VS1MD User Manual
MN760-3
Instruction Manual
6/07
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WARNING: Do not remove cover for at least five (5) minutes after AC power is disconnected
to allow capacitors to discharge. Dangerous voltages are present inside the equipment. Electrical
shock can cause serious or fatal injury.
!
!
WARNING: Improperoperationofcontrol maycause violentmotion ofthemotorshaft and driven
equipment. Be certain that unexpected motor shaft movement will not cause injury to personnel
or damage to equipment. Certain failure modes of the control can produce peak torque of several
times the rated motor torque.
WARNING: Motor circuit may have high voltage present whenever AC power is applied, even
when motor is not rotating. Electrical shock can cause serious or fatal injury.
!
!
!
!
WARNING: Dynamic brake resistors may generate enough heatto ignite combustible materials.
Keep all combustible materials and flammable vapors away from brake resistors.
WARNING: The motor shaft will rotate during the touting procedure. Be certain that unexpected
motor shaft movement will not cause injury to personnel or damage to equipment.
CAUTION: Disconnect motor leads (U, V & W) from control before you perform a “Megger” test
on the motor. Failure to disconnect motor from the control will result in extensive damage to the
control. The control is tested at the factory for high voltage / leakage resistance as part of
Underwriter Laboratory requirements.
CAUTION: Suitable for use on a circuit capable of delivering not more than the RMS
symmetrical short circuit amperes listed here at rated voltage.
!
Horsepower
RMS Symmetrical Ampheres
1-30
5,000
CAUTION: Do not connect AC power to the Motor terminals U, V and W. Connecting AC power
to these terminals may result in damage to the control.
!
!
!
CAUTION: Baldor recommends not to use "Grounded Leg Delta" transformer power leads that
may create ground loops. Instead, we recommend using a four wire Wye.
CAUTION: Only Baldor cables should be used to connect the keypad and control. These are
special cables to protect the control and keypad. Damage associated with other cable types are
not covered by the Baldor warranty.
CAUTION: If an M-Contactor is installed, the control must be disabled for at least 200msec
before the M-Contactor is opened. If the M-Contactor is opened while the control is supplying
voltage and current to the motor, the control may be damaged. Before the control is enabled, the
M-Contactor must be closed for at least 200msec.
!
!
CAUTION: Use of power correction capacitors on the output of the drive can result in erratic
operation of the motor, nuisance tripping, and/or permanent damage to the drive. Remove power
correction capacitors before proceeding. Failure to observe thisprecaution could resultin damage
to, or destruction of, the equipment.
-3
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-4
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VS1MD ERRATA SHEET
1.1 Change from Main Source to 2nd Source
The function of parameters P46 and P47 has been changed. A digital input can now
select between the main control and speed setting selected in parameters P38 and
P40 and the secondary source set in parameters P46 and P47. A digital input
programmed in t1 to t8 must be set to “22” Exchange between second source and
drive.
1.2 Parameters
P46
Drive Start/Stop Source 2
Range:
0 to 3 (see table for P38)
0 = Keypad
Default:
Access:
See Also:
Configurable
P38, P47, t1 to t8
This parameter serves as an alternate control mode. It is selectable by
a digital input (t1 to t8) = “22” Exchange between second source and
drive.
P47
Frequency Setting Mode 2
Range:
1 to 7 (See table for P40)
1 = Keypad
Default:
Access:
See Also:
Configurable
P40, P47, t1 to t8
This parameter serves as an alternate speed reference mode. It is
selectable by a digital input (t1 to t8) = “22” Exchange between second
source and drive.
NOTE: Parameters P46 and P47 are only viewable when one of the t1 to t8
terminals is set equal to “22”.
t1-t8
Digital Input 1 define (I/O Terminal P1) to Digital Input 8 define (I/O
Terminal P8)
Range:
0 to 25
Default:
Access:
See Also:
t1 = 0, t2 = 1, t3 = 2, t4 = 3, t5 = 4, t6 = 5, t7 = 6, t8 = 7
Configurable
n/a
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22 = Exchange between second source and drive: When the defined
input is turned ON, the values set in drv2 and Frq2 are used for control
and reference to the drive. Settings for drv2 and Frq2 can not be
changed while the digital input is closed. During the change over from
the Main Source to the 2nd source, the drive will stop if the control
source differs. To restart the drive, a new run command must be given.
Digital/Relay Output On/Off Delay
A timer function has been implemented by adding four new software parameters.
Two are for the On Delay and two for the Off Delay timer to the digital outputs of the
VS1MD drive. Setting a value of greater than zero will begin the On, Off or both
timers when the condition set in t32 and t33 for the digital outputs is met.
In the case of the On delay timer, the actual output will not change state until the
time value set in t50 to t51 is met. The Condition set in t32 to t33 must be active
when the timer is reached for the output state to change.
In the case of the Off delay timer, once the output state is on, it will delay turning off
after the Off delay value is reached on t52 to t53. When the Off delay time is
reached, the condition set in t32 to t33 must still be off.
t50
t51
Digital Output (MO) On Delay
Relay Output (3A - 3C) On Delay
Range:
0 to 3,600 Seconds
0
Default:
Access:
See Also:
Configurable
t32 and t33
Sets the on delay timer for the digital output.
t52
t53
Digital Output (MO) Off Delay
Relay Output (3A - 3C) Off Delay
Range:
0 to 3,600 Seconds
0
Default:
Access:
See Also:
Configurable
t32 and t33
Sets the off delay timer for the digital output.
MO or Relay State
Output
On Delay Tme
On Delay Time
MO or Relay State
Output
Off Delay Time
Off Delay Time
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Table of Contents
Chapter 1 Introduction
1.1 Getting Assistance from Baldor ....................................................................... 1-1
Chapter 2 General Information and Ratings
2.1 Identifying the Drive by Model Number ........................................................... 2-1
2.2 VS1-MD Drive Ratings, Model Numbers and Frame Sizes............................. 2-2
2.3 Storage Guidelines .......................................................................................... 2-2
Chapter 3 Installing the Drive
3.1 General Requirements for the Installation Site................................................ 3-1
3.2 Mounting the Drive .......................................................................................... 3-5
3.3 Watts Loss Data .............................................................................................. 3-6
Chapter 4 Power Wiring
4.1 Grounding the Drive ........................................................................................ 4-1
4.2 Connecting Peripheral Devices to the VS1-MD Drive ..................................... 4-3
4.3 Power Terminal Wiring .................................................................................... 4
4.4 Specifications for Power Terminal Block Wiring ............................................. 4-5
4.5 Recommended Breakers................................................................................. 4
4.6 Recommended AC Reactors........................................................................... 4-6
Chapter 5
Control Wiring
5.1 Stop Circuit Requirements............................................................................... 5-1
5.2 Motor Start/Stop Precautions .......................................................................... 5-2
5.3 Terminal Wiring (Control I/O)........................................................................... 5-3
5.4 Control Terminal Specifications....................................................................... 5
5.5 Source/Sync for Input Control Wiring .............................................................. 5-5
5.6 I/O Wiring Recommendations.......................................................................... 5-6
5.7 Technical Specifications.................................................................................. 5-6
Chapter 6 Using the Keypad
6.1 Keypad Components....................................................................................... 6-1
6.2 LED Descriptions............................................................................................. 6-2
6.3 Key Descriptions.............................................................................................. 6-2
6.4 About Parameters............................................................................................ 6-3
6.5 How Parameters are Organized ...................................................................... 6-4
6.6 Moving Between Parameter Groups ............................................................... 6-4
6.7 Changing Between Parameters Within a Group.............................................. 6-6
6.8 Modifying the Value of a Parameter ................................................................ 6-8
6.9 Monitoring Display Parameters ..................................................................... 6-10
6.10 Reviewing the Fault Status in the Display Group .......................................... 6-11
6.11 Resetting the Parameters to Factory Default ................................................ 6-12
Chapter 7 Parameter Descriptions
7.1 Overview.......................................................................................................... 7-1
7.2 Display Group Parameters .............................................................................. 7-2
7.3 Basic Group Parameters ................................................................................. 7-5
7.4 Terminal Paramters....................................................................................... 7-12
7.5 Function Group 1 Parameters ....................................................................... 7-28
7.6 Function Group 2 Paramters ......................................................................... 7-40
Contents
I
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Chapter 8 Customizing for Your Application
8.1 Frequency Mode ..............................................................................................8-1
8.2 UP-Down..........................................................................................................8
8.3 3-Wire ..............................................................................................................8
8.4 PID Control.....................................................................................................8
8.5 Auto-tuning.....................................................................................................8-
8.6 Sensorless Vector Control .............................................................................8
8.7 Speed Search ...............................................................................................8
8.8 Self-Diagnostic Function ................................................................................8-17
8.9 Parameter Read/Write ...................................................................................8
8.10 Parameter Initialization / Lock........................................................................8-19
8.11 Multi-function Output Terminal (MO) and Relay (3AC) ..................................8
8.12 Accel/Decel setting and V/F Control ..............................................................8-27
8.13 Control Block Diagram ...................................................................................8-28
8.14 Frequency and Drive Mode Setting................................................................8-29
Chapter 9 Troubleshooting
9.1 Verifying that DC Bus Capacitors are Discharged Before
Servicing the Drive..........................................................................................9-1
9.2 Determining Drive Status Using the STP/FLT LED..........................................9-2
9.3 Monitoring Drive Status Using the Display Parameters ...................................9-2
9.4 Reviewing Fault Status of the Drive.................................................................9-3
9.5 Fault Codes......................................................................................................9-3
9.6 Fault Correction................................................................................................9-6
9.7 Overload Protection .........................................................................................9-8
Appendix A Technical Specifications........................................................................................ A-1
Appendix B Options & Kits
B.1 Remote Option................................................................................................ B-1
B.2 Conduit Kit....................................................................................................... B-4
B.3 Breaking Resistor............................................................................................ B-8
Appendix C RS485 Protocol
C.1 Introduction ..................................................................................................... C-1
C.2 Specifications.................................................................................................. C-2
C.3 Installation....................................................................................................... C-3
C.4 Operation ........................................................................................................ C-3
C.5 Communication Protocol (MODMUS-RTU)..................................................... C-4
C.6 Communication Protocol (LS BUS)................................................................. C-4
C.7 Troubleshooting .............................................................................................. C-7
II
VS1MD User Manual
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CHAPTER 1
Introduction
This manual is intended for qualified electrical personnel familiar with installing,
programming, and maintaining AC Drives.
