lve roadmap
TRANSCRIPT
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Land Vehicle for Education (LVE)
The mission of the Land Vehicle for Education (LVE) family of projects is todesign, develop, build, test, and deliver land vehicles with the Modular Student
Attachment (MSA) platform incorporating both the WOCCSE (R12003) radio and
SESE (R12006) energy system for use by future freshman mechanicalengineering design teams and undergraduate engineering class projects in theKGCOE, beginning fall semester 2013.
All work produced should be in an open architecture open source format,encouraging use of the technologies by others.
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KGCOE Lower Division Students
and Courses
KGCOE Upper Division Students
and Courses
LVE technologies may be used asthe subject of simple design tasks,technology demonstrations, orlearning exercises by various first
and second year courses in theengineering disciplines.
LVE technologies may be used asthe subject of detailed designprojects, or systems integrationprojects by various courses in the
engineering disciplines.
Potential Incoming EngineeringFreshmen - Ian Frasch
Upper Level EE Student - Evan Andrews
Current Freshmen -Fall 2010 FYE Freshmen Survey
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KGCOE MSD Students and Teams KGCOE Engineering Faculty Members
Multi-disciplinary Senior Design Teamsare the primary target users for LVEprojects. These teams will incorporateLVE subsystems into their future design
projects.
The Faculty of the KGCOE deliver allcourses in the college, and the LVEprojects must produce technologyartifacts that can be used for a variety of
engineering education purposes.
Item alpha Ed Hensel
Item beta Item Baker Item delta Item CharlieItem gamma Item DogItem iota Item Echo
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KGCOE Staff Members
The Staff of the KGCOE will be essentialto implement and support the LVEprojects after the MSD students graduate.When LVE technologies are incorporated
into lower division courses and projects,staff will play an important role intechnolo su ort.Item Apple
Item BananaItem CherryItem DateItem Elderberry
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UseCase 1 First Stakeholder Scenario(timeunits) (units1) (units2) (units3) (units4)Time (hrs) 1 LVE 6 LVE 30 LVE
0 0 0 00.25 10 20 50
0.5 20 40 1000.75 30 60 100
1 40 80 1001.25 50 100.00 100
1.5 60 100.00 100
1.75 70 100.00 1002 80 100.00 100
2.25 90 100.00 1002.5 100 100.00 100
0
20
40
60
80
100
120
0 0.5 1 1.5 2 2.5 3
S a t i s f a c t i o n - %
Battery Life - hrs
Life of Battery
1 LVE
6 LVE
30 LVE
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Use Case 2 Second Stakeholder Scenario(timeunits) (units1) (units2) (units3) (units4)Time Field House Clark Gym Xerox Aud. Classroom
0 0 0 0 07.5 10 16.6666667 20 5015 20 33.3333333 40 100
22.5 30 50 60 10030 40 66.6666667 80 100
37.5 50 83.3333333 100 10045 60 100 100 100
52.5 70 100 100 10060 80 100 100 100
67.5 90 100 100 10075 100 100 100 100
0
20
40
60
80
100
120
0 10 20 30 40 50 60 70 80
S a t i s f a c t i o n - %
Range - m
Operational Range
Field House
Clark Gym
Xerox Aud.
Classroom
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Use Case 3 Third Stakeholder Scenario(timeunits) (units1) (units2) (units3) (units4)Time Attribute A Attribute B Attribute C Attribute D
0 0 10 0 10.1 1 9 0.02 0.980.2 2 8 0.08 0.920.3 3 7 0.18 0.820.4 4 6 0.32 0.680.5 5 5 0.5 0.50.6 6 4 0.72 0.28
0.7 7 3 0.98 0.020.8 8 2 1.28 -0.280.9 9 1 1.62 -0.62
1 10 0 2 -1
-2
0
2
4
6
8
10
12
0 0.2 0.4 0.6 0.8 1 1.2
A x i s T i t l e
Axis Title
Use Case 3
Attribute A
Attribute B
Attribute C
Attribute D
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Benchmarks
A) MSD Team P11211 LVE
B)Dagu Mr. Basic Mobile Robotic Platform
C)DFRobot 4WD Arduino Mobile Platform
(c) E. Hensel and P. Stiebitz Page 11 Confidential - Not for Dis
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Operation Hardware Design
The LVE will be used by freshmen
in a STEM based competition.
The LVE must be a modular platform
that can support a generic payload andmove that payload easily along apredetermined course.
