SpaceX Falcon 9 - Transporter-1

  SpaceX Falcon 9 Block 5 - Transporter-1 - Launching January 24, 2021

Screenshot from SpaceX Webcast of the launch of Transporter-1

Mission Rundown: SpaceX Falcon 9 B5 - Transporter-1

Written: August 5, 2021

Lift Off Time	January 24, 2021 - 15:00:00 UTC - 10:00:00 EST
Mission Name	Transporter-1
Launch Provider	SpaceX
Customers - 30 or so	SpaceX, NanoRacks, NanoAvionics, Exolaunch, Swarm Technologies, Spaceflight, HawkEye, NASA, iQPS, Umbra Labs, Celestis, Astrocast, Tyvak Nano-Satellite Systems, US DOD, USAF, KelplarianTech, NearSpace, Space Domain Awareness, R2, LINCOLNSHIRE, inOrbit, PlanetiQ, Capella, Kepler, Astro Digital, D-Orbit, Israel defense, spaceQ, UVSQ
Rocket	Falcon 9 Block 5 serial number B1058-5
Launch Location	Space Launch Complex 40 - SLC-40 Cape Canaveral Space Force Station, Florida
Payload	143 Starlink, Satellites, Minisatellites and CubeSats
Payload mass	5 000 kg ~ 11 000 pounds ish… Some didn’t show up
Where are the satellites going?	Sun-Synchronous Polar Orbit - 516  km x 536 km x 97,59°
Will they be attempting to recover the first stage?	Yes - A controlled landing on OCISLY short of Cuba
Where will the first stage land?	Of Course I Still Love You located 571 km downrange
Will they be attempting to recover the fairings?	Yes - The recovery ships Go Searcher and Go Navigator both salvaged a fairing half
Are these fairings new?	Yes - Type 3.2 built with 8 venting ports in pairs near the fairing edge to prevent seawater coming in
This will be the:	– 106th flight of all Falcon 9 rockets – 50th re-flight of all Falcon 9 boosters – 50th flight of Falcon 9 Block 5 rocket – 36th re-flight of Falcon 9 Block 5 booster – 2nd polar launch from Florida since 1969 – 63rd SpaceX launch from SLC-40 – 72nd booster landing overall – 3rd mission for SpaceX in 2021
Where to watch Where to read more	SpaceX YouTube link Want to know or learn more link ask or see Tim Dodd

Launch debriefing (This is what happend)

T -00:12:47 Host: T 00:00:00 T+00:01:15 T+00:02:32 T+00:02:43 T+00:03:58 T+00:07:49 T+00:08:44 T+00:09:20 T +00:40:00 T+00:54:01 T+00:54:54 - T+00:58:19 T+01:07:01 T+01:08:36 T+01:17:54 T+01:29:18 T+01:30:00 T+01:31:04 T+01:32:00

SpaceX live feed at 03:39 Andy Tran are having trouble with the payload lists Liftoff at 16:28 MaxQ at 17:42 MECO 19:00, stage separation 19:04 SES-1 at 19:11 - Black and white camera view Fairing separation at 19:26 - Shaking hard Entry burn 24:16 by 3 Merlin 1D# for 30 seconds SECO at 25:12 - Nominal orbital insertion Landing burn 25:48 by 1 Merlin 1D# for 28 seconds Both fairings were recovered from the sea SpaceX resumes live feed at 1:10:29 SES-2 - SECO-2 in  3 seconds gave a velocity boost from 27 311 km/h to 27 619 km/h at 1:11:22 SpaceX begins deployment at 53:06 - se list below SpaceX resumes live feed at 1:10:29 SpaceX keeps deploying at 1:25:04 - nanoracks SpaceX resumes live feed at 1:34:22 SpaceX keeps deploying at 1:45:39 - the rest of them SpaceX resumes live feed at 1:46:27 SpaceX last deployment at 1:47:32 - Starlink Rap up from SpaceX at 1:48:28

SMX-7	NROL-108	Türksat 5A	Starlink V1.0 L16	Transporter 1
Starlink V1.0 L18	Starlink V1.0 L19	Starlink V1.0 L17	Starlink V1.0 L20	Starlink V1.0 L21

Just bending it like Beckham does

SpaceX successfully launched 143 satellites and 3 additional payloads for a variety of organizations on their first dedicated rideshare mission, Transporter-1. The Falcon 9 lifted off from Space Launch Complex 40 - SLC-40 and placed the satellites and the transfer stage into a 500 km high Sun-Synchronous Orbit (SSO).

