers Our Logistic department offers innovative and flexible solutions for supply chain management with customized logistics systems. As a result our customers will get the best economical solutions, high delivery security and a maximum of availability. Our Product portfolio Semiconductors Passive Components Electromechanical Components Displays & Boards Storage Technologies Wireless Technologies Lighting Solutions Photovoltaic Solutions 3 Our key customers list includes leading companies in the Industrial Electronics, Automotive, Consumer Electronics, Telekommunications, Industries, Medicine. Voltage 10,000 Film 1,000 Electrolytic 100 Ceramic 10 Tantalum & Niobium Supercap 1 1 pF 4 1 nF 1 µF 1 mF 1 F Capacity Capacitors Tantalum & Niobium Capacitors Standard SMD Capacitors SMD Low ESR Capacitors SMD Polymer Capacitors SMD Miniature (Low profile, Microchip) SMD Conformal Coated SMD Automotive and High Reliability Leaded Capacitors Niobium Capacitors Franchise Situation Worldwide Pan-European *) Worldwide Pan-European USA USA Korea Japan Information Headquarter Ranking #1 Tantalum Capacitor Manufacturer Worldwide TOP5 Tantalum Capacitor Manufacturer Worldwide Strength High product quality Innovative products The only producer of Innovative Products Wide product portfolio TOP5 Tantalum Capacitor Manufacturer Worldwide TOP10 Tantalum Capacitor Manufacturer Worldwide Good product quality Strong in small case sizes Wide product portfolio in Polymer Products Niobium capacitors (alternative solution to Tantalum) AEC-Q200 qualification yes yes no High Reliability e.g. Automotive, High Temperature (up to 175°C) no Rutronik Focus Products Low ESR, Ultra Low ESR etc. Advantages for the customer Stock & Availability Sales & Technical Support located in Europe Important partnership and High Reliability e.g. Automotive, High Temperature (up to 200°C) Low ESR, Ultra Low ESR etc. Polymer Tantalum Capacitors Polymer Tantalum Capacitors Standards (Commodities) without specific requirements D & E case sizes Important partnership and strategic longterm cooperation Linemanagement established strategic longterm cooperation Linemanagement established Stock & Availability Sales & Technical Support Japanese quality produced in Thailand located in Europe Important partnership and strategic longterm cooperation Linemanagement established Focus program Product available *) Transfer business to Aisa allowed 5 Tantalum Capacitors Type Standard Low ESR Ultra Low ESR Low Profile/ Miniaturized Multianode Polymer Applications Multipurpose Application High Performance (SMPS/Filter) Capacitance 0.10µF - 2200µF 0.15 µF - 1500 µF 10µF - 2200µF 1µF - 330µF 0.1µF - 1000µF ESR values 24000mOhm to 200mOhm (100 kHz, +25°C) 9000mOhm to 30mOhm (100 kHz, +25°C) 140mOhm to 12mOhm (100 kHz, +25°C) 8000mOhm to 15mOhm (100 kHz, +25°C) 25000mOhm to 200mOhm (100 kHz, +25°C) Tolerance 10%, 20% 10%, 20% 10%, 20% 20% 10%, 20% Rated Voltage 2.5-63 Vdc for continuous operation at +85°C 2.5-63 Vdc for continuous operation at +85°C 2.5-50 Vdc for continuous operation at +85°C 2.5-125 Vdc for continuous operation at +85°C 2-50 Vdc for continuous operation at +85°C Operating Temp. -55 to +85°C (to +125°C with voltage derating) -55 to +85°C (to +125°C with voltage derating) -55 to +125°C -55 to +125°C -55 to +125°C Reliability 1% per 1000 hours at 85°C, Vr with 0.1 Ohm/Vr series impedance, 60% confidence level Benefit High Volumetric Efficiency Low ESR Environmentally Friendly High electrical and thermal stress resistance 3x Reflow 260°C Compatible Power Management systems and portable handheld elctronics Excellent ESR levels up to 50V range High ripple current 100% hard surge testing Ultra Low ESR World‘s smallest SMD Tantalum Capacitor Reduced ignition Better capacitance retention 3x Reflow 260°C Compatible No reduction in performance The highest energy store in a small case size (down to 0402) High frequency operation with temperature and voltage stability Special Tantalum Capacitors Type Established Reliability Microchip Molded SMD Tantalum Capacitors with built-in Fuse Niobium Ceramic Multianode Chip Capacitors Surface Mount Military Applications For use in life support and implantable