TechEdSat

TechEdSat
Spacecraft properties
CAD Drawing of TechEdSat

Mission type	Technology
Operator	San Jose State University/JAXA/ÅAC Microtec/NASA

Spacecraft type	1U CubeSat
Launch mass	1.2 kilograms (2.6 lb)

Start of mission
Launch date	21 July 2012, 02:06 (2012-07-21UTC02:06Z) UTC^[1]
Rocket	H-IIB
Launch site	Tanegashima Y2
Deployed from	ISS

End of mission
Decay date	5 May 2013

Orbital parameters
Reference system	Geocentric
Regime	Low Earth
Semi-major axis	6,795.131 kilometers (4,222.299 mi)
Eccentricity	0.0027290
Inclination	51.6567

The Technological and Educational Nanosatellite, or TechEdSat, is a series of CubeSats built by San Jose State University students in partnership with Ames Research Center and ÅAC Microtec.

The first TechEdSat had a mission to evaluate Space Plug-and-play Avionics (SPA) from ÅAC Microtec,^[2] and was launched on an H-IIB carrier rocket from the Tanegashima Space Center on 21 July 2012 to the International Space Station, where it was deployed via the JAXA J-SSOD deployer.^[3] on 4 Oct 2012.^[4] It reentered to atmosphere on 5 May 2013.^[5]

TechEdSat-2 was planned as a 6U CubeSat, a collaboration between ÅAC Microtec in Sweden and NASA Ames.^[6]

TechEdSat-3p was a 3U CubeSat that was launched to the International Space Station on November 20, 2013 on a HTV-4 from Tanegashima, Japan and subsequently deployed into orbit using the JEM-Small Satellite Orbital Deployer. It tested an exo-brake to demonstrate a passive deorbiting.^[7]

TechEdSat-4 is a 3U CubeSat mission developed, integrated, and tested at NASA Ames in partnership with student interns from San Jose State University in California and the University of Idaho. The objective of the TechEdSat-4 mission is to demonstrate new technologies including satellite-to-satellite communications and an upgraded exo-brake device to demonstrate a passive deorbiting. TechEdSat-4 was launched as a secondary cargo payload on the Cygnus CRS Orb-2 ISS resupply mission. The launch vehicle was the Orbital Sciences Corporation Antares-120, launching from the Mid-Atlantic Regional Spaceport on Wallops Island, VA on July 13, 2014.^[8] TechEdSat-4 was deployed from the International Space Station via the NanoRacks CubeSat Deployer on March 4, 2015.^[9]^[10]

TechEdSat

The first TechEdSat (later renamed "TechEdSat-1") was a 1-U cubesat to evaluate Space Plug-and-play Avionics (SPA) designed in Sweden by ÅAC Microtec. It was also originally intended to perform a communications experiment utilizing the Iridium and Orbcomm satellite phone network,^[2] although this function was disabled before launch.^[11] TechEdSat was deployed into orbit from the International Space Station on 4 Oct 2012.

Hardware^[12]

TechEdSat Engineering Development Unit

Quake Global Q1000 Modem ( Orbcomm ) (Deactivated)
Quake Global Q9602 Modem ( Iridium ) (Deactivated)
Stensat Radio Beacon
4x nanoRTU (ÅAC Microtec)
Main Power Distribution Board (ÅAC Microtec)
RTU Lite (ÅAC Microtec)
2 meter band Monopole Antenna
70cm band Monopole Antenna
1600 MHz Patch Antenna
Pumpkin, Inc. 1U Skeletonized CubeSat Structure
Canon BP-930 Lithium-ion battery

Specifications

TechEdSat Solar Panel

Dimensions: 113.5 mm x 100 mm x 100 mm
Mass: 1.2 kg
Power Consumption (Safe Mode): 0.35 W
Power Consumption (Safe Mode, Stensat Transmitting): 3.4W
Power Consumption (Nominal Mode): 3.965W
Power Consumption (Q1000 Transmitting): 27.125W
Power Consumption (Q9602 Transmitting): 10.49W
Power Consumption (Nominal Mode, Stensat Transmitting): 7.015W
Solar Array (Average): 1.229W
Power Storage: 17 Wh

Launch

TechEdSat was launched from Pad 2 of the Yoshinobu Launch Complex at Tanegashima on 21 July 2012, aboard Kounotori 3 atop an H-IIB launch vehicle. Kounotori 3 carried the satellite, along with the Raiko, We-Wish, Niwaka and F-1 spacecraft, to the International Space Station, from where it was deployed via the JAXA J-SSOD deployer, from the Kibo module on 4 Oct 2012 at 15:44:15.297 UTC.^[4]

CubeSats deployed to orbit from the International Space Station on 4 October 2012 (from left: TechEdSat, F-1 and FITSAT-1).

Beacon Packet Format

TechEdSat-1 transmitted a heartbeat packet over amateur radio every 4 seconds. These packets are 122 ASCII character AX.25 packets. Amateur band radio frequency is 437.465 MHz.^[13]

Two consecutive 12 bit raw ADC Data values are parsed into one 3 byte chunk in order to save data space.

