1、It is applicable to work report,lecture and teaching设计验证和生产确认福特FORD12021/7/26 On the evening of July 24,2021Courseware template On the evening of July 24,2021Courseware template On the evening of July 24,2021Courseware templateSystems EngineeringFundamentals系统工程基本原理系统工程基本原理Parameter Design参数设计参数设计To
2、leranceDesign公差设计公差设计Global 8D全球全球8DFMEA失效模式后果与分析失效模式后果与分析ExperimentalDesign实验设计实验设计Reliability可靠性可靠性Applied Consumer Focus应用顾客的关注应用顾客的关注DV&PV设计验证设计验证&生产确认生产确认Statistical Engineering统计工程学统计工程学 On the evening of July 24,2021Courseware templateCourse Structure课程结构课程结构Introduction to DV&PV对设计验证及生产确认的介绍
3、Tools for DV&PV设计验证及生产确认的工具Vehicle Level DV整车级别的设计验证System/Sub-System Level DV系统/子系统级别的设计验证Component Level DV零部件级别的设计验证System/Sub-System Level PV系统/子系统级别的生产确认Component Level PV零部件级别的生产确认Summary总结 On the evening of July 24,2021Courseware template On the evening of July 24,2021Courseware templateDesig
4、n Verification and Production Validation设计验证和生产确认设计验证和生产确认 On the evening of July 24,2021Courseware templateBenefit to Ford Motor Company对福特汽车公司的益处对福特汽车公司的益处 On the evening of July 24,2021Courseware templateDesign Verification and Production Validation设计验证和生产确认设计验证和生产确认Design Verification:设计验证as des
5、igned,a product will function in the manner that the customer expects.根据设计状态,一个产品的功能要符合顾客所期望的方式。Production Validation:生产确认as manufactured,a product functions in the manner that the customer expects and can be manufactured at required volumes.根据制造状态,一个产品的功能要符合顾客所期望的方式,而且能以所要求的产量进行生产。On the evening of
6、 July 24,2021Courseware templateDV&PV Within Systems Engineering系统工程内的DV&PV On the evening of July 24,2021Courseware templateVerification and Systemic Thinking验证和系统思想验证和系统思想Customer Wants顾客的需要顾客的需要Engineering Targets工程目标工程目标Design Verification设计验证设计验证 On the evening of July 24,2021Courseware templat
7、eRequirements Cascade需求逐级传递需求逐级传递Working in a Systems Engineering context supports systemic thinking.系统工程中的工作支持系统的考虑 Opposite of Traditional approach to engineering.与传统的工程方法相反 On the evening of July 24,2021Courseware templateSystems“V”Model系统系统V模型模型DV&PV is a requirements driven processDV和PV 是一个需求驱动
8、的过程DV&PV is best conducted in a systems engineering context through the systems V.DV和PV在贯穿系统V模型的系统工程中得到最好的实施。VehicleSystemSub-SystemComponent On the evening of July 24,2021Courseware templateDefining Requirements定义需求定义需求The requirements cascade down the left side.需求的逐级传递如左侧The cascade is an iterativ
9、e process.该逐级传递是一反复的过程 VehicleSystemSub-SystemComponentITERATIVE PLANNINGTop Down由上到下由上到下 On the evening of July 24,2021Courseware templateVerification Bottom-up验证自下至上验证自下至上Verification testing is implemented as a bottom-up sequential process.验证试验是按照自下至上的顺序过程执行的Verification may include a combination
10、 of Analytical and physical tests.验证可能包括分析试验和物理试验的组合。VehicleSystemSub-SystemComponentITERATIVE PLANNINGTop Down自上至下自上至下Bottom Up自下至上自下至上SEQUENTIAL DOING反复计划工作顺序 On the evening of July 24,2021Courseware templateDV&PV and PDSAPlanPlanPlan Plan计划计划 Do,Study,Act 做,研究,行动做,研究,行动 Do,Study,ActDo,Study,ActDo
