Page 1 Recovery Discussion 11/4/2015. Page 2 Roles & Responsibilities ? Point Of ContactResponsibility Alisson Clark Liam Jaffe Yash Pahade Yumi Shridhar.

Slides:

Advertisements

Similar presentations

BYU Rocket Team Special thanks to:

Advertisements

Looking at position, velocity, and acceleration from the integral.

Battery PDB Controller GPS Data Recorder Antenna Cam Lower Stage Harness Upper portLower port Upper port Lower Stage Harness Sensors Cam Avionics Layout.

Motion, Acceleration, and Forces (chapter 3)

Hydraulic Cylinders Actuators

HYDRAULICS & PNEUMATICS

Preliminary Design Review. Rocket & Payload Schematic.

TURN IN REQUIREMENTS AEDA ITEMS

Illinois Space Society Tech Team USLI CDR Presentation.

UAA Rocketry Critical Design Review Presentation.

HYDRAULIC SYSTEMS and APPLY DEVICES

Presented by Jon Pannell

Steering Columns.

2035 Series. Common Components The design of the 2035 Series valve includes many proven components for assured reliability. These items include: –Same.

Sensors used in ABS (Anti-Lock Braking System)

February 25, 2010 ARMS 1098-C 1 ODOS.  Team Leader Ed Brown – Junior, EET  Team Members Nathan Myers – Sophomore, EET Ben Ross – Junior, CE Lisa Li.

Team Hybrid  Daniel Farley  John Hoyt  Sean Frost Hoyt.

01-1 Physics I Class 01 1D Motion Definitions.

02-1 Physics I Class 02 One-Dimensional Motion Definitions.

Pneumatic Logic Sensors and Actuators

Electrical Electricity Fuses Relays Solenoids Electrical Testing

Critical Design Review of “Mach Shock Reduction” Phase II January 2008 Statesville, NC.

SCADA and Telemetry Presented By:.

Rocket Based Deployable Data Network University of New Hampshire Rocket Cats Collin Huston, Brian Gray, Joe Paulo, Shane Hedlund, Sheldon McKinley, Fred.

Tropos-1 Hybrid rocket Project

MAE156A October 12, 2006 UCSD H. Ali Razavi.  Electric voltage is similar to height difference: - Electrons start moving under voltage difference - Unless.

Design Documentation in ME 2110 Jeffrey Donnell MRDC June, 2010.

Electricity and the devices that carry it.. POWER  Electricity and the devices that carry it.  Rules of Lighting Design  Law of Reflection  Law of.

Electrical Resistance and Ohm’s Law Electric circuits are used to convert electrical energy into some other form of energy we need.

Flight Readiness Review Student Launch Initiative SCS Rocket Team Statesville Christian School April 2, 2008.

May15-12 Client: John Carr, NASA Advisor: Gary Tuttle CUBESAT SOLAR PANELS.

Recovery Systems Tripoli Minnesota Gary Stroick December 2012.

Physics 11 Force Diagrams Mr. Jean. The plan: Video clip of the day Force Diagrams Friction Friction Practice Questions.

Critical Design Review Presentation Jan. 20, 2011.

AAE 450 Spring 2008 Tim Lorenzana 1/16/2008 Avionics Recovery/Termination.

Chapter 5 concepts and problems review. First question What is Newton’s first law? What is Newton’s second law? What is Newton’s third law?

Lockout - Tagout Control of Hazardous Energy OSHA Standard

Advanced Design Applications UNIT 4: MANUFACTURING

Introduction & Overview

Acceleration Definition 2 ways to do it Positive acceleration Negative acceleration (deceleration) A change in velocity Change speed and/or Change direction.

TESLA Rocket Project Lecture #3 10/28/15

Team Member Travis Noffke Decelerator System

P /24/14 Meeting. What we did well ●Depth and thoroughness of work ●Documentation of work ●Team Work ●Others?

Copyright © 2012 American Safety Management Inc. Lockout Tagout.

Electric Current.  Electric current is the continuous flow of electric charges through a material.  Needed to power any electrical device.  Measured.

P16680: AATech Universal Oil and Bag System System Design Review 9/29/15.

Page 1 TESLA Rocket Project 11/4/15. Page 2 1)Schedule 2)Launch Performance & other stuff.

Project Management Requirements Prof. Ralph Locurcio, PE Dr. Troy Nguyen, PE.

MAE 435 Progress Report Team: Formula SAE Due Date: 2/8/2016 Advisors: Dr. Bawab; Nathan Luetke Presenter: Ryan P.

