PLC Troubleshooting & Maintenance.pdf
UmutERGENE
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Nov 05, 2022
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About This Presentation
Plc troubleshooting
Slide Content
PLC
Troubleshooting
& Maintenance
www.nfiautomation.org
nfi
nfi
Troubleshooting
& Maintenance
www.nfiautomation.org
nfi
nfi
Senses
Brain Motion
Energy
Manual Work
Human Lags:
•Cannot Work 24 Hours
•Cannot work with 100% Accuracy &
precision
•Efficiency decreases as energy
decreases
Human nfi
Brain Motion
Energy
Manual Work
Human Lags:
•Cannot Work 24 Hours
•Cannot work with 100% Accuracy &
precision
•Efficiency decreases as energy
decreases
Human nfi
Sensors
Controllers
Actuators
Energy
Automatic Work
Machine
Advantages:
•Accuracy
•No idle Time
•More Production
Lags:
•Regular
Troubleshooting &
Maintenance
nfi
Controllers
Actuators
Energy
Automatic Work
Machine
Advantages:
•Accuracy
•No idle Time
•More Production
Lags:
•Regular
Troubleshooting &
Maintenance
nfi
What is Controllers?
Controller
A closed Loop Control System
Controller is a part of Automatic Control System, which process the
signal from sensors
& send it to the actuators
Sensors Actuator nfi
Controller
A closed Loop Control System
Controller is a part of Automatic Control System, which process the
signal from sensors
& send it to the actuators
Sensors Actuator nfi
This is a PLC
Input Terminals
Output Terminals
Programming Cable
A/D Card
D/A Card
RS 485 nfi
Input Terminals
Output Terminals
Programming Cable
A/D Card
D/A Card
RS 485 nfi
This is a PLC
Output Terminals
Programming Cable
Power 24 VDC
Battery
Input Terminals nfi
Output Terminals
Programming Cable
Power 24 VDC
Battery
Input Terminals nfi
Output Terminals
Programming Cable
Power 24 VDC
Input Terminals
This is a PLC nfi
Programming Cable
Power 24 VDC
Input Terminals
This is a PLC nfi
Understanding PLC nfi
Understanding PLC nfi
How to Select a PLC?
Step 1:
Selecting the Inputs
- Number of Inputs
- Input Types –
NPN or PNP
- Nature of Inputs– Digital or
Analog
- Voltage rating of the
Inputs
Step 2:
Selecting the Outputs
- Number of Outputs
- Nature of Outputs –
Digital
or Analog
- Voltage rating of the Inputs
Step 3:
Length of Program –
Big or Small
Nature of Program –
Ladder
Logic, SFC, Instruction List, FDB nfi
Step 1:
Selecting the Inputs
- Number of Inputs
- Input Types –
NPN or PNP
- Nature of Inputs– Digital or
Analog
- Voltage rating of the
Inputs
Step 2:
Selecting the Outputs
- Number of Outputs
- Nature of Outputs –
Digital
or Analog
- Voltage rating of the Inputs
Step 3:
Length of Program –
Big or Small
Nature of Program –
Ladder
Logic, SFC, Instruction List, FDB nfi
Programming Languages
Ladder Logic
SFC
Instruction List
FDB nfi
Ladder Logic
SFC
Instruction List
FDB nfi
PLC Ladder Logic nfi
Common Industrial Hardware
Representing the Binary Concept nfi
Representing the Binary Concept nfi
Basics of
Machine
Language
www.nfiautomation.org
nfi
nfi
Machine
Language
www.nfiautomation.org
nfi
nfi
Bits – Nibble - Byte –Word
ï‚›Unlike English, computers have only two
characters available ï€ 1 or 0.
ï‚›Each 1 or 0 is called a binary digit or bit.
ï‚›Binary is base or radix 2
Basics of Machine Language nfi
ï‚›Unlike English, computers have only two
characters available ï€ 1 or 0.
ï‚›Each 1 or 0 is called a binary digit or bit.
ï‚›Binary is base or radix 2
Basics of Machine Language nfi
PLC
Inputs & Outputs
www.nfiautomation.org
nfi
nfi
Inputs & Outputs
www.nfiautomation.org
nfi
nfi
Digital Inputs & Outputs
Typical Digital Input/ Output Signals
•12 VDC
•24 VDC
•120 VAC
•240 VAC nfi
Typical Digital Input/ Output Signals
•12 VDC
•24 VDC
•120 VAC
•240 VAC nfi
Analog Inputs
ï‚›Typical analog
signals come from
temperature,
pressure, position,
and motor speed.
