Maximizing Motor Power at Constant Voltage - PowerPoint Presentation

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Uploaded On 2019-02-08

Maximizing Motor Power at Constant Voltage - PPT Presentation

2012 Project Lead The Way Inc Principles of Engineering Speed Depends on Load Torque When a motor is loaded with no torque it spins at noload speed w 0 w 0 noload speed ID: 750945

power torque stall motor torque power motor stall speed maximum application gear load vex pick retrieved slide ratiostep tstallw0

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Slide1

Maximizing Motor Power at Constant Voltage

Principles of EngineeringSlide2

Speed Depends on Load TorqueWhen a motor is loaded with no torque, it spins at no-load speed, w0 . w0 = no-load speed

When a motor is loaded with the stall torque

tstall or more, the motor will stop. tstall = stall torqueSlide3

Speed vs. Torque is LinearTorque t

Speed w

tstallw0

Half speed

Stall

No-load speed

Slide4

Optional slide for the genius:Speed vs. Torque Depends on VoltageTorque tSpeed w

7 V

3 V

motor speed 120

motor speed 90

otor speed 60Slide5

Power Power = Torque x Angular Speed

P = t • wSlide6

Power = Torque x SpeedTorque t

Speed w

tstallw0

No power. Why?

No power. Why?Slide7

Maximum Power at Half Stall TorqueTorque

tSpeed w

tstallw0

Maximum power. Why?

stall

Slide8

Why half stall torque?

Multiply both sides by torque, product on left is power.

Linear equation from last slide.

Down-facing parabola.Slide9

Torque tPower P

Maximum power

Stall

No load

Maximum Power at

Half

Stall Torque

stall

Slide10

VEX® Application: Pick a Gear RatioStep 1. This motor is stalled. What is the stall torque?

Step 2. At what torque will the motor deliver maximum power?

d = 3 in.F = 1.4 lb

VEX motor

stall

= d x F

┴

= (3 in.)(1.4

)

= 4.2

maxPower

= ½

stall

= ½

(

4.2

·in.) = 2.1 lb·

.Slide11

VEX Application: Pick a Gear RatioStep 3. The same motor as in the last slide is being used to power a winch with a drum of radius 2 in. lifting 0.2 lb. What torque is the motor applying?tout = d x F┴ = (2 in.)(0.2 lb) = 0.4 lb·in.

d = 2 in.

F = 0.2 lbsSlide12

VEX Application: Pick a Gear RatioStep 4. Instead of direct drive, what gear ratio would make the motor deliver maximum power?

GR =

d = 2 in.

F = 0.2

lbsSlide13

VEX Application: Pick a Gear RatioNow the winch is geared so that the motor is delivering half its stall torque, for maximum power.

GR =Slide14

Human Application: Bicycle “gears”Can you explain why changing “gears” on a bike helps a person win a race that goes up and down hills?Slide15

ReferencesMicromo (n.d.). DC Motors Tutorials. Retrieved from http://www.micromo.com/dc-motor-tutorials.aspxMIT Center for Innovation in Product Development (1999). Designing with DC Motors. Retrieved from http://lancet.mit.edu/motors/index.htmlWikipedia

(2009). Derailleur Bicycle Drivetrain. Retrieved from http://en.wikipedia.org/wiki/File:Derailleur_Bicycle_Drivetrain.svg