This manual contains information on:
• Installing and wiring the VS1MD drive
• Programming the drive
• Troubleshooting the drive
1.1 Getting Assistance from Baldor
For technical assistance, call 1-864-284-5444. Before calling, please review the
troubleshooting section of this manual and check the Baldor Drives website at
www.reliance.com/vsdrives for additional information. When you call technical
support, you will be asked for the drive model number or catalog number and this
instruction manual number.
Introduction
1-1
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1-2
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CHAPTER 2
General Information and Ratings
The VS1MD is a variable frequency PWM drive capable of operating in open-loop,
volts-per-hertz mode and in a sensorless vector control (SVC) mode.
This chapter contains information about the VS1MD drive, including how to identify
the drive.
2.1 Identifying the Drive by Model Number
Each drive can be identified by its model number, as shown in figure 2.1. The model
number is on the shipping label and the drive nameplate. The model number includes
the drive and any options.
Drive model numbers for the VS1MD drive are provided in table 2.1.
VS1 MD 4 10
HP
0P5 = 0.5HP
1 = 1HP
2 = 2HP
3 = 3HP
5 = 5HP
7 = 7.5 HP
10 = 10HP
Voltage:
2 = 230V
4 = 460V
Family
MD = Microdrive
Figure 2.1 – Identifying the Drive by Model Number
General Information and Ratings
2-1
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2.2 VS1MD Drive Ratings, Model Numbers and Frame
Sizes
Similar VS1MD drive sizes are grouped into frame sizes to simplify re-ordering and
dimensioning. Refer to figures 3.2 through 3.5 for the dimensions of each frame size.
Table 2.1 provides VS1MD drive ratings, model numbers and frame sizes.
Table 2.1 – Drive Ratings, Model Numbers and Frame Sizes
Drive Ratings
kW HP
Model Number
Frame
Size
Input Voltage
Output
Current
0.4
0.5
1.0
2.0
3.0
5.0
7.5
10
2.5
VS1MD20P5
VS1MD21
VS1MD22
VS1MD23
VS1MD25
VS1MD27
VS1MD210
VS1MD40P5
VS1MD41
VS1MD42
VS1MD43
VS1MD45
VS1MD47
VS1MD410
A
0.75
1.5
2.2
3.7
5.5
7.5
0.4
0.75
1.5
2.2
3.7
5.5
7.5
4.5
A
B
C
C
D
D
A
A
B
C
C
D
D
200-230V
3-Phase
8.0
12.0
17.0
24.0
32.0
1.25
2.5
0.5
1.0
2.0
3.0
5.0
7.5
10.0
4.0
380-480V
3-Phase
6.0
8.0
12.0
16.0
2.3 Storage Guidelines
If you need to store the drive, follow these recommendations to prolong drive life and
performance:
o
o
• Store the drive within an ambient temperature range of -40 to +70 C .
• Store the drive within a relative humidity range of 0% to 90%, non-condensing.
Do not expose the drive to a corrosive atmosphere.
2-2
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CHAPTER 3
Installing the Drive
This chapter provides information that must be considered when planning a VS1MD
drive installation and provides drive mounting information and installation site
requirements.
ATTENTION: Only qualified electical personnel familiar with the
construction and operation of this equipment and the hazards involved
should install, adjust, operate, or service this equipment. Read and
understand this manual and other applicable manuals in their entirety
before proceeding. Failure to observe this precaution could result in
severe bodily injury or loss of life.
!
ATTENTION: Use of power correction capacitors on the output of
the drive can result in erratic operation of the motor, nuisance tripping,
and/or permanent damage to the drive. Remove power correction
capacitors before proceeding. Failure to observe this precaution could
result in damage to, or destruction of, the equipment.
ATTENTION: The user is responsible for conforming with all
applicable local, national, and international codes. Failure to observe
this precaution could result in damage to, or destruction of, the
equipment.
3.1 General Requirements for the Installation Site
It is important to properly plan before installing a VS1MD to ensure that the drive’s
environment and operating conditions are satisfactory.
The area behind the drive must be kept clear of all control and power wiring. Power
connections may create electromagnetic fields that may interfere with control wiring or
components when run in close proximity to the drive.
Read the recommendations in the following sections before continuing with the drive
installation.
Installing the Drive
3-1
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3.1.1 Operating Conditions
Before deciding on an installation site, consider the following guidelines:
• Protect the cooling fan by avoiding dust or metallic particles.
• Do not expose the drive to a corrosive atmosphere.
• Protect the drive from moisture and direct sunlight.
• Verify that the drive location will meet the environmental conditions specified in table
3.1.
Table 3.1 – Ambient Temperatures and Mounting Clearances
Ambient Temperature
Enclosure Rating
Minimum Mounting
Clearances
Minimum
Maximum
o
o
IP20/Open Type
IP20/NEMA 1
Side-by-Side
5 cm
-10 C
50 C
o
o
(14 F)
(122 F)
o
5 cm
5 cm
40 C
o
(104 F)
o
50 C
o
(122 F)
3.1.2 Minimum Mounting Clearances
Refer to figure 3.1 for the minimum mounting clearances. Refer to section 3.1 for drive mounting
dimensions.
5 cm
(1.0 in)
Figure 3.1 – Minimum Mounting Clearances
3-2
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3.1.3 Mounting Dimensions for the VS1MD Drive
Overall dimensions and weights are illustrated in figures 3.2, 3.3, 3.4 and 3.5 as an aid to
calculating the total area required by the VS1-MD drive. Dimensions are in millimeters. Weights
are in kilograms. See table 2.1 for drive ratings by frame.
W
W1
A
A
H1
H
D
B
W1
Frame Size A
230V/460V
230V/460V
HP
0.5
1.0
W
70
70
W1
65.5
65.5
H
H1
119
119
D
A
B
kg
128
128
130
130
4.5
4.5
4.0
4.0
0.76
0.77
Figure 3.2 – Drive Dimensions and Weights Frame A
Installing the Drive
3-3
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W
W1
A
A
H1
H
D
B
W1
Frame Size B
230V/460V
HP
2.0
W
W1
H
H1
120
D
A
B
kg
100
95.5 128
130
4.5
4.5
1.12
Figure 3.3 – Drive Dimensions and Weights Frame B
W
A
H1
H
D
B
B
W1
Frame Size C
230V/460V
230V/460V
HP
W
W1
H
H1
D
A
B
kg
3.0 140 132
5.0 140 132
128
128
120.5
120.5
155
155
4.5
4.5
4.5
4.5
1.84
1.89
Figure 3.4 – Drive Dimensions and Weights Frame C
3-4
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W
W
A
A
H1
H
D
B
B
W1
A
Frame Size D
230V/460V
230V/460V
HP
7.5
W
W1
170
170
H
H1
D
B
kg
180
180
220
220
210
210
170
170
5.0
5.0
4.5
4.5
3.66
3.66
10.0
Figure 3.5 – Drive Dimensions and Weights Frame D
3.2 Mounting the Drive
Mount the drive upright on a flat, vertical, and level surface.
Table 3.1 – Mounting Specifications
Frame
Screw Size
M3.5 (#6-32)
M4 (#8-32)
M4 (#8-32)
M4 (#8-32)
Screw Torque
A
B
C
D
0.67 - 0.97 N-m (6 - 8 in-lb)
1.56 - 1.96 N-m (14 -17 in-lb)
1.56 - 1.96 N-m (14 -17 in-lb)
1.56 - 1.96 N-m (14 -17 in-lb)
3.2.1 Protecting the Drive from Debris
The drive must be protected from debris falling through the vents in the top of the drive
during installation and operation. The drive is designed to operate in IP20/Open Type
application mounted in a protective enclosure. A conduit kit is available as an option
which provides a top panel to block the top vents and prevent debris from entering the
drive.
Installing the Drive
3-5
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3.3 Watts Loss Data
Table 3.2 – Watts Loss Data
Model #
HP
230 Volts
0.5
Frame
Watts Loss
VS1MD20P5
VS1MD21
VS1MD22
VS1MD23
VS1MD25
VS1MD27
VS1MD210
A
A
B
C
C
D
D
13
28
18
56
98
73
70
1.0
2.0
3.0
5.0
7.5
10.0
460 Volts
0.5
VS1MD40P5
VS1MD41
VS1MD42
VS1MD43
VS1MD45
VS1MD47
VS1MD410
A
A
B
C
C
D
D
9
1.0
22
32
47
94
84
113
2.0
3.0
5.0
7.5
10.0
3-6
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CHAPTER 4
Power Wiring
4.1 Grounding the Drive
ATTENTION:The following information is merely a guide for proper
installation. Baldor Electric Company cannot assume responsibility for
the compliance or the noncompliance to any code, national, local or
otherwise for the proper installationofthis driveor associatedequipment.
A hazard of personal injury and/or equipment damage exists if codes are
ignored during installation.
!
ATTENTION:Use the dedicated ground terminal to ground the drive. Do
not use the screw in the case or chassis, etc for grounding.