medical devices Servers V-core filtering and power supply applications For use in military devices Capacitance 0.47µF - 68µF 0.47µF - 470µF 330µF - 560µF 0.1µF - 680µF Tolerance 10% 20% 10% 20% 20% 5% 10% 20% Rated Voltage 2 - 40Vdc for continuous operation at +85°C 4 - 50Vdc for continuous operation at +85°C 2.5 - 4Vdc for continuous operation at +85°C 4 - 50Vdc for continuous operation at +85°C Operating Temp. -55 to +85°C (to +125°C with voltage derating) -55 to +85°C (to +125°C with voltage derating) -55 to +85°C (to +105°C with voltage derating) -55 to +85°C (to +125°C with voltage derating) Reliability HRC5000, Weibull B grade, 0.1% per 1.000 hours 1% per 1000 hours at 85°C 0.2% per 1000 hours at 85°C Benefit Low leakage Non-burn technology Super low ESR Conformance Testing (Lot by Lot) High ripple current carrying capability Non-burn technology Extended traceability Weibull graded 6 Protection from possible damaging from high DC leakage current (short circuit failure) 3x reflow 260°C compatible The series comprises ten case sizes Fully molded and compliant leadframe construction Microchips High Performance Conformal Coated High Reliability HIgh Temperature Standard Low ESR Mobile Devices, Medical, Modules High quality industrial or automotive High end and high temperature industrial or automotive Multipurpose Application High performance (SMPS/Filter) 0.1µF - 330µF 0.1 µF - 470 µF 0.1µF - 220µF 0.1µF - 1500µF 1.0µF - 2200µF 40000mOhm to 1000mOhm (100 kHz, +25°C) 20000mOhm to 100mOhm (100 kHz, +25°C) 24000mOhm to 200mOhm (100 kHz, +25°C) 10%, 20% 10%, 20% 10%, 20% 10%, 20% 10%, 20% 2.5 - 50 Vdc 6.3 - 63 Vdc 6.3 - 50 Vdc 2 - 50 Vdc 4 - 75 Vdc -55 to +125°C -55 to +125°C -55 to +200°C -55 to +125°C -55 to +125°C 1% per 1000 hours 0.5% per 1000 hours 0.5% per 1000 hours The world‘s smallest SMD Tantalum capacitor (down to 0402 size) More robust against higher thermo-mechanical stresses during assembly process High temperature operation and higher basic reliability for optimal performance High frequency operation with temperature and voltage stability No reduction in performance Better electrical strength through thicker dielectric layer 3500mOhm to 30mOhm (100 kHz, +25°C) Big range, for non standard usage Volumetric, efficiency and capacity per case Very good ripple current treatment AEC-Q200 qualified AEC-Q200 qualified Leaded Tantalum Capacitors Type Dipped Radial Capacitors Molded Axial Capacitors Molded Radial Capacitors Hermetic Axial Capacitors Applications Multipurpose Application For use in miniature and subminiature applications Multipurpose Application For use in military and professional equipment Capacitance 0.10µF - 680µF 0.10µF - 68µF 0.10µF - 330µF 0.033µF - 1000µF Tolerance 10% 20% (5% on demand) 10% 20% 10% 20% 10% 20% Rated Voltage 3 - 50Vdc for continuous operation at +85°C 4 - 50Vdc for continuous operation at +85°C 6.3 - 50Vdc for continuous operation at +85°C 6.3 - 125Vdc for continuous operation at +85°C Operating Temp. -55 to +85°C (to +125°C with voltage derating) -55 to +85°C (to +125°C with voltage derating) -55 to +85°C (to +125°C with voltage derating) -55 to +85°C (to +125°C with voltage derating) Reliability 1% per 1000 hours at 85°C Different lead space and lead length are available Precision molded for use in high speed automatic insertion applications Four case sizes precisely molded with a flame retardant epoxy resin Available taped and reeled for automatic insertion Low leakage current and impedance Tapered nose identifies positive polarity Benefit Stand off on all case sizes Very small physical sizes Low leakage current Exceptional temperature stability Low impedance Fully hermetically sealed, of rugged construction and high reliability Extremely low leakage current Excellent capacitance to size ratio 7 Niobium Capacitors Niobium Oxide Capacitors Type Standard Low ESR Low ESR Multianodes Low Profile/ Miniaturize Applications Multipurpose Application High performance (SMPS/Filter) High performance (SMPS/Filter) Multipurpose volume sensitive Capacitance 4.7µF - 1000µF 10µF - 1000µF 220µF - 680µF 2,2µF - 470µF Tolerance 20% 20% 20% 20% Rated Voltage 1.8 - 10 Vdc for continuous operation at +85°C (0.66DC to 105°C) 1.8 - 6,3 Vdc for continuous operation at +85°C (0.66DC to 105°C / 0.5DC to 125°C) 1.8 - 6.3 Vdc for continuous operation at +85°C (0.66DC to 105°C / 0.5DC to 125°C) 1.8 - 10 Vdc for continuous operation at +85°C Operating Temp. -55 to +105°C -55 to +125°C -55 to +125°C -55 to +105°C Reliability 0.5% per 1000 hours at 85°C 0.2% per 1000 hours at 85°C 0.2% per 1000 hours at 85°C 2.2µF - 470µF Benefit Non-burn technology and excellent reliability level Optimized costs versus performance Usable up to 80% rated voltage 8 Cost effective replacement for Polymer Better lifetime than electrolytic capacitor AEC-Q200 qualified Small size down to 0805 Low profile down to 1.2 mm AEC-Q200 qualified Tantalum & Niobium Capacitors Such products will only be achievable by the use of improved raw materials and clever designs but also by total new material technologies. For example the volumetric efficiency of the tantalum powder has steadily increased over time, which allows the production of larger and larger capacitances with the same physical volume. New methods of development establishes new possibilities such as the multi-anode configuration of capacitors. Furthermore the usage of new materials provided capacitors with new features. One example is the Niobium-Capacitor, where a new dielectric is used after decades of using the same dielectric. Because of the close partnership to the worldwide leading manufacturers we believe we are in a position to offer our customers the ideal range of capacitor technology for their applications from a technical as well as cost effective view- every time. Case Size Miniturization The Electronic Industry had and still has to handle the sophisticated requirements of the customers. The applications are getting more and more powerful, smaller and of higher quality. That’s the reason why also Tantalum and Niobium Capacitors have always to improve their technical parameters to satisfy the constantly changing requirements of the applications. According to this changes there are three main developments within this capacitor-family noticeable: Small case sizes and low profile series for space-saving layout Lower ESR-values (series resistance) for higher pulse frequencies Higher capacities for known case sizes for more powerful applications Extended requirements Low ESR u Red SR Capacitance E ced Extended Capacitance 9 1000.0 NOS F T Correction Factor 100.0 Tantalum 1.0 0.1 0.01 0 Fig.1. Tantalum & OxiCap® reliability curve NOJ 10.0 20 40 60 80 100 Temperature (C) 120 140 160 Fig.2. Temperature Correction Factor Voltage Derating Parameters Sensitive to Derating There are three main parameters sensitive to the level of derating (ratio between applied voltage and rated voltage of the capacitor): Steady State Failure Rate, Dynamic Failure Rate (resistance to surge current / low external resistance) and DCL at application voltage. Reliability of failure rate FB= 1.0% / 1000 hours for commercial tantalum series and tantalum polymer capacitors 0.5% / 1000 hours for professional tantalum series TRJ, TRM, THJ 0.2% - 0.5% / 1000 hours for niobium series Steady State Failure Rate Dynamic Failure Rate (Surge Current) Both Tantalum and Niobium Oxide dielectric have essentially no wear out mechanism and in certain circumstances are capable of limited self healing. However, random failures can occur in operation. The failure rate of Tantalum capacitors will decrease with time and not increase as with other electrolytic capacitors and other electronic components.– see Fig. 1. The useful life reliability of the tantalum capacitors in steady state is affected by three factors. The equation from which the failure rate can be calculated is: F = FV ∙ FT ∙ FR ∙ FB where: FV - correction factor due to operating voltage/ voltage derating – see Fig. 2. FT - correction factor due to operating temperature– see Fig. 3. FR - correction factor due to circuit series resistance FB - basic failure rate level Base failure rate Standard Tantalum conforms to Level M reliability (i.e. 1%/1000 hrs) or better at rated voltage, 85°C and 0.1Ω/volt circuit impedance. 