Should be used by freshmen MEstudents
Able to carry 1 kg payload
Freshmen should apply STEMknowledge
The platform must be able to carry apayload designed by the freshmen MEstudents
Able to drive up 15 degree inclineBe able to mount MSA
Must be able to drive on flat smoothsurfaces: tile, carpet, field housefloor and clark gym floor
The pland for the payload are for it to bea 4 bar linkage
Integrate SESE power storage Powered by SESE technology
Integrate WOCSSE System Must not exceed constraints
Reduce risk of breaking due to drop Use batteries with a lower discharge rate
Must maintain freshmen intrest Greater Battery Output
Communicate using WOCCSEShorter amount of time to rechargebatteries
Will be used in a freshmancompetition
Decrease memory effect in batteries
Long battery life -Lam Battery Pack Easily Removable
Freshmen Probably have somebackground experience withrobotics
MSA interface is multipurpose and easyto use
Programming will be most difficultpart for most freshmen Sustainable designrobot should respond quickly toinputs Aesthetically pleasing
Planned student group size of 4Stable source of power for controls andMSA
Driven along user specified pathStandardized geometric tolerances anddimensionsRobot can accept feedback from MSALVE has MSA Interface
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Maintenance Future Uses
The LVE must be easy to maintain and
last for many years
The LVE should be modular so that it
can be used for purposes that it was notoriginally designed for.
Vehicles maintained by shop staff The robot may be used for otherapplications at other schools or inindustry
Vehicles stored in ME department To influence other ME deptarments
Low Maintenance and Repair Cost isdesired
Make sure robot can travel across anytype of terrain
Easy to store Surveillance ability
Current chassis should be easy to repair Chemical Detection
Most difficult component to repair is MSAcontrol board
Modular to support extra sensoratachments
Robots should last 10 years with regularmaintenance and a possible overhaul of
the power and controls after 5 years
MSA boards will stack together and theattachments can be easily stored in bins
No current plan for storage of LVEs
Storage availible in ME Dept.
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Production
The LVE must meet the bidget
requirements and eb ready for launch inFall 2013.
Must be available to Launch in sept 2013
1 robot manufactured for every 3-4students in a 35 person class
Assembled using primarily in houseprocesses and tools
Reduce the manufacturing cost of thechassis
Ideally the platform would bemanufactured in house
Robot needs to be robust
The current platform can be improvedupon to reduce cost
modularity is good
Biggest problem was budget
The current prototype costs $425 ($500with shipping fees)Goal for budget is $5,000 for the initial
production run
Planned 10 robot platforms with 30MSAs
$60 dollars per chassis
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0
2
4
6
8
10
12
Pairwise
Comparison:
Place an "R" if the
row is more
important. Place
a "C" if the
column is more
important
Operation Hardware Design Maintenance Future Uses Production Column Total
Ser
Ser
Ser
Ser
Ser
Ser
Ser
Ser
Ser
Ser
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Affinity Weights
Pairwise Comparison: Place an
"R" if the row is more important.Place a "C" if the column is more
important OperationHardwareDesign
Maintenance
FutureUses Production Row Total
Operation r r r r 4
Hardware Design c c r 1
Maintenance r c 1
Future Uses c 0
Production 0
Column Total 0 0 1 1 2
(c) E. Hensel and P. Stiebitz Page 16 Confidential - Not for Distribution
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Affinity Weights
ColumnTotal
Row +ColumnTotal
RelativeWeight
0 4 40%
0 1 10%
1 2 20%
1 1 10%
2 2 20%
10 100%
(c) E. Hensel and P. Stiebitz Page 17 Confidential - Not for Distribution
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Affinity Group Name
Customer
Objective
Number Customer Objective Description
1.1 Used by Freshmen
1.2 STEM based competition
1.3 4 students per LVE
1.4 Quickly respond to various inputs
1.5 Recharge between classes
2.1 MSA designed by freshmen
2.2 Robust
2.3 Modular
2.4 Carry 1kg MSA
2.5 Mount MSA
2.6 Integrate WOCCSE system
2.7 Integrate SESE power system
2.8 2 hr battery life
2.9 Easily removed battery pack
2.10 Sustainable
2.11 Aesthetically pleasing
2.12 Power MSA
3.1 Compact storage
3.2 Easy to repair
3.3 10 year life
4.1 Surveillance
4.2 Chemical detection
4.3 All-terrain
4.4 Open Source design
5.1 MSA built by freshmen
5.2 Launch Sept. 2013
5.3 10 LVE, 30 MSA
5.4 < $60 per Chassis
Operation
Hardware Design
Maintenance
Future Uses
Production
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Measure of Effectiveness
Control layout is similar to a video game layout
LVE can traverse a preplanned course
Enough LVEs can be produced with the available budget to divide classes into groups of 4
LVE responds to inputs with no visible delay
LVE reaches full charge in less than an hour
MSA platform has multiple mounting options to encourage creativity