References

↑ Bergin, Chris (20 July 2012). "Japanese H-IIB launches HTV-3 to the International Space Station". NASASpaceflight.com. Retrieved 21 July 2012.
1 2 Gunter Dirk Krebs (January 31, 2012). "TechEdSat". Gunter's Space Page. Retrieved February 1, 2012.
↑ 大塚実 (January 25, 2012). "JAXA、宇宙ステーションから超小型衛星を放出できる装置をプレス公開" (in Japanese). mynavi.jp. Retrieved February 1, 2012.
1 2 "CubeSat Orbital Elements". Retrieved October 4, 2012.
↑ TechEdSat Twitter
↑ Gunter's Space Page, TechEdSat 2 (TES 2) (accessed 12 Sept 2014)
↑ TechEdSat 3 (accessed 12 Sept 2014)
↑ TechEdSat-4 (Technological and Educational Nanosatellite-4) (accessed 12 Sept 2014)
↑ http://www.nasa.gov/mission_pages/station/research/experiments/1815.html
↑ https://directory.eoportal.org/web/eoportal/satellite-missions/content/-/article/techedsat-4
↑ AmSat, "TechEdSat to Use Satphone":
The plan to transmit from space using frequencies allocated to Iridium and Orbcomm SatPhone ground stations has been canceled. A statement from the team says: “We were forced to disable the Iridium modem as our FCC license did not come in time. As usual, building the satellite is the easy part.”
(accessed 12 Sept 2014)
↑ TechEdSat specifications (accessed 12 Sept 2014)
↑ "TechEdSat". IARU. April 3, 2012. Retrieved April 6, 2012.

External links

Wikimedia Commons has media related to TechEdSat.

TechEdSat on Twitter

← 2011 · Orbital launches in 2012 · 2013 →

Ziyuan III-01 · VesselSat-2 \| Fengyun 2-07 \| USA-233 \| Progress M-14M \| Navid \| LARES · ALMASat-1 · Xatcobeo · UniCubeSat-GG · ROBUSTA · e-st@r · Goliat · MaSat-1 · PW-Sat \| SES-4 \| Compass-G5 \| MUOS-1 \| Edoardo Amaldi ATV \| Intelsat 22 \| Kosmos 2479 \| Apstar-7 \| USA-234 \| Kwangmyŏngsŏng-3 \| Progress M-15M \| YahSat-1B \| RISAT-1 \| Compass-M3 · Compass-M4 \| USA-235 \| Tianhui 1B \| Yaogan 14 · Tiantuo 1 \| Soyuz TMA-04M \| JCSAT-13 · Vinasat-2 \| Kosmos 2480 \| Shizuku · Kompsat 3 · SDS-4 · Horyu 2 \| Nimiq 6 \| Dragon C2+ · New Frontier \| Fajr \| Zhongxing-2A \| Yaogan 15 \| Intelsat 19 \| NuSTAR \| Shenzhou 9 \| USA-236 \| USA-237 \| EchoStar XVII · MSG-3 \| SES-5 \| Soyuz TMA-05M \| Kounotori 3 (Raiko · We-Wish · Niwaka · TechEdSat · F-1) \| Kanopus-V1 · BelKA-2 · Zond-PP · TET-1 · exactView-1 \| Tianlian I-03 \| Gonets M-2 · Gonets M-3 · Kosmos 2481 · MiR \| Progress M-16M (Sfera-53) \| Intelsat 20 · HYLAS 2 \| Telkom-3 · Ekspress MD2 \| Intelsat 21 \| RBSP-A · RBSP-B \| SPOT 6 · PROITERES · mRESINS \| USA-238 · SMDC-ONE 1.1 · SMDC-ONE 1.2 · AeroCube 4 · AeroCube 4A · AeroCube 4B · Aeneas · Re · CSSWE · CP5 · CXBN · CINEMA 1 \| MetOp-B \| Compass-M5 · Compass-M6 \| Astra 2F · GSAT-10 \| VRSS-1 \| USA-239 \| SpaceX CRS-1 · Orbcomm-2 \| David · Sif \| Shijian IX-01 · Shijian IX-02 \| Intelsat 23 \| Soyuz TMA-06M \| Compass G6 \| Progress M-17M \| Luch 5B · Yamal-300K \| Eutelsat 21B · Star One C3 \| Meridian 6 \| Huanjing 1C · Xinyan 1 · Fengniao 1 (Fengniao 1A) \| EchoStar XVI \| Yaogan 16A · Yaogan 16B · Yaogan 16C \| Zhongxing 12 \| Pléiades-HR 1B \| Eutelsat 70B \| Yamal-402 \| USA-240 \| Kwangmyŏngsŏng-3 Unit 2 \| Göktürk-2 \| Soyuz TMA-07M \| Skynet 5D · Mexsat Bicentenario

Payloads are separated by bullets ( · ), launches by pipes ( \| ). Manned flights are indicated in bold text. Uncatalogued launch failures are listed in italics. Payloads deployed from other spacecraft are denoted in (brackets).

This article is issued from Wikipedia - version of the 10/31/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.

TechEdSat

TechEdSat

Hardware[12]

Specifications

Launch

Beacon Packet Format

References

External links

Hardware^[12]