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Air Force, mission partners prepare satellite for August launch

ORS 5

The Massachusetts Institute of Technology's Lincoln Laboratory engineering team stands in front of the Operationally Responsive Space (ORS)-5 satellite in the MIT LL clean room at the Lexington, Massachusetts facility, prior to shipment for final processing and stacking atop an Orbital ATK Minotaur IV launch vehicle at Launch Complex 46, Cape Canaveral Air Force Station, Florida. From left to right: Joe Warfel - Assembly Technician; Michele Weatherwax - Mechanical Engineer; Al Pillsbury - Mechanical Engineer; Marshall Solomon - Thermal Engineer, and; Eui Lee - Thermal Engineer. (Courtesy photo: MIT LL)

ORS 5

The engineering team from the Massachusetts Institute of Technology's Lincoln Laboratory in Lexington, Massachusetts perform a light leak test on the Operationally Responsive Space (ORS)-5 satellite prior to shipment for launch. ORS-5, also known as SensorSat, is a single satellite constellation with a primary mission to provide space situational awareness. It will operate from a low (zero degree inclination) orbit 372 miles above the earth to aid the U.S. military's tracking of other satellites and space debris in geosynchronous orbit, commonly used by defense-related communications satellites, television broadcasting stations, and international space platforms 22,236 miles above the equator. (Photo: MIT LL)

ORS 5

ORS-5, also known as SensorSat, is a single satellite constellation with a primary mission to provide space situational awareness. It measures about five feet long, two and a half feet wide, and weighs about 250 pounds. It will operate from a low, zero inclination orbit approximately 372 miles above the earth to aid the U.S. military's tracking of other satellites and space debris in geosynchronous orbit, 22,236 miles above the equator, commonly used by defense-related communications satellites, television broadcasting stations, and international space platforms. (Courtesy photo: MIT LL)

ORS 5

The Operationally Responsive Space (ORS)-5 satellite, also known as SensorSat, undergoes thermal vacuum testing at the Massachusetts Institute of Technology’s Lincoln Laboratory in Lexington, Massachusetts prior to shipment for processing and integration atop an Orbital ATK Minotaur IV launch vehicle. Scheduled for launch on Aug. 25, 2017, ORS-5 is a single satellite constellation with a primary mission to provide space situational awareness at a significantly reduced cost compared to larger, more complex satellites. (Courtesy photo: MIT LL)

LOS ANGELES AIR FORCE BASE, Calif. --

The U.S. Air Force Space and Missile Systems Center’s Operationally Responsive Space Office completed a major program milestone after overseeing the successful delivery of their ORS-5 satellite from Lexington, Massachusetts to Cape Canaveral Air Force Station, Florida for final processing, encapsulation, stacking and integration for launch.


The ORS-5 satellite is scheduled for launch Aug. 25 at 11:15 p.m. EDT from Launch Complex 46 at Cape Canaveral Air Force Station.

“The delivery and upcoming launch of ORS-5 marks a significant milestone in fulfilling our commitment to the space situational awareness mission and U.S. Strategic Command,” said Lt. Gen. John F. Thompson, commander of the Space and Missile Systems Center and Air Force program executive officer for Space. “It’s an important asset for the warfighter and will be employed for at least three years.”

Upon its delivery, the ORS-5 satellite, also known as SensorSat, was processed for encapsulation in the Astrotech Space Operations Florida processing facility.

A combined government and contractor team of mission partners executed final ground activities including a Launch Base Compatibility Test to verify satellite integrity after shipment, an intersegment test to verify communication compatibility from the satellite to the on-orbit operations center and the final battery reconditioning for launch, prior to its integration with the Minotaur IV launch vehicle. 


 “This is my first launch as the ORS director, and I am thrilled to see this mission get one step closer to operational capability,” said Col. Shahnaz Punjani, director of the Operationally Responsive Space Office at Kirtland Air Force Base, New Mexico. “As a former launch group commander, it is also very exciting to be part of the first Minotaur launch from Cape Canaveral.  Our partners at the 45th Space Wing, Orbital ATK, and Space Florida did a tremendous job restoring Launch Complex 46 to active service and preparing it for this launch.” 

The satellite was transported from the MIT Lincoln Laboratory facility in Lexington, Massachusetts, in a customized shipping container. The transport crew ensured the satellite was transported safely and according to the time sensitive schedule.

“The safe transport, processing and integration of ORS-5 to the Minotaur IV launch vehicle was paramount and the total government and contractor team worked tirelessly to ensure mission success,” Thompson reiterated.

Air Force Space Command's Space and Missile Systems Center, located at Los Angeles Air Force Base, Calif., is the U.S. Air Force's center of acquisition excellence for acquiring and developing military space systems.  Its portfolio includes the Global Positioning System, military satellite communications, defense meteorological satellites, space launch and range systems, satellite control networks, space based infrared systems and space situational awareness capabilities.

 

NOTE TO EDITORS: Media representatives can submit questions for response regarding this topic by sending an e-mail to smcpa.media@us.af.mil