The LVE is fully funtional when dropeed from a high of 3 feet
Can support extra or different motors, sensors, and controls
LVE Funtions according to all specs with MSA attached
MSA securely attaches to MSA/LVE interface
WOCCES is used for communication
SESE is used for power
Battery lasts 2 hours under team defined duty cycle
Battery is removed quickly and does not need tools
Zero-landfill design
Smooth surfaces, RIT color scheme
LVE supplies sufficient power to operate MSA under team defined duty cycle
LVE can fit in a typical bin storage system
Less then 5 tools used to repair any broken componenets
LVE lasts 10 years under current team defined duty cycle before having to be replaced
LVE can easily be upgraded to support a camera
Can support chemical detection sensors
Upgradable to support off-road components
Design package available on internet to other schools
The required MSA connections are easily machinable
All components are take less then a quarter to machine and assemble
10 LVEs and 30 MSAs can be produced with available budget
Chassis costs less than $60 to produce
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Function Propulsion & Turning Vehicle PlatformDynamics Mount MotorsStability Mount WOCCSE All-Terrain Mount Battery
Mount MSASub-
Functions
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Vehicle Command and Control Data CommControl & Power MSA Issue Commands from user to C&CControl & Power Motors Receive Commands from C&C to User Talk to Data Comm Recive commands from user Talk to Battery Transmit Data to User
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Vehicle Power RechargeBattery LifePower to Veh C&CPower to WOCCSE
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Functional Module
NameEngineering
Specification Number a.1 a.2 a.3 a.4 a.5 a.6 a.7 b.1
Engineering
Specification
Description
M e a s u r e
d A c c e l e r a
t i o n w
i t h M S A -
0 -
T o p
S p e e d
M e a s u r e
T o p
S p
e e
d w
i t h M S A
M e a s u r e
d S t o p
t i m e
f r o m
T o p
S p e e
d w
i t h M S A
L V E m e a s u r e
d t u r n r a
d i u s
L V E d o e s n o
t r o l l o n
2 0 d e g
i n c
l i n e
i n a
l l d i r e c
t i o n s
C l e a r a n c e
f o r O
f f - R o a
d p a r t s
A d j u s
t a b l e G r o u n
d C l e a r a n c e
S p a c e
f o r
M o
t o r
Measure of
Performances mph s in binary binary in in^3
Preferred Direction Down Up Down Down Target Target Target Target
Nominal Value 1 1.6 0.50 0 0 x 1.1
Marginal Value 2 0.8 1 12 N/A N/A x x
Propulsion & Turning
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b.2 b.3 b.4 b.5 b.6 b.7 b.8 b.9 b.10 b.11 c.1 c.2
S p a c e
f o r
S E S E
S p a c e
f o r
W O C C S E
W O C C S E P h y s
i c a
l I n t e r f a c e
S E S E P h y s
i c a l I n
t e r f a c e
S p a c e
f o r
L V E C
o n
t r o l B o a r d
P h y s
i c a
l I n t e r f a c
e f o r
M S A
C a n s u s
t a i n f a l l f r o m
h e
i g h t
A b l e t o S u p p o r t p a y
l o a
d
V e
h i c l e W e
i g h t
Z e r o
L a n
d - f i l l
P o w e r
t o M S A -
P e a
k
D a
t a t o M S A
in^3 in^3 Binary Binary in^3 Binary ft lb lb binaryVolts/A
mpsbits/s
Target Target Target Target Target Target Up Up Down Target Target Up
24.75 22 1 1 22 1 5 5 3.5 1 6V 3A 1000
x x N/A N/A x N/A 3 3 5 N/A x 500
2 pinMolex
Vehicle Platform Vehi
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c.3 c.4 c.5 c.6 d.1 d.2 d.3 e.1 e.2 e.3 e.4
P o w e r
t o M o
t o r s
- P e a
k
D a
t a f r o m
b a
t t e r y
D a
t a t o W O C C S
E
D a
t a f r o m
W O C C S E
D a
t a f r o m
W O C C S E t o C o n
t r o l B o a r d
D a
t a t o W O C C S
E f r o m
C o n
t r o l B o a r d
W i r e l e s s
R a n g e
R e c
h a r g e
T i m e
B a
t t e r y
L i f e
P o w e r
C o n
t r o l B
o a r d -
P e a
k
P o w e r
W O C C S E
- P e a
k
Volts/Amps
bits/s bits/s bits/s bits/s bits/s ft hours hoursVolts/A
mpsVolts/Amp
sTarget Up Up Up Up Up Up Up Up Target Target
6V 7A 2 2000 2000 2000 2000 200 1 2 6V 10 A 3.3V .25A
x 1 1000 1000 1000 1000 150 1.5 1 x x
le Command & Control Data Comm. Vehicle Power
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Functional Module
Name
Engineering
Specification
Number
Engineering Specification Description
a.1 Measured Acceleration with MSA - 0 - Top Speed
a.2 Measure Top Speed with MSA
a.3 Measured Stop time from Top Speed with MSA
a.4 LVE measured turn radius
a.5 LVE does not roll on 20 deg incline in all directions
a.6 Clearance for Off-Road parts
a.7 Adjustable Ground Clearance
b.1 Space for Motor
b.2 Space for SESE
b.3 Space for WOCCSE
b.4 WOCCSE Physical Interface
b.5 SESE Physical Interface
b.6 Space for LVE Control Board
b.7 Physical Interface for MSA
b.8 Can sustain fall from height
b.9 Able to Support payload
b.10 Vehicle Weight
b.11 Zero Land-fill
c.1 Power to MSA - Peak
c.2 Data to MSA
c.3 Power to Motors - Peak
c.4 Data from battery
c.5 Data to WOCCSE
c.6 Data from WOCCSE
d.1 Data from WOCCSE to Control Board
d.2 Data to WOCCSE from Control Board
d.3 Wireless Range
e.1 Recharge Time
e.2 Battery Life
e.3 Power Control Board - Peak
e.4 Power WOCCSE - Peak
Propulsion &Turning
Vehicle Platform
Vehicle Command
& Control
Data Comm.