SYSTEM LEVEL DESIGN REVIEW P16318 Gaseous Mass Flow Rate Controller Luke McKean, Lianna Dicke, Selden Porter, Schuyler Witschi ?

Sophisticated Design Automatic Tailgate Week Five and Six Deliverables September 26, 2001 Ted Akiskalos June Doan Tarek Elshazly Maggie Kim David Nimitz.

Blocking a b c d.

Physics 11 Rocket Design Day Mr. Jean. The plan: Video clip of the day Rocket Designs and builds.

Proportional and Servo Valves

Fluid Power Control.

Date of download: 7/5/2016 Copyright © ASME. All rights reserved. From: New Liquid Transfer Active Balancing System Using Compressed Air for Grinding Machine.

Planetary Lander PDR Team Name

DEVICE FOR THE IMPLANTATION OF NEURAL ELECTRODE ARRAYS

CanSat Competition Competition Objectives Pre-Launch Launch

Structured Modeling of Mechatronic Systems in which you meet the modest but talented multiport component.

Integrated Workout Shoe

Sounding Rocket PDR Team Name

Sounding Rocket CDR Team Name

Final Readiness Review

ELECTRONIC SYSTEMS Note: There is no compulsory question set on Section 25 of the syllabus. Questions set on topics within Section 25 are always set as.

Mars Rover CDR Team Name

Target Altitude Safety Document

Preliminary Detailed Design Review: P18001

Fluid Power System Electrical Control

Presentation transcript:

Page 1 Recovery Discussion 11/4/2015

Page 2 Roles & Responsibilities ? Point Of ContactResponsibility Alisson Clark Liam Jaffe Yash Pahade Yumi Shridhar Nivi Thomas Ben Trowbridge Chinmay Upadhye Logic Documentation (nominal, off nominal) Sensor Actuator List Milestone Schedule Requirements (Competition, System) Team Coordinator Analysis Lead System Design Lead

Page 3 Competition Requirements ?

Page 4 TESLA Recovery Define Logic: 1) Nominal – everything works perfectly (draft logic chart follows) 2) Off-nominal cases Shorter burn times (20 sec, 15 sec, … 3 sec? Longer burn times Loss of stability Other Logic flow chart for all cases Defined what sensors are needed to implement logic Define actuator requirements

Page 5 TESLA First Motion Performance Calculation (ACC, V, D) Nominal Operation ? Engine Shutdown ? YES NO Calculate Decelerator deployment time or conditions (T1) Main chute deployment conditions (T2) Does T = T1 ? NO Deploy Decelerator Did Decelerator Deploy? Deploy Main Chute Does T = T2 ? Deploy Main Chute NO YES End Recovery Routine Off Nominal Deployment Logic ? Nominal Deployment Logic What is the criteria for “Nominal Operation” How doe we determine this (sensors?) What sensors and logic are required Team to define logic for all off- nominal cases Need to define T1 & T2 conditions and make sure we have the proper sensors How do we know? What is the voltage, power and time duration of the signal to fire the deployment device? Potential Sensor Options: GPS – Update Rate ? X,Y,Z acceleration (integrate to get velocity & displacement) Time Barometric pressure First motion switch ACC = Acceleration V = Velocity D = Distance T = time

Page 6 TESLA

Page 7 TESLA Small Parachute Concept Small pilot chutes available from 30” diameter and larger Small Parachute Main Parachute Big Spring

Page 8 TESLA Recovery Data Book

Page 9 TESLA Recovery Components Jack Screws (3) Tension Spool Parachute Push Plate Ejection Spring Attachment Fastener Cable Terminal Cable Shroud Tube Jacking Flange Cable Retention Collet Cable Cutter Support Cable Cutter Terminal Fitting Fasteners Terminal Fitting (6) Fasteners Cutter Support (6) Other Items: 1.Bridle 2.Bridle Fitting (2) 3.Bridle Fitting Fasteners (4) 4.Reefing System 5.Pilot Chute? 6.Pilot Chute cutter? 7.Electrical Harness

Page 10 TESLA Slider Reefing System

Page 11 TESLA Example Reefing Systems

Page 12 TESLA Deployment Bag Reefing System

Page 13 TESLA Deployment Bag – We need to design one loyment-bags/

Page 14 TESLA Pyro Initiated Gas Generation Actuator

Page 15 TESLA Pyro Initiated Gas Generation Actuator

Page 16 TESLA Pyro Pin Pusher

Page 17 TESLA Pyro Pin Pusher