Effective April 2021 Supersedes September 2019 Technical Data 10105 XVM Supercapacitors 16 V, 65 F module HALOGEN Features HF FREE Compact size for easy mounting as replacement for, or in conjunction with a 12 V battery Series or parallel connection of multiple modules for higher voltage, power or discharge time High reliability, green solution for pulse or backup power applications Maintenance free UL recognized Applications Industrial computer and emergency backup energy Battery assist engine starting, especially for cold or frequent starts Graceful system shutdown for robotics, PLCs Description and electrical switches Eaton supercapacitors are unique, ultra-high capacitance devices utilizing electric double layer capacitor (EDLC) construction combined with new, high performance materials. This combination of advanced technologies allows *Supercapacitor lifetimes vary based on charge Eaton to offer a wide variety of capacitor voltage and temperature. See Eatons solutions tailored to specific applications. application guidelines or contact your local Eaton sales representative for more information The 16 V XVM supercapacitor module offers a on lifetime estimates means to easily achieve higher voltage, power or discharge time through series or parallel connection of multiple modules.Technical Data 10105 XVM Supercapacitors Effective April 2021 16 V, 65 F module Ratings Capacitance 65 F Working voltage 16.2 V Surge voltage 17 V Capacitance tolerance 0% to +20% (+20 C) Operating temperature range -40 C to +65 C Specications Max Max Typical Maximum initial continuous 1 leakage Max Pulse dc ESR (m) Stored thermal Typical 1 2 3 current 4 5 current power energy current (Equivalent Series mass resistance 1 (A) Resistance) (Wh) Capacitance (F) Part number (mA) (kW) (A) (kg) (C/W) 65 22 0.75 1.5 XVM-16R2656-R 20 23 3.0 24 217 1. Capacitance, ESR and Leakage current are all measured according to IEC 62391-1 at +20 C 2 2. Max. Power = Working Voltage / 4 / DC ESR 2 3. Stored energy = Capacitance x Working Voltage / 3600 4. Thermal resistance (Rth) cell body temperature to ambient in open air in degrees C per Watt (C/W) 5. Pulse current for 1 second from full rate voltage to half voltage. (A) = 0.5 x V x C (1 + ESR x C) Performance Capacitance change ESR (% of initial value) (% of initial value) Parameter 20% Life (1500 hours +65 C 16.2 Vdc) 200% Storage life- (Uncharged, non-condensing atmosphere, 1 year -40 C to +70 C) 5% 10% Safety and certifications Regulatory UL810A recognized file: MH46887 Environmental IP54, RoHS, Halogen free Vibration specification IEC 60068-2-6 Shock specification IEC 60068-2-27, -29 Cooling Natural convection www.eaton.com/electronics 2