10 Protection against uneven current surges in low impedance circuits is the most important factor to consider an appropriate derating factor of tantalum capacitor. The worst case of current surge in the application should not exceed the design and screened current of the capacitor specified by the manufacturer. Current through capacitor The maximum surge current (transient) through the capacitor in a circuit is defined by two factors: a) Power supply output The current developed during power up (charging, transient) through the capacitor depends on the power supply: I=CX ∙ dV [A] dt [a] where: CX = capacitance of the capacitor dV/dt = voltage gradient (how fast the power supply can ramp the voltage) 1 10.0 p 0.1 m alu t Tan 0.01 iCa /Ox ® Leakage Current Ratio I/VR F V Correction Factor 1.0 0.001 0.0001 0 0.1 0.01 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 Applied Voltage/Rated Voltage Fig.3. Voltage Correction Factor 20 0 Rate Voltage (VR) % 40 80 60 100 Fig.4. Leakage current vs. Rated voltage b) Ohm´s law I= V [A] R [b] where: V = application voltage R = total resistance of the circuit The actual current through the capacitor is defined by the lower value calculated from equations [a] and [b]. Solid Tantalum capacitors have a limited ability to withstand voltage and current surges. Such current surges can cause a capacitor to fail. The expected failure rate cannot be calculated by a simple formula as in the case of steady-stae reliability. The table below summarizes a the result of trials made by one of our manufacturers. Example: typical DCL of 10V capacitor used at different operating voltage. Operating Voltage [V] Typical DCL [μA] 10V rail 10μA 5V rail 2.5μA 3.3V rail 1.5μA Voltage derating is necessary for all tantalum, niobium and polymer capacitors to prevent failure due to excess current availability. Recommended Voltage Derating Guidelines Standard conditions: for example: Output filters Severe conditions: for example: input filters Capacitor Voltage Rating Operating Voltage Capacitor Voltage Rating Operating Voltage 4.0 2.5 4.0 2.5 6.3 3.6 6.3 3.3 Capacitance and Voltage Number of units tested 50% derating applied No derating applied 47μF 16V 1,547,587 0.03% 1.1% 10 6.0 10 5.0 100μF 10V 632,876 0.01% 0.5% 16 10 16 8.0 22μF 25V 2,256,258 0.05% 0.3% 20 12 20 10 25 15 25 12 35 24 35 15 50 28 50 24 66 36 63 31 As can clearly be seen from the results of this experiment, the more derating applied by the user, the less likely the probability of a surge failure occurring. DCL - leakage current in the application The leakage current drops rapidly below the value corresponding to the rated voltage VR when reduced voltages are applied. However for tantalum polymer capacitors and capacitors made from niobium oxide, the failure-rate has less dependence on applied voltage and have different derating requirements. Hence a minimum derating of 20% is sufficient in all applications. DCL value can typically drop to one range lower value if 50% derating is used – see Fig. 4. 11 20 100 Impedance & ESR (Ohms) 0 10 1 TAJB475M016 -20 -40 Tantalum ESR Ceramic Imp. 0.1 -60 Ceramic ESR -80 0.01 1206YG415M 0.001 1E+3 1E+4 1E+5 1E+6 -100 1E+7 -60 -40 -20 0 20 40 60 80 100 120 140 Frequency (Hz) Fig. 1 - Impedance and ESR curves for 4.7 µF tantalum and ceramic capacitors Fig. 2 - Capacitance change versus temperature Comparison of Tantalum and Multilayer ceramic capacitors Introduction Parasitic ESR and ESL In many business fields like measurement, automotive and industry electronics, there are more often intentions to replace tantalum capacitors through MLCC’s. However the replacement is not always an ideal solution, because the capacitors have builtin specific kinds of features suitable for desired equipments. Both of these capacitors have parasitic ESL and ESR, simply because of the physics involved in manufacturing the devices. Both technologies have a finite length and width of conductor in which the conduction currents flow through, therefore they both have inductance (ESL). There are significant differences in constructions between multilayer ceramic (MLC) and tantalum capacitors. The ceramic MLC chip is a ceramic block with end metallizations applied to the opposing end termination faces (T1 & T2). This