Vehicle Power
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Measure of
Performance
Preferred
DirectionNominal
Value
Marginal
Value
s Down 1 2
mph Up 1.6 0.8
s Down 0.5 1
in Down 0 12
binary Target 0 N/A
binary Target 0 N/A
in Target x x
in^3 Target 1.1 x
in^3 Target 24.75 x
in^3 Target 22 x
Binary Target 1 N/A
Binary Target 1 N/A
in^3 Target 22 x
Binary Target 1 N/A
ft Up 5 3
lb Up 5 3
lb Down 3.5 5
binary Target 1 N/A
Volts/Amps Target 6V 3A x
bits/s Up 1000 500
Volts/Amps Target 6V 7A x
bits/s Up 2 1
bits/s Up 2000 1000
bits/s Up 2000 1000
bits/s Up 2000 1000
bits/s Up 2000 1000
ft Up 200 150
hours Up 1 1.5
hours Up 2 1
Volts/Amps Target 6V 10 A x
Volts/Amps Target 3.3V .25A x
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Measured Acceleration with MSA - 0 - Top Speed
Measure Top Speed with MSA + +
Measured Stop time from Top Speed with MSA - -
LVE measured turn radiusLVE does not roll on 20 deg incline in all directions
Clearance for Off-Road parts
Ad ustable Ground Clearance + +
S ace for Motor - - +
Space for SESE --
Space for WOCCSE --
WOCCSE Physical Interface -SESE Physical Interface -
Space for LVE Control Board -
Physical Interface for MSA -
Can sustain fall from hei ht
Able to Su ort a load
Vehicle Weight -
Zero Land-fill
Power to MSA - Peak
Data to MSA
Power to Motors - Peak + + + + + +
Data from battery
Data to WOCCSE
Data from WOCCSE
Data from WOCCSE to Control Board + +
Data from WOCCSE to Control Board + +
Wireless RangeRecharge Time
Battery Life + +
Propulsion & Turning
Land Vehicle for Education (LVE)
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Position Title /
Discipline Name
Disc Skill
Number
ME1
ME2
ME3
ME4
ME5ME6
EE1
EE2
EE3
CE1
CE2
CE3
CE4
IE1
IE2IE3
Mechanical Engineer
Electrical Engineer
Computer Engineer
Industrial Engineer
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Engineering Discipline Skill Description
Perform ANSYS Finite Element Analysis of Structural Integrity
Develop Simulink Model of Device Dynamics
Create Pro-Engineer Solid Model of the Device Package
Machining and Fabrication of Components
Labview programmingExperience leading and scheduling a group
Power management and interfacing electrical components
Digital electronic design
Analog electronic design
Interface and data transfer
Software programming of microcontrollers
Software programming of remote controller
Signal protocol design and interface
Design of sustainable materials
Interface design and managementExperience leading and scheduling a group
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Notes About This Skill - For example, what kind of experience
would this student likely have had in the past?
ACT
System Dynamics
Engineering Design Graphics
Intermediate Machining Lab
Labview experienceDPM
Built electrical components
Digital Design Class Sequence
analog design experience (PSPICE)
software or firmware experience
Experience programming microcontrollers
Experience programming remote controller
Experience integrating different signals between electronics
Sustainable Design
Interface experienceDPM
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a.1 a.2 a.3 a.4 a.5 a.6 a.7 b.1 b.2 b.3 b.4 b.5 b.6 b.7 b.8 b.9 b.10 b.11 c
M e a s u r e d A c c e l e r a t i o n w i t h M
S A - 0 - T o p S p e e d
M e a s u r e T o p S p e e d w i t h M S A
M e a s u r e d S t o p t i m e f r o m T o p
S p e e d w i t h M S A
L V E m e a s u r e d t u r n r a d i u s
L V E d o e s n o t r o l l o n 2 0 d e g i n
c l i n e i n a l l d i r e c t i o n s
C l e a r a n c e f o r O f f - R o a d p a r t s
A d j u s t a b l e G r o u n d C l e a r a n c e
S p a c e f o r M o t o r
S p a c e f o r S E S E
S p a c e f o r W O C C S E
W O C C S E P h y s i c a l I n t e r f a c e
S E S E P h y s i c a l I n t e r f a c e
S p a c e f o r L V E C o n t r o l B o a r d
P h y s i c a l I n t e r f a c e f o r M S A
C a n s u s t a i n f a l l f r o m h e i g h t
A b l e t o S u p p o r t p a y l o a d
V e h i c l e W e i g h t
Z e r o L a n d - f i l l
Engineering Discipline Skill Description
D o w n
U p
D o w n
D o w n
T a r g e t
T a r g e t
T a r g e t
T a r g e t
T a r g e t
T a r g e t
T a r g e t
T a r g e t
T a r g e t
T a r g e t
U p
U p
D o w n
T a r g e t
Perform ANSYS Finite Element Analysis of 3 3 1
Develop Simulink Model of Device Dynamics 3 3 3 3 3
Create Pro-Engineer Solid Model of the Device 3 3 3 3 3 1 1 3 1 1 1 1
Machining and Fabrication of Components 3 3 3 1 1 3 1 1 1 1Labview programming
Experience leading and scheduling a group
P t d i t f i l t i l
for Education (LVE) family of projects
st, and deliver land vehicles with the
MSA) platform incorporating both the
SE (R12006) energy system for use byal engineering design teams and
s projects in the KGCOE, beginning fall
ester 2013.
