Technology Education Satellite (TechEdSat) is a successful nano-sat flight series conducted from the NASA Ames Research Center in collaboration with numerous universities (San Jose State University, University of Idaho, University of California, University of Minnesota, and Smith College). While one of the principal aims has been to introduce young professionals and university students to the practical realm of developing space flight hardware, considerable innovations have been introduced. In addition, this evolving flight platform has tested concepts for Low Earth Orbit (LEO) sample return, as well as planetary nano-sat class mission concepts.

TechEdSat-1

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TechEdSat-1
 
Computer-aided design drawing of TechEdSat-1
NamesTES-1
Mission typeTechnology demonstration
OperatorNASA Ames Research Center · San Jose State University · University of Idaho · JAXA · ÅAC Microtec
COSPAR ID2012-038D (1998-067CQ) [1]
SATCAT no.38854
Mission duration213 days (achieved)
100 days (planned)
Spacecraft properties
Spacecraft typeCubeSat
BusCubeSat
Launch mass1.2 kg (2.6 lb)
Dimensions11.35 cm x 10.0 cm x 10.0 cm (1U)
Power1.229 watts
Start of mission
Launch date21 July 2012, 02:06:18 UTC
RocketH-IIB F3
Launch siteTanegashima Space Center,
Yoshinobu LC-Y2
ContractorMitsubishi Heavy Industries
Deployed fromISS Kibō
Delivered by Kounotori 3
Deployment date4 October 2012,
15:44:15.297 UTC
End of mission
Decay date5 May 2013
Orbital parameters
Reference systemGeocentric orbit
RegimeLow Earth orbit
Perigee altitude402 km (250 mi)
Apogee altitude422 km (262 mi)
Inclination51.66°
Period92.80 minutes
 
TechEdSat Engineering Development Unit
 
TechEdSat Solar Panel
 
CubeSats deployed to orbit from the International Space Station (ISS) on 4 October 2012 (from left: TechEdSat-1, F-1 and FITSAT-1).

The first TechEdSat (later renamed "TechEdSat-1" or "TES-1")[2][3] was a 1U-Cubesat designed 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,[4] although this function was disabled before launch.[5] TechEdSat was deployed into orbit from the International Space Station (ISS) on 4 October 2012. It reentered to atmosphere on 5 May 2013.[6]

Hardware

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Specifications

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  • Dimensions: 11.35 cm x 10.0 cm x 10.0 cm
  • Mass: 1.2 kg (2.6 lb)
  • Power Consumption (Safe Mode): 0.350 W
  • Power Consumption (Safe Mode, Stensat Transmitting): 3.400 W
  • Power Consumption (Nominal Mode): 3.965 W
  • Power Consumption (Q1000 Transmitting): 27.125 W
  • Power Consumption (Q9602 Transmitting): 10.490 W
  • Power Consumption (Nominal Mode, Stensat Transmitting): 7.015 W
  • Solar Array (Average): 1.229 W
  • Power Storage: 17 Wh

Launch

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TechEdSat was launched from pad 2 of the Tanegashima Space Center, Yoshinobu Launch Complex (LC-Y2) on 21 July 2012, at 02:06 UTC,[8] 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 (ISS), from where it was deployed via the JAXA J-SSOD deployer, from the Kibō module on 4 October 2012 at 15:44:15.297 UTC.[9]

Beacon Packet Format

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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.[10] Two consecutive 12 bit raw Analog-to-digital converter (ADC) data values are parsed into one 3 byte chunk in order to save data space.

TechEdSat-2

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TechEdSat-2
NamesTES-2
PhoneSat v2a
PhoneSat 2.0 Beta
Alexander
Mission typeTechnology demonstration
OperatorNASA Ames Research Center
COSPAR ID2013-016C
SATCAT no.39144
Mission duration7 days (planned)
6 days (achieved)
Spacecraft properties
Spacecraft typeCubeSat
ManufacturerNASA Ames Research Center
Launch mass0.5 kg (1.1 lb)
Dimensions10 cm x 10 cm x 10 cm (1U)
Start of mission
Launch date21 April 2013, 21:00:02.2 UTC[11]
RocketAntares 110 A-ONE
Launch siteWallops Island MARS, LP-0A
ContractorOrbital Sciences
End of mission
Decay date27 April 2013
Orbital parameters
Reference systemGeocentric orbit[12]
RegimeLow Earth orbit
Perigee altitude218 km (135 mi)
Apogee altitude228 km (142 mi)
Inclination51.64°
Period88.95 minutes

