- Battery Pack Technical Specifications - Battery Pack Design Descriptions - Battery Pack Connection Diagram - Battery Pack Architecture EUSO-BALLOON DESIGN.

Slides:

Advertisements

Similar presentations

1 Embedded Stroke Evaluation System Amanda Sweeney, 4ECE Supervisor: Martin Glavin.

Advertisements

Mr. Bahaa Abou Harfoush The given diagram represents an electric circuit of an electric motor, lamp, dry cell that provides a constant voltage 12 V, switch.

zero A, 10 V zero A, zero V 5 A, zero V 5 A, 10 V

- Grounding - Harness Shielding - PDM Electrical Architecture - DP Electrical Architecture EUSO-BALLOON DESIGN REVIEW, , CNES TOULOUSE Pierre.

EUSO-BALLOON CDR – Agenda (I). Internal interfaces overview Batteries and Low Voltage power Supplies PDM interfaces DP interfaces HK Interfaces List of.

Practical Electricity. Topics Electrical Energy & Power Electricity Generation Electrical Safety 3 Pin Plug.

Freedom Combi Inverter

Measuring Current and Voltage. Current and Voltage ce/energy_electricity_forces/electric_current_ voltage/activity.shtml.

Electronic Component Functions What is this component doing my in electronic device?

EUSO BALLOON Battery Power Pack (PWP) RIKEN/UAH Héctor Prieto, Katsuhiko Tsuno, Marco Casolino.

DESIGN OF THE HATCH OF THE INSTRUMENT BOOTH OF EUSO-BALLOON version v1.2 Writer : SYLVIE DAGORET- CAMPAGNE Final tests and Health tests1

IR CAMERA EUSO BALLOON JEM-EUSO Balloon CDR, CNES, Toulouse. December 18, 2012 José Santiago Pérez Cano. Orbital Aerospace, Madrid, Spain. Héctor Prieto,

Ch4 Electronic Components Circuit/Schematic Symbols.

Andrea Santangelo, Kepler Center-Tü Toulouse, February 2, 2012 “The Organization of the EUSO- Balloon mission” Andrea Santangelo * Kepler Center for Astro.

Table of Contents Electricity.

9 March 2004 GIFTS Blackbody Subsystem Critical Design Review Blackbody Controller 9 March 2004 Scott Ellington

Fundamentals of Electric Circuits Lecture 2 Basic circuit elements and concepts.

- Where are the entry points of the instrument - Physical External links - Overview of the External Interfaces - Status - Conclusion EUSO-BALLOON DESIGN.

Physics Chapter 20: Circuits and Circuit Elements.

Holt: Physics Ch. 20 – 1 Pages

- Recommendations status - PRR Review report: actions - Conclusion EUSO-BALLOON DESIGN REVIEW, , CNES TOULOUSE Guillaume Prévôt APC, Paris Status.

Ch 8-9 Review. What is the current flowing through this circuit? 3 A.

Physics I Honors 1 Current and Circuits Circuits Schematics Use of Meters.

Electricity Jeopardy Circuits 1 Circuits 2 Electric Current OhmExtra Q $100 Q $200 Q $300 Q $400 Q $500 Q $100 Q $200 Q $300 Q $400 Q $500 Final Jeopardy.

Presentation of the DriveLab Board Opal-RT Real-time institute 2009.

Oregon State University Solar Vehicle Team. Solar Car Electrical Architecture “Where does the electricity come from and go to?”

Charge and Current: More Practice. A Review of Circuits: Student Learning Goal The student will be able to construct and then compare and contrast.

The PDM-block M. Casolino on behalf of JEM-EUSO collaboration EUSO-BALLOON Phase A review 2 nd February 2012, CNES, Toulouse.

Discovery Kits: Electricity. 1.5 V Battery Batteries in series Closed switch Open switch V Motor Components.

Electric Circuits Series and Parallel Circuits. Circuit Diagrams An electric circuit is a complete path through which charge can flow Circuit diagrams.

EC_ASIC drawing (1) ASIC BASIC FASIC D 68 pi ns ASIC A 68 pi ns ASIC C ASIC E 120 pins ABCDEF 68 pi ns 68 pi ns 68 pi ns 68 pi ns.

PHYSICAL SCIENCE Electricity Part 3: Circuits Circuits Objectives Use schematic diagrams to represent circuits. Distinguish between series and parallel.

Student Made Ultraviolet Radiation Detector Presented for your approval by: THE LATE BALLOONERS StuMURD.

- Overview of the subsystems - The Photodetector Module and its components - The Data Processing and its components - The Power Pack - Summary of subsystems.

Solar Probe Plus A NASA Mission to Touch the Sun March 2015 Instrument Suite Name Presenter's Name.

Prox-0.3 Georgia Institute of Technology Kiichiro DeLuca Richard Zappulla Matt Uhlman Ian Chen 1.

Electrical circuits By Caroline.

What is a circuit? A set of connected electrical components that provide one or more complete paths for the movement of charges. A set of connected electrical.

EUSO BALLOON Battery Power Pack (PWP) RIKEN/UAH Héctor Prieto, Katsuhiko Tsuno, Marco Casolino 1.

Practical Electricity. Topics Electrical Energy & Power Electricity Generation Electrical Safety 3 Pin Plug.

K. Mercier, Shanghai meeting, 19th-22 May 2014 CNES, 5 th June 2014 Karine MERCIER EUSO Balloon Key Point Flight Acceptance Organisation.

Electrical Current. Detecting electrical charge Electroscope: an instrument to detect electrical charge.