11、,Study,ActVehicle整车整车System系统系统Sub-System子系统子系统Component零部件零部件 On the evening of July 24,2021Courseware templateLower Level Interactions较低级别的相互作用较低级别的相互作用 On the evening of July 24,2021Courseware templateSystems Approach to Manufacturing进行制造的系统方法进行制造的系统方法VehicleSystemSub-SystemComponentPlantAssembly
12、OperationMachineVehicle整车整车System系统系统Sub-System子系统子系统Component零部件零部件ManufacturingDesignPlant 工厂工厂Assembly 装配装配Operation 操作操作Machine机器机器设计设计制制 造造 On the evening of July 24,2021Courseware templateNote-S5/P5 TimingFPDS TimingFPDS时间时间Vehicle level,System level&Sub-sys level1DVP Created生成整车,系统&子系统的DVPSub
13、-sys level 2&ComponentDVP Created生成子系统级别2&零部件DVPFull DVP CreatedReqts&Targets Frozen生成完整的生成完整的DVP需求需求&目标冻结目标冻结Component testing complete零部件试验完成Sub-system and System testing complete子系统和系统试验完成Vehicle testing mostly complete:Prelim Eng Sign Off整车试验大部分完成:工程预签发Vehicle testing complete:Final Eng Sign Off
14、整车试验完成:最整车试验完成:最终工程签发终工程签发DVP completeDVP完成完成 On the evening of July 24,2021Courseware templateDesign“V”and FPDS TimingDV&PV设计设计V形图及形图及FPDS时间的时间的DV&PVLow低低High高高ActivityLevel活动级别活动级别Time时间时间=Design Verification设计验证设计验证=Production&Process Validation生产生产&过程确认过程确认SISCPAPRCPLRJ1 On the evening of July 2
15、4,2021Courseware templateDV&PV and FPDSDV&PV are key requirements for sign off of a vehicle programDV和PV对于汽车项目的签发来说是关键的需求Key Sign off milestones are:关键签发节点是:(CC)DV(LR)PV(LS)PV On the evening of July 24,2021Courseware templateInputs Used in the Verification and Validation Processes在验证和确认过程中使用的输入在验证和确
16、认过程中使用的输入DV Plan设计验证设计验证计划计划SDS RequirementsSDS的需求的需求LegalRequirements法规要求法规要求EngineeringSpecifications工程技术规范工程技术规范Concept and Design FMEAs概念和设计概念和设计FMEAReal World Usage Profile真正的顾客使用状况真正的顾客使用状况P-DiagramP图图Existing DVPs现有的现有的DVPGeneric DVMs一般一般DVMHistorical 8Ds历史上历史上8DKey Life Tests关键寿命试验关键寿命试验 On
17、the evening of July 24,2021Courseware templateDV&PV as Part of the Product Creation Process DV 和和PV作为产品创造过程的部分作为产品创造过程的部分DV and PV confirm that Components and system robustly meet customer requirementsDV和PV确认零部件和系统殷实可靠地符合顾客的需求。DV&PV testing is not exploratoryDV和PV试验不是探险Testing should be against expe
18、cted results not to find out“what happens if”试验应该是针对所预测的结果而不是去发现“如果会怎样”DV&PV comes after the design phase not during the design phaseDV 和PV 要在设计以后而不是在设计阶段中进行 On the evening of July 24,2021Courseware templateIntroduction of the FEAD ExampleFEAD举例介绍 On the evening of July 24,2021Courseware templateFEA
19、D ExampleFEAD范例范例A single system the FEAD(Front End Accessory Drive)will be used to demonstrate DV&PV使用一个单独的系统FEAD(前端附件驱动)来示范DV&PV On the evening of July 24,2021Courseware templateThe Front End Accessory Drive(FEAD)How It WorksFEAD-它如何工作它如何工作The source of power in the vehicle is the engine.汽车内动力的来源是
20、发动机Part of the rotational power output from the engine needs to be transmitted to the FEAD accessories.来自发动机转动动力输出的一部分需要被传输到FEAD附件上。The FEAD transmits this energyFEAD传输该能量 On the evening of July 24,2021Courseware templateDesign Verification at All Levels所有级别上的设计验证所有级别上的设计验证Design Verification should