An Iridium transceiver flew aboard the PhoneSat v2a CubeSat as the TechEdSat-2 mission, separate from the spacecraft originally planned as TechEdSat-2.[13]

Alexander, also known as PhoneSat 2.0 Beta or PhoneSat v2a is a technology demonstration satellite operated by NASA's Ames Research Center, which was launched on 21 April 2013. Part of the PhoneSat programme, it was one of the first three PhoneSat spacecraft, and the first Phonesat-2.0 satellite, to be launched. A PhoneSat-2.0 satellite, Alexander, was built to the single-unit (1U) CubeSat specification, and measures 10 cm (3.9 in) in each dimension. The satellite is based around an off-the-shelf Samsung Electronics Nexus S smartphone which serves in place of an onboard computer. The satellite is equipped with a two-way S-band transponder and solar cells for power generation. The spacecraft uses the phone's gyroscopes, along with a GPS receiver, to determine its position and orientation, and a system of reaction wheels and magnetorquer coils for attitude control.[14]

TechEdSat-3p

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TechEdSat-3p
NamesTES-3
Mission typeTechnology demonstration
OperatorNASA Ames Research Center · San Jose State University · University of Idaho ·
COSPAR ID1998-067DD (TECHEDS3P) [1]
SATCAT no.39415
Mission duration47 days (achieved)
Spacecraft properties
Spacecraft typeCubeSat
Dimensions30 cm x 10 cm x 10 cm (3U)
Start of mission
Launch date3 August 2013, 19:48:46 UTC
RocketH-IIB F4
Launch siteTanegashima Space Center,
Yoshinobu LC-Y2
ContractorMitsubishi Heavy Industries
Deployment date20 November 2013, 07:58 UTC
End of mission
Decay date16 January 2014
Orbital parameters
Reference systemGeocentric orbit
RegimeLow Earth orbit
Perigee altitude410 km
Apogee altitude415 km
Inclination51.65°
Period92.81 minutes

TechEdSat-3p was the third spacecraft flown in the TechEdSat series. Its dimensions were approximately 30 cm x 10 cm x 10 cm, or three CubeSat units long, making it three times larger than TechEdSat-1. TechEdSat-3p was launched to the International Space Station (ISS) on 3 August 2013 from Tanegashima Space Center, Japan on the Kounotori 4 (HTV-4) International Space Station cargo resupply mission and subsequently deployed into orbit by the JEM-Small Satellite Orbital Deployer (J-SSOD).

TechEdSat-3p was the first satellite of the TechEdSat series to include an exo-brake, a parachute-like drag device to demonstrate passive deorbit capability.[15] The deployment of an exo-brake increases the surface area of a satellite, increasing its coefficient of drag in the thin upper atmosphere and causing the satellite to deorbit faster than it otherwise would. This technology could be used to more quickly dispose of satellites in Low Earth Orbit that have completed their missions, decreasing the amount of potentially hazardous debris in space. The exo-brake is currently being developed for use as part of the Small Payload Quick Return (SPQR) concept, which would enable science materials to be returned to Earth from the International Space Station whenever is most convenient for scientists rather than just a few times per year aboard a returning cargo resupply vehicle.

According to smallsat logistics company ÅAC Microtech, a main power distribution board designed for TechEdSat-1 was reused on the TechEdSat-3p mission.[16]

 
Deployment of the TechEdSat-3p satellite from the ISS

TechEdSat-4

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TechEdSat-4
NamesTES-4
Mission typeTechnology demonstration
OperatorNASA Ames Research Center · San Jose State University · University of Idaho
COSPAR ID1998-067FY
SATCAT no.40455
Mission duration263 days
Spacecraft properties
Spacecraft typeCubeSat
Launch mass3 kg (6.6 lb)
Dimensions10 cm x 10 cm x 30 cm (3U)
Start of mission
Launch date13 July 2014, 16:52:14 UTC
RocketAntares-120
Launch siteWallops Island MARS, LP-0A
ContractorOrbital Sciences Corporation
Deployment date4 March 2015
End of mission
Decay date3 April 2015
Orbital parameters
Reference systemGeocentric orbit
RegimeLow Earth orbit
Perigee altitude393 km (244 miles)
Apogee altitude402 km (250 miles)
Inclination51.64°
Period92.50 minutes

