The Star 48 is the largest of a family of solid rocket motors used by many space propulsion and launch vehicle stages, almost exclusively as an upper stage. It was developed primarily by Thiokol Propulsion and after several mergers, is manufactured by Northrop Grumman’s Space Systems division. A Star 48B stage is also one of the few man-made items sent on escape trajectories out of the Solar System, although it is derelict since its use. The Star 48B variant was the PAM-D upper stage used on the retired Delta II rocket.

The Star 48 has been used as an upper stage in three- and four-stage launch systems.

The "48" designation refers to the approximate diameter of the fuel casing in inches (122  cm); Thiokol had also manufactured other motors such as the Star 37 and Star 30. Internally, Thiokol's designation was TE-M-711 for early versions and TE-M-799 for later ones. Subtypes are given one or more letter suffixes after the diameter number, or a trailing number (i.e., "-2") after the internal designation. The "T" prefix stands for Thiokol, and the following letter refers to the company division that developed the rocket motor. In this case, "E" refers to the Elkton, MD division, and the "M" stands for the motor.

The Star 48 holds 2,000 kg of propellant.

The most common use of the Star 48 was as the final stage of the Delta II launch vehicles. Other launchers such as ULA's Atlas 551 have also incorporated the motor but with lower frequency. On board the Space Shuttle, the complete stage (motor plus accessories) was referred to as the Payload Assist Module (PAM), as the Shuttle could only take satellites to low Earth orbit. Because geostationary orbit is much more lucrative, the additional stage was needed for the final leg of the journey. On such missions, the stage was spin-stabilized. A turntable, mounted in the shuttle payload bay or atop the previous Delta stage, spun the PAM and payload to approximately 60  rpm prior to release.

Usually after motor burnout and just prior to satellite release the PAM is de-spun using a yo-yo de-spin technique.

A Star 48 Payload Assist Module that had been used to launch a GPS satellite in 1993 crashed in the Saudi Arabian desert in January 2001, after its orbit decayed. The unit did not burn up on reentry and was positively identified on the ground.^[1]

A non-spinning, thrust-vectoring version of the Star 48 is available ("Star 48BV"), but much less common. A thrust-vectoring Star 48 is the final stage of the Minotaur IV+ launch vehicle.

In 2013 a Star 48GXV ("G" for "graphite case") was tested for the Solar Probe Plus mission (which later was renamed to the Parker Solar Probe)^[2] but the development was cancelled, in favor of a Delta IV Heavy / Star 48BV combination.^[3] for the launch in 2018.^[4][5]

A Star 48B motor (i.e. non-vectoring) used in the 3rd stage of the New Horizons probe was the first part of the New Horizons mission to reach Jupiter, arriving before the probe.^[6] It also crossed Pluto's orbit in 2015 at a distance of 200 million kilometers.

The Star 48B version has an extra 11 kilograms of propellant more than the regular Star 48, for a total of 2011 kg.^[7] There is a version of the Star 48B that is lengthened and also heavier, called the Star 48B L.^[8]

In operation as a third stage, the Star 48B sits on top of the spin table, and before it is separated, it is spun up to stabilize it during the separation from the previous stage.^[9] (see also spin-stabilisation) The Star 48B can produce 15,000 pounds of thrust (66723  newtons), with a burn time of 1  minute 27  seconds.^[10]

The Star 48B is the basis for the McDonnell Douglas PAM-D upper stage used on the Delta rocket.^[10]

• Star (rocket stage)
• List of artificial objects leaving the Solar System
• Three-stage-to-orbit