To reach this orbit, SpaceX would normally launch from Vandenberg Air Force Base, California, in a south-southwesterly direction. Instead, this mission lifted off from Florida and used the polar launch corridor that allows a Falcon 9 to set a course to fly south-southeast between Florida and The Bahamas and then, once the second stage separates, perform a “dogleg” maneuver to the south-southwest to achieve the mission’s needed inclination.

Transporter-1 was the second mission since 1969 to use this polar corridor route from Florida. SAOCOM-1B in late August 2020 was the first. After SECO-2, all 133 paying customer payloads were successfully deployed. However, unlike SpaceX’s SSO-A mission, all Transporter-1 satellites have been successfully communicated with.

Following customer payload deployment, the 10 Starlink satellites were deployed. A note of interest, these satellites were the first to be equipped with a laser communication system. While only in V0.9, they will be used to test communication between satellites instead of relying on ground stations.

B1058 first flew on its maiden flight on the SpaceX Demonstration Mission 2, which launched Bob Behnken and Doug Hurley to orbit on May 30, 2020. Transporter-1 is its fifth flight; so its designation changes to B1058-5.

SpaceX DM-2	May 30, 2020	CRS-21	December 6, 2020
ANASIS-II	July 20, 2020	Transporter-1	January 24, 2021
Starlink V1.0 L12	October 6, 2020

Following stage separation, the Falcon 9 conducted 2 burns. These burns will softly touch down the booster on Of Course I Still Love You.

SpaceX is the first entity ever to recover and refly its fairings.

These new fairings are Type 3.1 built with tip thermal protection, a lowered square protrusion, launching without acoustic tiles and moved vent holes at fairing halves edges to prevent water coming in. The recovery vessels, Go Ms. Tree and Go Ms. Chief, each recovered a fairing half’s from the water.

After being jettisoned, the two fairing halves used cold gas ACS thrusters to orientate themselves as they descended through the atmosphere. Once at a lower altitude, they deployed parafoils to help them glide down to a soft landing for recovery.

The Payload

First piece of information is that four private companies are providing other minisatellite and CubeSat builders and producers the means to deploy their space vehicles and NASA plus SpaceX are taking up space and ports. These companies are Exolaunch from Berlin, Spaceflight Inc., Seattle, WA, ISILaunch of ISISpace, Delft, the Netherlands and D-Orbit of Fino Mornasco (HQs), Italy.

Second piece of information is that physically there are 3 ESPA rings; A bottom, B middle and C top with a number of ports that are holding the different payload dispensers or ring fasteners securing the Minisatellites. C’ top has 6 ports. B’ middle has 3 ports in use, port 4 was maybe empty. A’ bottom has only used 2 ports because port 1 and 3 wasn’t used.

Thirdly know that the Payload Adapter Fitting - PAF holding the 3 ESPA rings are holding the 10 Starlink V0.9 laser data relay satellites on two shelves on the bottom ESPA ring and finally NASA have placed a CubeSat dispenser at the rear of the second stage by the engine bay as a ‘tailgunner’ for unknown reasons.

And finally this detailed PDF document about the Formosat/Sherpa share-ride mission using different payload dispensers or ring fasteners securing all the many Minisatellites and CubeSats.

Now let’s begin Rocket Mechanics 101 on placements of Payloads.

Let’s get the payloads placed physically on the 3 ESPA rings to increase the confusion.

Exolaunch from Berlin used EXO port 1 & 2 to deploy its minisatellites and CubeSats, and that translates to the middle ESPA ring B’ port 2 and 3.