The drive Safety Ground -
must be connected to system ground. Ground impedance must
conform to the requirements of national and local industrial safety regulations and/or electrical
codes. The integrity of all ground connections should be periodically checked.
R
S
T
U
V
W
SHLD
Figure 4.1 – Typical Grounding
Ground Fault Monitoring
If a system ground fault monitor is to be used, only Type B devices should be used to
avoid nuisance tripping.
Safety Ground -
This is the safety ground for the drive that is required by code. One of these points must be
connected to adjacent building steel (girder, joist), a floor ground rod, or bus bar. Grounding
points must comply with national and local industrial safety regulations and/or electrical codes.
Motor Ground
The motor ground must be connected to one of the ground terminals on the drive.
Power Wiring
4-1
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Shield Termination - SHLD
Either of the safety ground terminals provides a grounding point for the motor cable shield. The
motor cable shield connected to one of these terminals (drive end) should also be connected to
the motor frame (motor end). Use a shield terminating or EMI clamp to connect the shield to the
safety ground terminal.
When shielded cable is used for control and signal wiring, the shield should be grounded at
the source end only, not at the drive end.
4.1.1 RFI Filter Grounding
Using drives with RFI filters may result in relatively high ground leakage currents. Therefore, the
filter must only be used in installations with grounded AC supply systems and be
permanently installed and solidly grounded (bonded) to the building power distribution
ground.
Ensure that the incoming supply neutral is solidly connected (bonded) to the same building
power distribution ground. Grounding must not rely on flexible cables and should not include
any form of plug or socket that would permit inadvertent disconnection. Some local codes may
require redundant ground connections. The integrity of all connections should be periodically
checked.
4.1.2 Grounding Procedure
Step 1. Remove the front cover.
Step 2. Connect the Grounding wire to the ground terminal through the opening for
ground terminal. Enter the screw driver from vertical to the terminal and
secure the screw tightly.
4.1.3 Grounding Guidelines
Table 4.1 – Grounding Guidelines
200V Class
400V Class
Inverter
capacity
Wire
size
Terminal
screw
Grounding
method
Wire
size
Terminal
screw
Grounding
method
2
2
0.5 HP
1.0 HP
2.0 HP
3.0 HP
7.5 HP
3.5 mm
M3
M3
M3
M3
M4
Type 3
2 mm
M3
M3
M3
M3
M4
Special Type 3
2
2
3.5 mm
2 mm
2
2
3.5 mm
2 mm
2
2
3.5 mm
2 mm
2
2
5.5 mm
3.5 mm
4-2
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4.2 Connecting Peripheral Devices to the VS1MD Drive
ATTENTION:Appropriate peripheral devices must be selected and
correct connections made to ensure proper operation. You must read and
understand this manual thoroughly before proceeding. Failure to observe
this precaution could result in damage to, or destruction of, the equipment.
!
The following devices are required to operate the VS1MD drive.
Table 4.2 – Peripheral Devices for the VS1MD Drive
AC Source Supply
Use a power supply within the
permissible range for the drive’s
input power rating.
MCCB or Earth leakage Select circuit breakers with care. A
circuit breaker (ELB)
large inrush current may flow in the
converter when power is turned on.
Magnetic Contactor
Install a magnetic contactor if
necessary. When installed, do not
use the contactor for the purpose of
starting or stopping.
Reactors
Reactors must be used when the
power factor needs to be improved
or the drive is installed within 10 m
of a large power supply system
(1000kVA or more).
Installation and wiring
To ensure optimal operation and
life span of the drive, install it in an
approriate place with proper
orientation and clearances.
Incorrect terminal wiring can result
in damage to the equipment.
To motor
Do not connect a power factor
capacitor, surge suppresor, or radio
noise filter to the output side of the
drive.
Power Wiring
4-3
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4.3 Power Terminal Wiring
AC Line
Voltage
input
DB
reistor
connect
ion
terminal
Motor
connect
ion
terminal
Ground
Figure 4.2 – Power Terminal Wiring
4-4
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4.4 Specifications for Power Terminal Block Wiring
VS1MD20P5, VS1MD21, VS1MD40P5, VS1MD41, VS1MD22, VS1MD42
R
S
T
B1 B2
U
V
U
V
W
V
VS1MD23, VS1MD43, VS1MD25, VS1MD45
B1 B2
R
S
T
W
VS1MD27, VS1MD210, VS1MD47, VS1MD410
B1
R
B2
T
U
W
S
R,S,T
wire size
U, V, W
wire size
Ground Wire
Screw
size
Terminal
torque
Model
Number
mm2
mm2
mm2
AWG
AWG
AWG
Terminal
Screw
Size
Screw
Torque
(Kgf.cm/lb-in)
2
2
14
14
14
14
12
10
8
2
2
14
14
14
14
12
10
8
3.5
3.5
3.5
3.5
3.5
5.5
5.5
2
12
12
12
12
12
10
10
14
14
14
14
14
12
12
M3.5
M3.5
M3.5
M4
10/8.7
10/8.7
10/8.7
15/13
15/13
32/28
32/28
10/8.7
10/8.7
15/13
15/13
15/13
32/28
32/28
VS1MD20P5
VS1MD21
VS1MD22
VS1MD23
VS1MD25
VS1MD27
VS1MD10
VS1MD40P5
VS1MD41
VS1MD42
VS1MD43
VS1MD45
VS1MD47
VS1MD410
2
2
2
2
3.5
5.5
8
3.5
5.5
8
M4
M5
M5
2
14
14
14
14
14
12
12
2
14
14
14
14
14
14
12
M3.5
M3.5
M4
2
2
2
2
2
2
2
2
2
M4
2
2
2
M4
3.5
3.5
2
3.5
3.5
M5
3.5
M5
* Strip the sheaths of the wire insulation 7mm when a ring terminal is not used for
power connection.
Power Wiring
4-5
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4.5 Recommended Breakers
Table 4.3 – Circuit Breaker Ratings by Model Number
Model
Breaker
Model
Breaker
Current[A]
Voltage[V]
230
Current[A] Voltage[V]
30
30
30
30
30
50
60
VS1MD40P5
VS1MD41
VS1MD42
VS1MD43
VS1MD45
VS1MD47
VS1MD410
30
30
30
30
30
30
30
460
460
460
460
460
460
460
VS1MD20P5
VS1MD21
VS1MD22
VS1MD23
VS1MD25
VS1MD27
VS1MD10
230
230
230
230
230
230
4.6 Recommended Fuses and AC Reactors
Model
External fuse
AC reactor
Current[A] Voltage[V]
10 A
10 A
15 A
25 A
40 A
40 A
50 A
5 A
500
500
500
500
500
500
500
500
500
500
500
500
500
500
4.20mH, 3.5A
2.13mH, 5.7A
1.20mH, 10A
0.88mH,14A
0.56mH, 20A
0.39mH, 30A
0.28mH, 40A
18.0mH, 1.3A
8.63mH, 2.8A
4.81mH, 4.8A
3.23mH, 7.5A
2.34mH, 10A
1.22mH, 15A
1.14mH, 20A
VS1MD20P5
VS1MD21
VS1MD22
VS1MD23
VS1MD25
VS1MD27
VS1MD210
VS1MD40P5
VS1MD41
VS1MD42
VS1MD43
VS1MD45
VS1MD47
VS1MD4100
10 A
10 A
10 A
20 A
20 A
30 A
ATTENTION:Suitable For Use On A Circuit Capable Of Delivering
Not More Then 65,000 RMS Symmetrical Amperes. 240V drives
or 480V drives Volts Maximum
!
ATTENTION:Use Class H or K5 UL Listed Input Fuse and UL
ListedBreakerOnly.Seethetableaboveforthevoltage andcurrent
rating of the fuse and the breaker.
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4.7 Reflected Wave Protection
When more than one motor is connected to one inverter, total wiring length should be
less than 200m (656ft). Do not use a 3-wire cable for long distances. Due to increased
leakage capacitance between wires, over-current protective feature may operate or
equipment connected to the output side may malfunction. In case of long wire length,
lower carrier frequency or contact Baldor for recommendations.
Table 4.4 – Wire Length Recommendations
Length Between Inverter and Motor
Up to 50 meters
Allowable Carrier Frequency
Less than 15 kHz
Up to 100 meters
Less than 5 kHz
More than 100 meters
Less than 2.5 kHZ
Power Wiring
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CHAPTER 5
Control Wiring
This chapter describes how to wire the signal and I/O terminal strip for stop, speed
feedback, and remote control signals.
ATTENTION:Apply the rated torque to terminal screws. Loose screws
can cause shortcircuit and malfunction. Tightening the screws too much
can damage the terminals and cause short circuit and malfunction.
!
ATTENTION:Make sure the input power is off before wiring.
ATTENTION:Afterpowersupplyisswitchedofffollowingoperation, wait
at least 10 minutes after LED keypad display is off before you start
working on it.
ATTENTION:Applying input power supply to the output terminals U, V
and W causes internal inverter damage.
ATTENTION:Use ring terminals with insulated caps when wiring the
input power and motor wiring.
ATTENTION:Do not leave wire fragments inside the inverter. Wire
fragments can cause faults, breakdowns and malfunctions.
ATTENTION:When more than one motor is connected to one inverter,
total wiring length should be less than 200m (656ft). Do not use a 3-wire
cableforlong distances.Duetoincreasedleakagecapacitancebetween
wires, over-current protective feature may operate or equipment
connected to the output side may malfunction. In case of long wire
length, lower carrier frequency or contact Baldor for recommendations.
ATTENTION:Never short B1 and B2 terminals. Shorting terminals may
cause internal inverter damage.
