Six Sigma Project CFM56-7B EEC Software Improvement at ATA
**** Hidden Message ***** 1<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines<BR>Six Sigma Project<BR>CFM56-7B EEC Software Improvement<BR>at ATA<BR>BPTS # 2002-05-011544<BR>Amandio Morais<BR>ATA Field Service Program Manager<BR>December 2002<BR>2<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines<BR>Project Summary - Page 1<BR>Area/Location: Indianapolis, IN Cluster ID:<BR>Title: Incorporate EEC Improvement at ATA BPTS ID: 2002-05-011544<BR>Who is the<BR>customer?<BR>American Trans Air<BR>Why is this<BR>important?<BR>1) Incorporates many new improvements to the EEC logic<BR>2) Can prevent engine failures/delays/caxs<BR>What do I want to<BR>improve?<BR>1) Load the newest EEC software version ASAP<BR>2) Processing time at ATA<BR>How will I measure<BR>the problem?<BR>1) Monitor engine-related write-ups for engine issues due to old software<BR>2) Monitor ATA incorporation of latest software<BR>Can I trust the<BR>process output (Y)<BR>data?<BR>Yes; receive daily engine reports from Powerplant Engineering<BR>Timing: Start: 9/6/01 Complete: 12/9/02 Implement: 2/1/02<BR>Leader Org.: GCFS<BR>Sponsors: Sponsors: Rod Jarvis Process Owner: American Trans Air<BR>Resources: Project Leader: Amandio Morais MBB/Mentor: Scott Kopczynski<BR>Required for Project Approval Required for Project Closure Optional<BR>Step<BR>0<BR>1<BR>2<BR>3<BR>Defi<BR>ne<BR>Meas<BR>ur<BR>e<BR>Project Summary<BR>Step<BR>0<BR>1<BR>2<BR>3<BR>Defi<BR>ne<BR>2<BR>Meas<BR>ur<BR>e<BR>2<BR>3<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines Project Summary - page 2<BR>Project Summary - Page 2<BR>How good am I<BR>today?<BR>Z = 1.11; measuring P20 software incorporation<BR>How good do I need<BR>to be?<BR>Z = 6<BR>Variation Source Summary<BR>Vital X Impact on Average/Variation of your Y Improvement Plan<BR>Software release date 100%<BR>Install P22 software into ATA’s EEC’s<BR>once software is released<BR>Control Plan Summary<BR>Vital X Control Plan to insure Improvement is Sustained<BR>Monitor EO release and fleet<BR>incorporation<BR>Monitor engine-related write-ups for issues due to old software logic<BR>Have I reached my<BR>Goal?<BR>Will monitor engine issues once software is incorporated into fleet<BR>Required for Project Approval Required for Project Closure Optional<BR>Step<BR>4<BR>5<BR>6<BR>789<BR>10<BR>11<BR>12<BR>Anal<BR>yz<BR>e<BR>I<BR>mpr<BR>ove<BR>Cont<BR>r<BR>ol<BR>Step<BR>4<BR>5<BR>6<BR>789<BR>10<BR>11<BR>12<BR>An al<BR>yz<BR>e<BR>2<BR>I<BR>mpr<BR>ove<BR>2<BR>Cont<BR>r<BR>ol<BR>4<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines Project Summary - page 3<BR>Action Plan - Complete if project has open actions<BR>Open Action Items Person Responsible Est / Actual Completion Date<BR>Functional Implementation Status (Excel spreadsheet - double click to open)<BR>Group1 Group2 Group3 Group4 Group5<BR>Engagement Status Committed Plan to Commit Plan to Commit Committed Committed<BR>Committed<BR>Plan to Commit<BR>Does Not Support<BR>Leveragable Project<BR>Where can this project be immediately leveraged? How?<BR>Comments / Lessons Learned<BR>Cost/Benefit Profile (Excel spreadsheet - double click to open)<BR>QX QX QX QX Total<BR>Expenditures $0.00<BR>Savings<BR>Indirect $0.00<BR>Avoidance $0.00<BR>Total $0.00<BR>Required for Project Approval Required for Project Closure Optional<BR>5<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines Project Scope / Objectives<BR>Improve Controls System<BR>Reliability and Event Protection<BR>Capability by Implementing<BR>EEC software upgrades.<BR>Project #2001-09-022199<BR>6<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines CFM56-7B EEC Software P20 Improvement<BR>Defect: Main engine bearing damage following oil loss<BR>Measure: Oil loss event without Low Oil Pressure Warning<BR>- 2 events, ~$2.2M per event<BR>Analyze: Oil loss event led to venting of the oil supply pressure to<BR>ambient. This drove PEO, which measures the difference between the<BR>oil supply pressure and sump pressure, to a large negative value. PEO<BR>was declared invalid leading to suppression of low oil pressure warning.<BR>Improve: Change minimum valid value for PEO to account for this<BR>failure mode in EEC software P/N 1853M78P20.<BR>Control: implement EEC software P/N 1853M78P20 via S/B 73-064.