or Education (LVE) VPropulsion & Turning Vehicle Platform
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Case Project Issue
1 P07201Slipping mitre gears under roation andbending
2 LV1 Material could not be welded3 LV1 Vehicle cant run for long periods of time
4 LV1 Vehicle Cost too high5 LV1 Vehcile to fragile to be to dropped
6 LV1Sideplate for motor module could notwithstand high motor torques
7 LV1 Sideplay in wheel along shaft
8 LV1 Too much power to modules
Design FMEA
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Why
Improper axial support. Only suppport wasa set screwWelder couldn't weld materialBattery life is too short
Miscommunication during design processDesign not robust enough
Design not robust enough
Wheels not fastened properly
Improper wiring, No module powerprotection
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A DPM Student will beresponsible for the worksheetsassociated with this project
Enter the name(s) of the DPMStudent(s) responsible for thisproject within the roadmap.
Enter the proposed project numberin this column, such as P12nnn orP13nnn
Project ID in Worksheet DPM Contributors EDGE Project Number
1
234
5
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Enter a short project title or name here. In general,each project should be responsible for developingone module within the roadmap.
Enter the proposedquarter for seniordesign 1
Enter the proposedquarter for seniordesign 2
Project Name MSD 1 Term MSD 2 Term
Project 1 name goes here
Project 2 name goes hereProject 3 name goes hereProject 4 name goes here
Project 5 name goes here
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Part 1 Part 2 Part 3 Part 4
Subassembly 1A Subassembly 1B Subassembly 1C Subassembly 1D
Subassembly 2A Subassembly 2B Subassembly 2C Subassembly 2DSubassembly 3A Subassembly 3B Subassembly 3C Subassembly 3DSubassembly 4A Subassembly 4B Subassembly 4C Subassembly 4D
Subassembly 5A Subassembly 5B Subassembly 5C Subassembly 5D
List up to seven subassemblies, parts, or components that are the most important parts of this modul
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Part 5 Part 6 Part 7
Subassembly 1E Subassembly 1F Subassembly 1G
Subassembly 2E Subassembly 2F Subassembly 2GSubassembly 3E Subassembly 3F Subassembly 3GSubassembly 4E Subassembly 4F Subassembly 4G
Subassembly 5E Subassembly 5F Subassembly 5G
e
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Function 1 Function 2
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Interface Requirement Number Interface Requiement Decription
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Project 1 name goes
hereart omponent
Subassembly
Characteristic
Number a.1 a.2 a.3 a.4 a.5 a.6 b.a b.2 b.3 b.4 b.5 b.6 c.1
Part / Component /
Subassembly Design
Specification
Description
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
Design Specification units units units units units units units units units units units units units
Preferred Direction Up Down Target Up Down Target Up Down Target Up Down Target Up
Nominal Value
Marginal Value
Subassembly 1A Subassembly 1B
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c.2 c.3 c.4 c.5 c.6 d.1 d.2 d.3 d.4 d.5 d.6 e.1 e.2 e.3 e.4 e.5
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
units units units units units units units units units units units units units units units units
Down Target Up Down Target Up Down Target Up Down Target Up Down Target Up Down
Subassembly 1C Subassembly 1D Subassembly 1E
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e.6 f.1 f.2 f.3 f.4 f.5 f.6 g.1 g.2 g.3 g.4 g.5 g.6
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
units units units units units units units units units units units units units
Target Target Up Up Up Up Down Target Up Down Target
Subassembly 1GSubassembly 1F
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Project Number
Project Name
Prepared By
FMEA ID
Part / Component or
Subassembly
Potential Failure
Modes
Potential Causes of
Failure Mode
Likelihood of
Occurrence
1 Subassembly 1A
2 Subassembly 1A
3 Subassembly 1A
4 Subassembly 1A
5 Subassembly 1A
6 Subassembly 1A
7 Subassembly 1A
8 Subassembly 1A
9 Subassembly 1A
10 Subassembly 1A
11 Subassembly 1A12 Subassembly 1A
13 Subassembly 1A
14 Subassembly 1A
15 Subassembly 1A
16 Subassembly 1A
17 Subassembly 1A
18 Subassembly 1A
19 Subassembly 1A
20 Subassembly 1A
21 Subassembly 1A
22 Subassembly 1A
23 Subassembly 1A24 Subassembly 1A
25 Subassembly 1A
26 Subassembly 1A
27 Subassembly 1A
28 Subassembly 1A
