WIND 220 Data Acquisition and Circuits*

Upon completion of this course, a student will be able to:

• Describe the Functions of a Utility Scale Wind Turbine Hub
• Describe the Functions of the Wind Turbine Electric Hub Subsystems
• Define Wind Turbine Pitch Position Measurement
• Describe the Operation States of a Utility-Scale Wind Turbine Hub
• Describe Utility-Scale Wind Turbine Electric Hub Safety Rules
• Describe How to Perform a Lockout/Tagout on a Wind Turbine Hub
• Describe the Functions of Wind Turbine Pitch Control HMI Software
• Describe How to Use Pitch Control HMI Software to Monitor Wind Turbine Electric Hub
• Describe the Operation of a Wind Turbine Electric Hub Slip Ring
• Describe the Power Distribution System of a Wind Turbine Electric Hub
• Describe How to Manually Turn On the Turbine Pitch Control Digital Outputs
• Describe the Functions of the Components of a Wind Turbine Electric Servo Pitch System
• Describe the Operation of a Wind Turbine Electric Servo Pitch System
• Describe How to Test a Wind Turbine Electric Servo Pitch System
• Describe How to Set the Absolute Reference Position of Wind Turbine Blades
• Describe the Operation of Wind Turbine Pitch Limit Switches
• Describe How to Test the Operation of the Wind Turbine Pitch Limit Switches
• Describe How to Command the Pitch Controller to an Emergency Feather Condition
• Describe How to Perform an Emergency Feather Test
• Describe the Basic Operation of a Battery
• Describe the Basic Construction of a Battery
• Describe Battery Safety Rules
• Describe How to Measure the Open-Circuit Voltage of a Battery
• Define Battery Capacity and Give Its Units of Measure
• Describe the Discharge Characteristics of a Battery
• Describe How to Calculate Battery Discharge Rate
• Explain How EPU Batteries Are Specified
• Describe the Operation of a Battery Bank
• Describe How to Connect a Battery Bank Given a Schematic
• Describe Four Stages of Battery Charging
• Describe the Operation of a Wind Turbine Hub Battery Charging System
• Describe the Operation of a Wind Turbine Hub Emergency Power Unit
• Describe How to Perform an Emergency State Recovery Test
• Describe How to Perform a Wind Turbine EPU Voltage Verification Test
• Describe How to Perform a Wind Turbine EPU Power Verification Test
• Describe How to Respond to Wind Turbine Hub Warning Messages
• Describe How to Respond to Wind Turbine EFC Fault Messages
• Describe How to Troubleshoot an Individual Wind Turbine Blade EFC Fault
• Describe How to Troubleshoot a Wind Turbine System EFC Fault
• Describe How to Troubleshoot a Wind Turbine Slip Ring
• Describe How to Test a Battery
• Demonstrative Outcomes:
• Perform a Lockout/Tagout On a Wind Turbine Hub
• Use Pitch Control HMI Software to Monitor Wind Turbine Electric Hub Operation
• Manually Turn On Pitch Control Digital Outputs
• Test a Wind Turbine Electric Servo Pitch System
• Set the Absolute Reference Position of Wind Turbine Blades
• Test the Operation of Wind Turbine Pitch Limit Switches
• Command a Pitch Control to an Emergency Feather Position
• Perform an Emergency Feather Test
• Measure the Open-Circuit Voltage of a Battery
• Calculate Battery Discharge Rate
• Interpret a Battery Specification
• Connect a Battery Bank Given a Schematic
• Monitor Battery System Charge Status
• Perform an Emergency State Recovery Test
• Perform a Wind Turbine EPU Voltage Verification Test
• Perform a Wind Turbine EPU Power Verification Test
• Respond to a Hub Fault Message
• Troubleshoot a Wind Turbine Pitch Control System
• Troubleshoot a Wind Turbine Slip Ring
• Test a Battery