Colorado Space Grant Consortium

Virginia Space Grant Consortium

1

RockOn and RockSat Payload Canister...

A Sounding Rocket Payload Workshop and The Next Step In Low Cost Student Access

To Space

Colorado & Virginia Space Grant Consortium

RockSat Presentation

23 June 2009

Colorado Space Grant Consortium

Virginia Space Grant Consortium

2

0.0 Presentation Overview

1.0 History

“The story of RocketSat and its evolution to the Next

How-To Workshop and Low Cost Student Access to Space

and BEYOND!”

2.0 RockOn!

“Where it all begins…”

3.0 RockSat-C

“You’ve built our standard payload, come back and build a

payload of your own… with some guidance and restrictions

of course…”

4.0 RockSat-X

“Is RockSat-C too easy? Too limited? How about full

access to space?

Colorado Space Grant Consortium

Virginia Space Grant Consortium

3

A Brief History

Colorado Space Grant Consortium

Virginia Space Grant Consortium

4

- The workshop kit or RocketSat has been under development and testing since January 2006

- RocketSat was developed by undergraduate students from the University of Colorado at Boulder

- RocketSat has flown four times in different configurations- RocketSat I September 2006- RocketSat II April 2007- RocketSat III June 2007- RocketSat DMarch 2008 (moved to June/July 2008)- RocketSat IV June 24, 2008

1.0 History

Colorado Space Grant Consortium

Virginia Space Grant Consortium

5

Objectives:

1. Easily reproducible payload design (COTS)

2. Qualitative data description of flight environment with altitude

3. Science Package:- Geiger Counter- Microwave Detector- Temperature sensor- Accelerometers- Pressure sensor

1.1 History: RocketSat I

Colorado Space Grant Consortium

Virginia Space Grant Consortium

6

1.1 History: RocketSat I… Before

Colorado Space Grant Consortium

Virginia Space Grant Consortium

7

Colorado Space Grant Consortium

Virginia Space Grant Consortium

8

Colorado Space Grant Consortium

Virginia Space Grant Consortium

9

Objectives:

1. Easily reproducible payload design (COTS)

2. Record detailed flight data:

- Video Camera

3. Environmental sensors:- Temperature- Pressure- Humidity- Three-axis accelerometers - Strain gauges- Faculty GPS experiment

1.2 History: RocketSat II

Colorado Space Grant Consortium

Virginia Space Grant Consortium

10

1.2 History: RocketSat II Stacked Configuration

Colorado Space Grant Consortium

Virginia Space Grant Consortium

11

1.2 History: RocketSat II Stacked Configuration

Colorado Space Grant Consortium

Virginia Space Grant Consortium

12

1.2 History: RocketSat II CSI RockSat

Colorado Space Grant Consortium

Virginia Space Grant Consortium

13

Objectives:

1. Re-fly all hardware from RS I except microwave sensor and Geiger counter

2. New Sensors:- Silicon pressure sensor- New Geiger counter- New microwave sensor

1.3 History: RocketSat III The Third Time’s A Charm

Colorado Space Grant Consortium

Virginia Space Grant Consortium

14

1.3 History: RocketSat III

Colorado Space Grant Consortium

Virginia Space Grant Consortium

15

RocketSat D (for Donut) Objectives

1. Sanity check for RockOn workshop kit

1.4 History: RocketSat-D Sanity Check

Colorado Space Grant Consortium

Virginia Space Grant Consortium

16

RockOn!

The Next How-To Workshop

Colorado Space Grant Consortium

Virginia Space Grant Consortium

17

2.1 Payload Overview

Main Computer Board

Accelerometer board

Geiger Counter(Science) Code—Embedded C

Over the course of 3 days!

Colorado Space Grant Consortium

Virginia Space Grant Consortium

18

2.1 Payload Overview

Mount, Stack, and Enclose!

Plate Integration

5 Teams StackedCanister Integration

Colorado Space Grant Consortium

Virginia Space Grant Consortium

The Concept:

Colorado Space Grant Consortium

Virginia Space Grant Consortium

20

2.2 RockOn 2008

RockOn 2008: June 23 – 27:

- 19 teams of 3-4 participants per team, 57 participants

- Launched June 27, 2008 on Improved Orion

100 % Success Rate!

Colorado Space Grant Consortium

Virginia Space Grant Consortium

21

3.2.1 RockOn 2008: Who Came?

57 People

1

44 14

3

3

8

1

3 1 3 22 13 1

8

2

1

2

57 Participants!

Colorado Space Grant Consortium

Virginia Space Grant Consortium

What we told them…

Colorado Space Grant Consortium

Virginia Space Grant Consortium

Workshop Goals:

Colorado Space Grant Consortium

Virginia Space Grant Consortium

Then another something else amazing happened…

Colorado Space Grant Consortium

Virginia Space Grant Consortium

Workshop Goals:RockOn 2008

Colorado Space Grant Consortium

Virginia Space Grant Consortium

26

2.3 RockOn 2009

RockOn 2009: June 21 – 26:

- 15 teams of 3-4 participants per team, 45 participants

- Launched June 26, 2009 on Terrier-Improved Orion

100 % Success Rate!