29 Subassembly 1A
30 Subassembly 1A
31 Subassembly 1A
32 Subassembly 1A
33 Subassembly 1A
34 Subassembly 1A
35 Subassembly 1A36 Subassembly 1A
37 Subassembly 1A
38 Subassembly 1A
39 Subassembly 1A
40 Subassembly 1A
41 Subassembly 1A
42 Subassembly 1A
43 Subassembly 1A
44 Subassembly 1A
45 Subassembly 1A
0
Project 1 name goes here
0
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46 Subassembly 1A
47 Subassembly 1A
48 Subassembly 1A
49 Subassembly 1A
50 Subassembly 1A
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End Effects of Failure Mode on
Product, Users, or other Systems
Severity of
Occurrence
Detection Method or Current
Prevention Controls
Failure Modes and Effects Analysis
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Detection Of
Occurrence RPN Score
Actions Recommended to
Reduce RPN
0
000000000
0000000000
00
0000000000
00
0000000
0000
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0
0000
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Project 2 name goes
hereart omponent
Subassembly
Characteristic
Number a.1 a.2 a.3 a.4 a.5 a.6 b.a b.2 b.3 b.4 b.5 b.6 c.1
Part / Component /
Subassembly Design
Specification
Description
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
Design Specification units units units units units units units units units units units units units
Preferred Direction Up Down Target Up Down Target Up Down Target Up Down Target Up
Nominal Value
Marginal Value
Subassembly 2A Subassembly 2B
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c.2 c.3 c.4 c.5 c.6 d.1 d.2 d.3 d.4 d.5 d.6 e.1 e.2 e.3 e.4 e.5
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
units units units units units units units units units units units units units units units units
Down Target Up Down Target Up Down Target Up Down Target Up Down Target Up Down
Subassembly 2C Subassembly 2D Subassembly 2E
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e.6 f.1 f.2 f.3 f.4 f.5 f.6 g.1 g.2 g.3 g.4 g.5 g.6
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
units units units units units units units units units units units units units
Target Target Up Up Up Up Down Target Up Down Target
Subassembly 2GSubassembly 2F
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Project Number
Project Name
Prepared By
FMEA ID
Part / Component or
Subassembly
Potential Failure
Modes
Potential Causes of
Failure Mode
Likelihood of
Occurrence
1 Subassembly 2A
2 Subassembly 2A
3 Subassembly 2A
4 Subassembly 2A
5 Subassembly 2A
6 Subassembly 2A
7 Subassembly 2A
8 Subassembly 2A
9 Subassembly 2A
10 Subassembly 2A
11 Subassembly 2A12 Subassembly 2A
13 Subassembly 2A
14 Subassembly 2A
15 Subassembly 2A
16 Subassembly 2A
17 Subassembly 2A
18 Subassembly 2A
19 Subassembly 2A
20 Subassembly 2A
21 Subassembly 2A
22 Subassembly 2A
23 Subassembly 2A24 Subassembly 2A
25 Subassembly 2A
26 Subassembly 2A
27 Subassembly 2A
28 Subassembly 2A
29 Subassembly 2A
30 Subassembly 2A
31 Subassembly 2A
32 Subassembly 2A
33 Subassembly 2A
34 Subassembly 2A
35 Subassembly 2A36 Subassembly 2A
37 Subassembly 2A
38 Subassembly 2A
39 Subassembly 2A
40 Subassembly 2A
41 Subassembly 2A
42 Subassembly 2A
43 Subassembly 2A
44 Subassembly 2A
45 Subassembly 2A
0
Project 2 name goes here
0
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46 Subassembly 2A
47 Subassembly 2A
48 Subassembly 2A
49 Subassembly 2A
50 Subassembly 2A
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End Effects of Failure Mode on
Product, Users, or other Systems
Severity of
Occurrence
Detection Method or Current
Prevention Controls
Failure Modes and Effects Analysis
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Detection Of
Occurrence RPN Score
Actions Recommended to
Reduce RPN
0
000000000
0000000000
00
0000000000
00
0000000
0000
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0
0000
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Project 3 name goes
hereart omponent
Subassembly
Characteristic
Number a.1 a.2 a.3 a.4 a.5 a.6 b.a b.2 b.3 b.4 b.5 b.6 c.1
Part / Component /
Subassembly Design
Specification
Description
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
Design Specification units units units units units units units units units units units units units
Preferred Direction Up Down Target Up Down Target Up Down Target Up Down Target Up
Nominal Value
Marginal Value
Subassembly 3A Subassembly 3B
8/12/2019 Lve Roadmap
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c.2 c.3 c.4 c.5 c.6 d.1 d.2 d.3 d.4 d.5 d.6 e.1 e.2 e.3 e.4 e.5
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
