Team Thermasense Thermal Wireless Sensor. Where Does Thermasense Fit In? Re-Entry problems: Space vehicles are heavily instrumented. Wires can introduce.

Slides:

Advertisements

Similar presentations

IEEE-USA Workshop (27-29 April 2001) Electrical and Computer Engineering Examination The National Council of Examiners for Engineering and Surveying, Principles.

Advertisements

Networking: Computer Connections Chapter 7 Data Communications Send and receive information over communications lines.

Communication With a High Altitude Balloon Team HAB-Comm: Ryan OvermanBrian Thomas Thomas RawlsTrenton Katter.

RF Circuit Design Chris Fuller /7/2012.

Wireless Test Instrumentation System for Rotating Parts ECE Team 167 Lawrence Bogan Jeremy Neaton Adam Bienkowski Michael Golob ME Team 29 Sean Handahl.

Chapter 1.  Understand bits, bytes, megabytes, etc.  Learn basic communication model.  Learn the distinction between channel, circuit and network.

RADIO FREQUENCY MODULE. Introduction  An RF module is a small electronic circuit used to transmit and receive radio signals.  As the name suggests,

SDP 11 PDR Team Goeckel Group: Adebayo Adeyemi, Joseph Hayward, Mark Kohls, Simon McAuliffe Advisor: Dennis Goeckel PDR Keeping The Secret.

TK 2133 DATA COMMUNICATION AND TELECOMMUNICATION INFRARED PREPARED BY: 1)GAN BOON CHONG(A108946) 2)KOAY BEE JUNE(A108508) 3)LOW YEAN LEE(A108840)

1 Part II: Data Transmission The basics of media, signals, bits, carriers, and modems Fall 2005 Qutaibah Malluhi Computer Science and Engineering Qatar.

Wireless System for TPS Sensors Presented By: Tye Reid and Greg Swanson.

Wireless Architecture for Embedded Thermal Protection System Sensors NASA Ames Research Center NASA Johnson Spaceflight Center.

Goals Acknowledgements Design Considerations Prototype Design Testing Results Joe Law- Faculty Advisor David Atkinson- Faculty Advisor Austin Howard- Graduate.

Lecture 31 Electrical Instrumentation. Lecture 32 Electrical Instrumentation Electrical instrumentation is the process of acquiring data about one or.

Lecture161 Instrumentation Prof. Phillips March 14, 2003.

Wireless Thermal Protection Sensors Presented By: Jesse Pentzer and Lucas Wells Brandy Holmes John Sochacki Chris Johnson.

Preliminary Design Review Thermal Wireless Sensor.

NSF ITEST SPIRIT December Workshop 2006 WELCOME Building an IR Controller for Your TekBot.

STARLight PDR 3 Oct ‘01C.1 Hansen STARLight Peter Hansen PROJECT OVERVIEW.

Additional questions about Conducted and Wireless Media School of Business Eastern Illinois University.

Wireless TPS Sensors Chris Johnson Jesse Pentzer Brandy Holmes John Sochacki Lucus Wells.

Electromagnetic Wave Theory

UVM CricketSat Wireless Sensor. Remote Temperature Measurement Possible Application –Measure temperature in the upper atmosphere –10 km altitude Two challenges:

CSCI 4550/8556 Computer Networks Comer, Chapter 4: Transmission Media.

IE 419/519 Wireless Networks Lecture Notes #2 Wireless LAN Technology.

Physical Layer B. Konkoth.

Transmission Media / Channels. Introduction Provides the connection between the transmitter and receiver. 1.Pair of wires – carry electric signal. 2.Optical.

Radio Frequency (RF) Sensors and Communications in IBS will: Build RF communication networks for building controls technology –Present compelling demonstration.

Stallings, Wireless Communications & Networks, Second Edition, © 2005 Pearson Education, Inc. All rights reserved Wireless LAN Technology.

MAGNETO-OPTICAL CURRENT TRANSFORMER.

Presentation On Computer Network Topic:-Transmission Media

Chapter 4:Transmission Media 1 Basic Idea 2 Transmission media 3 Copper wires 4 Glass fibers 5 Radio 6 Microwave 7 Infrared 8 Laser 9 Choosing a medium.

Chapter 2.  Types of Network  Circuit Switched & Packet Switched  Signaling Techniques  Baseband & Broadband  Interference  Transmission Medium.

Radio Communication SL – Option F.1. Radio communication includes any form of communication that uses radio (EM) waves to transfer information –TV, mobile.

Strengths of Infrared Over Microwave Radio Spectrum for infrared virtually unlimited Possibility of high data rates Infrared spectrum unregulated Equipment.

Sensors Cassandra, Gayathri, Rohan, Patrick. -Many distractions while driving -Want to dramatically reduce accidents that occur -Try to figure out ways.

Team Members Jordan Bennett Kyle Schultz Min Jae Lee Kevin Yeh.

LSU 06/04/2007Electronics 61 Data Acquisition Electronics Unit – Lecture 6 Sensors and Transducers Signal conditioning Data sampling and recording.