ï‚›Analog input
modules convert
analog signals to
digital words.
ï‚›Analog input
signals are current
or voltage.
Typical Analog input signals
0 to 10 volts DC
-10 to +10 volts DC
0 to 5 or 1 to 5 volts DC
4 to 20 milliamps
0 to 20 milliamps
-20 to +20 milliamps
PLC INPUTS & OUTPUTS nfi
ï‚›Typical analog
signals come from
temperature,
pressure, position,
and motor speed.
ï‚›Analog input
modules convert
analog signals to
digital words.
ï‚›Analog input
signals are current
or voltage.
Typical Analog input signals
0 to 10 volts DC
-10 to +10 volts DC
0 to 5 or 1 to 5 volts DC
4 to 20 milliamps
0 to 20 milliamps
-20 to +20 milliamps
PLC INPUTS & OUTPUTS nfi
Connections from Field Devices
Image courtesy of Allen-Bradley, a Rockwell Automation business
PLC INPUTS & OUTPUTS nfi
Image courtesy of Allen-Bradley, a Rockwell Automation business
PLC INPUTS & OUTPUTS nfi
Differential Analog Input Connections
Image courtesy of Allen-Bradley, a Rockwell Automation business
PLC INPUTS & OUTPUTS nfi
Image courtesy of Allen-Bradley, a Rockwell Automation business
PLC INPUTS & OUTPUTS nfi
Analog Outputs
ï‚›Typical analog signals are required
by Servo Valves, VFD’s, Servo Motors,
Meters
ï‚›Analog Output modules convert
Digital bits to analog signal.
ï‚›Analog Output signals are current or
voltage.
Typical Analog Output signals
0 to 10 volts DC
-10 to +10 volts DC
0 to 5 or 1 to 5 volts DC
4 to 20 milliamps
0 to 20 milliamps
-20 to +20 milliamps
PLC INPUTS & OUTPUTS nfi
ï‚›Typical analog signals are required
by Servo Valves, VFD’s, Servo Motors,
Meters
ï‚›Analog Output modules convert
Digital bits to analog signal.
ï‚›Analog Output signals are current or
voltage.
Typical Analog Output signals
0 to 10 volts DC
-10 to +10 volts DC
0 to 5 or 1 to 5 volts DC
4 to 20 milliamps
0 to 20 milliamps
-20 to +20 milliamps
PLC INPUTS & OUTPUTS nfi
PLC Enclosure
& System
Components
NEMA –
12
National Electric Manufacturer
Association, USA nfi
& System
Components
NEMA –
12
National Electric Manufacturer
Association, USA nfi
PLC Enclosure
Prevents:
Dust
Water
Oil
Mostly used for
Indoor applications of automation. Some examples
are
Packaging
Material handling
N
on-corrosive process control.
NEMA enclosures are available in sizes from small wall
mounts to multi-door freestanding models.
nfi
Prevents:
Dust
Water
Oil
Mostly used for
Indoor applications of automation. Some examples
are
Packaging
Material handling
N
on-corrosive process control.
NEMA enclosures are available in sizes from small wall
mounts to multi-door freestanding models.
nfi
Enclosure Layout nfi
Placement of PLC Components
All Controller components
should be mounted in a vertical
(upright) position.
To allow
maximum cooling nfi
All Controller components
should be mounted in a vertical
(upright) position.