creates wrap-around metal pads on the adjacent faces, and these pads are soldered directly to the printed circuit board (PCB) along the bottom of the chip. The ESR of MLCC’s is typically lower than that of similar value tantalum. The ratio of this parasitic is typically 1:100. Using conductive polymers in place of the traditional MnO2 cathode reduces this ratio down to 1:10 and, in some cases approaching unity – see Fig. 1. The active element of the tantalum capacitor is a metal-dominated structure that is encased in plastic, with leadframes extending out from the plastic to allow a leadframe wrap-under (T1 & T2), which creates metal pads along the bottom of the package to facilitate the soldering to the PCB. T1 Tantalum Construction Fig. 3 - Tantalum and ceramic chip structure 12 T2 T1 Ceramic Construction T2 Temperature Coefficient of capacitance The allowable change in capacitance for two of the ceramic dielectrics and for tantalum within their temperature ranges are all within a +-15% window – see Fig. 2. For filtering applications, they are very similar, as deviations within 20% will have little impact on circuit. For power supplies that are always in the temperature range above 20°C, the higher capacitance from the tantalum could result in lowered impedance and improved performance. Viewing these same considerations for decoupling of hot microprocessors or decoupling applications, the higher capacitance at elevated temperatures makes the tantalum response more desirable. 25 1000 100 Output (uV/ustrain) Capacitance change rate (%) 300 0 -25 -50 -75 -100 -1 Y5V 30 10 X7R 3 1 Tantalum 1 3 0.1 0.03 5 Fig. 4 - % change capacitance vs. DC bias voltage for Y5V and X7R ceramic capacitors 0.1 0.3 1 3 10 Fig. 5 – Piezoelectric effect of SMD capacitors DC bias Dependency Flex cracks The specified capacitance of MLCC’s are related to a specific metering voltage, usually 1V with a frequency of 1 kHz. If there will be a DC voltage applied, the capacitance of the ceramic capacitor will decrease. This effect is called DC bias. The most reported cause for failure of ceramic chips today is flex cracking. Tantalum capacitors do not change capacitance with applied DC bias. Since almost all capacitors are operated with a DC voltage involved, this is a very important feature to keep in mind when designing a circuit – see Fig. 4: It should be noted that the temperature and DC bias effects are cumulative and not exclusively independent. 30 The larger the capacitor chip, the greater possibility for cracking. The larger capacitor chips afford the largest capacitance. Replacing tantalum capacitors usually requires the largest ceramic capacitance available. This creates a self-feeding cycle of failure. Tantalum capacitors are not affected by mechanical stress. Summary There is no simple answer to the question of whether you can replace a tantalum with a ceramic or the other way around. The parameters that the capacitor will see during its lifetime need to be examined carefully. The benefits of the technologies are listed in the table below. Piezoelectric noise Due to the fact that the ceramic material is crystal based it has a potential for piezoelectric noise. In the case of the capacitor mechanically fixed on the board, any mechanical stress created in the part by the board can generate unwanted electrical noise. This is especially important for high-gain amplifiers. Tantalum capacitors have no piezoelectric effect - see Fig. 5 Important Parameter Tantalum Ceramic ESR Volumetric efficiency Wide temperature range Low inductance DC bias Piezoelectric High frequency filtering Flex cracks advantage 13 Ultra low ESR Multianode + Ceramic Polymer Multianode Multianode Polymer Low ESR Standard Standard ESR Ultra Low ESR technologies Polymer Design Multianode Design Polymer + Multianode Design Cathode is made of Polymer instead of Magnesium dioxide (MnO2) as usual. 