ATTENTION:Do not install a power factor capacitor, surge suppressor
or RFI filter in the output side of the inverter. Doing so may damage
these components.
5.1 Stop Circuit Requirements
ATTENTION:You must provide an external, hardwired emergency
stop circuit outside of the drive circuitry. This circuit must disable the
system in case of improper operation. Uncontrolled machine
operationcanresultifthisprocedureisnotfollowed. Failure to observe
this precaution could result in bodily injury.
!
In addition to the operational stop, you must provide a hardwired emergency stop
external to the drive. The emergency stop circuit must contain only hardwired
electromechanical components. Operation of the emergency stop must not depend on
electronic logic (hardware or software) or on the communication of commands over an
electronic network or link. Note that the hardwired emergency stop you install can be
used at any time to stop the drive.
Control Wiring
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5.2 Motor Start/Stop Precautions
ATTENTION:Acontactororotherdevice thatroutinelydisconnectsand
reapplies the AC line to the drive to start and stop the motor can cause
drive hardware damage. The drive is designed to use control input
signals that will start and stop the motor. If used, the input device must
notexceedoneoperationperminuteordrivedamagecanoccur.Failure
to observe this precaution can result in damage to, or destruction of,
equipment.
!
ATTENTION:The drive start/stop control circuitry includes solid-state
components. If hazards due to accidental contact with moving
machinery or unintentional flow of liquid, gas or solids exist, an
additional hardwired stop circuit may be required to remove the AC line
to the drive. When the AC line is removed, there will be a loss of any
inherent regenerative braking effect that might be present - the motor
will coast to a stop. An auxiliary braking method may be required.
Important points to remember about I/O wiring:
• Always use copper wire.
• Wire with an insulation rating of 600V or greater is recommended.
• Control and signal wires should be separated from power wires by at least 0.3
meters (1 foot).
Important: I/O terminals labeled “Common” are not referenced to the safety ground
terminal and are designed to greatly reduce common mode interference.
ATTENTION:Driving the 4-20 mA analog input from a voltage source
could cause component damage. Verify proper configuration prior to
applying input signals.
!
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5.3 Terminal Wiring (Control I/O)
T/M
Description
MO
MG
24
Multi-function open collector output
MO Common
24V output
P1
P2
CM
P3
P4
P5
CM
P6
P7
P8
VR
V1
I
MF input terminal
(factory setting)
FX: Forward run
RX: Reverse run
Input signal common
BX: Stop
MF input terminal
(factory setting)
RST: Trip reset
JOG: Jog operation
Input signal common
Preset Speed Input 1
MF input terminal
(factory setting)
Preset Speed Input 2
Preset Speed Input 3
10V power supply for potentiometer
Freq. Setting Voltage signal input: -0~10V
Freq. Setting Current signal input: 0~20mA
Multi-function analog output signal: 0~10V
G
AM
3A
3B
3C
Multi-function relay A contact output N.O.
output terminal
B contact output N.C.
A/B contact common
S+
S-
RS485 communication terminal
# For connection to Remote Option or
parameter copying
Control Wiring
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5.4 Control Terminal Specifications
MO MG
24
P1
P2
CM
P8
P3
P4
V1
S-
I
S+
3A
3B
3C
P5
CM
P6
P7
VR
AM
2
T/M
Terminal Description
Screw Torque
Specification
Wire size[mm ]
size
[Nm]
solid
wire
stranded
1.5
P1
to
P8
Multi-function digital input
T/M 1-8
1.0
M2.6
0.4
CM
VR
Common Terminal
1.0
1.0
1.5
1.5
M2.6
M2.6
0.4
0.4
Power supply for external
speed potentiometer
Output Voltage: 12 V
Max output current: 10mA
Potentiometer: 1 - 5 kohm
Max input voltage:
V1
Input terminal for Voltage
operation
1.0
1.5
M2.6
0.4
-12V - +12V input
0 - 20 mA input
I
Input terminal for Current
operation
1.0
1.0
1.5
1.5
M2.6
M2.6
0.4
0.4
Internal Resister: 250 ohm
Max output voltage: 11 V
AM
Multi-function analog
output terminal
Max output current:
100mA
MO
MG
24
Multi-function terminal for
open collector output
1.0
1.0
1.0
1.0
1.0
1.0
1.5
1.5
1.5
1.5
1.5
1.5
M2.6
M2.6
M2.6
M2.6
M2.6
M2.6
0.4
0.4
0.4
0.4
0.4
0.4
Below DC 26V, 100mA
Ground terminal for
external power supply
24V External Power
Supply
Max output current:
100mA
3A
3B
3C
Multi-function relay
output A contact N.O.
Below AC 250V, 1A
Multi-function relay
output B contact N.C.
Below DC 30V, 1A
Common for
Multi-function relays
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5.5 Source/Sync for Input Control Wiring
1. When using DC 24V inside inverter [Source]
SW S8
Source
(NPN)
S8
SW S8
DC 24 V
CM
RG
P1
CPU
RG
CM
CM
(inside inverter)
2. When using external DC 24V [Sink ]
SW S8
Sink (PNP)
S8
DC 24 V
DC24V
CM
RG
P1
CPU
R
CM
CM
(inside inverter)
Control Wiring
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5.6 I/O Wiring Recommendations
Table 5.1 – Recommended Control and Signal Wire1
Minimum
Insulation
Rating
Wire Type(s)
Description
2
Belden 8760/9460
(or equiv.)
300 V
75° C
0.8 mm (18AWG), twisted pair, 100% shield with drain.
(167° F)
2
Belden 8770
(or equiv.)
0.8 mm (18AWG), 3 conductor, shielded for remote pot
only.
1
If the wires are short and contained within a cabinet that has no sensitive circuits,
the use of shielded wire may not be necessary, but is always recommended.
Table 5.2 – I/O Terminal Block Specifications
1
Maximum Wire Size
Minimum Wire Size1
Torque
0.5 to 0.8 Nm
(4.4 in-lb to 7 in-lb)
2
2
1.3 mm (16 AWG)
0.13 mm (26 AWG)
1
Maximum / minimum that the terminal block will accept. These are not
recommendations.
5.6.1 Maximum Control Wire Length Recommendations
Do not exceed control wiring length of 30 meters (100 feet). Control signal cable
length is highly dependent on electrical environment and installation practices. To
improve noise immunity, the I/O terminal block Common must be connected to ground
terminal/protective earth.
5.7 Technical Specifications
Please see Appendix A - Technical Specifications for detailed electrical information.
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CHAPTER 6
Using the Keypad
Factory-default parameter values allow the drive to be controlled from the integral
keypad. No programming is required to start, stop, change direction, or control speed
directly from the integral keypad.
This chapter provides an overview of the integrated keypad and how to use it to
program the VS1MD drive.
6.1 Keypad Components
Refer to table 6.1 for the LED descriptions noted by ➊ through ➊ and table 6.2 for key definitions.
6.1.1 Display Description
The alpha-numeric display indicates the following:
• Operational Values (such as Output Frequency)
• Parameter Numbers
• Parameter Values
• Fault Codes
Using the Keypad
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6.2 LED Descriptions
Refer to figure 6.1 for the location of the LEDs described in table 6.1.
Table 6.1 – LED Descriptions
No.
LED
LED State
Description
PROG
Steady Red (On) Indicates the drive is in programming mode.
➊
(Off)
Indicates the drive is in operational Mode.
RUN
Steady Red (On) Indicates the drive is running at commanded speed.
➊
Flashing Red
(Off)
Indicates drive is accelerating or decelerating to new
speed setting.
Drive is not running.
FWD
Steady Red (On) Indicates the drive is in forward operation.
(Off) Indicates the drive is in reverse operation.
STP/FLT Steady Red (On) Indicates the drive is in a stopped position.
➊
➊
Flashing Red
(Off)
Indicates the drive is faulted.
Drive is running.
6.3 Key Descriptions
Refer to figure 6.1 for the location of the keys described in table 6.2.
Table 6.2 – Key Descriptions
Key
Name
Description
Run Key
• Starts the drive.
• Active when the input mode is programmed for
keypad control.
Stop Key
• Stops the drive in programmed stop mode.
• Always active.
• Reset active faults.
Ent/Prog Key • Accesses programming menu and locks in
changed values.
• To enter programming mode, the Ent/Prog key
must be held in for 2 seconds.
• Holding the Ent/Prog key for 2 seconds or more will
escape back to Control Reference Mode or back
out of a parameter edit function.
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Table 6.2 – Key Descriptions (Continued)
Key
Name
Speed
Reference
Keys
Description
Operation Mode:
• Changes the commanded speed reference.
• Only active when the input mode is programmed for
keypad control.
• The Up-Arrow increases the speed reference at a
controlled rate.
• The Down-Arrow decreases the speed reference at
a controlled rate.
• Holding either arrow for a set period of time will
increase the reference ramp rate.
Program Mode:
• Increment / Decrement parameter numbers or
parameter values
Direction
Keys
Operation Mode:
• Only active when the input mode is programmed for
keypad control.
• Direction keys are active only when operating in
reference command mode.
• Reverse may also be disabled by a parameter.
Program Mode:
• Cycle through the parameter groups or shift to
the next digit to be changed while in the
parameter edit mode.
6.4 About Parameters
To program the drive for a specific application, you adjust the appropriate parameters. The
parameters are used to define characteristics of the drive.
There are three types of parameters:
• Numbered List Parameters (Enumerated Parameters)
Numbered list parameters allow a selection from two or more options. Each item is
represented by a number.
Example: Start/Stop Source (P38)
• Bit Parameters
Bit parameters have individual bits associated with features or conditions. If the bit is 0, the
feature is off or the condition is false. If the bit is 1, the feature is on or the condition is true.