units units units units units units units units units units units units units units units units
Down Target Up Down Target Up Down Target Up Down Target Up Down Target Up Down
Subassembly 3C Subassembly 3D Subassembly 3E
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e.6 f.1 f.2 f.3 f.4 f.5 f.6 g.1 g.2 g.3 g.4 g.5 g.6
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
units units units units units units units units units units units units units
Target Target Up Up Up Up Down Target Up Down Target
Subassembly 3GSubassembly 3F
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Project Number
Project Name
Prepared By
FMEA ID
Part / Component or
Subassembly
Potential Failure
Modes
Potential Causes of
Failure Mode
Likelihood of
Occurrence
1 Subassembly 3A
2 Subassembly 3A
3 Subassembly 3A
4 Subassembly 3A
5 Subassembly 3A
6 Subassembly 3A
7 Subassembly 3A
8 Subassembly 3A
9 Subassembly 3A
10 Subassembly 3A
11 Subassembly 3A12 Subassembly 3A
13 Subassembly 3A
14 Subassembly 3A
15 Subassembly 3A
16 Subassembly 3A
17 Subassembly 3A
18 Subassembly 3A
19 Subassembly 3A
20 Subassembly 3A
21 Subassembly 3A
22 Subassembly 3A
23 Subassembly 3A24 Subassembly 3A
25 Subassembly 3A
26 Subassembly 3A
27 Subassembly 3A
28 Subassembly 3A
29 Subassembly 3A
30 Subassembly 3A
31 Subassembly 3A
32 Subassembly 3A
33 Subassembly 3A
34 Subassembly 3A
35 Subassembly 3A36 Subassembly 3A
37 Subassembly 3A
38 Subassembly 3A
39 Subassembly 3A
40 Subassembly 3A
41 Subassembly 3A
42 Subassembly 3A
43 Subassembly 3A
44 Subassembly 3A
45 Subassembly 3A
0
Project 3 name goes here
0
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46 Subassembly 3A
47 Subassembly 3A
48 Subassembly 3A
49 Subassembly 3A
50 Subassembly 3A
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End Effects of Failure Mode on
Product, Users, or other Systems
Severity of
Occurrence
Detection Method or Current
Prevention Controls
Failure Modes and Effects Analysis
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Detection Of
Occurrence RPN Score
Actions Recommended to
Reduce RPN
0
000000000
0000000000
00
0000000000
00
0000000
0000
8/12/2019 Lve Roadmap
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0
0000
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Project 4 name goes
hereart omponent
Subassembly
Characteristic
Number a.1 a.2 a.3 a.4 a.5 a.6 b.a b.2 b.3 b.4 b.5 b.6 c.1
Part / Component /
Subassembly Design
Specification
Description
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
Design Specification units units units units units units units units units units units units units
Preferred Direction Up Down Target Up Down Target Up Down Target Up Down Target Up
Nominal Value
Marginal Value
Subassembly 4A Subassembly 4B
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c.2 c.3 c.4 c.5 c.6 d.1 d.2 d.3 d.4 d.5 d.6 e.1 e.2 e.3 e.4 e.5
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
units units units units units units units units units units units units units units units units
Down Target Up Down Target Up Down Target Up Down Target Up Down Target Up Down
Subassembly 4C Subassembly 4D Subassembly 4E
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e.6 f.1 f.2 f.3 f.4 f.5 f.6 g.1 g.2 g.3 g.4 g.5 g.6
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
units units units units units units units units units units units units units
Target Target Up Up Up Up Down Target Up Down Target
Subassembly 4GSubassembly 4F
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Project Number
Project Name
Prepared By
FMEA ID
Part / Component or
Subassembly
Potential Failure
Modes
Potential Causes of
Failure Mode
Likelihood of
Occurrence
1 Subassembly 4A
2 Subassembly 4A
3 Subassembly 4A
4 Subassembly 4A
5 Subassembly 4A
6 Subassembly 4A
7 Subassembly 4A
8 Subassembly 4A
9 Subassembly 4A
10 Subassembly 4A
11 Subassembly 4A12 Subassembly 4A
13 Subassembly 4A
14 Subassembly 4A
15 Subassembly 4A
16 Subassembly 4A
17 Subassembly 4A
18 Subassembly 4A
19 Subassembly 4A
20 Subassembly 4A
21 Subassembly 4A
22 Subassembly 4A
23 Subassembly 4A24 Subassembly 4A
25 Subassembly 4A
26 Subassembly 4A
27 Subassembly 4A
28 Subassembly 4A
29 Subassembly 4A
30 Subassembly 4A
31 Subassembly 4A
32 Subassembly 4A
33 Subassembly 4A
34 Subassembly 4A
35 Subassembly 4A36 Subassembly 4A
37 Subassembly 4A
38 Subassembly 4A
39 Subassembly 4A
40 Subassembly 4A
41 Subassembly 4A
42 Subassembly 4A
43 Subassembly 4A
44 Subassembly 4A
45 Subassembly 4A
0
Project 4 name goes here
0