Colorado Space Grant Consortium

Virginia Space Grant Consortium

27

3.3.1 RockOn 2009: Who Came?

45 Participants!

- And YOU!

1

1 23

3

7 3 12 12 2

1

4

3

1

3

2

1

2 1

Colorado Space Grant Consortium

Virginia Space Grant Consortium

RockOn 2008 and 2009:

Colorado Space Grant Consortium

Virginia Space Grant Consortium

RockOn 2008 and 2009:

Colorado Space Grant Consortium

Virginia Space Grant Consortium

RockOn 2009:

Colorado Space Grant Consortium

Virginia Space Grant Consortium

RockOn 2008 and 2009:

Colorado Space Grant Consortium

Virginia Space Grant Consortium

RockOn 2009:RockOn 2009

Colorado Space Grant Consortium

Virginia Space Grant Consortium

33

RockSat-C

The Next Step In Low-Cost Student Access to Space

Colorado Space Grant Consortium

Virginia Space Grant Consortium

34

3.1 RockSat Payload Canister Established

RockOn led to the development of the RockSat Payload Canister

Standard Interface to Wallops Flight Facility’s Sub-SEM ring assembly.

Proven concept:RockOn 2008/2009RockSat 2009

RockSat-W Standard:(March 2008)Mass StandardMOI StandardStreamline Integration Vibe/MOI not required

Colorado Space Grant Consortium

Virginia Space Grant Consortium

35

3.2 RockSat Payload Canister Structural

Highlights:

- Each shall weight < 20* lbs with payloads and hardware

- Sixteen (16) 8-32 Cap Head screw around split barrel

- Five (5) 8-32 Cap Head screws on both top and bottom bulk heads, ten total.

- CG shall lie within a 1X1X1” envelope centered on the geometric centroid of the canister.

WFF Interface:

- Wire-way to pass RBF/Command wires to Wallops Flight Facility

* RockSat Requirement, Workshop Canisters are a standard established in spring of 2008

Colorado Space Grant Consortium

Virginia Space Grant Consortium

36

3.3 RockSat Paylod Canister Integration

WFF Interface:- Twelve (12) 8-32 Cap Head

screws attach canister to Sub-SEM rings.

- Bolt circle: = 10.8”

- 8-32 socket cap head screws

Highlights:

- Cans designed to be easily integrated onto Wallops Flight Facility’s Sub-SEM ring assembly

- Integration of five cans (left) to Sub-SEM ring assembly successful during RockOn 2008/2009 and RockSat 2009

Colorado Space Grant Consortium

Virginia Space Grant Consortium

37

3.4 RockSat Payload Canister Electrical

Two Key Requirements:

0.SYS.1 All payloads shall be designed such that Wallops will always know its status as active or inactive (current flowing/not flowing).

   1.SYS.1 Payloads wishing to activate early shall be designed such that Wallops can activate and deactivate the payload or subsections of the payload via a single    set of RBF wires.

   1.SYS.2 Payloads wishing to activate at launch shall be designed with two opens in the system such that activation occurs if and only if Wallops has closed the RBF connection and the G switch has been depressed.

Activation Types:

• RockOn Style (Latching)• Command Line (Early Activation)

Colorado Space Grant Consortium

Virginia Space Grant Consortium

38

PL1

PL2

PL3

PL4

PL5

PL6

PL7

PL8

PL9

Participating Schools

Boston University

Colorado State University

Metropolitan State College

Penn State, Mont Alto

University of Colorado at Boulder

University of Minnesota

University of North Dakota

University of Puerto Rico

University of Wyoming

Virginia Tech

University of North Dakota

Metropolitan State College

Colorado State University

3.5 Who Flew in 2009?

10 Universities from across the United States sent payloads to just over 72 miles on June 26, 2009!

39

PL1

PL2

PL3

PL4

PL5

PL6

PL7

PL8

PL9

Participating Schools

University of Northern Colorado

Colorado State University

College of Engineering: Temple

Univ. of Louisiana at Lafayette

University of Colorado at Boulder

University of Minnesota

University of Puerto Rico

University of Wyoming

Virginia Tech

West Virginia University

3.6 Who Will You Hear From Today?

CSU Conceptual Payload Design

University of Minnesota Conceptual

Payload Design

Colorado Space Grant Consortium

Virginia Space Grant Consortium

40

Schedule--2010

41

RockSat-W* RockSat-C

Task(s) Task(s)

06-17-2010 Thursday ArriveChris/Shawn Vis. Insp.