Example: Terminal Status Display (d7)
• Numeric Parameters
These parameters have a single numerical value (for example, 0.1 volts).
Example: Motor Rated Current (P32)
Parameters are also either configurable or tunable, or read-only.
Configurable parameters can be adjusted or changed only while the drive is stopped.
Using the Keypad
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Tunable parameters can be adjusted or changed while the drive is running or stopped.
Read-only parameters cannot be adjusted.
6.5 How Parameters are Organized
Parameters are organized into five Parameter Groups:
• The Display Parameter Group (dnn) contains parameters for the display of basic
drive information.
• The Programming Parameter Group (Pnn) contains the most commonly used
parameters for startup and operation.
• The Terminal Parameter Group (tnn) contains a linear list of input and output control
parameters.
• Function Group 1 Parameters (Fnn) contains a linear list of advanced motor control
parameters.
• Function Group 2 Parameters (Hnn) contains a linear list of advanced motor profile
parameters.
6.6 Moving Between Parameter Groups
Use the following procedure to enter the programming mode and to move between
groups:
Table 6.3 – Moving Between Parameter Groups
Procedure
Sample Display
Step 1. When the drive first powers up, the display will
indicate the value of the “Power ON Display,” which
is defined in Parameter H72. The default “Power On
Display” is the commanded frequency.
Step 2. Press and hold down the ENTER key for at least two
seconds to change the drive from the operation
mode to the programming mode.The “PROG” LED
will illuminate indicating that the drive is in
programming mode. The drive will display the first
parameter of the “Display” group.
Step 3. Press the right arrow key to change to the
“Parameters Group”.
Step 4. Press the right arrow key to change to the “Terminal
Group”.
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Table 6.3 – Moving Between Parameter Groups
Procedure
Sample Display
Step 5. Press the right arrow key to change to “Function
Group 1”.
Step 6. Press the right arrow key to change to “Function
Group 2”.
Step 7. Press the right arrow key to change to “Display”
group.
Step 8. Press and hold down the ENTER key for at least two
seconds to change the drive from the programming
mode back to operation mode.The “PROG” LED will
go out indicating that the drive is in operation mode.
The drive will display the default “Power On Display”.
Note that the above can be execute in reverse order by using the left arrow key
instead of the right arrow key.
You can only move between groups while the first parameter of the group is displayed.
Pressing the left or right arrow while displaying any parameter other than the first
parameter of the group returns to the first parameter of the group.
Pressing the
up or down
arrow moves
Pressing the
you within a
left or right
group of
arrow from
parameters
any parameter
returns you to
the first
parameter of
the group
Function Group 1
Function Group 2
Terminal group
Using the Keypad
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The below example indicates the steps needed to move from parameter F35 to
Function Group 2.
Table 6.4 – Moving from F35 to Function Group 2
Procedure
Sample Display
Step 1. When a parameter other than the first in a group is
displayed, you must initially go to the first parameter
of the group prior to going to the next group. For this
example, parameter F35 of Function Group 1 is
currently displayed and you want to go to Function
Group 2 (H Parameters).
Step 2. Press the left or right arrow and parameter F0 will be
displayed.
Step 3. Press the right arrow key to change to “Function
Group 2”.
6.7 Changing Between Parameters Within a Group
Each group contains parameters arranged in a linear list. The list can be navigated
using the Up and Down arrows.
Table 6.5 – Changing Between Parameters Withing a Group
Procedure
Sample Display
Step 1. From the operation mode, press and hold down the
ENTER key for at least two seconds to change the
drive to the programming mode. The “PROG” LED
will illuminate indicating that the drive is in
programming mode. The drive will display the first
parameter of the “Display” group.
Step 2. Press the up arrow to display the next parameter.
Step 3. Press the up arrow again to display the next
parameter, continue until the desired parameter is
displayed.
Note that using the down arrow allows navigation through the parameters in
reverse order.
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The first parameter of each group, with the exception of the “Display Group”, is a
special parameter called a “Jump Code”. The parameter can be used to jump to a
specific parameter within a group without having to scroll through the parameters
using the up and down arrows. Once the Jump Code is programmed, the drive will
save the setting for future use, but this can always be reprogrammed to jump to a
different parameter.
The following example illustrates the use of a Jump Code to jump to parameter P38.
Table 6.6 – Using the Jump Code
Procedure
Sample Display
Step 1. From the operation mode, press and hold down the
ENTER key for at least two seconds to change the
drive to the programming mode. The “PROG” LED
will illuminate indicating that the drive is in
programming mode. The drive will display the first
parameter of the “Display” group.
Step 2. Press the right arrow to change to the “Parameters”
group.
Step 3. Press the ENTER key to edit P0 (Jump Code).
Step 4. Press the UP arrow seven times until the display
indicates an “8”.
Step 5. Press the left arrow one time such that the next digit
is displayed. It will be displayed brighter than the
previous digit.
Step 6. Press the UP arrow three times such that the display
indicates the parameter number.
Step 7. Press the ENTER key to accept the value. The value
will be saved in the Jump Code (P0) for future use
and the desired parameter will immediately be
displayed.
Using the Keypad
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The following example shows how to use a previously stored Jump Code.
Table 6.7 – Using a Previously Stored Jump Code
Procedure
Sample Display
Step 1. From the operation mode, press and hold down the
ENTER key for at least two seconds to change the
drive to the programming mode. The “PROG” LED
will illuminate indicating that the drive is in
programming mode. The drive will display the first
parameter of the “Display” group.
Step 2. Press the right arrow to change to the “Parameters”
group.
Step 3. Press the ENTER key to access the Jump Code.
Step 4. Press the ENTER key a second time and the desired
parameter will be displayed.
6.8 Modifying the Value of a Parameter
The parameters located in the Display group are read-only and can not be modified.
All other parameters (with a few exceptions) can be modified by the user. Some
parameters are configurable - meaning that the drive must be stopped before the
parameter can be modified, while others are tunable - meaning that the parameter can
be modified while the drive is stopped or running.
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The following example shows how to modify the acceleration time located in
parameter P41.
Table 6.8 – Modifying Parameter Values
Program Group
Step 1. From the operation mode, press and hold down the
ENTER key for at least two seconds to change the
drive to the programming mode. The “PROG” LED
will illuminate indicating that the drive is in
programming mode. The drive will display the first
parameter of the “Display” group.
Step 2. Press the right arrow key to change to the
“Parameters” group.
Step 3. Use the up arrow or the jump code to display the
acceleration time parameter P41.
Step 4. Momentarily press the ENTER key to begin the
parameter value edit mode. Notice that the tenths
digit is highlighted for editing. At this point you can
use the up arrow key to increment the value all the
way to the new setting (16.0 in this example) or
proceed with the following steps.
Step 5. Press the left arrow key to select the ones digit for
editing.
Step 6. Press the up arrow key to increment the ones digit
from a 5 to a 6.
Step 7. Press the left arrow key to select the tens digit for
editing.
Step 8. Press the up arrow key to increment the tens digit
from a 0 to a 1.
Using the Keypad
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Table 6.8 – Modifying Parameter Values
Step 9. Press the ENTER key to accept the value and the
display will begin to flash so that you can confirm the
entry.
Step 10. Press the ENTER key a second time to acknowledge
the entry. The display will revert to showing the
parameter number.
6.9 Monitoring Display Parameters
The Display group is a group that consists of read only values that can be monitored
by the user to diagnose the operation of the drive and motor. To monitor the motor
current, follow the below example.
Table 6.9 – Monitoring Display Parameters
Display Group
Step 1. From the operation mode, press and hold down the
ENTER key for at least 2 seconds to change the
drive to the programming mode. The “PROG” LED
will illuminate indicating that you are in the
programming mode. The drive will display the first
parameter of the “Display” group.
Step 2. Press the up arrow key twice to change to the
parameter d2 (Motor Current).
Step 3. Momentarily press the ENTER key to display the
motor current. The display will be updated in real
time.
Step 4. Press the ENTER key to return to the previous
display so that you can select a new parameter to
view.
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6.10 Reviewing the Fault Status in the Display Group
When a fault is active, this is annunciated on the drive by flashing the STOP/FAULT
LED. This procedure is used to review the active fault as well as certain conditions at
the time the fault occurred.
Table 6.10 – Reviewing Fault Status in the Display Group
During
Accel
Over-
current
trip
Current
Frequency
STOP
RESET
Display Group
Step 1. When an overcurrent condition has been detected by
the drive, a fault will be latched and the display will
show the condition.
Step 2. Press the ENTER key to see the frequency at which
the fault occurred. This example indicates that the
drive was outputting 30.00 Hz when the fault
occurred.
Step 3. Press the up arrow to view the output current during
the fault. This example indicates that the drive was
outputting 5.0 Amps when the fault occurred.
Step 4. Press the up arrow key again to view the operating
status of the drive when the fault occurred. This
example indicates that the drive was accelerating
when the fault occurred.
Step 5. Press the STOP/RESET button on the keypad to
reset the fault and the STOP/FAULT LED will
illuminate solid indicating that the fault is cleared and
that the drive is in the stopped condition. The display
will indicate that there is no longer a fault condition.
Using the Keypad
6-11
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6.11 Resetting the Parameters to Factory Default
Follow the below procedure to reset the parameters to the factory default values:
Table 6.11 – Resetting Parameters to Factory Default
Function Group 2
Step 1. Navigate to the Function Group 2 (H Group).
Step 2. Press the ENTER key to edit the jump code. Modify
the jump code to be equal to 93.
Step 3. Press the ENTER key to jump to parameter H93.
Step 4. Press ENTER to display the current value of
parameter H93 (it will be 0 indicating that parameters
will not be reset).
Step 5. Press the up arrow key to change the value to a 1.
