The High Resolution Accelerometer Package (HiRAP) Flight Experiment Summary for the First 10 Flights

The High Resolution Accelerometer Package (HiRAP) instrument is a triaxial, orthogonal system of gas-damped accelerometers with a resolution of 1 times 10 super minus 6g 1 mu g. The purpose of HiRAP is to measure the low-frequency component of the total acceleration along the orbiter vehicle (OV) body axes while the OV descends through the rarefied-flow flight regime. Two HiRAP instruments have flown on a total of 10 Space Transportation System (STS) missions. The aerodynamic component of the acceleration measurements was separated from the total acceleration. Instrument bias and orbiter mechanical system acceleration effects were incorporated into one bulk bias. The bulk bias was subtracted from the acceleration measurements to produce aerodynamic to an aerodynamic coefficient model. The aerodynamic acceleration data and coefficient model were used to estimate the atmospheric density for the altitude range of 140 to 60 km and a downrange distance of 600 km. For 8 of 10 flights results from this model agree with expected results. For the results that do not agree with expected results, a variety of error sources have been explored.