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46 Subassembly 4A
47 Subassembly 4A
48 Subassembly 4A
49 Subassembly 4A
50 Subassembly 4A
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End Effects of Failure Mode on
Product, Users, or other Systems
Severity of
Occurrence
Detection Method or Current
Prevention Controls
Failure Modes and Effects Analysis
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Detection Of
Occurrence RPN Score
Actions Recommended to
Reduce RPN
0
000000000
0000000000
00
0000000000
00
0000000
0000
8/12/2019 Lve Roadmap
http://slidepdf.com/reader/full/lve-roadmap 84/95
0
0000
8/12/2019 Lve Roadmap
http://slidepdf.com/reader/full/lve-roadmap 85/95
Project 5 name goes
hereart omponent
Subassembly
Characteristic
Number a.1 a.2 a.3 a.4 a.5 a.6 b.a b.2 b.3 b.4 b.5 b.6 c.1
Part / Component /
Subassembly Design
Specification
Description
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
Design Specification units units units units units units units units units units units units units
Preferred Direction Up Down Target Up Down Target Up Down Target Up Down Target Up
Nominal Value
Marginal Value
Subassembly 5A Subassembly 5B
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c.2 c.3 c.4 c.5 c.6 d.1 d.2 d.3 d.4 d.5 d.6 e.1 e.2 e.3 e.4 e.5
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
units units units units units units units units units units units units units units units units
Down Target Up Down Target Up Down Target Up Down Target Up Down Target Up Down
Subassembly 5C Subassembly 5D Subassembly 5E
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e.6 f.1 f.2 f.3 f.4 f.5 f.6 g.1 g.2 g.3 g.4 g.5 g.6
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
R e p
l a c e
t h i s c e
l l w i t h O N E S I N G L E d e s
i g n s p e c
i f i c a t i o n .
units units units units units units units units units units units units units
Target Target Up Up Up Up Down Target Up Down Target
Subassembly 5GSubassembly 5F
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Project Number
Project Name
Prepared By
FMEA ID
Part / Component or
Subassembly
Potential Failure
Modes
Potential Causes of
Failure Mode
Likelihood of
Occurrence
1 Subassembly 5A
2 Subassembly 5A
3 Subassembly 5A
4 Subassembly 5A
5 Subassembly 5A
6 Subassembly 5A
7 Subassembly 5A
8 Subassembly 5A
9 Subassembly 5A
10 Subassembly 5A
11 Subassembly 5A12 Subassembly 5A
13 Subassembly 5A
14 Subassembly 5A
15 Subassembly 5A
16 Subassembly 5A
17 Subassembly 5A
18 Subassembly 5A
19 Subassembly 5A
20 Subassembly 5A
21 Subassembly 5A
22 Subassembly 5A
23 Subassembly 5A24 Subassembly 5A
25 Subassembly 5A
26 Subassembly 5A
27 Subassembly 5A
28 Subassembly 5A
29 Subassembly 5A
30 Subassembly 5A
31 Subassembly 5A
32 Subassembly 5A
33 Subassembly 5A
34 Subassembly 5A
35 Subassembly 5A36 Subassembly 5A
37 Subassembly 5A
38 Subassembly 5A
39 Subassembly 5A
40 Subassembly 5A
41 Subassembly 5A
42 Subassembly 5A
43 Subassembly 5A
44 Subassembly 5A
45 Subassembly 5A
0
Project 5 name goes here
0
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46 Subassembly 5A
47 Subassembly 5A
48 Subassembly 5A
49 Subassembly 5A
50 Subassembly 5A
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End Effects of Failure Mode on
Product, Users, or other Systems
Severity of
Occurrence
Detection Method or Current
Prevention Controls
Failure Modes and Effects Analysis
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Detection Of
Occurrence RPN Score
Actions Recommended to
Reduce RPN
0
000000000
0000000000
00
0000000000
00
0000000
0000
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0
0000
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The definitions on this worksheet are used in the pulldown menus on the other worksheets. Thesedefinitions should not have to be modified.
There is no relationship betweenthese parameters
There is a weak, indirect relataionship 1There is a linear relationship 3There is a stronger than linear relationship 9
Very Positive + +
Positive +
Neutral
Negative -Very Negative - -
This is a low risk 1
This is a moderate risk 2
This is a high risk 3
Prefer to decrease this value Down
Prefer to achieve this value Target
Prefer to increase this value Up
AY 2011-12, Fall Quarter 2011-1 AY 2011-12, Winter Quarter 2011-2
AY 2011-12, Spring Quarter 2011-3
AY 2012-13, Fall Quarter 2012-1
AY 2012-13, Winter Quarter 2012-2 AY 2012-13, Spring Quarter 2012-3
Function Names
Propulsion & Turning
Pairwise Nonlinear Relationships
Rooftop Correlation Codes
FMEA Codes
Directions
Academic Terms