TechEdSat-4 was a 3U CubeSat mission developed, integrated, and tested at NASA Ames Research Center in partnership with student interns from San Jose State University (SJSU) in California and the University of Idaho in Moscow, Idaho. The objective of the TechEdSat-4 mission was 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, Virginia on 13 July 2014.[17] TechEdSat-4 was deployed from the International Space Station via the Nanoracks CubeSat Deployer on 4 March 2015.[18][19]

The satellite decayed from orbit on 3 April 2015.[20]

 
On 27 February 2015, a series of CubeSats, small experimental satellites, were deployed via a special device mounted on the Japanese Experiment Module (JEM) (Kibō module) Remote Manipulator System (JEMRMS). Deployed satellites included twenty Flock-1b satellites, TechEdSat-4, GEARRSAT, LambdaSat, and MicroMAS.

TechEdSat-5

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TechEdSat-5
NamesTES-5
Mission typeTechnology demonstration
OperatorNASA Ames Research Center · San Jose State University · University of Idaho
COSPAR ID1998-067LB
SATCAT no.42066
Mission duration144 days
Spacecraft properties
Spacecraft typeCubeSat
Launch mass4 kg (8.8 lb)
Dimensions10 cm x 10 cm x 35 cm (3.5U)
Start of mission
Launch date9 December 2016
RocketH-IIB F6
Launch siteTanegashima Space Center,
Yoshinobu LC-Y2
ContractorMitsubishi Heavy Industries
Deployment date6 March 2017, 18:20:00 UTC
End of mission
Decay date29 July 2017
Orbital parameters
Reference systemGeocentric orbit
RegimeLow Earth orbit
Perigee altitude397 km (247 miles)
Apogee altitude408 km (254 miles)
Inclination51.64°
Period92.61 minutes

TechEdSat-5 was a 4 kg, 3.5U CubeSat that was launched on 9 December 2016 aboard the Kounotori 6 (HTV-6) cargo resupply spacecraft, and was deployed from the International Space Station (ISS) at 18:20 UTC on 6 March 2017.[21] It was the first satellite in the TechEdSat program to include a modulated Exo-Brake that was could adjust the amount of atmospheric drag on the spacecraft, enabling a targeted re-entry.[22] The TechEdSat-5 Exo-Brake was cross-shaped, made of mylar, and used a combination of mechanical struts and flexible cords.[23] Its surface area was approximately 0.35 square metres.[21] A "Cricket" Wireless Sensor Module (WSM) was included with TechEdSat-5.[24] The satellite reentered the atmosphere on 29 July 2017 after successfully operating for 144 days.[23]

 
Simulated view of TechEdSat-5 after deployment from the International Space Station

TechEdSat-6

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TechEdSat-6
NamesTES-6
Mission typeTechnology demonstration
OperatorNASA Ames Research Center · San Jose State University · University of Idaho
COSPAR ID1998-067NK
SATCAT no.43026
Mission duration175 days (achieved)
Spacecraft properties
Spacecraft typeCubeSat
Launch mass3.6 kg (7.9 lb)
Dimensions10 cm x 10 cm x 35 cm (3.5U)
Start of mission
Launch date12 November 2017,
12:19:51 UTC
RocketAntares 230
Launch siteWallops Island MARS, LP-0A
ContractorOrbital Sciences Corporation
Deployment date20 November 2017
End of mission
Decay date14 May 2018
Orbital parameters
Reference systemGeocentric orbit
RegimeLow Earth orbit
Perigee altitude397 km (247 mi)
Apogee altitude406 km (252 mi)
Inclination51.65°
Period92.59 minutes

TechEdSat-6 was a CubeSat 3.5U that was launched at 12:19:51 UTC on 12 November 2017 aboard the Cygnus CRS-8 cargo resupply mission to the International Space Station (ISS).[25][26] It was deployed from the Nanoracks CubeSat Deployer on 20 November 2017.[27] In addition to the primary payload, it contained a CubeSat Identity Tag (CUBIT), a Radio Frequency Identification (RFID) tag developed by DARPA and SRI International to assist in future identification of satellites. It successfully reentered the atmosphere on 14 May 2018.[28][29]

 
TechEdSat-6, seen here just after being deployed from the International Space Station, was a CubeSat mission that tested technologies intended to make it easier to return science materials to Earth from space.