2 to 5 Anodes separated from each other Combines both advantages of polymer and multianode design to reduce the ESR Advantages Very low ESR (40 – 500 mOhms) Reduced ignition failure mode Better capacitance retention 3x reflow 260°C compatible Only 20% derating Ultra low ESR (12 – 140 mOhms) High ripple current Better stability at humidity load 100% hard surge testing Lowest ESR (10 - 12 mOhms) Reduced ignition failure mode 3x reflow 260°C compatible High frequency capacitance retention Only 20% derating Telecommunication / base stations Power supply Automotive industries High power output circuits LCD monitors Telecomunication Applications Power Supply PC motherboards Laptops + charging stations Mobile phones 14 Infotainment & Telematics Hands Free Telephony Navigation DBA & IBOC Receivers E-Calls, B-Calls, S-Calls Automotive Hybrid TV Receiver Storage Devices Vehicle Bus Communication Multimedia Bus Interface like most & 1394 CAN J1850, LIN, GMLAN, UART, FNOS Seating Systems Body Electronics Power Windows & Mirror Control Remote Keyless Smart Junction Box Automotive Lighting Control The Pressure Monitoring Systems Modelling of Suspension Systems Power Train & Engine Management Diagnostic Test and Interfaces Complex and Simple IO Development Model Based Software Development Instrument Clusters Hardware Architecture HMI Components Reusable Components Integration & Validation Rear Seat Enertainment Automotive solutions Higher reliability with our manuf- Example for several Car applications requirements acturers‘ solutions automotive applications 1.Harsh enviroment conditions a. Wide temperatue range b. High humidity, dust For high reliability and optimal performances in automotive applicatons, tantalum capacitors have to achieve special requirements: High continuous operating temp. High basic reliability More robust against more severe working conditions High endurance Exterior systems Powertrain EC glasses Electronics Mirrors Vehicle assembly All wheel drive Interior systems Metal forming 2.Harsh electrical requirements a. Voltage & current spikes b. High electrostatic 3.Increasingly strict requirements a. 10 years guarantee b. 150,000 miles c. < 10 ppm failures d. Lead-free 4.Production certified with TS16949 and ISO 9001 5.All capacitors certified with AECQ200 15 High voltage polymer development roadmap TCJ Polymer 25V 2011 2010 50V released 63V 100V engineering samples 2012 100V mass production Highlights 100V Tantalum polymer capacitors – technology breakthrough Conductive polymer has been proven to provide low ESR and reduced ignition failure mode solution. In addition, due to the nature of polymer capacitors surge robustness, lower derating of 20% can be used. Nevertheless, due to maximum achievable breakdown voltage, working voltage of tantalum-polymer capacitors was limited up until now. Latest AVX development in polymer technology addresses limited working voltage issues and offers new range of higher rated voltage products. The 50V rated tantalum capacitor released in 2010 received the Passive & Electromechanical Product of the Year at the Elektra Awards. The continuous AVX development proved conductive polymer ability to increase the rated voltage up to 100V or even higher voltages, extending the application voltage up to 80V. This significantly widens the working range of tantalum capacitors to the new applications such as telecommunications, LED TVs, Notebook power supplies, industrial applications etc. using higher rail voltages. 16 Tantalum polymer features: Conductive polymer electrode reduces ignition failure mode Lower ESR 3x reflow 260°C compatible Rated voltage 2.5-50V with future development up to 100V Capacitance range 1.0 – 220μF Usable up to 80% rated voltage TH5 Series of HI TMP® TANTAMOUNT® SMD Tantalum Capacitors TR3 – W Case size Features & Benefits: Capacitance value of 10 μF at 21 V or 12 V at + 200 °C, without the need for voltage derating 500 hours of continuous operation at + 200 °C Offered in a molded package in E case size (EIA 7343-43) Operating temperature range of - 55 °C to + 200 °C Gold-plated terminations 100 % surge current tested Suitable for high-volume automatic and manual pick-and-place equipment Capable of withstanding lead (Pb)-free soldering reflow conditions Key Benefits: New EIA 7361 (mm) size: 7.3 x 6.0 x 3.45 mm (L x W x H) Very Low ESR Extended capacitance and voltage range Robust design Equivalent to AVX TPS-V-Case and Kemet T520/T525-E-case Applications: Oil exploration and drilling sensing systems Industrial applications related to the control of high-temperature materials Safety-critical industrial tools and products Automotive applications Applications: Data Storage and Networking Telecom Infrastructure Industrial Power Supplies, DC/ DC out filtering in Servers, Industrial computers, Base Stations 17 Rutronik webg@te stock around the clock. 