06-18-2010 Friday Room Setup WFF/COSGC visual inspection, MOI/Vibe

testing

06-19-2010 Saturday Geiger /Conformal Coating Action Items From Vibe

06-20-2010 Sunday AVR Build/Programming Part1

Action Items From Vibe

06-21-2010 Monday Programming Part IIAnd mech. Integration

Back-up testing day, begin WFF integration

06-22-2010 Tuesday Can Integration, Rocket Integration

WFF integration

06-23-2010 Wednesday Data analysis methods, tours, future opportunities

Presentations to workshop participants and

tours

06-24-2010 Thursday Launch Launch

06-25-2010 Friday Back-up launch Back-up launch

3.7 Schedule

* Different than RockOn 2008 and 2009

COSGC, WFF, and WSMR 42

Pushing the RockSat Concept to New

Extremes

Colorado Space Grant Consortium

COSGC, WFF, and WSMR

4.1 Standard Interface

Center of gravity: Constrained to TBD

envelope

~12’’

~12”

Weight:~ 30 lbs

•Based on standard interface like RockSat-CBased on standard interface like RockSat-C

•Participants no longer constrained to canister, Participants no longer constrained to canister, howeverhowever

•30 lbs of payload30 lbs of payload•28 V with 1 Ah provided by Wallops28 V with 1 Ah provided by Wallops

•3 Non-Redundant Events3 Non-Redundant Events•1 Redundant Event1 Redundant Event

•Access to space environmentAccess to space environment•GPS data of flightGPS data of flight•Standard mounting plateStandard mounting plate•Environmental testing in prior to flightEnvironmental testing in prior to flight

What you get:

COSGC, WFF, and WSMR

4.2 Concept of Operations

1

2

3

4

5

6

1. Launch 1. Launch Telemetry/GPS beginsTelemetry/GPS begins

2. Launch to Apogee2. Launch to Apogee Telemetry/GPS continuesTelemetry/GPS continues

3. Apogee3. Apogee Nose cone separationNose cone separation Skin separationSkin separation De-spin to TBD rateDe-spin to TBD rate Telemetry/GPS continuesTelemetry/GPS continues

4. Descent4. Descent Telemetry/GPS continuesTelemetry/GPS continues

5. Chute Deploy5. Chute Deploy Telemetry/GPS continuesTelemetry/GPS continues

6. Landing6. Landing Telemetry/GPS terminatesTelemetry/GPS terminates Payloads recoveredPayloads recovered

CONOPS:

Wallops Ground StationWallops Ground Station

COSGC, WFF, and WSMR 45

Payload Interfaces

COSGC, WFF, and WSMR

4.3 Payload Interfaces

LongeronsLongerons

RockSat-X RockSat-X PlatePlate

t = TBDt = TBD

Keep Out Keep Out AreaArea

(Orange)(Orange)

Payload Payload Space BeginsSpace Begins

Power/Telem Power/Telem BoxBox

Longeron Longeron Bolting HolesBolting Holes

•17” Diameter, TBD Keep-Out 17” Diameter, TBD Keep-Out •Mounting Grid Provides Std. Mounting Grid Provides Std. InterfaceInterface•Power Telemetry Box (GSE/Wallops)Power Telemetry Box (GSE/Wallops)Plate/Longeron SystemPlate/Longeron System•CU Provides Plate + P/T BoxCU Provides Plate + P/T Box

Summary:

28V In (X3)

Telemetry Out

To W

allo

ps

Design ReviewsDesign ReviewsCoDR(MIC),PDR(RDM),CDCoDR(MIC),PDR(RDM),CD

R(DR)R(DR)

Design ReviewsDesign ReviewsCoDR(MIC),PDR(RDM),CDCoDR(MIC),PDR(RDM),CD

R(DR)R(DR)

Design ReviewsDesign ReviewsCoDR(MIC),PDR(RDM),CDRCoDR(MIC),PDR(RDM),CDR

(DR)(DR)

JanuaryJanuary

FebruaryFebruary

MarchMarch

AprilApril

MayMay

JuneJune

JulyJuly

AugustAugust

SeptemberSeptember

OctoberOctober

NovemberNovember

DecemberDecember

RS-XRS-X1 1 AnnouncedAnnounced

Draft User’s Guide CompleteDraft User’s Guide Complete

Notice of Intent DUENotice of Intent DUE

Deposits DUEDeposits DUE

2010 2011 2012

Selections MadeSelections Made

Envr.TestingEnvr.Testing

RS-XRS-X1 1 LaunchLaunch

RockSat-XRockSat-X22 Announced Announced

NOI DueNOI Due

Deposits DueDeposits Due

Selections MadeSelections Made

Envr.TestingEnvr.Testing

RockSat-XRockSat-X33 Announced Announced

Deposits DueDeposits Due

Selections MadeSelections Made

RS-XRS-X22 Launch Launch

NOI DueNOI Due

4.4 RockSat-X ScheduleRockSat-XRockSat-X11 (12 Months) (12 Months) RockSat-XRockSat-X22 (15 Months) (15 Months)

RockSat-XRockSat-X33 (15 Months) (15 Months)

Colorado Space Grant Consortium

Virginia Space Grant Consortium

48

RockOn and RockSat Payload Canister...

Further Questions and/or Comments