TechEdSat-7

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TechEdSat-7
NamesTES-7
Mission typeTechnology demonstration
OperatorNASA Ames Research Center · San Jose State University
COSPAR ID2021-002D
SATCAT no.47312
Mission duration60 days (planned)
471 days (final)
Spacecraft properties
Spacecraft typeCubeSat
Launch mass3 kg (6.6 lb)
Dimensions10 cm x 10 cm x 22 cm (2U)
Start of mission
Launch date17 January 2021, 19:39:00 UTC
RocketLauncherOne
Launch siteCosmic Girl (Boeing 747), Mojave Air and Space Port, California
ContractorVirgin Orbit
Deployment date17 January 2021
End of mission
Decay date4 May 2022
Orbital parameters
Reference systemGeocentric orbit[12]
RegimeLow Earth orbit
Perigee altitude485 km (301 mi)
Apogee altitude513 km (319 mi)
Inclination60.7°
Period94.6 minutes

TechEdSat-7 was a 2U CubeSat that was intended to test a High Packing Density Exo-Brake. It was launched on the first successful flight of Virgin Orbit's LauncherOne launch vehicle on 17 January 2021 as part of NASA's ELaNa program. It flew with a CubeSat Identity Tag (CUBIT), a Radio Frequency Identification (RFID) tag developed by DARPA and SRI International to assist in future identification of satellites.[30] The satellite decayed from orbit on 4 May 2022.[31]

TechEdSat-8

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TechEdSat-8
NamesTES-8
Technical and Educational Satellite-8
Mission typeTechnology demonstration
OperatorNASA Ames Research Center · San Jose State University · University of Idaho
COSPAR ID1998-067PY
SATCAT no.44032
Mission duration501 days (achieved)
Spacecraft properties
Spacecraft typeCubeSat
Launch mass6 kg (13 lb)
Dimensions10 cm x 10 cm x 60 cm (6U)
Start of mission
Launch date5 December 2018, 18:16:00 UTC
RocketFalcon 9 Block 5
Launch siteCape Canaveral, SLC-40
ContractorSpaceX
Deployment date31 January 2019, 16:45 UTC
End of mission
Decay date20 April 2020
Orbital parameters
Reference systemGeocentric orbit
RegimeLow Earth orbit
Perigee altitude402 km (250 mi)
Apogee altitude409 km (254 mi)
Inclination51.64°
Period92.67 minutes

TechEdSat-8 (Technical and Educational Satellite-8) was CubeSat 6U. It was built as a conjoined project between San Jose State University (SJSU) and the University of Idaho as a collaborative engineering project, with oversight from the NASA Ames Research Center. It was a technology demonstration mission to further develop and demonstrate the Exo-Brake system through, designed for continued operation in high temperature environments, the full recovery of a payload. It featured a semi-autonomous control system to target the entry face point, as well as capabilities to measure a unique ablation device on the forebody. This technology, known as a "Hot Exo-Brake" could enable more precisely-targeted atmospheric reentries. An ablation device was also flying on the spacecraft.

History

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TechEdSat-8 was selected in 2017 by the CubeSat Launch Initiative (CSLI) of the NASA to be launched as part of the ELaNa program. TechEdSat-8 was originally planned to launch with the Cygnus NG-10 (17 November 2018) cargo resupply mission to the International Space Station as part of the ELaNa program, but instead was launched aboard the SpaceX CRS-16 ISS cargo resupply mission at 18:16 UTC on 5 December 2018,[32] arriving at the International Space Station (ISS) on 8 December 2018.[33][34]

Deployment

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TechEdSat-8 was deployed into orbit by the Kibō JEM-Small Satellite Orbital Deployer (J-SSOD) at 16:45 UTC on 31 January 2019.[35]

Mission

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The satellite established communication with controllers and, as of 20 February 2019, was reportedly performing well in advance of a targeted reentry.[36] The satellite failed shortly after deployment due to a loss of power from its solar panels, and re-entered in the atmosphere of Earth on 20 April 2020.[37][38]

 
An exploded view of TechEdSat-8, a satellite designed to test communication and precision deorbit technologies.