To allow
maximum cooling nfi
Duck & Wire Layout
Keep AC signals separate from DC Signals
DC Signals -
I/O lines, such as TTL and analog
AC Signals -
Incoming Line Wires
Minimizes the possibility
of electrical noise pickup. nfi
Keep AC signals separate from DC Signals
DC Signals -
I/O lines, such as TTL and analog
AC Signals -
Incoming Line Wires
Minimizes the possibility
of electrical noise pickup. nfi
Power
Requirement &
Safety Circuitry nfi
Requirement &
Safety Circuitry nfi
POWER REQUIREMENTS
Typical Power Requirement
220 VAC nfi
Typical Power Requirement
220 VAC nfi
SAFETY CIRCUITRY
Pull Rope Switch
Door Switch
Emergency Switch Automation Studio nfi
Pull Rope Switch
Door Switch
Emergency Switch Automation Studio nfi
Master or Safety Control
Relays
Automation Studio nfi
Relays
Automation Studio nfi
PLC FAULT CONTACT
PROTECTION
Automation Studio nfi
PROTECTION
Automation Studio nfi
PLC
Maintenance
HEAT,
DUST & NOISE
REGULATION nfi
Maintenance
HEAT,
DUST & NOISE
REGULATION nfi
HEAT & DUST REGULATION
Temperature Withstand Range
0
~ 60° C
PLC MAINTENANCE nfi
Temperature Withstand Range
0
~ 60° C
PLC MAINTENANCE nfi
NOISE REGULATION
Shielded Cables for better communication
PLC MAINTENANCE nfi
Shielded Cables for better communication
PLC MAINTENANCE nfi
NOISE GENERATING DEVICES
VARIABLE FREQUENCY DRIVES
MOTOR STARTERS
RELAYS AND CONTACTORS
SOLENOIDS
PLC MAINTENANCE nfi
VARIABLE FREQUENCY DRIVES
MOTOR STARTERS
RELAYS AND CONTACTORS
SOLENOIDS
PLC MAINTENANCE nfi
NOISE FROM GROUNDING
PLC TROUBLESHOOTING 2 nfi
PLC TROUBLESHOOTING 2 nfi
PLC
I/O Installation,
Wiring & Precautions nfi
I/O Installation,
Wiring & Precautions nfi
I/O INSTALLATION, WIRING, AND
PRECAUTIONS
I/O MODULE INSTALLATION
Placement and installation of the I/O modules is simply a
matter of inserting the correct modules in their proper
locations. This procedure involves verifying the type of
module (220 VAC/ 24 VDC output, 220 VDC/ 24 VDC
input, etc.) and the slot address as defined by the I/O
address assignment document. Each terminal in the
module is then wired to the field devices that have
been assigned to that termination address. The user
should remove power to the modules (or rack) before
installing and wiring any module.11 nfi
PRECAUTIONS
I/O MODULE INSTALLATION
Placement and installation of the I/O modules is simply a
matter of inserting the correct modules in their proper
locations. This procedure involves verifying the type of
module (220 VAC/ 24 VDC output, 220 VDC/ 24 VDC
input, etc.) and the slot address as defined by the I/O
address assignment document. Each terminal in the
module is then wired to the field devices that have
been assigned to that termination address. The user
should remove power to the modules (or rack) before
installing and wiring any module.11 nfi
I/O INSTALLATION, WIRING, AND
PRECAUTIONS
WIRING
WIRE SIZE CONSIDERATION nfi
PRECAUTIONS
WIRING
WIRE SIZE CONSIDERATION nfi
I/O INSTALLATION, WIRING, AND
PRECAUTIONS
WIRE SIZE CONSIDERATION nfi
PRECAUTIONS
WIRE SIZE CONSIDERATION nfi
I/O INSTALLATION, WIRING, AND
PRECAUTIONS
WIRE LABELLING nfi
PRECAUTIONS
WIRE LABELLING nfi
I/O INSTALLATION, WIRING, AND
PRECAUTIONS
WIRE BUNDLING nfi
PRECAUTIONS
WIRE BUNDLING nfi
PLC
START-UP & CHECKING
PROCEDURES nfi
START-UP & CHECKING
PROCEDURES nfi
PLC START-
UP AND
CHECKING PROCEDURES
Model numbers
Placement
Power Supply
Inspection
Verify Field Wiring
&
I/O comm. cables nfi
UP AND
CHECKING PROCEDURES
Model numbers
Placement
Power Supply
Inspection
Verify Field Wiring
&
I/O comm. cables nfi
STATIC INPUT/ OUTPUT WIRING
CHECK
Output Terminals
Input Terminals nfi
CHECK
Output Terminals
Input Terminals nfi
PLC
PREVENTIVE
MAINTENANCE nfi
PREVENTIVE
MAINTENANCE nfi
PLC
PREVENTIVE MAINTENANCE
Regular Filter Cleaning
Regular Dusting
Dust restricts heat dissipation
Avoid Conductive Dust
I/O Module Check for any Loose connections
Avoid Noise generating Equipment close to PLC
Avoid documentation to create HOT SPOT
Install vibration Detector in
area of high vibration nfi
PREVENTIVE MAINTENANCE
Regular Filter Cleaning
Regular Dusting
Dust restricts heat dissipation
Avoid Conductive Dust
I/O Module Check for any Loose connections
Avoid Noise generating Equipment close to PLC
Avoid documentation to create HOT SPOT
Install vibration Detector in
area of high vibration nfi
PLC
PREVENTIVE MAINTENANCE nfi
PREVENTIVE MAINTENANCE nfi
PLC
TROBLESHOOTING
AREAS nfi
TROBLESHOOTING
AREAS nfi
Is Power Indicator Lit?