<BR>• Other airline experience due to not incorporating P20 software upgrade<BR>• ATA has 8 engines with old P18 software<BR>7<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines<BR>Defect: LPT damage following engine rollback from idle<BR>Measure: Current rollback/over-temperature logic did not protect the<BR>engine following the rollback event.<BR>- 1 event, ~$3M<BR>Analyze: Current logic requires both N2 <50% and EGT>725 deg C<BR>before automatically turning off fuel (ground only). This can lead to a<BR>long exposure time with N1 = 0 and EGT close to the 725 deg C limit.<BR>Improve: Cutoff fuel flow if N2 falls below 45% independent of EGT in<BR>EEC software P/N 1853M78P20.<BR>Control: implement EEC software P/N 1853M78P20 via S/B 73-064.<BR>CFM56-7B EEC Software P20 Improvement<BR>• Other airline experience due to not incorporating P20 software upgrade<BR>8<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines<BR>Defect: IFSD due to false oil temperature indication<BR>Measure: Oil temperature was falsely indicating high leading to IFSD.<BR>- 2 IFSD’s<BR>Analyze: Current TEO signal selection logic is programmed to select the<BR>higher of the 2 channels if they disagree. The failure mode of the sensor<BR>is for a channel to drift high leading to the selection of the false high<BR>channel.<BR>Improve: Use prior history of the TEO signals to determine the health of<BR>each channel. Pick the healthier of the two channels if they disagree in<BR>EEC software P/N 1853M78P20.<BR>Control: implement EEC software P/N 1853M78P20 via S/B 73-064.<BR>CFM56-7B EEC Software P20 Improvement<BR>• Other airline experience due to not incorporating P20 software upgrade<BR>9<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines<BR>Defect: ATO and D&C’s due to no engine response to throttle increase<BR>Measure: Faulty TRA signal falsely indicating high leading to ATO’s and D&C’s.<BR>- 1 ATO, numerous D&C’s<BR>Analyze: Current throttle signal selection logic is programmed to select the lower of<BR>the 2 channels if they disagree. The failure mode of the throttle resolver is to drift<BR>low leading to the selection of the faulty low channel. Therefore, when the pilot<BR>advances the throttle, the faulty channel indicates idle and the correct channel<BR>indicates high power. The EEC chooses the lower position and the engine remains at<BR>idle.<BR>Improve: Use prior history of the TRA signals to determine the health of each<BR>channel. Pick the healthier of the two channels if they disagree in EEC software P/N<BR>1853M78P20.<BR>Control: implement EEC software P/N 1853M78P20 via S/B 73-064.<BR>• Other airline experience due to not incorporating P20 software upgrade<BR>CFM56-7B EEC Software P20 Improvement<BR>10<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines<BR>Defect: D&C’s due to No Go fault for the HPTACC system<BR>Measure: 18 D&C’s per year for spurious HPTACC demand/position<BR>disagree faults.<BR>Analyze: Currently the HPTACC valve position is scheduled as a function<BR>of N2, altitude, time, TC and T3. Oscillating T3 or TC input due to a faulty<BR>signal causes an oscillating HPTACC valve position demand. Because the<BR>valve cannot keep up with this oscillating demand, an HPTACC<BR>demand/position disagree fault is set which is a No Go fault.<BR>Improve: Do not use the TC and T3 input to schedule the HPTACC valve.<BR>Schedule the valve using only N2, altitude and time in EEC software P/N<BR>1853M78P20.<BR>Control: implement EEC software P/N 1853M78P20 via S/B 73-064.<BR>• Other airline experience due to not incorporating P20 software upgrade<BR>CFM56-7B EEC Software P20 Improvement<BR>11<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines CFM56-7B EEC Software P21 Improvement<BR>• Ps3 Signal Selection<BR>-Modification to range checking to improve detection of disconnected Ps3 line<BR>• VSV/VBV Selection logic<BR>-Improvement to current selection logic robustness by using a fault history similar<BR>to FMV selection<BR>• Start Lever Selection Logic<BR>-Current logic prevents engine starts with single point failure in start lever<BR>+ DEU 1 and DEU 2 discrete signals not fully independent (share same start<BR>lever relay)<BR>-New logic to use the two analog EEC reset discrete and two igniter voltages in a 2<BR>out of 4 or 3 out of 4 voting scheme<BR>• VBV Disagree Fault Tolerance<BR>-Disagree fault threshold