TechEdSat-10

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TechEdSat-10
NamesTES-10
Mission typeTechnology demonstration
OperatorNASA Ames Research Center · San Jose State University
COSPAR ID2020-067RQ
SATCAT no.45917
Mission duration393 days (final)
Spacecraft properties
Spacecraft typeCubeSat
Launch mass6 kg (13 lb)
Dimensions10 cm x 10 cm x 60 cm (6U)
Power150 watt-hour
Start of mission
Launch date15 February 2020, 20:21:01 UTC
RocketAntares 230+
Launch siteMARS, LP-0A
ContractorNorthrop Grumman
Deployment date13 July 2020, 16:55:25 UTC
End of mission
Decay date15 March 2021, 08:37:00 UTC
Orbital parameters
Reference systemGeocentric orbit
RegimeLow Earth orbit
Perigee altitude413 km (257 mi)
Apogee altitude419 km (260 mi)
Inclination51.60°
Period92.00 minutes
 
TechEdSat-10 deploys from the International Space Station
 
TechEdSat-10 exo-brake precision de-orbit technology demonstration deploying in orbit around Earth.

TechEdSat-10 (TES-10) was a 6U (1 x 6U) (previously announced as 3U) CubeSat that was selected in 2018 to launch as part of the ELaNa program.[39]

Launch

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On 15 February 2020, TechEdSat-10 was launched to the International Space Station (ISS) aboard the Cygnus NG-13 cargo spacecraft.[40]

Deployment

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Deployed on 13 July 2020, TechEdSat-10 tested radio communication devices, precision deorbit technologies for National Oceanic and Atmospheric Administration (NOAA) and others, radiation tolerant electronics, and artificial intelligence hardware for future experiments.[41][37][40]

Mission

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The mission demonstrated increased storage and power capabilities that could enable future science and exploration using small spacecraft beyond low-Earth orbit. Included on TechEdSat-10 were improvements over previous CubeSat technologies in the areas of communications and radio systems, and new propulsion techniques.[42]

As the tenth iteration in the Technology Educational Satellite (TES) series, TechEdSat-10 built upon a history of the program's innovative work with early career researchers, students, and volunteers. TechEdSat-10 contained 150 watt-hours of power storage, eight radios, nine processors, and a graphics processing unit. Additionally, the small satellite carried four cameras, including a stereoscopic virtual reality camera experiment.[42]

Like several TechEdSat missions before it, this mission demonstrated the exo-brake technology in its largest iteration to date. The exo-brake was designed to deploy an umbrella-like "brake" to increase drag and take a small satellite out of orbit. This mission, the exo-brake could be controlled or modulated by commands from the ground in order to target a re-entry point. In the future, this could enable sample return missions from orbit and future planetary missions.[42]

TechEdSat-13

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TechEdSat-13
NamesTES-13
Mission typeTechnology demonstration
OperatorNASA Ames Research Center · San Jose State University
COSPAR ID2022-003B
SATCAT no.51095
Mission duration252 days (planned)
912 days (actual)
Spacecraft properties
Spacecraft typeCubeSat
Launch mass4 kg (8.8 lb)
Dimensions10 cm x 10 cm x 34 cm (3U)
Start of mission
Launch date13 January 2022
RocketLauncherOne # 4
Launch siteCosmic Girl (Boeing 747), Mojave Air and Space Port, California
ContractorVirgin Orbit
Deployment date13 January 2022, 23:47:00 UTC
End of mission
Decay date13 July 2024, 19:52:00 UTC
Orbital parameters
Reference systemGeocentric orbit[12]
RegimeLow Earth orbit
Perigee altitude499 km (310 mi)
Apogee altitude509 km (316 mi)
Inclination45.0°
Period92.6 minutes

TechEdSat-13 is a 3U CubeSat that is intended to test and validate three different technologies, including an Exo-Brake. Along with other cubesats (PAN-A and B, GEARRS-3, SteamSat-2, STORK-3, ADLER-1) it was launched on the third successful flight of Virgin Orbit's LauncherOne launch vehicle on 13 January 2022 as part of the STP-27VP mission ("Above the Clouds"). TechEdSat-13 uses the Loihi neuromorphic chip, representing an artificial intelligence/machine learning (AI/ML) payload application.

