DATASHEET BMOD0002 P005 B02 5.0V 2.5F ULTRACAPACITOR MODULE EMHSR-0002C5-005R0 FEATURES AND BENEFITS TYPICAL APPLICATIONS High performance product with Automotive Smoke Detectors low ESR UPS System Advanced Metering Exceptional shock and vibration Actuators resistance Emergency Lighting Long lifetimes with up to 500,000 Telematics duty cycles* Security Equipment Compliant with RoHS and REACH requirements Backup System PRODUCT SPECIFICATIONS TYPICAL CHARACTERISTICS ELECTRICAL THERMAL Rated Voltage, V 5.0 VDC Typical Thermal Resistance R 69C/W 8 1 (R , Housing) Surge Voltage 5.4 VDC th 3 Typical Thermal Capacitance (C ) 4.3 J/C Rated Capacitance, C 2.5 F th Usable Continuous Current (BOL) Min. / Max. Capacitance, Initial 2.25 F / 3 F 1.6 A 8,10 (T = 15 C) 2,3 Typical Capacitance, Initial 2.63 F Usable Continuous Current (BOL) 3 2.6 A Rated (Max.) ESR , Initial 85 m 8,10 DC (T = 40 C) 2,3 Typical ESR , Initial 69 m DC LIFE* 4 Maximum Leakage Current 8 A Projected DC Life at Room Maximum Peak Current, 10 years Temperature 5.1 A 5 10 Non-repetitive (At rated voltage and 25C, EOL ) PHYSICAL DC Life at High Temperature 1,500 hours 10 (At rated voltage and 65C, EOL ) Nominal Mass 5.0 g DC Life at De-rated Voltage & POWER & ENERGY 1,500 hours Higher Temperature 10 (At 4.6V and 85C, EOL ) Operating Temp. Standard (-40C Extended (-40C Range to 65C) at 5.0 V to 85C) at 4.6 V Projected Cycle Life at 7 Room Temperature Maximum Stored 500,000 cycles 8.6 mWh 7.3 mWh (Constant current charge-discharge from 6,9 Energy, E 10 max V to 1/2V at 25C, EOL ) R R Gravimetric 1.7 Wh/kg 1.4 Wh/kg Shelf Life 6 4 years Specific Energy (Stored uncharged at 25C, 50% RH) Usable Specific 7.0 kW/kg 5.9 kW/kg 6 Power Impedance Match 14.7 kW/kg 12.4 kW/kg 6 Specific Power SAFETY Certifications RoHS, REACH *Results may vary. Additional terms and conditions, including the limited warranty, apply at the time of purchase. See the warranty details for applicable operating and use requirements. Page 1 Document number: 3001961-EN.4 maxwell.com PRELIMINARYDatasheet: 5.0V 2.5F ULTRACAPACITOR MODULE V R 1. Surge Voltage I = t / C + ESR DC Absolute maximum voltage, non-repetitive. Duration not to exceed 1 second. where t is the discharge time (sec) t = 1 sec in this case 2. Typical values represent mean values of production sample. The stated maximum peak current should not be used in normal operation and is only provided as a reference value. 3. Rated Capacitance & ESR (measure method) DC Capacitance: Constant current charge (4 * C * V mA ) to V , 5 min hold at V , R R R 6. Energy & Power (Based on IEC 62391-2) constant current discharge (4 * C * V mA ) to 0.1 V. R e.g. in case of 5.0V 2.5F module, 4 * 2.5 * 5.0 = 50 mA. 2 CV R Maximum Stored Energy, E (Wh) = ESR : Constant current charge (4 * C * V mA ) to V , 5 min hold at V , max 3,600 DC R R R constant current discharge (40 * C * V mA ) to 0.1 V. R E max Gravimetric Specific Energy (Wh/kg) = e.g. in case of 5.0V 2.5F module, charge with 4 * 2.5 * 5.0 = 50 mA and mass discharge with 40 * 2.5 * 5.0 = 500mA . 2 0.12V R Usable Specific Power (W/kg) = ESR x mass DC 2 0.25V R Impedance Match Specific Power (W/kg) = ESR x mass DC Presented Power and Energy values are calculated based on Rated Capacitance & Rated (Max.) ESR , Initial values. DC 7. Cycle Life Test Profile Cycle life varies depending upon application-specific characteristics. Actual results will vary. I x (t -t ) V 2 1 C = ESR = V -V DC 1 2 I 8. Temperature Rise at Constant Current 2 where C is the capacitance (F) T=I x ESR x R RMS DC th I is the absolute value of the discharge current (A) V is the rated voltage (V) where T: Temperature rise over ambient (C) R V is the measurement start voltage, 0.8V (V) I : Maximum continuous or RMS current (A) 1 R RMS V is the measurement end voltage, 0.4V (V) R : Thermal resistance, module to ambient (C/W) 2 R th t is the time from start of discharge to reach V (s) ESR : Rated (Max.) ESR (). 1 1 DC DC t is the time from start of discharge to reach V (s) (Note: Design should consider EOL ESR for application temperature rise 2 2 DC ESR is the DC-ESR () DC evaluation.) V is the voltage drop during first 10ms of discharge (V). 9. Per United Nations material classification UN3499, all Maxwell ultracapacitors 4. Maximum Leakage Current have less than 10 Wh capacity to meet the requirements of Special Provisions Current measured after 72 hrs at rated voltage and 25C. Initial leakage current 361. Both individual ultracapacitors and modules composed of those can be higher. ultracapacitors shipped by Maxwell can be transported without being treated If applicable, module leakage current is the sum of cell and balancing circuit as dangerous goods (hazardous materials) under transportation regulations. leakage currents. 10. BOL: Beginning of Life, rated initial product performance 5. Maximum Peak Current EOL: End of Life criteria. Current needed to discharge cell/module from rated voltage to half-rated Capacitance: 80% of min. BOL rating voltage in 1 second. ESR : 2x max. BOL rating DC BMOD0002 P005 B02 Dimensions (mm) W L D d H1 H2 A Part Description (max.) (max.) (max.) (0.05) (min.) (min.) (0.1) BMOD0002 P005 21.5 23.0 12.0 0.60 15.0 19.0 10.6 B02 When ordering, please reference the Maxwell Model Number below. Maxwell Model Number: Maxwell Part Number: Alternate Model Number: BMOD0002 P005 B02 133731 EMHSR-0002C5-005R0 Products and related processes may be covered by one or more U.S. or international patents and pending applications. Please see www.maxwell.com/patents for more information. Product dimensions are for reference only unless otherwise identified. Maxwell Technologies reserves the right to make changes without further notice to any products herein. Typical parameters which may be provided in Maxwell Technologies datasheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including Typicals must be validated for each customer application by customers technical experts. Please contact Maxwell Technologies directly for any technical specifications critical to application. Maxwell Technologies, Inc. Maxwell Technologies, GmbH Maxwell Technologies Maxwell Technologies Shanghai Trading Co., Ltd. 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No portion of these materials may be reproduced in any form, or by any means, without prior written permission from Maxwell Technologies, Inc. Page 2 Document number: 3001961-EN.4 maxwell.com