Effective July 2019 Technical Data 10510 Supersedes February 2019 XLR-48 Supercapacitor 48 V, 166 F Rugged module Features Ultra low ESR provides high efficiency, high power Industry standard form factor for easy integration High power density to optimize system size and low operating costs Millions of charge/discharge cycles for life of application No heavy metals, RoHS compliant, non-hazardous energy storage Heavy duty metal housing for high vibration, high current applications IP65 environmental rating for high dust areas and water jet washable UL recognized Applications Hybrid and electric vehicles Description Grid storage Eaton supercapacitors are high reliability, high Commercial vehicles: trucks, mining, construction power, ultra-high capacitance energy storage devices utilizing electricl double layer capacitor Automated guided vehicle (AGV) (EDLC) construction combined with proprietary Trolley, subway materials and processes. This combination of advanced technologies allows Eaton to offer a Marine wide variety of capacitor solutions tailored to applications for back up power, pulse power *Supercapacitor lifetimes vary based on charge and hybrid power systems. They can be applied voltage and temperature. See Eatons application as the sole energy storage or in combination guidelines or contact your local Eaton sales with batteries to optimize cost, life time and representative for more information on lifetime run time. System requirements can range from estimates a few micro-amps to megawatts. All products feature low ESR for high power density with environmentally friendly materials for a green power solution. Eaton supercapacitors are maintenance-free with design lifetimes up to 20 years*.Technical Data 10510 XLR-48 Supercapacitor Effective July 2019 48 V, 166 F Rugged module Ratings Capacitance 166 F Maximum working voltage 48.6 V Surge voltage 51.3 V Capacitance tolerance -0% to 20% (+20 C) Operating temperature range -40 C to +65 C Extended temperature range -40 C to +85 C (with linear derating to 41.0 V +85 C) Specifications Nominal Typical Maximum leakage Stored Pulse thermal Short 1 2 3 4 5 7 initial ESR current energy Peak power current Continuous resistance circuit 1 6 8 Capacitance (F) Part number (m) (mA) (Wh) (kW) (A) Current (A) Rth (C/W) current (A) 166 XLR-48R6167-R 5 5.2 54 118 2200 86 0.4 9700 Performance Capacitance change ESR (% of maximum Parameter (F) (% of initial value) initial value) Life (1500 hours +65 C, 48.6 Vdc) 20% 200% Storage (3 years, uncharged, <+35 C) 5% 10% 9 Cycle Life (1,000,000 cycles) 20% 200% 1. Capacitance and Equivalent series resistance (ESR) measured according to IEC62391-1 at +20 C, with current in milliamps (mA) = 8*C*V 2. Leakage current at +20 C after 72 hour charge and hold 2 3. Energy (Wh) = *C*V 3600 2 4. Peak power (W) = V 4*ESR 5. Pulse Current in Amps (A), 1 second discharge from rated voltage to half rated voltage = *C*V (1+ESR*C) 6. Continuous current with a 15 C temperature rise. Continuous current (A) = 7. Thermal resistance (Rth) cell body temperature to ambient in open air in degrees C per Watt (C/W) 8. Short circuit current is for safety information only. Do not use as operating current. 9. Cycling between rated voltage and half voltage, 3 seconds rest at +25 C Standards and certifications Regulatory UL 810A, file number MH46887, E-mark (UN-ECE Regulation 10 - Rev. 5 & UN-ECE Regulation 100 - Rev. 2) Shock and vibration IEC 61373 Cat. 1, Class B, SAE J2380, ISO16750-3 Table 14, SAE J2464 Warnings Do not overvoltage, do not reverse polarity. Environmental IP65, RoHS Shipping UN3499, <10 Wh, Non-hazardous when shipped with shorting wire. 2 www.eaton.com/electronics