Training Course
Syllabus:
If your building facility,
plant equipment or OEM system has Variable Frequency Drives, this is the perfect
opportunity for you to unlock the secrets and dispel the myths generally
associated with these high tech devices. After attending this seminar you will
go back to your workplace with real world, practical knowledge and be able to
immediately apply what you have learned so that you can keep your equipment up
and running. This seminar will teach you how to troubleshoot common VFD
problems, take care of your own equipment, and avoid costly repairs or service
calls.
Course
Competencies & Learning Objectives:
-
Identify hazards associated with working on VFDs
-
Understand the importance
of safe work practices
-
Troubleshoot problems
associated with VFDs and
associated automated control systems
-
Recognize the main
components of a VFD system
-
Understand the different methods of controlling
a VFD
-
Be familiar with
installation requirements
-
Understand motor/load
requirements
-
Know how to respond to various WARNING or FAULT
indications on the VFD
-
Know the preventative maintenance requirements
when using VFDs
In the area of
Facilities Maintenance we’ll cover specific applications involving HVAC
equipment such as air handlers, hot water and chilled water pumps, and cooling
tower fans. In the realm of Industrial maintenance we’ll look at a variety of
other specific applications including those requiring constant torque operation.
And if you have a unique VFD application, just let our instructor know. If he
can’t help you with your specific problem, we’ll refund your money – guaranteed!
Equipment
operators, technicians and maintenance personnel as well as electricians and
facility managers will benefit from attending this seminar. Course graduates
will have learned how to solve common VFD problems resulting in reduced
downtime. This means a lower cost of operation with less dependence on outside
service contractors. Training will include AC motors, VFD configuration,
component layout, applications, various control methods, and installation
requirements. Common problems and troubleshooting techniques will be covered as
well as VFD operation, setup, programming and preventative maintenance. Other
related topics like power quality and harmonics will also be discussed. And to
be 100% certain you get the training you need, students are encouraged to bring
schematics and diagrams of the VFD’s in their own facility!
Course
Outline:
I. VFD
Safety Issues/ Electrical Safe Work Practices
A. (PPE)
Personnel Protective Equipment
B. Safe
Approach distances
C. Electrical
Hazards
D. LOTO
(Lockout – Tagout)
E. Insulated
Tools
II. Meter
Review
A.
Mulitmeter
B. Clamp-On
C. Megohmmeter
III. Motor
Basics Review
A. Motor
Design
B. Single
Phase and Three Phase
C. Motor
Starters
D. Motor
Troubleshooting and Replacement
IV. Control
Circuit Basics
A. Electrical
Symbols and Schematics
B. Control
Circuit Troubleshooting
C. Fuse
Replacement
V. Customer
Connections
A. Safety
Circuit
B. Start
/ Stop
C. Jog
D. Status
Indication
E. Fault
Indication
F. Remote
Speed Reference
G. Monitoring
of Motor Parameters
VI. VFD
History
A. Introduction
B. Semiconductors
in VFD Design
C.
SCR’s / GTO’s / Transistors / IGBT’s / LSI
VII. What
VFD’s Do
A. A.
Motion Control / Motor Speed
B. Air
Flow / Pressure Control
C. Liquid
Flow / Pressure Control
D.Eliminates
the need for:
E. Variable
Transmission or Sheave
F. Variable
Vanes or Dampers on Fans
G. Variable
Valves on Pumps
VIII.Benefits
of Using a VFD
A. A.
Energy Savings
B. Easier
Maintenance
C. Enhanced
System Monitoring
IX. Load
Types
A. Constant
Torque – Conveyors, Positive Displacement Pumps,
Superchargers
B.
Variable Torque -
Centrifugal Fans or Pumps, Saws, Routers, Planers
X.
VFD Options
A. Bypass
- Two or Three Contactor Style, Disconnect
B. Switch
Style, Soft Starter
C.
Fusing - VFD or
Bypass Protection
D. Input
/ Output Reactors
E. Motor
Overload Device
F. Transient
Protection
G. Auxiliary
Relays
H. Power
Line Phase Reversal Detection
XI. Installation
of a VFD
A. Environmental
Concerns
B.
Clearances
C. Conduit
Entry
XII. Customer
Connections
A.
Safety Circuit
B.
Start / Stop
C. Jog
D. Status
Indication
E. Fault
Indication
F. Remote
Speed Reference
G.Monitoring
of Motor Parameters
XIII. Wiring
and Grounding VFD’s
A.
Induced Signals – Inductive, Capacitative
B. Incoming
Power (line) Wiring
C. Motor
(load) Wiring
D. Control
Wiring
E. Proper
Grounding Methods
XIV.Controlling
a VFD
A. Keypad
Controls
B. Terminal
Strip Control – Automatic, Manual
C. Bus
Communication Control
D. Open
Loop Control
E. Manual
Operation
F. Automatic
Operation
XV. Sensorless
Flux Vector
A. Closed
Loop
Control
B. PI
Loop Configuration
C. Sensor
or Transducer Feedback
D.Motor
Shaft Encoder Feedback
XVI.VFD
Setup, Programming and Troubleshooting
A. Language
& Display
B.
Control Modes - Open
Loop, Closed
Loop
C. Motor
Data
D. Motor
Power (kW) and
RPM
E. Voltage,
FLA
Current
F. Service
Factor, Power Factor
G. References
& Limits
H. Motor
Speeds – Min, Max and Preset
I. Ramp
Times
J.
Speed Reference
K.
Skip Frequencies
L. Limits
for Alarms or Faults
M. Inputs
/ Outputs – Analog, Digital, and Relay
N. Application
Functions
O. Reset
P.
Flying Start
Q. Sleep
Mode
R. Switching
Frequency
S. No
Load
T. Phase
Loss
U. Closed
Loop
Functions
V. Normal
/ Inverse
W. Anti
Windup
X. Start-up
Frequency
Y. Integral
Time / Differential Time
Z. Proportional
Gain / Differential Gain
AA.
Low-pass Filter
Length of
Course Instruction: 14
hours
CEU value:
1.4
You will receive a personalized Certificate of Completion
and 1.4 American Trainco Continuing Education Units (.7 credits for each day).
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