Step 6. Press the ENTER key to reset the drive parameters
to factory default. The display will revert back to
displaying the parameter number.
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CHAPTER 7
Parameter Descriptions
7.1 Overview
The following information is provided for each parameter listed in table 7.1 along with
its description:
Parameter Number:
Parameter Name:
LED Display:
Unique number assigned to each parameter.
Unique name assigned to each parameter.
Display shown on LED screen when parameter is
accessed.
Range:
Predefined parameter limits or selections. Note that
a negative Hz value indicates reverse rotation.
Default:
Access:
Factory default setting.
• Read Only: Parameter value can not be modified
by user.
• Configurable: Parameter can only be modified
while drive is stopped.
• Tunable: Parameter can be modified while drive
is running or stopped.
Group:
Menu group within which parameter is located.
See also:
Associated parameters that may provide additional
or related information.
The parameters are presented in numerical order within each of the fivegroups
(Dispay, Basic Parameters, Terminal, Function Group 1, Function Group 2). Appendix
B contains a list of parameters by name cross-referenced to parameter number.
Parameter Descriptions
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7.2 Display Group Parameters
Parameters in this group are display only and can be used to monitor drive
conditions. To change the active display for the drive, use parameter H72 - Power
On Display.
d0
Frequency Command
Range:
0.0 to Frequency High Limit (P36) [Hz]
Read Only
Default:
Displays the value of the active frequency command. The commanded
frequency is displayed even if the drive is not running.
d1
Motor RPM
Range:
0.0 Motor RPM (based on P33 Motor
Poles) [RPM]
Default:
Read Only
Displays the output motor RPM. Motor RPM is scaled based on output
frequency present on terminals U, V and W based on the setting in P33
– Motor Poles.
d2
d3
d4
Output Current
Range:
0.0 to Motor Rated Current (P32) [Amps]
Read Only
Default:
Displays the value of the output current present at terminals U, V and W.
Output Voltage
Range:
0.0 to Drive Rated Voltage [volts]
Read Only
Default:
Displays output voltage present at U, V, W.
Output Power
Range:
0.0 to (Drive Rated Power x 2) [kW]
Read Only
Default:
Displays the value of the output power present at terminals U, V and W.
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d5
Output Torque
Range:
0.0 to (Drive Rated Torque x 2) [kgf / M]
Default:
Read Only
H36
See Also:
Displays the value of the output torque present at terminals U, V and W.
Enter motor efficiency indicated on motor nameplate to H36 to display
correct torque.
d6
d7
DC Link Voltage
Range:
Based on Drive Rating [Volts DC]
Read Only
Default:
Displays the present DC bus voltage level.
Input Terminal status display
Range:
See Figure Below
Read Only
Default:
Displays the status of the input terminals P1~P8. An example is
shown below for when P1, P3, P4 are ON and P2, P5 are OFF.
d8
Output terminal status display
Range:
See Figure Below
Read Only
Default:
Displays the status of the Digital (MO) Output and the Relay
(3A~C) terminals. The following example is for when Digital
Output (MO) is ON and the Relay is OFF.
Parameter Descriptions
7-3
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d9
Software Version
Range:
1.0 to 99.9
Read Only
Default:
Displays the Main Control Board software version.
nOn
Current Fault Display
Range:
See Chapter 9 - Troubleshooting for fault
code description
Read Only
H1-H6
Default:
See Also:
Displays the types of faults, frequency and operating status at the time of
the last fault.
Fault Types
Frequency
Current
Accel/
Decel
Fault during Accel
Information
Fault during Decel
Fault during constant run
Fault code history can be viewed in parameters H1 - H5. H6 is used to
clear the fault code history. For a complete description of fault codes,
refer to Chapter 9 - Troubleshooting.
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7.3 Basic Program Group Parameters
The Basic Program Group (P) contains the parameters most commonly used in
start-up.
P0
Jump Code
Range:
30 -47
30
Default:
Access
Tunable
Sets the code to jump directly to a specific parameter within the group.
P30
Motor HP Select
Range:
0.5 = 0.5 HP
1
2
3
5
= 1 HP
= 2 HP
= 3 HP
= 5 HP
7.5 = 7.5 HP
10 = 10 HP
Preset based on drive rating.
Default:
Access
Configurable
P32 - P34
See also:
Sets the motor type connected to the drive output side.
P32
Motor Rated Current
Range:
0.5 - 50 Amps
Preset based on drive rating
Configurable
Default:
Access
See Also:
P30, P33, P34
Enter motor rated current on the nameplate.
P33
Pole Number
Range:
2, 4, 6, 8, 10, 12
4
Default:
Access
Configurable
P30, P32, P34
See Also:
Select number of motor poles
Parameter Descriptions
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P34
Base Frequency
Range:
30 - 400 [Hz]
60
Default:
Access
Configurable
P30, P33, F30-F38
See Also:
The drive outputs its rated voltage to the motor at this frequency (enter motor
nameplate). See parameter F30 for custom V/Hz settings and V/Hz curve.
P35
Frequency Low Limit
Range:
0 - P36 [Hz]
10.0
Default:
Access
See Also:
Configurable
P36, F30-F38
Sets drive minimum steady state output frequency.
P36 Frequency High Limit
Range:
0 - 400 [Hz]
60.0
Default:
Access
See Also:
Configurable
P35
Sets drive maximum steady state output frequency.
P37 Frequency Command
Range:
Default:
Access
0 - 400 [Hz]
0.00
Tunable
This parameter manually sets the frequency that the drive is commanded to output.
Set the desired frequency and press ENTER/PROG to lock the value into memory. If
the drive is running, it will immediately accelerate or decelerate to this value once
enter is pressed. If the drive is not running, entering a value in P37 will pre-set the
speed to accelerate to after a valid run command.
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P38
Stop/Start Source
Range:
0 = Keypad
1 = Terminal Mode 1 (2 or 3- wire control for forward/reverse)
2 = Terminal Mode 2 (2 wire with direction switch)
3 = RS485 Communication
0 {Local OIM)
Configurable
P40; t1 - t8
Default:
Access
See Also:
Sets the control used to start the drive.
0
1
2
3
Keypad
Drive control for start, stop, forward and reverse are from
drive keypad.
Terminal
Operation
Drive is controlled from run forward terminal and run
reverse terminal.
Drive is controlled from run terminal and directional
terminal.
RS485
Drive operation controlled using RS-485 communications
Communication (see Appendix E).
Terminal Operation Mode 1: (2-Wire or 3-Wire Control Fwd/Rev):
• Select one digital input (t1~t8) = 0, run forward (FX).
• Select one digital input (t1~t8) = 1, run reverse (RX).
• To enable 3-Wire control select one digital input (t1~t8) = 17, 3-wire
operation.
• Drive stops when both inputs are off or when both inputs are on.
Drive Output
Forward
Digital In
(FX)
Reverse Digital In (RX)
Parameter Descriptions
7-7
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P38
Stop/Start Source
Terminal Operation Mode 2: (2-Wire Control with Fwd/Rev Switch):
• Select one digital input (t1~t8) = 0, run forward (FX). Operates as a Run
Command
• Select one digital input (t1~t8) = 1, run reverse (RX). Operates as a
Direction Switch
• To enable 3-Wire control select one digital input (t1~t8) = 17, 3-wire
operation.
• Drive stops when both inputs are off or when both inputs are on.
Dive Output
Run Digital
In (FX)
(RX)
Direction Digital In (RX)
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P39
Stop Type
Range:
0 = Decelerate to Stop (Ramp)
1 = DC Brake to Stop
2 = Coast to Stop
0
Default:
Access
Configurable
P38, P42, F8-F11
See Also:
Sets the active mode for all stop sources.
0 = Decelerate to Stop. Motor decelerates to 0 Hz and stops during the set
time.
1 = DC Brake to stop. See parameters F8 - F11 for further details.
2 = Coast to stop. Output frequency and voltage are shut down on a stop
command
Parameter Descriptions
7-9
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P40
Frequency Setting Method
Range:
1 = Digital Keypad
2 = Analog V1 1: -10 - +10V
3 = Analog V1 2: 0 ~ +10 V
4 = Analog Terminal I: 0 - 20mA
5 = Analog Terminal V1 Mode 1+ Terminal I
6 = Analog Terminal V1 Mode 1+ Terminal I
7 = Analog RS485
1
Default:
Access
Configurable
t32-t33, F60
See Also:
Sets the source of the speed reference to the drive.
1 = Keypad:Drive output frequency is set in the operation mode by pressing
the up/down keys. The drive immediately responds to the new setting
without pressing the enter key.
2 = Analog V1 Mode 1:Drive output frequency is set via a +/- 10V signal
applied to analog input terminal V1.
3 = Analog V1 Mode 2:Drive output frequency is set via a 4~20mA signal
applied to analog input terminal V1.
4 = Analog I:Drive output frequency is set via a 4~20mA signal applied to
analog input terminal I.
5 = Analog V1 Mode 1 + I:Drive output frequency is set via the sum of a
+/-10V signal applied to V1 and a 4~20mA signal applied to terminal I.
6 = Analog V1 Mode 2 + I:Drive output frequency is set via the sum of a
0~10V signal applied to V1 and a 4~20mA signal applied to terminal I.
7 = RS485:Drive output frequency is controlled via the RS485
communications port.
P41
P42
Accel Time
Decel Time
Range:
0 - 6,000 [sec]
P41 = 5.0, P42 = 10.0
Tunable
Default:
Access
See Also:
P42, P36, H70, H71
Sets the Accel/Decel time of the drive. When using the multiple accel/decel
curves with preset speeds, this ramp serves as accel/decel time 0.
H71 can be used to scale the accel/decel units and H70 determines if the
time to accel/decel is relative to P35 (Frequency High Limit) or the delta
change of running frequency to set frequency.