21、 occur at all levels with the emphasis being at the lower levels.设计验证应该重点放在较低级别的情况下在所有级别上进行。On the evening of July 24,2021Courseware templateProduction Validation生产确认生产确认It is important to verify the design 验证设计是重要的It is equally important to validate that the production process used to manufacture t
22、he belt is able to produce belts to the design specification.确认制造皮带所使用的生产过程能够生产出符合设计规范的皮带同等地重要。For example,the belt as manufactured must be able to transmit the required amount of torque.例如,所制造的皮带必须能转送所要求大小的扭矩。On the evening of July 24,2021Courseware templateConfirming Robust and Reliable Design Rob
23、ustness确认殷实及可靠的设计确认殷实及可靠的设计-殷实可靠性殷实可靠性 On the evening of July 24,2021Courseware template On the evening of July 24,2021Courseware templateMethods Used in Efficient and Effective Verification在有效且高效的验证中使用的方法在有效且高效的验证中使用的方法Some of the important methods used in efficient and effective verification and v
24、alidation processes are 在有效且高效的验证和确认过程中所使用的一些重要方法是Robust Engineering Design Philosophy(RED)殷实的工程设计基本定律Ford Design Verification System(FDVS)福特设计验证体系Testing Methodologies,试验方法学Real World Usage Profiles and Duty Cycles真正全球顾客使用的概况和工况Accelerated Tests,加速试验Key Life Tests(KLT),关键寿命试验Computer Aided Engineer
25、ing(CAE)计算机辅助工程Design of Experiment(DoE).实验设计 On the evening of July 24,2021Courseware templateRobust Engineering Design(RED)殷实的工程设计 On the evening of July 24,2021Courseware templateRobust Test Plans殷实可靠的试验计划殷实可靠的试验计划Robust test plans in DV&PV incorporate Noise factors and their effects in order to
26、ensure that the product will meet its design intent under all conditions.Noise factors can be grouped into five categories:为了确保该产品在所有条件下都符合其设计意图,DV和PV中殷实的试验计划合并了干扰因素及其他们的影响。干扰因素可以分成5类:Piece-to-Piece Variation 件与件间的变差Changes Over Time 随着时间过去的变化Customer Usage 顾客的使用External Environment 外部环境System Inter
27、actions 系统间的交互作用 On the evening of July 24,2021Courseware templateNoise Factor Management干扰因素的管理干扰因素的管理Test/TechnologyChange试验/技术更改Robust Designby ParameterDesign通过参数设计的牢靠设计Robust Designby IncreasedStrength通过增加强度的牢靠的设计Remove orReduce Noise去除或减小干扰CompensationDevice补偿装置Disguise theProblem隐蔽问题InternalE
28、nvironment(SystemInteractions)内部环境(系统交互作YesYesYesSystemFMEAYesSystemFMEAExternalEnvironment(Climate/RoadConditions)外部环境(气候/路况)YesYesYesNoPiece to PieceVariation件与件间的差异YesYesYesSPCChanges Over Time(Wear Out)随着时间产生的变化(磨损)YesYesMaterialsEngineeringYesSystemFMEACustomer Usage顾客使用YesYesYesNo On the eveni
29、ng of July 24,2021Courseware templateRobust Engineering Design殷实可靠的工程设计殷实可靠的工程设计Robust Engineering Design(RED)is primarily a design tool殷实的工程设计主要是一种设计工具RED must be considered in DV&PV as RED will drive the type of DV&PV tests that need to be undertaken 在DV和PV中必须考虑到RED,因为RED将决定需要采取的DV&PV试验的类型。RED foc
30、uses on identification and management of noise factorsRED着重于干扰因素的识别和管理 On the evening of July 24,2021Courseware templateRobust Engineering Design殷实可靠的工程设计殷实可靠的工程设计RED is inherent in the systems V and runs through all phases of the VRED是系统V内固有的,并且贯穿系统V的所有阶段RED is a team based processRED是以小组为基础的过程RED
