T488 Series Small Case Size Substrate Terminal MnO2
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T488R227M004AAE2K0 (pdf) |
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Tantalum Surface Mount Capacitors Standard Tantalum T488 Series Small Case Size Substrate Terminal MnO2 Overview The T488 Series uses a substrate termination design, which results in one of the highest volumetric efficient packaging technologies available today in Tantalum Chip Capacitors. This series offers high capacitance values in the small EIA 2012-12 mm L x mm W x mm H package size. The T488 Series is ideal for use in densely populated circuits such as smart phones and digital cameras where space restrictions do not allow for larger and more commonly available case sizes. • Tantalum Technology • Substrate Termination • EIA Case Size 2012 0805 MLCC Equivalent • Low Profile mm maximum • Improved Volumetric Efficiency • Use up to 80% of rated voltage 20% derating • Capacitance 220 µF • Voltage 4 V • RoHS Compliant and Halogen Free • 125°C maximum temperature capability • Lead free 260°C reflow capable • MSL Reflow Temp 260ºC = 1 Click image above for interactive 3D content Open PDF in Adobe Reader for full functionality Typical applications include densely populated circuits where space restrictions do not allow for larger and more commonly available case sizes such as smart phones, digital cameras, MP3 players, GPS navigation systems, WiFi modules, analytical and test equipment, and audio/sound circuits. Environmental Compliance RoHS Compliant 6/6 according to Directive 2002/95/EC. Halogen free. KEMET Electronics Corporation • P.O. Box 5928 • Greenville, SC 29606 864 963-6300 • One world. One KEMET T2068_T488 • 6/12/2014 1 Tantalum Surface Mount Capacitors Standard Tantalum T488 Series Small Case Size Substrate Terminal MnO2 Ordering Information Capacitor Class T= Tantalum Series Substrate Terminal MnO2 Case Size Capacitance Code pF Capacitance Tolerance First two digits represent 2012 significant figures. Third digit specifies number of zeros. e.g., 227 = 220 µF M = ±20% Voltage 004 = 4 V Failure Rate/ Design A = N/A Lead Material A = Ni - Au E2K0 ESR Code E = ESR Last three digits specify ESR in mΩ 2K0 = 2,000 mΩ Performance Characteristics Item Operating Temperature Rated Capacitance Range Capacitance Tolerance Rated Voltage Range ESR 100 kHz Leakage Current Specifications -55°C to 125°C 220 uF 120 Hz/25°C M Tolerance 20% 4V Refer to Part Number Electrical Specification Table CV uA at rated voltage after 5 minutes KEMET Electronics Corporation • P.O. Box 5928 • Greenville, SC 29606 864 963-6300 • T2068_T488 • 6/12/2014 2 Tantalum Surface Mount Capacitors Standard Tantalum T488 Series Small Case Size Substrate Terminal MnO2 Qualification Test Endurance Damp Heat Steady State Temperature Stability Surge Voltage Mechanical Shock Vibration Terminal strength *IL = Initial limit Condition/Characteristics Within initial C/C limits 85°C rated voltage, 1,000 hours Within x initial limits Within initial limit Refer to Ordering Information for additional detail. Recommended Voltage Derating Guidelines % Change in Working DC Voltage with Temperature Recommended Maximum Application Voltage -55°C to 85°C VR 80% of VR 85°C to 125°C See Chart See Chart 110% 100% 90% % Change in Working DC Voltage with Temperature Recommended Maximum Application Voltage As % of Rated Voltage 60% 67% 54% 125 Ripple Current/Ripple Voltage Permissible AC ripple voltage and current are related to equivalent Maximum Power series resistance ESR and the power dissipation capabilities of KEMET Dissipation P max the device. Permissible AC ripple voltage which may be applied is Case Code Case Code mWatts 25°C limited by two criteria: w/+20°C Rise The positive peak AC voltage plus the DC bias voltage, if any, 2012-12 must not exceed the DC voltage rating of the capacitor. The maximum power dissipation rating must be reduced with increasing The negative peak AC voltage in combination with bias environmental operating temperatures. Refer to the Temperature Compensation voltage, if any, must not exceed the allowable limits specified for Multiplier table for details. limits. T= Environmental Temperature The maximum power dissipation by case size can be determined using the table at right. The maximum power dissipation rating stated in the table must be reduced with increasing environmental Using the P max of the device, the maximum allowable rms ripple current or voltage may be determined. operating temperatures. Refer to the table below for temperature I max = max/R compensation requirements. E max = Z max/R Temperature Compensation Multipliers for Maximum Ripple Current |
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