Spaceflight Inc. uses 2 ESPA ports to deploy the IZANAMI Minisatellite from the middle ESPA ring B’ port 1 and from the bottom ESPA ring A’ port 4 to deploy a smaller ESPA ring aka. the freeflyer SHERPA-FX that will deploy its minisatellites and CubeSats.

ISILaunch of ISISpace used the Planet port and the Kepler port to deploy its minisatellites and CubeSats, and that translates to the top ESPA ring C’ port 4 and 1.

D-Orbit used its freeflying ION SCV Laurentius space tug to deploy its minisatellites and CubeSats. Witch is a smaller ESPA ring deployed from the bottom ESPA ring A’ port 2.

SpaceX is letting Nanoracks Eyries-1 deploy from the top ESPA ring C’ port 3 and Capella 3 and 4 deploy from the top ESPA ring C’ port 5 and 6.

Finally the top ESPA ring C’ port 2 seems to be empty, maybe a payload didn’t show.

All mentioned minisatellites and CubeSats below are either mentioned twice or just once therefore the latter must be looked upon with suspicion. Did they fly? If so, with which carrier company? Spacex Transporter-1 launched the whole mess anyway.

Other satellites on Transporter-1 include UVSQ-SAT, Hugo, ADELIS-SAMSON, PULSE, Landmapper, 8 Kepler GEN1, GNOMES-2, 2 Capella Whitney, InOrbit Now, LINCS, and XR-1, 8 Lemur-2 CubeSats, 48 SuperDove CubeSats, 36 SpaceBee CubeSats and 10 Starlink V0.9 laser data relay satellites. Some of these didn't show up for launch.

Artist's rendition of rideshare deployments from Transporter 1 (image credit: Exolaunch)

Transporter-1 included a number of satellites and also was the debut of Spaceflight’s SHERPA-FX stage. On this mission, SHERPA will be carrying 18-20 payloads.

For the first time Falcon 9 flew with a third stage on the Transporter-1 mission. The third “transfer” stage, the SHERPA-FX, is a satellite dispenser designed by Spaceflight to deploy secondary payloads so that other payloads close by cannot interfere with communications. While the SHERPA-FX does not have any on-board propulsion, it is the first of several models of SHERPA. Future versions will have a monopropellant to boost payloads into different orbits. 

Falcon 9’s second stage deployed the SHERPA-FX like any other payload. After separation, the transfer stage coasted, distancing itself from the Falcon 9 second stage, and then deployed payloads. During this, the stage continued providing attitude control, telemetry, and communications to and from the satellites and the ground.

The primary purpose of SHERPA on this mission was to ensure that unlike on SSO-A, all the small satellites are able to be communicated with after reaching orbit. On SHERPA FX there are just under 20 payloads. These payloads should include 3 HawkEye, Cluster 2, PTD-1, Umbra-2001, Celestis 17, Astrocasts, ARCE, P2-10, ELROI, and TAGSAT-1.

Order please. Let’s have some order?

How do you get some kind of order in this jumble of satellite companies and satellite types and who took off first into the darkness of space. You study. HARD.

T+00:58:59 - Deployment of 36 Superdoves 3U CubeSats from Planet Labs begins from a CubeSat dispenser mounted on the top ESPA ring C’ port 4 aka. Planet Port.

T+00:59:00 - Deployment of 17 CubeSats from Kepler’s Port: 8 GEN1 6Uxl CubeSats from Kepler, 4 Superdoves 3U CubeSats, UVQS-SAT, ASELSAT, YUSAT, IDEASSAT and Hiber Four CubeSats from a CubeSat dispenser mounted on the top ESPA ring C’ port 4.

T+00:59:09 - Deployment of 3 NASA V-Rx 1U CubeSats from 2nd stage engine bay.

T+01:08:19 - Deployment of Eyries-1 with 7 Lemur 3U CubeSats from Nanoracks, plus 1 Mango One from Jacobs and 1 “Hugo” GHGSat-C2, a Minisatellite from a combined Minisatellite/CubeSat dispenser mounted on the top ESPA ring C’ port 3.

