DATASHEET 16V MODULES FEATURES AND BENEFITS* TYPICAL APPLICATIONS Up to 1,000,000 duty cycles or 10 year DC life 16V DC working voltage Resistive or active cell balancing available Temperature output Overvoltage outputs available High power density Compact, rugged, fully enclosed splash-proof design Wind turbine pitch control Transportation Heavy industrial equipment UPS systems PRODUCT SPECIFICATIONS ELECTRICAL Rated Capacitance BMOD0500 P016 B01 BMOD0500 P016 B02 500 F 500 F 1 500 F 500F Maximum Capacitance, initial 600 F 600 F 2.1 mΩ 2.1 mΩ 100 A 100 A Rated Voltage 16 V 16 V Absolute Maximum Voltage2 17 V 17 V Absolute Maximum Current 1,900 A 1,900 A Leakage Current at 25°C, maximum (B01 Suffix - VMS 2.0)3 5.2 mA N/A Leakage Current at 25°C, maximum (B02 Suffix - Passive Balancing)3 N/A 170 mA 750 V 750 V 3,000 F 3,000 F 3.0 Wh 3.0 Wh 6 6 Minimum -40oC -40oC Maximum 65oC 65oC Minimum -40oC -40oC Maximum 70oC 70oC 1 Minimum Capacitance, initial Maximum ESR DC, initial 1 1 Test Current for Capacitance and ESRDC 1 Maximum Series Voltage Capacitance of Individual Cells 11 Maximum Stored Energy, Individual Cell 11 Number of Cells TEMPERATURE Operating Temperature (Cell Case Temperature) Storage Temperature (Stored Uncharged) *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: 1009363.10 maxwell.com DATASHEET 16V MODULES PRODUCT SPECIFICATIONS (Cont’d) PHYSICAL BMOD0500 P016 B01 BMOD0500 P016 B02 5.5 kg 5.5 kg M8/M10 M8/M10 Recommended Torque - Terminal 20/30 Nm 20/30 Nm Vibration Specification SAE J2380 SAE J2380 Shock Specification SAE J2464 SAE J2464 IP65 IP65 Natural Convection Natural Convection Mass, typical Power Terminals Environmental Protection Cooling MONITORING / CELL VOLTAGE MANAGEMENT Internal Temperature Sensor NTC Thermistor NTC Thermistor Temperature Interface Analog Analog Cell Voltage Monitoring Overvoltage Alarm N/A Deutsch DTM Deutsch DTM VMS 2.0 Passive 2,700 W/kg 2,700 W/kg Connector Cell Voltage Management POWER & ENERGY Usable Specific Power, Pd4 Impedance Match Specific Power, Pmax 5,500 W/kg 5,500 W/kg Specific Energy, Emax6 3.2 Wh/kg 3.2 Wh/kg Stored Energy, Estored 18 Wh 18 Wh 7,600 A 7,600 A RoHS, UL810a (150 V) RoHS, UL810a (150 V) 2,500 VDC 2,500 VDC 5 7 SAFETY Short Circuit Current, typical (Current possible with short circuit from rated voltage. Do not use as an operating current.) Certifications High-Pot Capability12 Page 2 Document number: 1009363.10 maxwell.com DATASHEET 16V MODULES TYPICAL CHARACTERISTICS THERMAL CHARACTERISTICS BMOD0500 P016 B01 BMOD0500 P016 B02 Thermal Resistance (Rca, All Cell Cases to Ambient), typical8 0.70oC/W 0.70oC/W Thermal Capacitance (Cth), typical 4,300 J/oC 4,300 J/oC Maximum Continuous Current (ΔT = 15oC)8 100 ARMS 100 ARMS Maximum Continuous Current (ΔT = 40 C) 160 ARMS 160 ARMS 1,500 hours 1,500 hours Capacitance Change 20% 20% ESR Change 100% 100% 10 years 10 years Capacitance Change 20% 20% ESR Change 100% 100% 1,000,000 cycles 1,000,000 cycles Capacitance Change 20% 20% ESR Change 100% 100% Test Current 100 A 100 A 4 years 4 years o 8 LIFE DC Life at High Temperature1 (held continuously at Rated Voltage & Maximum Operating Temperature) (% decrease from minimum initial value) (% increase from maximum initial value) Projected DC Life at 25°C1 (held continuously at Rated Voltage) (% decrease from minimum initial value) (% increase from maximum initial value) Projected Cycle Life at 25°C1,9,10 (% decrease from minimum initial value) (% increase from maximum initial value) Shelf Life (Stored uncharged at 25°C) ESR AND CAPACITANCE VS TEMPERATURE 180% Capacitance DC ESR Percentage change from value at 25°C 170% 160% 150% 140% 130% 120% 110% 100% 90% 80% -60 -40 -20 0 20 40 60 80 Temperature (°C) Page 3 Document number: 1009363.10 maxwell.com DATASHEET 16V MODULES NOTES 1. Capacitance and ESRDC measured at 25°C using specified test current per waveform below. 