T520D337M006ATE025

T520D337M006ATE025 T520, Tantalum, Polymer Tantalum, 330 uF, 20%, 6.3 VDC, SMD, Polymer, Molded, Low ESR, Non-Combustible, 25 mOhms, 7343, Height Max = 3.1mm General Information Click here for the 3D model.   Series T520 Dielectric Polymer Tantalum Style SMD Chip Description SMD, Polymer, Molded, Low ESR, NonCombustible Features Low ESR RoHS Yes Termination Tin AEC-Q200 No Component Weight 434.83 mg Shelf Life 52 Weeks MSL 3 Specifications Dimensions     Capacitance 330 uF 20% Footprint 7343 Capacitance Tolerance L 7.3mm +/-0.3mm Voltage DC 6.3 VDC (105C) W 4.3mm +/-0.3mm -55/+105°C H 2.8mm +/-0.3mm Temperature Range T 0.13mm REF Rated Temperature 105°C S 1.3mm +/-0.3mm Life 2000 Hrs (105C) F 2.4mm +/-0.1mm Humidity 60C, 90% RH, 500 Hours, No Load A 3.6mm MIN Dissipation Factor 10% 120Hz 25C B 0.5mm +/-0.15mm Failure Rate N/A P 0.9mm REF Resistance 25 mOhms (100kHz 25C) R 1mm REF X 0.1mm +/-0.1mm Ripple Current 3000 mA (rms, 100kHz 45C), 2100 mA (rms, 85C), 750 mA (rms, 105C) Leakage Current 207.9 uA (5min 25°C) Packaging Specifications   Packaging T&R, 178mm Packaging Quantity 500 Statements of suitability for certain applications are based on our knowledge of typical operating conditions for such applications, but are not intended to constitute - and we specifically disclaim - any warranty concerning suitability for a specific customer application or use. This Information is intended for use only by customers who have the requisite experience and capability to determine the correct products for their application. Any technical advice inferred from this Information or otherwise provided by us with reference to the use of our products is given gratis, and we assume no obligation or liability for the advice given or results obtained. Generated 3/16/2023 - 448a5662-f329-4671-8149-375dba160474 © 2006 - 2023 KEMET T520D337M006ATE025 T520, Tantalum, Polymer Tantalum, 330 uF, 20%, 6.3 VDC, SMD, Polymer, Molded, Low ESR, Non-Combustible, 25 mOhms, 7343, Height Max = 3.1mm Simulations For the complete simulation environment please visit K-SIM. Generated 3/16/2023 - 448a5662-f329-4671-8149-375dba160474 © 2006 - 2023 KEMET T520D337M006ATE025 T520, Tantalum, Polymer Tantalum, 330 uF, 20%, 6.3 VDC, SMD, Polymer, Molded, Low ESR, Non-Combustible, 25 mOhms, 7343, Height Max = 3.1mm Generated 3/16/2023 - 448a5662-f329-4671-8149-375dba160474 © 2006 - 2023 KEMET T520D337M006ATE025 T520, Tantalum, Polymer Tantalum, 330 uF, 20%, 6.3 VDC, SMD, Polymer, Molded, Low ESR, Non-Combustible, 25 mOhms, 7343, Height Max = 3.1mm These are simulations. This is not a specification! The responses shown represent the typical response for each part type. Specific responses may vary, depending on manufacturing variation affects of all parameters involved, including the specified tolerances applied to capacitance and unspecified variations of ESR, ESL, and leakage resistance. The responses shown do not represent a specified or implied maximum capability of the device for all applications. • The ESR used for ripple “Ripple Current/Voltage vs. Frequency” plots is the ESR at ambient temperature. • The ESR in the “Temperature Rise vs. Ripple Current” plots is adjusted to each incremental temperature rise before the power and ripple current is calculated. • The effects shown herein are based on measured data from a multiple part sample of the parts in question. • Ripple capability of this device will be factored by thermal resistance (Rth) created by circuit traces (addi affects of all parameters involved, including the specified tolerances applied to capacitance and unspecified variations of ESR, ESL, and leakage resistance. The peak voltages generated in the “Temperature Rise vs. Combined Ripple Currents” plot are calculated for each frequency and are not combined with voltages generated at any other harmonics. Please consult with the catalog or field applications engineer for maximum capability of the device in specific applications. • • All product information and data (collectively, the “Information”) are subject to change without notice. KEMET K-SIM is designed to simulate behavior of components with respect to frequency, ambient temperature, and DC bias levels. The responses shown represent the typical response for each part type. Specific responses may vary, depending on manufacturing variation effects of all parameters involved, including the specified tolerances applied to capacitance and unspecified variations of ESR, ESL, and leakage resistance. All Information given herein is believed to be accurate and reliable, but is presented without guarantee, warranty, or responsibility of any kind, expressed or implied. Statements of suitability for certain applications are based on our knowledge of typical operating conditions for such applications, but are not intended to constitute – and we specifically disclaim – any warranty concerning suitability for a specific customer application or use. This Information is intended for use only by customers who have the requisite experience and capability to determine the correct products for their application. Any technical advice inferred from this Information or otherwise provided by us with reference to the use of our products is given gratis, and we assume no obligation or liability for the advice given or results obtained. If you have any questions please contact K-SIM. Generated 3/16/2023 - 448a5662-f329-4671-8149-375dba160474 © 2006 - 2023 KEMET