31、applies throughout Ford(Design and Manufacturing)and at suppliersRED应用于整个福特(设计和制造)以及供应商。On the evening of July 24,2021Courseware templateApplying RED应用应用REDRED allows testing at the lowest possible levelRED允许在最低可能性级别进行测试Caution must be used必须使用警示 On the evening of July 24,2021Courseware templateRed
32、Applied to Vehicle Level Testing Red应用于整车级别的测试应用于整车级别的测试 On the evening of July 24,2021Courseware templateRED Applied at Sub-System LevelRED应用于子系统级别应用于子系统级别When developing Design Verification Methods at the system/sub-system or component level,it is important to ensure that the effects of System Int
33、eraction Noise factors that are present in the total vehicle environment are included.当开发系统/子系统或零部件级别的设计验证方法时,重要的是确保要包括整个汽车环境中出现的系统交互作用干扰因素的影响。On the evening of July 24,2021Courseware templateRED Applied at Component LevelRED应用于零部件级别应用于零部件级别At the component level testing is most efficent but interac
34、tions with other components are lost零部件级别的试验是最有效的,但失去了与其他零件的交互作用Test plans must compensate for this loss by reproducing the key stresses from the interactions试验计划必须通过再制造来自交互作用的关键应力弥补这一损失Much component testing may be done at suppliers.许多零部件试验可能在供应商处进行。Suppliers must apply the same RED methodolgies供应商
35、必须应用相同的RED方法To support this,Ford engineers need to cascade noise factors to the supplier为了支持这个,福特工程师需要逐层传递干扰因素直到供应商 On the evening of July 24,2021Courseware templateRED in the Design Process设计过程中的设计过程中的RED Noise Factors干扰因素Piece to Piece件与件件与件Aging/Wear老化老化/磨损磨损Customer Usage顾客使用顾客使用Environment环境环境S
36、ubsystem Interaction子系统交互作用子系统交互作用Sources that disrupt idealfunction that can not be controlled(e.g.column friction)不可控制的,破坏理想功能的来源(例如.转向柱磨擦)P-DiagramReliability Checklist 可靠性检查清单Reliability/RobustnessDemonstration Matrix 可靠性/殷实可靠性实证矩阵图Signal信号Energy put intothe systems tomake it work(e.g.Steeringwh
37、eel angle)能量进入系统使其工作(例如.方向盘转角)Control FactorsFeatures of the designthat can be controlled(e.g.Torsion bar rate)控制因素可以控制的设计特性(例如.扭杆比率)ErrorStates异常状态Undesirable outputor Failure Modes(e.g.Tire slip)不需要的输出或失效模式(例如.轮胎打滑)Error States异常状态 NoiseFactors干扰因素 AvailableTests有用的试验DVP&RTest试验CriticalNoiseFactor
38、s关键干扰因素Failure mode totest traceability失效模式试验可追查性 Noise FactorsManagement StrategySystem(Steering System)系统(转向系统)IdealFunction理想功能Primary intendedfunction of the design设计的主要意图功能(e.g.Lateral accelerationof vehicle)(例如.车辆的横向加速度)FMEASDSWCRDOE(if necessary如果有必要)KLTWCRFailureMode失效模式DemonstratedResult论证的
39、结果In scope范围内FDVSFDVSPrevention of Mistake Reoccurrence错误再次发生的预防Campaign Prevent 防召回Lessons Learned 吸取的教训Vigilance 警惕.干扰因素管理策略 On the evening of July 24,2021Courseware templateFord Design Verification System福特设计验证系统 On the evening of July 24,2021Courseware templateFord Design Verification System FDV
40、S福特设计验证系统福特设计验证系统-FDVSFDVS is a computer based system to create and manage requirements driven DV plans.FDVS是一计算机为基础的系统,生成并管理驱动DV计划的需求。FDVS includes a number of generic requirements and Design Verification Methods(DVMs)FDVS包括许多一般需求和设计验证方面(DVM)安全法规安全法规法人的要求法人的要求技术规范技术规范设计验证方法设计验证方法整车要求整车要求(项目专有)(项目专有