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P43
P44
P45
Preset Speed 1
Preset Speed 2
Preset Speed 3
Range:
0 - 400 [Hz]
P43 = 10, P44 = 20, P45 = 30
Tunable
Default:
Access
t1-t8, t10-t13
See Also:
Provides an internal fixed speed command selectable by digital inputs.
P46
Drive Start/Stop Source 2
Range:
Default:
Access
See Also:
Note:
0 - 3 (see table for P38)
1 = Terminal Mode 1
Configurable
P38, t1-t8
Only viewable when one of the t1-t8 terminals is set
for 22 and P38 = 3 (RS485 Communications).
When RS485 communications is used as the primary mode of controlling
the drive, this parameter serves as an alternate mode. It is selectable by a
digital input (t1-t8) = “22”.
P47
Frequency Setting Mode 2
Range:
Default:
Access
See Also:
Note:
1-7 (see table for P40)
1 = Keypad
Configurable
P40, P47, t1-t8
Only viewable when one of the t1-t8 terminals is set
for 22 and P40 = 7 (RS485 Communications).
When RS485 communications is used as the primary mode of controlling
the drive, this parameter serves as an alternate mode. It is selectable by a
digital input (t1-t8) = “22”.
Parameter Descriptions
7-11
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7.4 Terminal Parameters
t0
Jump Code
Range:
0 - 81
0
Default:
Access
Tunable
Sets the code to jump directly to a specfic parameter within the group.
t1
t2
t3
t4
t5
t6
t7
t8
Digital Input 1 define (I/O Terminal P1)
Digital Input 2 define (I/O Terminal P2)
Digital Input 3 define (I/O Terminal P3)
Digital Input 4 define (I/O Terminal P4)
Digital Input 5 define (I/O Terminal P5)
Digital Input 6 define (I/O Terminal P6)
Digital Input 7 define (I/O Terminal P7)
Digital Input 8 define (I/O Terminal P8)
Range:
0 =Forward Run Command
1 = Reverse Run Command
2 = Emergency Stop Trip
3 = Reset when a Fault occurs (RST)
4 = Jog Operation Command (2-wire only)
5 = Preset Speed Input - Bit 1
6 = Preset Speed Input - Bit 2
7 = Preset Speed Input - Bit 3
8 = Preset Speed Ramp - Bit 1
9 = Preset Speed Ramp - Bit 2
10 = Preset Speed Ramp - Bit 3
11 = DC Brake during start
12 = 2nd Motor Select
13 = Reserved
14 = Reserved
15 = Frequency increase (UP) Command
16 = Frequency decrease (DOWN) Command
17 = 3-wire operation
18 = External Trip: A Contact (EtA)
19 = External Trip: B Contact (EtB)
20 = Self-Diagnostic Function
21 = Exchange between PID operation and V/F operation
22 = Exchange between option (RS485) and Drive
23 = Analog Hold
24 = Accel/Decel Disable
25 = Up/Down Save Freq. Initialization
Default:
Access
t1=0, t2=1, t3=2, t4=3, t5=4, t6=5, t7=6, t8=7
Tunable
Selects the function for the digital inputs.
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0 = Forward Run (FX) Command: Select to define a digital input as a
forward run command in 2-wire or 3-wire control. For both 2-wire and
3-wire control, P38 – Drive Mode should be set to a 1 for normal operation.
For 3-wire control an additional terminal must be defined as 17 = 3-wire
operation.
1 = Reverse Run (RX) Command: Select to define a digital input as a
reverse run command in 2-wire or 3-wire control. For both 2-wire and
3-wire control, P38 – Drive Mode should be set to a 1 for normal operation.
For 3-wire control an additional terminal must be defined as 17 = 3-wire
operation.
2 = Emergency Stop (BX) Trip: Defines a digital input as a stop command.
Drive will stop according to P39 = Stop mode select (ramp deceleration, dc
brake or coast to rest).
3 = Fault Reset (RST): When input is present, clears an active fault and
resets the drive.
4 = Jog: When input is present, the drive ramps to the value set in Jog
Frequency (F20). Jog operation overrides all other operations except Dwell
operation. Therefore, if Jog frequency command is entered in the middle of
Preset Speed, Up-Down or 2-wire control; operation is executed at jog
frequency. A valid start command is required separate from the dedicated
jog input. The jog function is only available for 2-wire control.
t1
t5
F20
Frequency
P5 (JOG)
Run
command(FX)
5 = Preset Speed Input – Bit 1
6 = Preset Speed Input – Bit 2
7 = Preset Speed Input – Bit 3:
Used to select Preset Speed 1 ~ 7 combinations, see preset speed
frequencies P43~P45 and t10~t13.
8 = Preset Speed Ramp – Bit 1
9 = Preset Speed Ramp – Bit 2
10 = Preset Speed Ramp – Bit 3:
Used to define accel/decel ramp combinations for preset speeds, see
(t14~t27).
Parameter Descriptions
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11 = DC brake during start: DC voltage will be applied to the motor
windings at a level set by DC Brake Start Voltage (F12) for as long as the
digital input is closed. See also F12 and F13 – Starting DC brake
parameters.
Voltage
F12
P3
Run
command
nd
12 = 2 motor select: When input is present, the drive configures itself for
nd
a second set of motor settings defined in 2 motor operation parameters
(H81 to H90).
13 = Reserved: Reserved
14 = Reserved: Reserved
15 = Frequency increase (UP): Increases the frequency reference to the
drive after a run command. Frequency is saved to parameter F64 on a stop
command if F63 = 1 ‘save up/down frequency’.
16 = Frequency decrease (DOWN): decreases the frequency reference to
the drive after a run command. Frequency is saved to parameter F64 on a
stop command if F63 = 1 ‘save up/down frequency’.
17 = 3-wire operation: Select to define a digital input for 3-wire control.
Inputs defined as forward (FX) and reverse (RX) are momentary inputs and
opening the input defined as 3-wire operation will stop the drive. For both
2-wire and 3-wire control, P38 – Drive Mode should be set to a 1 for normal
operation.
P1 FX :
P2 RX :
t1 = 0
t2 = 1
P8 3-Wire : t8 = 17
CM
Frequency
t
FX
RX
P8 (3-Wire)
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18 = External trip – A (N.O.): Normally open contact input. When a digital
input is set to “Ext trip-A” is ON (Closed), the drive displays the fault and
turns off its output power.
19 = External trip – B (N.C.): Normally closed contact input. When a digital
input is set to “Ext trip-B” is OFF (Open), the drive displays the fault and
turns off its output power.
P1 FX :
t1 = 0
P7 N.O. : t2 = 18
P8 N.C. : t8 = 19
CM
Frequency
P4(A contact)
P5(B contact)
Run
command
20 = Self-Diagnostic function: Defines a digital input to initiate the
self-diagnostic function capability of the drive unit. Parameter H60 =
Self-Diagnostic function is used to define the test to conduct; IGBT fault and
ground fault, Output phase short/open circuit/ground fault or ground fault
(IGBT fault/output phase short/open circuit). See Chapter 8 – Customizing
Your Application for advanced drive function description.
21 = Change from PID to V/Hz Operation: Selects a digital input to bypass
the PID Feedback controller and selects the default V/Hz control settings.
See Chapter 8 – Customizing your application for advanced drive function.
22 = Change from Option (RS485) to Inverter: When the defined input is
turned ON, setting values in drv2 and Frq2 are used for control and
reference to the drive. This function is only available when the P38 = Drive
mode is programmed for 3 = RS485. Settings for drv2 and Frq2 can not be
changed while the digital input is closed.
Parameter Descriptions
7-15
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23 = Analog Hold: Locks the analog speed reference at the last value
when the input was closed. Available when P40 = Frequency setting
method is set in the range of 2 ~ 7.
24 = Accel/Decel Disable: Disables the acceleration or deceleration ramp
while the digital input is closed, holding the reference at its last value.
25 = Up/Down Frequency Save Initialization: When the digital input is
active, the last Up/Down frequency is saved. Useable when digital inputs
are configured as 15 = Frequency Increase (UP) and 16 = Frequency
Decrease (DOWN).
t9
Filtering Time Constant for Multi-function input terminal
Range:
1 - 15
4
Default:
Access
See Also:
Tunable
t1-t8
The higher the value is set, the slower the responsiveness of the digital
input becomes.
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t10
t11
t12
t13
Preset Speed 4
Preset Speed 5
Preset Speed 6
Preset Speed 7
Range:
0-400 [Hz]
Default:
t10 =30, t11=25, t12=20, t13=15
Tunable
Access
See Also:
t1-t8, P43-P45
Provides a fixed frequency command value when Digital Input 1 ~ 8 is set
for a Preset Speed (Option 5, 6 and 7). Closing a digital input programmed
as a preset speed will cause the drive to operate at the defined speed.
Preset speeds 1~3 are set in the basic parameter group (P43~P45) while
preset speeds 4~7 are set in the terminal group (t30~t33).