2. Absolute maximum voltage, non-repeated. Not to exceed 1 second. 3. After 72 hours at rated voltage. Initial leakage current can be higher. 4. Per IEC 62391-2, Pd = 0.12V2 ESRDC x mass 5. Pmax = V2 4 x ESRDC x mass 6. Emax = ½ CV2 3,600 x mass 7. Estored = 9. Cycle using specified test current per waveform below. 10. Cycle life varies depending upon application-specific characteristics. Actual results will vary. 11. Per United Nations material classification UN3499, all Maxwell ultracapacitors have less than 10 Wh capacity to meet the requirements of Special Provisions 361. Both individual ultracapacitors and modules composed of those ultracapacitors shipped by Maxwell can be transported without being treated as dangerous goods (hazardous materials) under transportation regulations. 12. Duration = 60 seconds. Not intended as an operating parameter. ½ CV2 3,600 MOUNTING RECOMMENDATIONS Please refer to the user manual for installation recommendations. Page 4 8. ∆T=IRMS2 x ESR x Rca Document number: 1009363.10 maxwell.com MARKINGS Products are marked with the following information: Rated capacitance, rated voltage, product number, name of manufacturer, positive and negative terminal, warning marking, serial number. DATASHEET 16V MODULES BMOD0500 P016 B0X4 3 2 1 NOTICE: THE INFORMATION CONTAINED IN THIS DRAWING IS THE SOLE PROPERTY OF MAXWELL TECHNOLOGIES INC. ANY REPRODUCTION IN PART OR WHOLE WITHOUT WRITTEN PERMISSION OF MAXWELL TECHNOLOGIES IS PROHIBITED 367 1 121 2 D M10 NEGATIVE TERMINAL 68W MAX 174.2 1.0 D 49 1 8X 6.80 0.25 THRU 51.00±0.25 4X 8.0 0.5 C VENT 2X 33.5±1.0 M8 POSITIVE TERMINAL 4X 8.0±0.5 C 400.20±0.25 418LMAX MONITOR CABLE 360 25 278 5 B 179HMAX 4X 89.40 0.25 157 MAX B 41±5 6.80 0.25 THRU A A 4X 33.4 0.7 SIZE CAGE CODE B 68911 SCALE 4 B-PG1 REV A 7/01 Part Description L (max) BMOD0500 P016 B01/B02 418 3Dimensions (mm) 1:8 DOC. NO. 2 PART NO. REV 107723, 107723B REV 1013065 3 SHEET 2 2 OF 2 1 W (max) H (max) Package Quantity 68 179 3 Product dimensions are for reference only unless otherwise identified. Product dimensions and specifications may change without notice. Please contact Maxwell Technologies directly for any technical specifications critical to application. All products featured on this datasheet are covered by the following U.S. patents and their respective foreign counterparts: 6643119, 7295423, 7342770, 7352558, 7384433, 7440258, 7492571, 7508651, 7580243, 7791860, 7791861, 7816891, 7859826, 7883553, 7935155, 8072734, 8098481, 8279580, and patents pending. Maxwell Technologies, Inc. Global Headquarters 3888 Calle Fortunada San Diego, CA 92123 USA Tel: +1 858 503 3300 Fax: +1 858 503 3301 Maxwell Technologies SA Route de Montena 65 CH-1 728 Rossens Switzerland Tel: +41 (0)26 411 85 00 Fax: +41 (0)26 411 85 05 Maxwell Technologies, GmbH Leopoldstrasse 244 80807 München Germany Tel: +49 (0)89 / 4161403 0 Fax: +49 (0)89 / 4161403 99 Maxwell Technologies, Inc. Shanghai Trading Co. Ltd. Unit A2,C 12th Floor Huarun Times Square 500 Zhangyang Road, Pudong New Area Shanghai 200122, P.R. China Phone: +86 21 3852 4000 Fax: +86 21 3852 4099 MAXWELL TECHNOLOGIES, MAXWELL, MAXWELL CERTIFIED INTEGRATOR, ENABLING ENERGY’S FUTURE, BOOSTCAP, C CELL, D CELL and their respective designs and/or logos are either trademarks or registered trademarks of Maxwell Technologies, Inc. and may not be copied, imitated or used, in whole or in part, without the prior written permission Maxwell Technologies, Inc. All contents copyright © 2014 Maxwell Technologies, Inc. All rights reserved. No portion of these materials may be reproduced in any form, or by any means, without prior written permission from Maxwell Technologies, Inc. Page 5 Document number: 1009363.10 maxwell.com Maxwell Technologies Korea Co., Ltd. Room 1524, D-Cube City Office Tower, 15F #662 Gyeongin-Ro, Guro-Gu, Seoul, 152-706 South Korea Phone: +82 10 4518 9829