Our power points consist of two components, with an optional third Active Neutral Earth (optional)

Electricity Circuits. Learning Goals I will be able to identify both series and parallel circuits. I will be able to draw circuit diagrams.

K UMU A ’ O C UBESAT Amy Blas March 7, W HAT IS C UBE S AT ? 10x10x10 centimeter cube Launched in lower earth orbit (LEO) Started last semester.

Planning of the EUSO-BALLOON project Sylvie Dagoret-Campagne on behalf of the JEM-EUSO collaboration, EUSO-BALLOON project manager LAL/France EUSO BALLOON.

SeaPerch Electrical System. Electrical System Overview Assemble the control box. Make the Cat5 connector. Wire the motors to the tether. Wire the control.

Michel DUPIEUX IRAP Progress Meeting LAL 02/03/ EC interface with PDM.

HVPS Configurations JEM EUSO Balloon Pierre Prat 17/09/2012.

Pierre PRAT Progress the Michel DUPIEUX.

Introduction of the EUSO-BALLOON 9th Progress Meeting Naples, November the 9th, 2012 Guillaume Prévôt, Sylvie Dagoret and Peter von Ballmoos 1 EUSO-BALLOON,

IR CAMERA EUSO BALLOON SPAS-UAH team S. Pérez Cano, H. Prieto, L. Del Peral & M. D. Rodríguez-Frías ORBITAL AeroSpace Company L. Ramírez JEM-EUSO Balloon.

EagleSat’s Electronic Power Subsystem

SeaPerch Electrical System

Circuit Diagrams Circuit diagrams use symbols to represent the different components of an electric circuit The most common components of simple electric.

Series Circuit.

HPS Motherboard Electronic Design

Lesson 4 Electricity Part 3.

Basic Electrical Circuits

Natural Sciences and Technology Grade 6

Electric current is when electrons start to flow around a circuit

Probe the fundamental principles and applications of electricity

Charge and Current: More Practice

Current electricity Ch. 34

Natural Sciences and Technology Grade 6

Series 5300 Lithium Cell Formation System

P2 - Physics Circuits.

Basic Electrical Circuits

SeaPerch Electrical System

Presentation transcript:

- Battery Pack Technical Specifications - Battery Pack Design Descriptions - Battery Pack Connection Diagram - Battery Pack Architecture EUSO-BALLOON DESIGN REVIEW, , CNES TOULOUSE Héctor Prieto RIKEN/UAH EUSO Balloon PWP

Battery Pack Technical Specifications CDR – PWP Technical Specifications2 Phone Booth 24hPhone Booth 12h Altitude40km Pressure3mBar Power225W/192.72Ah, 28V225W/96.42Ah, 28V Operation Duty 24h12h Operating Temperature Range within -40˚C/+70˚C Size(500.4x300.24x170)mm (225W)(500.4x150.12x170)mm (225W) Mass27.14kg14kg

CDR – Design Description3 Battery Pack Design Description Description At the moment we assume a battery system providing 28V; since the highest voltage is 28V (and HV is produced internally). The battery pack will be attached to the gondola and provide power to the LV board and the HK board. Relays (commanded by CNES) will control the power ON/OFF.

CDR – PWP Connection Diagram 4 Battery Pack Design Description/ Connection diagram next two slides : example

CDR – PWP Architecture for 12 hours 5 Battery Pack Design Architecture 12 Hours Component Battery Component Selected: Saft G62/1.2 Specification: Li-SO2/28V/34.5Ah Capacity = (Watts required/Volts required)*(Time Hours) Battery Selection 24hours = (225W/28)*(24h)=96.42Ah 3 of 10 Cell Series Saft G62/1.2 = 103.5Ah

CDR – PWP Architecture for 24 hours 6 Battery Pack Architecture For 24 Hours Component Battery Component Selected: Saft G62/1.2 Specification: Li-SO2/28V/34.5Ah Capacity = (Watts required/Volts required)*(Time Hours) Battery Selection 24hours = (225W/28)*(24h)=192.72Ah 6of 10 Cell Series Saft G62/1.2 = 207Ah

- Objectives for EUSO BALLOON PWP - Location - Elements - Current Status and future Plans EUSO-BALLOON DESIGN REVIEW, , CNES TOULOUSE Héctor Prieto RIKEN/UAH Instrument and Objectives

Objectives for EUSO BALLOON PWP CDR – Instrument and Objectives 8 Maintain constant power of 225 W for the phone booth during the time required for the mission, in this case of 12 or 24 hours of flight. Zero levels of overloading the circuit due to problems with the battery Zero levels of overheating in the circuit due to problems with the battery

EUSO BALLOON PWP Location CDR – EUSO Balloon PWP Location 9

EUSO BALLOON PWP Elements CDR – EUSO Balloon PWP Elements 10 Cells Option I: In case of 225W /12hrs power consumption it will be necessary 30 cells of Saft G62/1.2 Option II: In case of 225W /24hrs power consumption it will be necessary 60 cells of Saft G62/1.2 Connectors The Connectors we are going to use are 9 pins D-Sub connectors for all interfaces and subsystems. Cables The Cable most suitable for this project is THERMAX MIL-DTL-22759/91,92 for all interfaces and subsystems.

EUSO BALLOON PWP Elements CDR – EUSO Balloon PWP Elements 11 Switches The Switches we are planning to use are APEM-M3500 Fuses The Fuses we are going to use are Thermal Fuse Klixon C Series and MIL-PRF Space Coast IC

Current Status and Future Plan CDR – Current Status and Future Plan 12 Current Status: Electrical Design Frozen, Elements selection started Future Plan: Elements selection frozen, Electrical tests and first model.