TechEdSat-15

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TechEdSat-15
NamesTES-15
Mission typeTechnology demonstration
OperatorNASA Ames Research Center · San Jose State University
COSPAR ID2022-122?
SATCAT no.5395?
Mission duration4 days (final)
Spacecraft properties
Spacecraft typeCubeSat
Launch mass4.5 kg (9.9 lb)
Dimensions10 cm x 10 cm x 34 cm (3U)
Start of mission
Launch date1 October 2022, 07:01:00 UTC
RocketFirefly Alpha
Launch siteVandenberg AFB, California
ContractorFirefly Aerospace
Deployment date1 October 2022
End of mission
Decay date6 October 2022
Orbital parameters
Reference systemGeocentric orbit[12]
RegimeLow Earth orbit
Perigee altitude215 km (134 mi)
Apogee altitude285 km (177 mi)
Inclination137.0°
Period89.6 minutes

TechEdSat-15 was a 3U CubeSat. It was launched on 1 October 2022 as a rideshare payload on a Firefly Alpha rocket. Despite it being its first mission reaching Earth orbit, due to a lower-than-intended deployment orbit most of the satellites re-entered before reaching their intended design life.[43]

Future TechEdSats

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TechEdSat-9 and TechEdSat-11 are planned to fly at some point in the future.[44] TechEdSat-9, like TechEdSat-10, is planned to test radio communication technologies for National Oceanic and Atmospheric Administration (NOAA) and others.[37]

TechEdSat-12 will test technologies for the tracking and identification of small satellites. It will carry a radio-frequency identification (RFID) tag, a radar reflector, and an L-band antenna. It was selected for launch in February 2020 by NASA's CubeSat Launch Initiative, and will be delivered to orbit on a launch contracted through the ELaNa program.[45]

