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Residual Risk Assessment. Residual Risk Assessment at Delivery – Delta from PSR. Jeff Radwick OMPS Project Engineer/Risk Manager. Agenda. Residual Risk Assessment. Risk Scoring Criteria Was-Is Matrix (with waivers) Was-Is Table (with waivers) Yellow Risk Charts
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Residual Risk Assessment Residual Risk Assessment at Delivery – Delta from PSR Jeff Radwick OMPS Project Engineer/Risk Manager
Agenda Residual Risk Assessment • Risk Scoring Criteria • Was-Is Matrix (with waivers) • Was-Is Table (with waivers) • Yellow Risk Charts • FM2 Impact on PFM Residual Risk
Risk Scoring Criteria Risk Management EID – End-Item Delivery IPD – IPT Product Delivery Risks discussed today are technical risks
Residual Risk Summary Residual Risk Assessment Was at PSR Is at Delta-PSR 13 1 2 1 2 1 1 1 1 1 1 1 4 1 8 4 2 • The delta in number is due almost solely to approved waivers • They predominantly are of negligible risk factor score (RFS) • The trend globally is down and to the left, indicating an improved risk picture from that presented at PSR
Residual Risk Summary Residual Risk Assessment - No change in status from PSR
Residual Risk Summary Residual Risk Assessment
Residual Risk Summary Residual Risk Assessment
Residual Risk # 1: EMI / EMC Performance Residual Risk Assessment Residual Mission Risk
Residual Risk # 2: Radiation Effects on CCDs Residual Risk Assessment Residual Mission Risk
Residual Risk # 8: Weak Bit in Hitachi EEPROMs in Single Board Computer Residual Risk Assessment Residual Mission Risk
Residual Risk # 22: MGSE Design Safety Factors Residual Risk Assessment Residual Mission Risk
Other Residual Risks to the Mission Residual Risk Assessment • Stray Light on Nadir Sensor (3,3) or (1,2) • NPP stray light sources will be seen by Nadir instrument during on-orbit calibrations • Waiver submitted communicates the need to add black Kapton tape to sun sensor mast on NPP to the next level of integration • Diffuse scatter test (glint test) successfully completed • Risk factor score is a 9 if NPP mitigation is not done
FM2 Impact on PFM Residual Risk Residual Risk Assessment • BATC OMPS conducted an assessment of FM2 design changes and their impact to the PFM residual risk at delivery • All FM2 design changes are the result of process and/or design improvements derived as result of the experience gained on the PFM. • These are summarized in the backup slides • Technical (performance) risks are derived from requirements • If a non-compliance on the PFM drove the change on FM2, a waiver was submitted and approved • Therefore BATC-OMPS concludes that FM2 changes do not cause any change to the PFM residual risk state at delivery
The OMPS PFM residual risk at delivery is assessed to be low-moderate Risk Summary & Recommendation Residual Risk Assessment • All risks are understood and mitigation plans are either completed or addressed during sell-off / waiver process
Residual Risk Assessment Backup Slides
Nadir Design Changes for FM2 Are Primarily Based on PFM Lessons Learned OMPS Delta PSR • Mechanical Design Changes • Changed NP mechanical design to match Code V model (address salvage EO) • Changed interface for optical mounts to spherical washers on spherical seats (boresight FRB) • Changed TC spectrometer slit from bonded to clamped assembly (reduce thermal “puckering”) • Changed sunshade design (mitigate glint issue) • Added relief to LED housing (prevent shorting) • Changed to finer grind on aluminum diffusers (improved diffuser BRDF) • Changed diffuser mount to external (allows diffuser replacement without telescope disassembly) • Added board stiffeners to FPA PWA (reduce flexing in vibration environments) • Optical Design Changes • Minor improvements to stray light and light leak • Changed coating on fused silica optical cubes from chrome to aluminum (meet 80% requirement) • Electrical Design Changes • Reduced use of Tiodize and added grounding straps (EMI/EMC mitigation) • Added insulation pad underneath thermostats (prevent shorting) • Added twisting/shielding to FPA temp sense diode wiring and change routing (EMI/EMC mitigation) • Minor changes in FPA PWA design (improved full well performance) • NPOESS Specific Design Changes • Additional optical cube with 15-deg rotation for NPOESS (at NGST request)
MEB Design Changes for FM2 Are Based on PFM Lessons Learned and De-Manifest of Limb Sensor OMPS Delta PSR • Mechanical Design Changes • Reduced diameter of cable harness support bars (allows MLI to lay more flush with top of MEB) • Minor changes to MEB mounting spacers (facilitate easier AI&T) • Electrical Design Changes • Modified survival heater wiring (to meet MEB spec) • Added resistors across MEB thermostats (eliminate floating wires) • Motherboard: added 1 white wire (allows MEB to process NP housing temp sensor) • Motherboard: remove 1553 transformer center tap chassis ground (proposed) • Nadir T&C: removed common mode chokes in CCD bias rails (reduces rail sag while clocking) • Nadir SP: changed filter caps and added .5 ohm in series with tantalum caps (improved stability) • LVPS1: changed linear regulators (increase margin on WCA) • LVPS2: lowered temperature on Vref & added test point isolation resistors (temperature de-rating) • NPOESS Specific Design Changes • Limb T&C and SP: changed to Limb replacement board (provides signal termination) • Added dust covers and associated hardware to unused connectors • Revised cable routing and added cable harness routing supports • Modified chassis surface finish (to meet NPOESS thermal requirements)