DATASHEET BCAP0003 P270 S01 (ESHSR-0003C0-002R7) 2.7V 3F ULTRACAPACITOR CELL BCAP0003 P270 S12 BCAP0003 P270 S1B FEATURES AND BENEFITS TYPICAL APPLICATIONS High performance product with Actuators low ESR Emergency Lighting Exceptional shock and vibration Telematics resistance Automotive Long lifetimes with up to 500,000 Security Equipment duty cycles* Backup System Compliant with UL, RoHS and Smoke Detectors REACH requirements Advanced Metering PRODUCT SPECIFICATIONS TYPICAL CHARACTERISTICS ELECTRICAL THERMAL Rated Voltage, V 2.7 VDC Typical Thermal Resistance R 67C/W 8 1 (R , Housing) Surge Voltage 2.85 VDC th 3 Typical Thermal Capacitance (C ) 1.3 J/C Rated Capacitance, C 3 F th Usable Continuous Current (BOL) Min. / Max. Capacitance, 1.8 A 8,10 2.7 F / 3.6 F (T = 15 C) Initial 2,3 Usable Continuous Current (BOL) Typical Capacitance, Initial 3.04 F 2.9 A 8,10 (T = 40 C) 3 Rated (Max.) ESR , Initial 70 m DC LIFE* 2,3 Typical ESR , Initial 55 m DC Projected DC Life at Room 2,3 Typical ESR , Initial, 5 sec 129 m DC 10 years Temperature 4 10 Maximum Leakage Current 5 A (At rated voltage and 25C, EOL ) Maximum Peak Current, DC Life at High Temperature 3.3 A 1,500 hours 5 10 Non-repetitive (At rated voltage and 65C, EOL ) DC Life at De-rated Voltage & Higher PHYSICAL 1,500 hours Temperature Nominal Mass 1.4 g 10 (At 2.3V and 85C, EOL ) POWER & ENERGY Projected Cycle Life at Room 7 Temperature Operating Temp. Standard (-40C Extended (-40C to 500,000 cycles (Constant current charge-discharge from V to R Range to 65C) at 2.7 V 85C) at 2.3 V 10 1/2V at 25C, EOL ) R Maximum Stored 3.0 mWh 2.2 mWh Shelf Life 6,9 4 years Energy, E max (Stored uncharged at 25C, 50% RH) Gravimetric 2.1 Wh/kg 1.5 Wh/kg 6 Specific Energy Usable Specific 8.9 kW/kg 6.4 kW/kg 6 Power Impedance Match 18.6 kW/kg 13.4 kW/kg 6 Specific Power SAFETY RoHS, REACH, Certifications UL 810A *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: 3001957-EN.4 maxwell.com Datasheet: 2.7V 3F ULTRACAPACITOR CELL 1. Surge Voltage V R Absolute maximum voltage, non-repetitive. Duration not to exceed 1 second. I = t / C + ESR DC 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 3. Rated Capacitance & ESR (measure method) DC and is only provided as a reference value. Capacitance: Constant current charge (10 mA/F) to V , 5 min hold at V , R R constant current discharge 10 mA/F to 0.1V. 6. Energy & Power (Based on IEC 62391-2) e.g. in case of 2.7V 3F cell, 10 * 3 = 30 mA ESR : Constant current charge (10 mA/F) to V , 5 min hold at V , constant 2 CV DC R R R Maximum Stored Energy, E (Wh) = current discharge (40 * C * V mA ) to 0.1 V. max 3,600 R e.g. in case of 2.7V 3F cell, charge with 10 * 3 = 30 mA and discharge with 40 * E max Gravimetric Specific Energy (Wh/kg) = 3 * 2.7 = 324 mA mass 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 I x (t -t ) V 2 1 results will vary. C = ESR = V -V DC 1 2 I where C is the capacitance (F) 8. Temperature Rise at Constant Current 2 I is the absolute value of the discharge current (A) T=I x ESR x R RMS DC th V is the rated voltage (V) R V is the measurement start voltage, 0.8V (V) 1 R where T: Temperature rise over ambient (C) V is the measurement end voltage, 0.4V (V) 2 R I : Maximum continuous or RMS current (A) RMS t is the time from start of discharge to reach V (s) 1 1 R : Thermal resistance, cell to ambient (C/W) th t is the time from start of discharge to reach V (s) 2 2 ESR : Rated (Max.) ESR (). DC DC ESR is the DC-ESR () DC (Note: Design should consider EOL ESR for application temperature rise DC V is the voltage drop during first 10ms of discharge (V). evaluation.) Typical ESR , Initial, 5 sec tested per Maxwell Application Note, Test Procedures DC 9. Per United Nations material classification UN3499, all Maxwell ultracapacitors for Capacitance, ESR, Leakage Current and Self-Discharge Characterizations of Ultracapacitors available at www.maxwell.com. have less than 10 Wh capacity to meet the requirements of Special Provisions 361. Both individual ultracapacitors and modules composed of those 4. Maximum Leakage Current ultracapacitors shipped by Maxwell can be transported without being treated Current measured after 72 hrs at rated voltage and 25C. Initial leakage current as dangerous goods (hazardous materials) under transportation regulations. can be higher. If applicable, module leakage current is the sum of cell and balancing circuit 10. BOL: Beginning of Life, rated initial product performance leakage currents. EOL: End of Life criteria. Capacitance: 80% of min. BOL rating 5. Maximum Peak Current ESR : 2x max. BOL rating DC Current needed to discharge cell/module from rated voltage to half-rated voltage in 1 second. BCAP0003 P270 S01 BCAP0003 P270 S12 BCAP0003 P270 S1B When ordering, please reference the Maxwell Model Number below. Dimensions (mm) Part Description L D d A H1 H2 R a b Maxwell Model Number: Maxwell Part Number: Alternate Model Number: (1.0) (+0.5) (0.05) (0.5) (min.) (min.) (min.) (0.5) (0.5) BCAP0003 P270 S01 133512 ESHSR-0003C0-002R7 BCAP0003 P270 S01 19.5 8.0 0.60 3.5 15.0 19.0 - - - BCAP0003 P270 S12 134378 - BCAP0003 P270 S12 / S1B 19.5 8.0 0.60 3.5 - - 1.5 7.0 5.0 BCAP0003 P270 S1B 135520 - The information in this document is correct at time of printing and is subject to change without notice. Images are not to scale. 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. Maxwell Technologies, Inc. Maxwell Technologies, GmbH Maxwell Technologies Maxwell Technologies Shanghai Trading Co., Ltd. Korea 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: 3001957-EN.4 maxwell.com