S.USV PI ADVANCED S.USV ADVANCED INTELLIGENT ENERGY MANAGEMENT MODULES/POWERBANK WITH UPS FUNCTION FOR SINGLE BOARD COMPUTERS AND EMBEDDED SYSTEMS START AND OPERATE PURELY VIA RECHARGEABLE BATTERY PRODUCT DESCRIPTION Supply your single-board computer or embedded system mo- bile and variable via the S.USV advanced modules and design FUNCTION OVERVIEW your personal battery-powered systems including uninter- ruptible power supply. Thanks to this intelligente power bank, HAT compliant energy management modules you can start and operate the SBC or embedded system purely Integration capability in all SBCs and embedded systems via rechargeable battery - your battery-operated portable sys- customized adjustments tem. custom communication protocols The modules are fully functional Plug & Play solutions. The im- Plug & Play plemented monitoring system carries out a continuous review specific software solutions of all relevant performance data in order to safely shut down the uninterruptible power supply systems in case of misconduct and thus prevent data loss. For Power input with extended voltage range (+ 7-24V) example, if the power supply to the systems falls below a speci- Monitoring system (Performance / Power monitoring) fically defined voltage threshold, the S.USV modules automati - optional with LiPo/Li-Ion battery including configurable cally switch to battery mode and maintain the functionality of the systems for a user-settable period of time, thereby bridge charging control (300mA / 500mA / 1000mA) the power sink or shut down the systems safely in the event of a Battery Management Controller long-term power outage. Battery Management System Integrated Real Time Clock Through the detailed analysis of the collected performance data, time-controlled and event-based switching on and off the system can be operated highly efficient and energy-saving. the systems - Action scheduler EcoSmart - Energy Efficient: Energy-saving and environmentally Supply Switch (On/Off Button / File Safe Shutdown) friendly power supply through high efficiency across the entire load range and intelligent power management systems. LED status display Bootloader for live firmware updates All these functions are automated. In addition, the operator has Battery-Hot-Swap the option of checking and controlling all operating states or switching processes via specific software solutions. Battery BLOCK DIAGRAM All modules are customizable and, through specific bus Battery Management System systems/communication protocols and modular design, Secondary power supply allow variable integration with mechanical and electri- Mobile operation of the system cal conditions in a variety of specific application systems. or switching operations on a software. - Charging circuit (CC/CV) - Power Supply - Measurement - Measurement - Thermal Management The S.USV advanced variants allow the systems to be launched purely via battery and operated permanently, without the need S.USV Power Supply Unit for a primary source of supply. The modules also work with intel- Switching Power Supply Energy Management (UPS) ligent power management systems, thus preventing data loss or Regenerative energy Battery Management System operational failures of the used systems. - Power Supply Control and monitoring unit Automotive Board Supply - Measurement External battery Monitoring system Thanks to the integrated real-time clock, as well as the functi- ... Real time clock on of the Timed Action Scheduler, the systems can be supplied energy-saving and thus drastically increasing the life time of the - Power Supply - Communication batteries. - Specific bus system - Specific communication protocol - Measurement - Plug & Play - Thermal Management - Action scheduler Not all applications require that the single board computers and embedded systems are permanently in operational condition SBC / Embedded System and therefore benefit from modern low-power strategies so IoT that the systems can be switched to sleep and low-power mode Industry 4.0 in order to save energy and only be started and operated when Measurement and control needed or at tightly configured operating times. Battery powered systems Robotics Olmatic GmbH / Lise-Meitner-Strae 21 / 72202 Nagold / Germany Tel. +49 (0) 74 52 - 92 99 7 - 0 / Fax +49 (0) 74 52 - 92 99 7 - 29 E-Mail info olmatic.de / www.s-usv.deS.USV PI ADVANCED TECHNICAL SPECIFICATION Input voltage - Primary +7-24V primary secondary charging circuit (battery operation) Max. Input current 3.5A - - Performance specifications Max. Output current 3.5A 3.5A 1A Max. Output voltage +5V +5V +4.2V Power consumption average <4W / max. 25W Efficiency up to 91% Ripple <50 mVss Backup time 3000mAh = 0.5A ~ 10h / 2.5A ~ 1h / 5A ~ 0.25h (see Backup time) Protection Circuit SCP, OLP, OCP, OVP, UVP, OTP, ODP, RCP Safety/EMC EMC Directive 2014/30/EU, IEC 62368-1:2014, IEC 61140:2016 Temperature range -20C to +60C Dimensions 65x56,5x9,0mm (WxDxH) 300mAh - LiPo battery 3000mAh - LiPo battery Nominal voltage 3.7V 3.7V Operating voltage 3.0- 4.2V 3.0 - 4.2V Capacity 300mAh 3000mAh Internal impedance 60m 30m Battery example data Constant charge/ 2C/15C 1C/2C (optionally available) discharge current Working temperature -20-60C -20-60C Connection cable UL1571 28 UL1571 28 Connector Wrth 620 002 113 322 Wrth 620 002 113 322 Dimension 30.0 x 20.0 x 6.7 mm 60.0 x 50.0 x 9.0 mm larger capacities on request Charging time Backup time Charging time - 3000mAh Backup time - 3000mAh 7 24 6 22 20 5 18 16 4 14 3 12 0,5A 10 2 8 Charging time (1A) 6 1 Charging Time (0.5A) 4 1A 0 2 2.5A 3.5A 5A 0 25 50 75 100 0 STATE OF CHARGE (PERCENT) 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 POWER CONSUMPTION (PERCENT) (The measured backup time may vary depending on electrical conditions ) Olmatic GmbH / Lise-Meitner-Strae 21 / 72202 Nagold / Germany Tel. +49 (0) 74 52 - 92 99 7 - 0 / Fax +49 (0) 74 52 - 92 99 7 - 29 E-Mail info olmatic.de / www.s-usv.de BACKUP TIME (HOURS) CHARGING TIME (HOURS)