• A paratrooper flies the RA-1 parachute system during an operational test conducted by the Airborne and Special Operations Test Directorate, U.S. Operational Test Command, at Fort Bragg, N.C.

    Airborne RA-1 2

    A paratrooper flies the RA-1 parachute system during an operational test conducted by the Airborne and Special Operations Test Directorate, U.S. Operational Test Command, at Fort Bragg, N.C.

  • Jumpers buddy-rig the RA-1 parachute system during an operational test conducted by the Airborne and Special Operations Test Directorate, U.S. Operational Test Command, at Fort Bragg, N.C.

    Airborne Test RA-1

    Jumpers buddy-rig the RA-1 parachute system during an operational test conducted by the Airborne and Special Operations Test Directorate, U.S. Operational Test Command, at Fort Bragg, N.C.

FORT BRAGG, N.C. (May 28, 2013) -- The Airborne and Special Operations Test Directorate conducted a rigorous operational test recently on the new Military Free Fall Advanced Ram-Air Parachute System, a non-developmental item that is about to replace the nearly 20-year-old MC-4 parachute system for all service branches, according to the test officer.

Supported by 30 static line qualified paratroopers from C Troop, 3rd Squadron, 38th Cavalry Regiment at Joint Base-Lewis-McChord, Wash., and 50 military free fall paratroopers from the 1st, 3rd, 5th, 7th and 10th Special Forces Command groups, Airborne and Special Operations Test Directorate, or ABNSOTD, testers conducted the operational test to validate the system's effectiveness, suitability and safety, said Roderick Manke, test plans analyst.

"The RA-1 is an individual Soldier's parachute system consisting of a main parachute, reserve parachute, harness and container," Manke explained. "It is designed to allow insertion by both Military Free Fall and Double Bag Static Line techniques depending on mission deployment requirements.

"The system also allows for an increase in the jumper's rigged weight of up to four hundred and fifty pounds," he continued. "Additionally, the system is designed to deliver jumpers safely from aircraft flying at elevations from thirty-five hundred feet above ground level to twenty-five thousand feet mean sea level with an objective to go to thirty-five thousand [mean sea level] after follow-on testing."

The main parachute will deliver the jumper safely to the ground during combat and training airdrop operations, Manke said, while the reserve parachute will function across a wide range of parachute malfunctions. The harness container is designed to fit the fifth through 95th percentile Soldiers and houses both the main and reserve canopies.

The test team consisted of Manke, an operational research system analyst, data manager, data collector, T-34 chase plane and pilot, photographer, videographers and an instrumentation technician. The player unit Soldiers were required to undergo new equipment training to include fitting, dawning, doffing, recovery, aircraft exit procedures and packing the main canopy.

Members of ATEC's integrated product team from the Army Evaluation Command, Aberdeen Proving Ground, Md.; Yuma Proving Ground, Yuma, Ariz.; and ABNSOTD developed the design of experiment using performance specifications detailed by the team, the U.S. Army Special Operations Command and the combat developer, Manke explained.

Using drop zones at Laurinburg, Clinton and Raeford, N.C., and Fort Carson, Colo., paratroopers executed test jumps from U.S. Air Force C-127, Joint Cargo Aircraft, U.S. Army CASA 212, C-23 Sherpa, Pilatus Porter and contracted Twin Otter aircraft at altitudes from 5,500 feet AGL to 12,500 feet mean sea level in day and night conditions, he said.

"Our test team collected raw data, and we have provided our report to the evaluators at the Army Test and Evaluation Command at Aberdeen Proving Ground for their final evaluation report to support a milestone C, full materiel release type classification-standard," Manke said. "The program manager is scheduled to begin fielding the RA-1 in the third quarter of fiscal year 2014."

"I'd call this a successful endeavor as we were able to collect the right amount and right kind of data to support the evaluators," said Col. Mark Edmonds, director, ABNSOTD. "And by selecting a non-developmental item, we will be able to accelerate the acquisition process and get the equipment to Soldiers a lot faster."

ABNSOTD is under the command of the U.S. Army Operational Test Command, Fort Hood, Texas, as a subordinate command of ATEC.

Page last updated Thu May 30th, 2013 at 07:19