POWER LED IS TURNED OFF
Is power supply
operating?
Supply the power
Does the power
LED turned on?
Is the fuse
blown?
Is the power
Supply cable Connected?
Is the voltage within
the rated power?
Over current
Device activated?
Does the power
LED turned on?
Does the power
LED turned on?
Does the power
LED turned on?
See the power supply within
180 ~ 240 VAC
Replace the Fuse
Connect the power supply properly
Eliminate excess current &
switch power ON/OFF
Does the power
LED turned on?
Write the steps &
Contact customer care
COMPLETE
NO
YES
YES
YES
NO
NO
NO
NO
NO
NO
YES
NO
NO
NO
YES
YES
YES
YES
YES
YES nfi
POWER LED IS TURNED OFF
Is power supply
operating?
Supply the power
Does the power
LED turned on?
Is the fuse
blown?
Is the power
Supply cable Connected?
Is the voltage within
the rated power?
Over current
Device activated?
Does the power
LED turned on?
Does the power
LED turned on?
Does the power
LED turned on?
See the power supply within
180 ~ 240 VAC
Replace the Fuse
Connect the power supply properly
Eliminate excess current &
switch power ON/OFF
Does the power
LED turned on?
Write the steps &
Contact customer care
COMPLETE
NO
YES
YES
YES
NO
NO
NO
NO
NO
NO
YES
NO
NO
NO
YES
YES
YES
YES
YES
YES nfi
RUN Indicator not Lit
RUN INDICATOR NOT LIT
Is the ERR/ALM
Indicator Lit?
Turn the power supply
OFF & then ON again
Is a fatal error
Displayed?
Is PC mode displayed
On Programming device?
Is the RUN
Indicator lit?
Determine the cause of the
error with the Programming
device
Switch to RUN or
MONITOR mode
Identify the error, eliminate
its cause, & clear the error.
Replace the
CPU Unit
NO
NO
NO
NO
NO
YES
YES
YES
YES
YES
Is PC mode
Displayed on Programming
Device?
END
FATAL ERROR
CHECK nfi
RUN INDICATOR NOT LIT
Is the ERR/ALM
Indicator Lit?
Turn the power supply
OFF & then ON again
Is a fatal error
Displayed?
Is PC mode displayed
On Programming device?
Is the RUN
Indicator lit?
Determine the cause of the
error with the Programming
device
Switch to RUN or
MONITOR mode
Identify the error, eliminate
its cause, & clear the error.
Replace the
CPU Unit
NO
NO
NO
NO
NO
YES
YES
YES
YES
YES
Is PC mode
Displayed on Programming
Device?
END
FATAL ERROR
CHECK nfi
Program cannot be written
PROGRAM CANNOT BE WRITTEN TO PLC
Is the mode setting
Switch set to the remote
stop?
Switch to the remote STOP
mode & execute the
program mode
Is ERR LED Blinking?
After reading error code by
using peripheral device,
correct the content
COMPLETE
NO
NO
YES
NO nfi
PROGRAM CANNOT BE WRITTEN TO PLC
Is the mode setting
Switch set to the remote
stop?
Switch to the remote STOP
mode & execute the
program mode
Is ERR LED Blinking?
After reading error code by
using peripheral device,
correct the content
COMPLETE
NO
NO
YES
NO nfi
ENVIRONMENT CONDITION CHECK Environment Condition Check
Is the ambient
temperature below 55
degree?
Consider using a FAN or
COLLER
Is the ambient
temperature above
0 degree?
Consider using a HEATER
END
Is the ambient humidity
between 10% ~ 85%
Consider using an air
conditioner
Is noise being controlled?
Install surge protectors or other
noise reducing equipment at
noise sources
Is the installation
environment ok?
Consider constructing an
instrument panel or cabinet
NO
NO
NO
NO
NO
YES
YES
YES
YES
YES nfi
Is the ambient
temperature below 55
degree?
Consider using a FAN or
COLLER
Is the ambient
temperature above
0 degree?