ULTRAWIDEBAND TECHNOLOGY FOR CREATING A WIRELESS WORLD.

Physical Transmission

OV Copyright © 2015 Logical Operations, Inc. All rights reserved. Unbounded Network Media  Wireless Networking  Wireless Network Devices and Components.

Section 3.1: Wires, Cables, and Connectors Scott Glogovsky and Jonathon Sturm Scott Glogovsky and Jonathon Sturm.

Telecommunications, P. I AIMS 2710 R. Nakatsu. Networks and Telecommunications NETWORK – two or more computers interconnected by a cable (or alternatively,

NOISE IN RADIO WAVES Mr. Husnain Lecture 3.

Figure 12.1 The UP1-bot. Figure 12.2 Left: Radio Control Servo Motor and Right: Servo with Case and Gears Removed.

Phong Le (EE) Josh Haley (CPE) Brandon Reeves (EE) Jerard Jose (EE)

Technician License Course Chapter 4 Lesson Plan Module 9 – Antenna Fundamentals, Feed Lines & SWR.

TM Freescale™ and the Freescale logo are trademarks of Freescale Semiconductor, Inc. All other product or service names are the property of their respective.

1. Physical Transmission Transmission Media Wire (guided) Coaxial cable Twisted Pair UTP STP Fiber Optic Wireless (unguided) Radio waves Microwave Infrared.

A.L.F. Enterprise n Electrical Parameters Measurement Component (EPMC) n Boris Fradkin ©A.L.F.Enterprise Boris Fradkin.

Wireless communication Emmanuel Gyebison. Transmission Signals must be converted into digital values, using a circuit called ADC (Analog to Digital Converter),

Part 3  Transmission Media & EM Propagations.  Provides the connection between the transmitter and receiver. 1.Pair of wires – carry electric signal.

Introduction ProjectRequirements Project Requirements In a previous senior design project, a wireless front-end was added to Iowa State University’s Teradyne.

Basic Components used in Electronics. Used in electronic circuits to charge up to a given potenti al.

Smart Lens Robot William McCombie IMDL Spring 2007.

TOPIC 1.2 INTRODUCTION TO NETWORKING. OBJECTIVES By the end of the topic, students should be able to: a) List the elements of data communication systems.

Maze Twinbots Group 28 Uyen Nguyen – EE Ly Nguyen – EE Luke Ireland - EE.

Consider following problem Want to measure temperature range of: -15 o C < T 1 < 35 o C. Reference junction, T 2, = 0 o C. Output must be in range of -5Volts.

Signal conditioning Noisy. Key Functions of Signal Conditioning: Amplification Filter  Attenuation  Isolation  Linearization.

RF (Radio Frequency) 의 응용 서강대학교 전자공학과 2005 년 정보통신공학개론.

Ophthalmic Dose Compliace Monitor. Our Team Benjamin Roedl – Team Leader Benjamin Roedl – Team Leader Nina Lewis – Team Leader Nina Lewis – Team Leader.

Bluetooth Temperature and Barometric Pressure Sensor BY: TOM VANHOUDT.

Additional questions about Conducted and Wireless Media

Transmission Media.

INSTRUMENTASI INDUSTRI

Physical Transmission

Autonomous temperature sensor for bake plate calibration

Wireless LAN Technology

Fundamental Aspects of Digital Communications

Presentation transcript:

Team Thermasense Thermal Wireless Sensor

Where Does Thermasense Fit In? Re-Entry problems: Space vehicles are heavily instrumented. Wires can introduce extra problems into the system. High electromagnetic interference environment. Pressurized hull in many instances. Our solution is the wireless transmission of data.

Where can it go? Next lunar space vehicle (Orion) Re-entry probes Test equipment

Project Goal Design and build a wireless sensor system. Test the system in a plasma environment. Measure the internal temperature of the TPS (Thermal Protection System).

Typical Thermal Protection System (TPS)

Scope Primary Focus: –Wireless transmission of multiple temperature signals. Secondary Considerations –Thermocouple calibration and amplification circuit –Data acquisition and storage –Power –Transmission through pressurized hull.

How do we transmit the data? - Infrared (IR) No line of sight - Near Field Magnetics No off the shelf componentsavailable - Radio waves (RF) Best choice for our problem

Obstacles for data transmission Interference from the plasma environment. Can not communicate through the hull.

Overcoming Interference Noise filtering Use digital signals Board layout Twisted pair thermocouple wires Small gage thermocouple wire

Transmission through the craft Near field magnetics RF through the thin part of the hull. (Not likely)

Testing Measure performance reliability Accuracy of data Response time

Testing Issues How do we test at 1700 Degrees Celsius? Will our components melt? How do you mount TPS Materials

X – Jet Testing Interference Signal strength Battery life Power consumption

Future Work Data Storage Integration of other sensor types How do we power the modules for long term missions?

Project Risks and Challenges Transmission through the Craft Transmission through a high interference environment Protection of wires and circuits at high temperatures Meeting required size specifications

Questions?