to be changed from a constant 4 degrees to a variable as<BR>a function of VBV door position<BR>+Maintain current 4 degrees threshold at high power<BR>+Increase threshold at low power to prevent inadvertent faults from being set<BR>12<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines CFM56-7B EEC Software P21 Improvement<BR>• N1 Trim Washout Function<BR>-Modify washout function so that trim is ramped out between 103.5% and 103.7% to<BR>eliminate ‘flat’ in indicated N1<BR>• New Throttle Interpolation Curves for New High Altitude Ratings<BR>-New interpolation points used with new ratings in order to maintain thrust<BR>sensitivity requirements<BR>• Modification to Quick Windmill Relight EGT Redline Inhibit Logic<BR>-Latches quick windmill relight timer threshold<BR>+Prevents EGT redline inhibit once start determined not to be a quick windmill relight<BR>+Addresses potential for erroneous redline indication during overtemperature events<BR>• EGT Trim Logic<BR>-Simplification to trim logic to aid in EGT trending<BR>+Currently two EGT trim levels exist (takeoff and EOB)<BR>+Proposed logic ties EGT trim to nameplate allowing for one EGT trim level<BR>-Elimination of DAC Shunt for 7B27B1 Rating<BR>13<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines CFM56-7B EEC Software P22 Improvement<BR>• EEC Table Pointer Corruption Accommodation<BR>-Three Confirmed CFM56-7B LOTC Events Related to Pointer Corruption<BR>-Demonstrated in the CFM56-7B Fuel Systems Test Cell<BR>-All Table Pointers Will Be Limit Checked Before Being Used<BR>• TRA Selection Logic Update<BR>-In the Presence of Specific Failures the EEC Will not Lock-out the TRA Signals Until<BR>the Engine has Reached Idle<BR>+Prior to 7.B.O the EEC will lock out the TRA anytime both TRA signals are not available<BR>• FMV-Resolver Limits Extended<BR>-7.B.O FMV Resolver Limits Will Account For Variations in Temperature<BR>+Reduce the Number of FMV-Signal-Out-Of-Range Faults<BR>+Message 73-x034y (Drives the Engine Control Light)<BR>• AEW&C Oil Pressure Logic<BR>-Unique Oil Pressure By-pass Valve on AEW&C Engines<BR>-By-Pass Valve Failure Detection Logic Modification<BR>• CFM56-7 SB 73-084 Available Dec 02<BR>14<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines Z Score For Missing P20 Software<BR>Description: Classify units as defective or non defective, traditionally uses the Binomial distribution formula listed below.<BR>Glossary: Mean Average<BR>Sigma Standard Deviation<BR>p(d) Probability of Defects<BR>Enter Numbers Below<BR>Formulas: p(d)= No. of Bad Units "=>" 8 p(d)= 0.133333<BR>Total No. of Units 60<BR>Enter Numbers Above<BR>p(d) = 1-FTY "=>" 0.133333<BR>Z = 1.11077<BR>FTY= 0.866667<BR>15<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines Z Score For Missing P21/P22 Software<BR>Description: Classify units as defective or non defective, traditionally uses the Binomial distribution formula listed below.<BR>Glossary: Mean Average<BR>Sigma Standard Deviation<BR>p(d) Probability of Defects<BR>Enter Numbers Below<BR>Formulas: p(d)= No. of Bad Units "=>" 60 p(d)= 1<BR>Total No. of Units 60<BR>Enter Numbers Above<BR>p(d) = 1-FTY "=>" 1<BR>Z = #NUM!<BR>FTY= 0<BR>16<BR>Six Sigma -- Define/Measure/Analyze/Improve/Control Phases GE Aircraft Engines<BR>GE Proprietary Information GE Aircraft Engines<BR>g GE Aircraft Engines<BR> ATA Powerplant Engineering verbally committed to<BR>incorporate P22 (latest software) once it is released<BR> ATA understands the risks with not incorporating P20 &<BR>P21 software<BR> Can avoid many engine problems and in-service issues<BR>(as demonstrated by Airline examples)<BR> Once software is released, will inform ATA Powerplant<BR>Engineering to issue Engineering Order<BR> Will educate ATA line planning group to incorporate latest<BR>EEC software in the fleet<BR> Will monitor engine issues due to delay in incorporating<BR>EEC software improvement (until P22 is incorporated)<BR> After P22 release, add item to weekly Airline Fleet Review<BR>meeting to monitor progress and issues (VP exposure)<BR>Control – Summary回复 1# 航空 的帖子
CFM56-7B TRAINING MANUAL ENGINE FAN TRIM BALANCE挺好的
谢谢,辛苦了! :victory: :victory: :victory: Six Sigma Project CFM56-7B EEC Software Improvement at ATA 好的资料!好的资料! Six Sigma Project CFM56-7B EEC Software Improvement at ATA 谢谢分享
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