Consider using a HEATER
END
Is the ambient humidity
between 10% ~ 85%
Consider using an air
conditioner
Is noise being controlled?
Install surge protectors or other
noise reducing equipment at
noise sources
Is the installation
environment ok?
Consider constructing an
instrument panel or cabinet
NO
NO
NO
NO
NO
YES
YES
YES
YES
YES nfi
ERR/ALM INDICATOR FLASHING ERR/ALM Indicator flashing
Determine the cause of
the error with a
programming device
IS a non fatal error
Indicated?
Identify the error, eliminates its
cause & clear the error
Replace the
CPU Unit
NO
NO
YES
NON- FATAL ERROR
CHECK
Is the ERR/ALM
Indicator flashing?
END
FLASHING nfi
Determine the cause of
the error with a
programming device
IS a non fatal error
Indicated?
Identify the error, eliminates its
cause & clear the error
Replace the
CPU Unit
NO
NO
YES
NON- FATAL ERROR
CHECK
Is the ERR/ALM
Indicator flashing?
END
FLASHING nfi
I/O CHECK
MALFUNCTIONING OF SOL 1
Check the voltage at IR
01003 terminals
Is the Output wiring
correct?
Check output
device SOL 1.
Operation ok?
Replace the CPU Unit,
Expansion Unit, or Expansion
I/O Unit with the problem
Is the IR 01003 output
Indicator operating?
Wire correctly Correct the short circuit or
limit the connected load
to the specified range
Monitor the ON/OFF
status of IR 01003
with the
Programming
Device
Is the external power
supply Shorted or
overload?
Disconnect the external
wires & check the
conductivity of each wire
Operation ok?
Operation ok?
NO
YES
YES
YES
YES
YES
YES
NO
NO
NO
NO
NO
0002
0003
SOL 1
01003
01003
Next slide nfi
MALFUNCTIONING OF SOL 1
Check the voltage at IR
01003 terminals
Is the Output wiring
correct?
Check output
device SOL 1.
Operation ok?
Replace the CPU Unit,
Expansion Unit, or Expansion
I/O Unit with the problem
Is the IR 01003 output
Indicator operating?
Wire correctly Correct the short circuit or
limit the connected load
to the specified range
Monitor the ON/OFF
status of IR 01003
with the
Programming
Device
Is the external power
supply Shorted or
overload?
Disconnect the external
wires & check the
conductivity of each wire
Operation ok?
Operation ok?
NO
YES
YES
YES
YES
YES
YES
NO
NO
NO
NO
NO
0002
0003
SOL 1
01003
01003
Next slide nfi
I/O CHECK
Check the voltage at the
IR 0002 & IR 0003 terminals
Operation ok?
Replace the CPU Unit,
Expansion Unit, or Expansion
I/O Unit with the problem
Are the IR 0002 & IR 0003
Input indicators operating
Normally?
Is the wiring correct?
Wire Correctly
Operation ok?
Are the terminals
screws loose?
NO
YES
0002
0003
SOL 1
01003
01003
Replace the CPU Unit,
Expansion Unit, or
Expansion I/O Unit
with the problem
Check operation by using
a dummy input signal to
turn the input ON & OFF
Check input
devices LS1 & LS2
Check the voltage at the
IR 0002 & IR 0003 terminals
Operation ok?
Return to Start
Tighten the
terminal screws
From previous slide
NO
NO
NO
NO
NO
YES
YES
YES
YES nfi
Check the voltage at the
IR 0002 & IR 0003 terminals
Operation ok?
Replace the CPU Unit,
Expansion Unit, or Expansion
I/O Unit with the problem
Are the IR 0002 & IR 0003
Input indicators operating
Normally?
Is the wiring correct?
Wire Correctly
Operation ok?
Are the terminals
screws loose?
NO
YES
0002
0003
SOL 1
01003
01003
Replace the CPU Unit,
Expansion Unit, or
Expansion I/O Unit
with the problem
Check operation by using
a dummy input signal to
turn the input ON & OFF
Check input
devices LS1 & LS2
Check the voltage at the
IR 0002 & IR 0003 terminals
Operation ok?
Return to Start
Tighten the
terminal screws
From previous slide
NO
NO
NO
NO
NO
YES
YES
YES
YES nfi
Thanks
www.nfiinnovation.org
nfi
nfi
www.nfiinnovation.org
nfi
nfi
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