References

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  1. ^ a b "NASA". nssdc.gsfc.nasa.gov. 14 May 2020. Retrieved 13 January 2021.   This article incorporates text from this source, which is in the public domain.
  2. ^ "TechEdSat 1 (TES 1)". Gunter's Space Page.
  3. ^ "NASA.gov" (PDF).
  4. ^ Gunter, Krebs (31 January 2012). "TechEdSat". Gunter's Space Page. Retrieved 13 January 2021.
  5. ^ "TechEdSat to use SatPhone: The plan to transmit from space using frequencies allocated to Iridium and Orbcomm SatPhone ground stations has been cancelled. A statement from the team says: "We were forced to disable the Iridium modem as our Federal Communications Commission (FCC) license did not come in time. As usual, building the satellite is the easy part"". AMSAT-UK. 24 February 2012. Retrieved 14 January 2021.
  6. ^ "TechEdSat-1". twitter.com.
  7. ^ TechEdSat specifications (accessed 12 September 2014)
  8. ^ "Japanese H-IIB launches HTV-3 to the International Space Station". nasaspaceflight.com. 20 July 2012. Retrieved 8 September 2018.
  9. ^ "CubeSat Orbital Elements". Archived from the original on 19 December 2012. Retrieved 4 October 2012.
  10. ^ "TechEdSat". IARU. 3 April 2012. Retrieved 6 April 2012.
  11. ^ "Antares A-ONE Mission Coverage". Spaceflight101. 21 April 2013. Archived from the original on 15 February 2016. Retrieved 6 January 2016.
  12. ^ a b c d McDowell, Jonathan. "Satellite Catalog". Jonathan's Space Report. Retrieved 8 September 2018.
  13. ^ "PhoneSat 2.0". space.skyrocket.de. 23 September 2019. Retrieved 12 January 2021.
  14. ^ "Alexander 2013-016C". NASA. 14 May 2020. Retrieved 12 January 2021.   This article incorporates text from this source, which is in the public domain.
  15. ^ [1] (access-date=12 September 2014)
  16. ^ "Case". ÅAC Microtec. Retrieved 31 January 2019.
  17. ^ TechEdSat-4 (Technological and Educational Nanosatellite-4) (access-date 12 September 2014)
  18. ^ "Experiment Details". www.nasa.gov.
  19. ^ "TechEdSat-4 (Technological and Educational Nanosatellite-4) – Satellite Missions – eoPortal Directory". directory.eoportal.org.
  20. ^ "TECHEDSAT 4". N2YO.com. 3 April 2015. Retrieved 27 May 2022.
  21. ^ a b "Re-Entry: TechEdSat-5". spaceflight101.com. 29 July 2017. Retrieved 9 September 2018.
  22. ^ "TechEdSat 5 (TES 5)". space.skyrocket.de. Retrieved 8 September 2018.
  23. ^ a b "TechEdSat5 – eoPortal Directory – Satellite Missions". directory.eoportal.org. Retrieved 8 September 2018.
  24. ^ Minafra, Kimberly (6 March 2017). "NASA Tests Braking Device for Returning Small Spacecraft from Space". NASA. Retrieved 9 September 2018.   This article incorporates text from this source, which is in the public domain.
  25. ^ "Cygnus "S.S. Gene Cernan" En-Route to Space Station after Sunday Morning Commute to Orbit – Spaceflight101". spaceflight101.com. Retrieved 9 September 2018.
  26. ^ Phillips, Veronica (10 November 2017). "About TechEdSat". NASA. Retrieved 8 September 2018.   This article incorporates text from this source, which is in the public domain.
  27. ^ Minafra, Kimberly (9 November 2017). "NASA to Test Wireless Network and Device for Returning Smallsats". NASA. Retrieved 8 September 2018.   This article incorporates text from this source, which is in the public domain.
  28. ^ Albaugh, Astrid (1 June 2018). "Ames Astrogram – June 2018". NASA. Retrieved 31 October 2018.   This article incorporates text from this source, which is in the public domain.
  29. ^ "Experiment Details". www.nasa.gov.
  30. ^ Krebs, Gunter (24 August 2021). "TechEdSat 7 (TES-7)". Gunter's Space Page. Retrieved 12 May 2022.
  31. ^ "OBJECT D". N2YO.com. 4 May 2022. Retrieved 12 May 2022.
  32. ^ "Dragon Launch Slips One Day as New Crew Moves In". blogs.nasa.gov. NASA. 4 December 2018. Retrieved 26 December 2018.   This article incorporates text from this source, which is in the public domain.
  33. ^ "Dragon Attached to Station, Returns to Earth in January 2019 – Space Station". blogs.nasa.gov. NASA. Archived from the original on 14 December 2018. Retrieved 26 December 2018.   This article incorporates text from this source, which is in the public domain.
  34. ^ "Space station receives second of back-to-back cargo deliveries". spaceflightnow.com. Spaceflight Now. Retrieved 26 November 2018.
  35. ^ Nanoracks (31 January 2019). "And, that's a wrap! After an early wake up call this morning, the last #CubeSat deployment from our 15th mission on @Space_Station is now complete! #TechEdSat8 was released at 16:45 UTC. Congratulations to the teams at @NASAAmes and @SJSU – another huge success!pic.twitter.com/ZKqLrnoreQ". @NanoRacks. Retrieved 31 January 2019.
  36. ^ Clark, Stephen. "CubeSat deployed from space station to test sample return technology". Spaceflight Now. Retrieved 20 February 2019.
  37. ^ a b c Backus, Beau (24 April 2019). "Report and Status of the Small Satellite DCS Use Concept Validation Project" (PDF). Retrieved 10 May 2020.
  38. ^ McDowell, Jonathan (23 April 2020). "The @techedsat #Techedsat 8 satellite reentered on 20 April 2020. Unfortunately, there's no TIP message to give an accurate reentry time: I hope @NASAAmes @SJSU Marc Murbach et al. (maybe @Ali_AKZAYAKATL ?) will tell us how the controlled entry attempt went". @planet4589. Retrieved 10 May 2020.
  39. ^ Krebs, Gunter (20 February 2020). "TechEdSat 10 (TES 10)". Gunter's Space Page. Retrieved 13 January 2021.
  40. ^ a b Clark, Stephen (18 February 2020). "Cygnus freighter delivers new British-made antenna to International Space Station". Spaceflight Now. Retrieved 17 May 2020.
  41. ^ Hill, Denise (13 July 2020). "CubeSat Launch Initiative Deploys 109th CubeSat". NASA. Retrieved 17 July 2020.   This article incorporates text from this source, which is in the public domain.
  42. ^ a b c "TechEdSat-10 deploys from the International Space Station". NASA. 5 August 2020. Retrieved 14 January 2021.
  43. ^ Foust, Jeff (10 October 2022). "Firefly says Alpha launch a success despite payload reentries". SpaceNews. Retrieved 10 October 2022.
  44. ^ "Students at SJSU collaborate with NASA to launch a satellite into space". mercurynews.com. 31 January 2019. Retrieved 31 January 2019.
  45. ^ Hill, Denise (21 February 2020). "NASA Announces Next Round of Candidates for CubeSat Space Missions". NASA. Retrieved 21 February 2020.   This article incorporates text from this source, which is in the public domain.
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