41、)项目专有的设项目专有的设计验证计划计验证计划系统要求系统要求(项目专有)(项目专有)DVM(项目专有)项目专有)On the evening of July 24,2021Courseware templateDesign Verification Method设计验证方法设计验证方法Within FDVS requirements are verified using Design Verification Methods(DVMs)在FDVS内,使用设计验证方法(DVM)验证需求DVMs contain all the information required to conduct te
42、sting and record resultsDVM包括所有要求试验和记录结果的信息Existing and Generic DVMs can be used as a starting point to develop program DMVs,but they must be reviewed现有的和一般的DVM能作为一个开始点用以开发项目的DMV,但是它们必须进行审核 On the evening of July 24,2021Courseware templateTesting Methodologies试验方法学 On the evening of July 24,2021Cour
43、seware templateTypes of Test试验的类型试验的类型There are three general types of testing that can be implemented for either Design Verification or Production Validation:有三种可以在设计验证或生产确认中实施的一般试验类型Testing to Bogey 标准测试Testing to Failure 测试至失效Testing Functional Degradation 测试功能退化 On the evening of July 24,2021Cou
44、rseware templateTest to BogeyMinimum Acceptable Function最小可接受功能最小可接受功能Function功能功能Time/Cycles/Miles时间时间/循环循环/里程里程Bogey失效柱状图失效柱状图 On the evening of July 24,2021Courseware templateTest to Failure测试至失效测试至失效Failure Time DistributionMinimum Acceptable Function最小可接受功能最小可接受功能Function功能功能Time/Cycles/Miles时间
45、时间/循环循环/里程里程失效时间分布图失效时间分布图 On the evening of July 24,2021Courseware templateDegradation Testing退化测试退化测试Minimum Acceptable Function最小可接受功能最小可接受功能Function功能功能Time/Cycles/Miles时间时间/循环循环/里程里程BogeyComplete DegradationHistory On the evening of July 24,2021Courseware templateExample:Functional Degradation
46、of Three Design Alternatives范例:三种设计方案的功能退化范例:三种设计方案的功能退化CBA On the evening of July 24,2021Courseware templateTest Level Comparison测试水平比较测试水平比较Bogey标准Failure 失效Information Quality信息质量信息质量Cost成本成本Higher较高较高Lower较低较低Higher较高较高Lower较低较低Degradation 退化 On the evening of July 24,2021Courseware templateTest
47、 Precision测试精度测试精度失效概率失效概率 On the evening of July 24,2021Courseware templateStatistical confidence for a given reliability estimate is the probability that the true reliability of the population is equal to or greater than the estimate.对于特定的可靠性预测,统计可信度是一种总体真实可靠性等于或大于预测情况的概率 On the evening of July 24
48、,2021Courseware templateLarge Sample大样本大样本Reduced Sample减少的样本减少的样本Min:1 sample/failure mode最小:1个样本/失效模式Severity/Acceleration of key noises in tests试验中关键干扰的严重度试验中关键干扰的严重度/加速加速Knowledge of prior perform-ance under similar conditions相似条件下优先性相似条件下优先性能的知识能的知识Normal通常通常High高高High高高Low低低FailureSeverity&Occ
49、urrence失效严重度失效严重度&发生发生Test Level测试水平测试水平BogeyFailureDegradation On the evening of July 24,2021Courseware templateReal World Usage Profiles真正顾客使用概况 On the evening of July 24,2021Courseware templateTypes of Customer Usage顾客使用的类型顾客使用的类型Normal use一般使用Misuse误用Abuse?滥用?滥用?On the evening of July 24,2021Cou
50、rseware templateNormal Use一般使用一般使用 On the evening of July 24,2021Courseware templateMisuse误用误用 On the evening of July 24,2021Courseware templateAbuse滥用滥用 On the evening of July 24,2021Courseware templateData Sources数据来源数据来源Yourself自身自身Instrumentation仪器仪器Existing Data现有数据现有数据Observation观察观察 On the ev