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It consists of an Online Catalogue, a Product Change Notifications (PCNs) Database and Procurement. webg@te delivers information around the clock in real time, takes orders and issues status information. Added value The complete Rutronik product range is available in webg@te for online ordering: semiconductors, passive and electromechanical components, storage technologies, displays & embedded boards as well as wireless technologies. The order option for component sam-ples is brand new. Always the right thing Rutronik Customer Service always offers the right “fit”. webg@te does not replace personal service but flexibly complements local customer service to meet customer wishes and require-ments. Borderless in practice webg@te is just as European as Rutronik. Online customers can rely upon the same business and delivery conditions throughout Europe. Electronics worldwide CONSULT worldwide COMPONENTS worldwide LOGISTICS worldwide SUPPORT worldwide Technical Consulting Semiconductors Supply Chain Solutions Online Services Commercial Consulting Passive Components Logistic Modules Logistical Consulting Electromechanical Components Logistic Fulfilment Seminars, Workshops and TechDays Displays & Boards Storage Technologies Wireless Technologies Lighting Solutions Photovoltaic Solutions Value Added Services Procurement Consulting Product Change Notifications Quality Management Germany – Headquarters Rutronik Elektronische Bauelemente GmbH | Industriestraße 2 | 75228 Ispringen / Pforzheim Tel. +49 (0) 7231 801-0 | Fax +49 (0) 7231 82282 | E-Mail: [email protected] | www.rutronik.com Berlin Justus-von-Liebig-Straße 7 12489 Berlin Tel. +49 30 8 09 27 16-0 Fax +49 30 8 09 27 16-16 Erfurt Flughafenstraße 4 99092 Erfurt Tel. +49 361 2 28 36-30 Fax +49 361 2 28 36-31 Hamburg Neue Gröningerstraße 10 20457 Hamburg Tel. +49 40 3 59 60 06-20 Fax +49 40 3 59 60 06-50 Nürnberg Südwestpark 10/12 90449 Nürnberg Tel. +49 911 6 88 68-0 Fax +49 911 6 88 68-90 Dortmund Zum Lonnenhohl 40 44319 Dortmund Tel. +49 231 9 50 36-0 Fax +49 231 9 50 36-31 Frankfurt Frankfurter Straße 151 c 63303 Dreieich Tel. +49 6103 2 70 03-0 Fax +49 6103 2 70 03-20 Mannheim Amselstraße 33 68307 Mannheim Tel. +49 621 76 21 26-0 Fax +49 621 76 21 26-17 Ostwestfalen Brockweg 133 33332 Gütersloh Tel. +49 5241 2 32 71-0 Fax +49 5241 2 32 71-29 Dresden Radeburger Straße 172 01109 Dresden Tel. +49 351 20 53 30-0 Fax +49 351 20 53 30-10 Freiburg Basler Landstraße 8 79111 Freiburg Tel. +49 761 61 16 77-0 Fax +49 761 61 16 77-11 München Landsberger Straße 392 81241 München Tel. +49 89 88 99 91-0 Fax +49 89 88 99 91-19 Ratingen Gothaer Straße 2 40880 Ratingen Tel. +49 2102 99 00-0 Fax +49 2102 99 00-19 France Rutronik S.A.S 6, Mail de l’Europe 78170 La Celle St Cloud Tel. +33 1 30 08 33 00 [email protected] Bordeaux Tel. +33 5 57 26 40 00 Grenoble Tel. +33 4 76 61 00 90 Le Mans Tel. +33 2 43 78 16 97 Lyon Tel. +33 4 72 76 80 00 Poitiers Tel. +33 5 49 52 88 88 Rennes Tel. +33 2 23 45 14 40 Padua Via Savelli, 62 35129 Padova (PD) Tel. +39 049 8 69 78 00 Portugal Rutronik Elektronische Bauelemente GmbH Av. General Humberto Delgado Porta 8, 1ºAndar, Sala R 4760-012 V. N. Famalicão Tel. +351 252 3 12-336 Photovoltaic & Lighting Solutions RUSOL GmbH & Co. KG Industriestraße 2, 75228 Ispringen Tel. +49 (0) 7231 801-2910 Fax +49 (0) 7231 801-2915 [email protected] www.rusol.com Austria Rutronik Elektronische Bauelemente Ges. m. b. H. Durisolstraße 1 4600 Wels Tel. +43 7242 4 49 01 Belgium Rutronik Elektronische Bauelemente GmbH Keppekouter 1 Ninovesteenweg 198 9320 Erembodegem-Aalst Tel. +32 53 60 65 90 Bulgaria Rutronik Elektronische Bauelemente GmbH Zheko Voyvoda street no. 5 1756 Sofia Tel. +359 2 9 74 86-46 Czech Republic Rutronik Elektronische Bauelemente CZ s.r.o. Brno