T+01:08:44 - Deployment of 28 CubeSats: Charlie, PIXL-1 ⅓ U CubeLCT, SOMP2b 2U CubeSat, ICEYE X-1 CubeSat and 24 SpaceBee’s ¼ U CubeSats from EXO port 2, that is from a CubeSat dispenser mounted on the middle ESPA ring B’ port 3.

T+01:13:58 - Deployment of Capella 3 Synthetic Aperture Radar satellite from Space from a minisatellite dispenser mounted on the top ESPA ring C’ port 5.

T+01:14:10 - Deployment of 2 ICEYE-X8 and -X9 Synthetic Aperture Radar Minisatellites from EXO port 1, that is from a double Minisatellite plate dispenser mounted on the middle ESPA ring B’ port 2.

T+01:14:23 - Deployment of IZANAMI of iQPs 100 kg Synthetic Aperture Radar SAR Minisatellite from Japan’s Institute for Q-shu Pioneers of Space Inc. That is from a Minisatellite dispenser mounted on the middle ESPA ring B’ port 1.

T+01:15:38 - Deployment of Capella 4 Synthetic Aperture Radar satellite from Space from a Minisatellite dispenser mounted on the top ESPA ring C’ port 6.

T+01:16:10 - Deployment of Sherpa-FX with 13 satellites: 3 HawkEye 360 mini Sats, 5 Astrocasts IoT 3U CubeSats, PTD-1 6U CubeSat, Umbra-2001, 3 ARCE, Cluster 2 + P2-10 and 3 fixated on board payloads: TAGSAT-1, Celestis 17 and ELROI from a dispenser mounted on the bottom ESPA ring A’ port 4. That means three payloads stayed behind.

T+01:16:28 - Deployment of D-Pulse carrier with 20 satellites: 8 Superdoves 3U CubeSats and 12 SpaceBEE’s from a dispenser mounted on the bottom ESPA ring A’ port 2.

T+01:31:10 - Deployment of 10 Starlink V0.9 laser data relay satellites from SpaceX.

After going through 7-8 different sources everything is getting much clearer unlike last SSO-A rideshare launch. Details about the many of the CubeSats are sketchy though.

Here’s a list of all 143 satellites launched on the Transporter-1 mission:

• 48 SuperDove CubeSats for Planet split i 36 + 4 + 8 deployments

• 36 SpaceBEE CubeSats for Swarm split in 24 + 12 deployments

• 8 GEN1 CubeSats for Kepler

• 8 Lemur-2 CubeSats for Spire

• 5 Astrocast CubeSats

• 3 HawkEye 360 CubeSats

• 3 ICEYE SAR Mini Satellites

• 3 V-R3x CubeSats for NASA - deployed from 2nd stage engine bay

• 3 ARCE-1 CubeSats for the University of South Florida link

• 2 Capella 3 & 4 SAR Minisatellites

• iQPS-2 IZANAMI SAR Minisatellite for iQPS of Japan

• YUSAT CubeSat for Taiwan’s Ministry of Science and Technology

• IDEASSAT CubeSat for Taiwan’s Ministry of Science and Technology

• UVQS-SAT CubeSat for LATMOS of France

• ASELSAT CubeSat for ASELSAN of Turkey

• Hiber Four CubeSat for Hiber of the Netherlands

• SOMP2b CubeSat for TU Dresden of Germany

• PIXL-1 CubeSat for DLR of Germany

• Charlie CubeSat for U.S.-based Aurora Insight

• Hugo Mini Satellite for GHGSat of Canada

• PTD-1 CubeSat for NASA

• Prometheus CubeSat for Los Alamos National Laboratory

• Sherpa-FX space tug for Spaceflight + Celestis 17 & ELROI as fixed payloads

• D-Orbit’s ION SCV Laurentius space tug

• 10 Starlink satellites for SpaceX

That’s all folks. My head hurts. Sorry. It was a mess. But what is this… Nuggets

Author Trevor Sesnic link

Coauthor/Text Retriever Johnny Nielsen link to launch list