Slavičkova 1a, 63800 Brno Tel. +420 5 4 54 24-681 Prague Papírenská 1 160 00 Praha Tel. +420 2 33 34 31 20 Denmark Rutronik Elektronische Bauelemente GmbH Herstedøstervej 27-29 2620 Albertslund Tel. +45 7020 19 63 Estonia Rutronik Elektronische Bauelemente GmbH Vaksali 17A, 50410 Tartu Tel. +372 7370951 Finland Rutronik Elektronische Bauelemente GmbH Kirkonkyläntie 3 00700 Helsinki Tel. +358 9 32 91 22 00 Strasbourg Tel. +33 3 88 78 12 12 Hungary Rutronik Magyarország Kft. Fehérvári út 89-95, 1119 Budapest Tel. +36 1 371 06 66 Italy Rutronik Italia S.r.l. 21, Via Caldera Centro Direzionale S.Siro 20153 Milano (MI) Tel. +39 02 4 09 51-1 [email protected] Ancona Via 1° Maggio, 150/B 60131 Ancona (AN) Tel. +39 071 2 91 62 18 Bologna Via Gazzani, 8/2 - Z.I. Bargellino 40012 Calderara di Reno (BO) Tel. +39 051 6 46 32 00 Rome Via Del Maggiolino, 125 00155 Roma (RO) Tel. +39 06 228 782-1 Turin Strada Torino, 43/45 Europalace 10043 Orbassano (TO) Tel. +39 011 9 02 20 00 Lithuania Rutronik Elektronische Bauelemente GmbH Raudondvario pl.76 47182 Kaunas Tel. +370 37 26 17 80 Norway Rutronik Elektronische Bauelemente GmbH Olav Helsets vei 6 0694 Oslo Tel. +47 22 76 79 20 Netherlands Rutronik Elektronische Bauelemente GmbH Papland 4a 4206 CL Gorinchem Tel. +31 183 64 60-50 Poland Rutronik Polska Sp. z o.o. ul. Bojkowska 37 44-101 Gliwice Tel. +48 32 4 61 20 00 Florence Via V. Emanuele, 33 50041 Calenzano (FI) Tel. +39 055 8 82 73 32 Gdynia ul. Batorego 28-32 81-366 Gdynia Tel. +48 58 7 83 20-20 Naples Via Arcora, 110, Palazzo Gecos 80013 Casalnuovo di Napoli (NA) Tel. +39 081 5 22 87 09 Warsaw ul. Patriotów 110 04-844 Warszawa Tel. +48 22 3 32 73-70 Romania Rutronik Elektronische Bauelemente GmbH Grigore T. Popa Strasse nr. 81, etage 8 300291 Timişoara Tel. +40 25 64 01 240 Bucureşti Tel. +40 314 25 38 39 Russia Rutronik Beteiligungsgesellschaft mbH Leningradskoje Chaussee 16 Building 3, Office 403 125171 Moscow Tel. +7 495 7 86 28 02 Serbia Rutronik Elektronische Bauelemente GmbH YUBC Bul. Mihajla Pupina 10z/IV, 11070 Beograd Tel. +381 11 311 33 66-3 Madrid Ctra. Canillas 134 - 1a Planta - 9B 28043 Madrid Tel. +34 91 3 00 55 28 San Sebastián Po Ubarburu, 71 - 1oE 20115 Astigarraga Tel. +34 943 40 45 28 Sweden Rutronik Nordic AB Kista Science Tower Färögatan 33, 16451 Kista Tel. +46 8 50 55 49 00 Switzerland Rutronik Elektronische Bauelemente AG Volketswil Hölzliwisenstr. 5, 8604 Volketswil Tel. +41 44 9 47 37 37 Yverdon-les-Bains Rue Galilée 15, 1400 Yverdon-les-Bains Tel. +41 24 4 23 91 40 Turkey Partner of Rutronik group: Elektro Elektronik San. Tic. A.S. Burhaniye Mah. Bahceler Sokak No:10 Beylerbeyi 34676 Uskudar/Istanbul Tel. +90 216 557 67 00 United Kingdom & Ireland Rutronik UK Ltd. Deakins Business Park, Blackburn Road, Egerton BL7 9RP Bolton, Lancashire Tel. +44 1204 60 22 00 Slovakia Rutronik Elektronische Bauelemente GmbH, o.z. Lazovná 11 97401 Banská Bystrica Tel. +421 48 4 72 23-00 Slovenia Rutronik Elektronische Bauelemente GmbH Motnica 5, 1236 Trzin Tel. +386 1 5 61 09 80 Spain Rutronik España S.L. Barcelona C/ Marqués de Sentmenat 54 - 58, 3a Planta - 1o, 08029 Barcelona Tel. +34 93 4 44 24 12 International branches: Mexico Rutronik Mexico S.A. DE C.V. Hong Kong Rutronik Electronics Asia HK Ltd. Taiwan Rutronik Electronics Asia HK Ltd. China Rutronik Electronics SZ Ltd. Ecuador Nº 4 Lomas de Queretaro 76190 Queretaro Tel. +52 442 242 5361 Hong Kong 51/F, Hopewell Centre 183 Queens Road East Wan Chai Tel. +852 3602 3135 Taipei (Taiwan branch) 13F.-2, No.27, Lane 169, Kangning St., Xizhi District 221 New Taipei City Tel. +886 (2) 2692 7041 Shenzhen Room 3E, Tong Tai Bldg Bagua Road 4th Futian District, Shenzhen Tel. +86 755 8240 7106 Shanghai Room 621, Building 2, No. 11 Lane 225, Jin Xiang Road Pudong New District, Shanghai Tel. +86 216 8869 910 Chengdu Room no. 407, 4F No. 31 Zong Fu Street 610016 Chengdu Tel. +86 28 8651 2214 M10 ENG | OIP | Specifications subject to change without notice. Please note, there could be some limitations for some franchised product lines in several European countries. For more information, please contact our sales team. European branches:
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