Preset Speed Input
Parameter
Preset Speed
Bit 3
Bit 2
Bit 1
Freq
Command
1
P40
P43
-
-
-
-
-
ꢀ
2
P44
P45
t30
-
-
ꢀ
ꢀ
-
-
ꢀ
-
3
4
ꢀ
5
6
7
ꢀ
ꢀ
ꢀ
ꢀ
-
ꢀ
t31
t32
t33
-
ꢀ
ꢀ
Parameter Descriptions
7-17
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t14
t15
t16
t17
t18
t19
t20
t21
t22
t23
t24
t25
t26
t27
Preset Speed Accel Time 1
Preset Speed Decel Time 1
Preset SpeedAccel Time 2
Preset Speed Decel Time 2
Preset Speed Accel Time 3
Preset Speed Decel Time 3
Preset Speed Accel Time 4
Preset Speed Decel Time 4
Preset Speed Accel Time 5
Preset Speed Decel Time 5
Preset Speed Accel Time 6
Preset Speed Decel Time 6
Preset Speed Accel Time 7
Preset Speed Decel Time 7
Range:
0 - 6000 [Sec]
Default:
t14, t15 = 3.0; t16, t17 = 4.0; t18, t19 = 5.0; t20, t21 = 6.0;
t22, t23 = 7.0, t24, t25 = 8.0, t26, t27 = 9.0
Access
Tunable
See Also:
t1-t8, t10-t13, P43-P45
Sets multiple acceleration and deceleration ramps based on a digital input
closure.
Preset Speed
Accel/
Decel
Time
Ramp
No.
Bit 3 Bit 2 Bit 1
P41
P42
t14
t15
t16
t17
t18
t19
t20
t21
t22
t23
t24
t25
t26
t27
0
1
2
3
4
5
6
7
-
-
-
-
-
ꢀ
-
-
ꢀ
ꢀ
-
-
ꢀ
-
ꢀ
ꢀ
ꢀ
ꢀ
-
ꢀ
-
ꢀ
ꢀ
ꢀ
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Accel
time 3
Decel
time 4
Decel
time 5
Accel
time 2
Decel
time 6
Accel
time 1
Accel
Time 0
Decel
time 7
Frequency
P3
P4
P5
FX
t28
Analog Output Select
Range:
0 - 3
0
Default:
Access
See Also:
Tunable
t29
Selects the value to send to the analog output terminals.
Setting:
10V Output Proportional To:
0 = Output Frequency
1 = Output Current
2 = Output Voltage
3 = DC Link Voltage
P36 – Frequency High Limit
150% of Inverter rated current
282Vac or 564Vac (200V or 400V Drive Rating)
400Vdc or 800Vdc (200V or 400V Drive Rating)
t29
Analog Output Level Adjustment
Range:
10 - 200%
100
Default:
Access
See Also:
Tunable
t28
Adjusts the scaling of the analog output based on a 10V signal.
Parameter Descriptions
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t30
t31
Frequency detection level
Frequency detection bandwidth
Range:
0-400 [Hz]
t30 = 30, t31 = 10
Tunable
Default:
Access
See also:
t32-t33
Used when t32 or t33 are set to 0-4, can not be set higher than P36
(Frequency High Limit). See Chapter 8 - Customizing Your Application for
more information.
t32
t33
Digital Output (MO)
Relay Output ( 3A - 3C)
Range:
0 = FDT-1
1 = FDT-2
2 = FDT-3
3 = FDT-4
4 = FDT-5
5 = Overload (OLt)
6 = Inverter Overload (LoIT)
7 = Motor Stall STALL
8 = Over voltage trip (OV)
9 = Low voltage trip (LV)
10 = Inverter overheat (OH)
11 = Command Loss
12 = During run
13 = During stop
14 = During constant run
15 = During speed searching
16 = Wait time for run signal input
17 = Fault Output
18 = Cooling Fan Trip Alarm
Default:
Access
t32=12, t33=17
Tunable
See Also:
t34, F54-F55, F59-F60
Sets the on/off point for the Digital and Relay outputs. See Chapter 8 –
Customizing Your Application for details on this parameter.
t34
Fault Relay Output
Range:
0-7
Default:
Access
See Also:
2
Tunable
t33
Outputs a fault code when t33 – Relay Output is set to 17: Fault Output.
See Chapter 8 – Customizing Your Application for more information on this
parameter.
7-20
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t35
Criteria for Analog Input Signal Loss
Range:
0 = Disabled
1 = Activated below half of set value
2 = Activated below set value
Default:
Access
0
Tunable
See Also:
t32-t33, t36, t41, t46, t62-t63
Selects the drive mode when frequency reference set by the Analog (V1, I)
input terminal or communication option is lost.
t35
[Criteria for analog input
signal loss]
Disabled (Does not check the
analog input signal loss)
0
When half the value set in t36,
t41, t46 is entered
When less than the value set in
t36, t41, t46 is entered
1
2
Example 1) The inverter determines the freq reference is lost when P40 –
Freq set method is set to 3 (Analog V1 input), t16 to 1 and analog input
signal is less than half the value set in t36.
Example 2)The inverter determines the freq reference is lost when P40 –
Freq set method is set to 6 (V1+I), t16 to 2 and V1 input signal is either
below the value set in t36 or I input value is less than the t46 value.
Example diagram when t35 is set to 2, I62 to 2, I63 to 5.0 sec and t32 to 11:
t36
Analog Input 0 to -10V (NV) Min voltage
Range:
0 to -10V
0
Default:
Access
See Also:
Tunable
P40, t37
Sets the minimum voltage of the NV (-10 to 0V) input.
Parameter Descriptions
7-21
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t37
Frequency corresponding to t36
Range:
0 - 400 [Hz]
Default:
Access
See Also:
0
Tunable
t37
Sets the inverter output minimum frequency at minimum voltage of the NV
input.
t38
Analog Input 0 to -10V (NV) Max voltage
Range:
0 - 10V
10
Default:
Access
See Also:
Tunable
P40, t39
Sets the maximum voltage of the NV input.
t39
Frequency corresponding to t38
Range:
0 - 400 [Hz]
60
Default:
Access
See Also:
Tunable
t38
Sets the inverter output maximum frequency at maximum voltage of the NV
input.
t40
Analog Input 0 - 10V (V1) Filter time constant
Range:
0 - 9999
10
Default:
Access
See Also:
Tunable
P40, t41-t43
Adjusts the responsiveness of the Analog (V1) input (0~+10V) to filter noise.
t41
Analog Input 0 - 10V (V1) Min voltage
Range:
0 - 10V
0
Default:
Access
See Also:
Tunable
t40, t42
Sets the minimum voltage of the Analog Input (V1) input.
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t42
Frequency corresponding to t41
Range:
0 - 400 [Hz]
Default:
Access
See Also:
0
Tunable
t41
Sets the inverter output minimum frequency at minimum voltage of the V1
input.
t43
Analog Input 0-10V (V1) Max voltage
Range:
0 - 10V
10
Default:
Access
See Also:
Tunable
t44
Sets the maximum voltage of the V1 input.
t44
Frequency corresponding to t43
Range:
0 - 400 [Hz]
60
Default:
Access
See Also:
Tunable
t43
Sets the inverter output maximum frequency at maximum voltage of the V1
input.
t45
Analog Input 0-20mA (I) Filter time constant
Range:
0 - 9999
10
Default:
Access
See Also:
Tunable
P40, t46-t49
Adjusts the responsiveness of the Analog (I) input (0-20mA) to filter noise.
t46
Analog Input 0-20mA (I) Min Current
Range:
0-20mA
4
Default:
Access
See Also:
Tunable
t45, t47
Sets the minimum current of the Analog 0-20mA (I) Input.
Parameter Descriptions
7-23
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t47
Frequency corresponding to t46
Range:
0 - 400 [Hz]
Default:
Access
See Also:
0
Tunable
t46
Sets the inverter output minimum frequency at minimum current of the I
input.
t48
Analog Input 0-20mA (I) Max Current
Range:
4 - 20mA
20
Default:
Access
See Also:
Tunable
t47
Sets the maximum current of the Analog 0-20mA (I) Input.
t49
Frequency corresponding to t47
Range:
0 - 400 [Hz]
60
Default:
Access
See Also:
Tunable
t48
Sets the inverter output maximum frequency at maximum current of the I
input.
t57
Keypad Error Output
Range:
Default:
Access
0 - 3
0
Tunable
Digital Output
Relay Output
Bit 0
-
Bit 2
-
0
1
2
3
ꢀ
-
-
ꢀ
ꢀ
ꢀ
Selects the Digital and/or Relay output when a keypad-inverter
communication fails.
When communication error occurs for a certain time,
will be
displayed and the error signal can be sent to the Digital (MO) or Relay
output.
0: Not used
1: Signal output to MO
2: Signal output to 3A, 3B contacts
3: Signal output to MO, 3A, 3B
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t59
Communication protocol select
Range:
0=Modbus RTU
1=LS BUS
Default:
Access
0
Configurable
t60-t61, t64-t81
See Also:
Sets the protocol for the serial communication network.
t60
Inverter Number
Range:
1-250
Default:
Access
See Also:
1
Tunable
t59, t61, t64-t81
Sets the drive node address for the RS485 port multi-drop network.
t61
Baud Rate
Range:
0=1200 [bps]
1=2400 [bps]
2=4800 [bps]
3=9600 [bps]
4=19200 [bps]
Default:
Access
3
Tunable
See Also:
t59-t60, t64-t81
Selects the Baud Rate of RS485 Communication.
t62
Frequency Loss Mode
Range:
0=Continue operation at last frequency command
1= Coast to Stop.
2= Decelerate to stop.
Default:
Access
0
Tunable
P40, t35, t63
See Also:
When the frequency reference is from the Analog Input or RS485 Port, this
parameters sets the action to take if the speed reference is lost.
Parameter Descriptions
7-25
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t63
Frequency Loss Wait Time
Range:
0.1-120 [sec]
1.0
Default:
Access
See Also:
Tunable
P40, t35, t62
This is the time delay before the drive takes action in the event of a
command frequency loss. If there is no frequency command input during
the time set in this parameter, the drive starts to operate in the mode
selected in t62.
t64
Communication Time Setting
Range:
2-100 [ms]
5
Default:
Access
See Also:
Tunable
t59-t61, t65-t81
Frame Communication time.
t65
Parity/Stop Bit Setting
Range:
0=Parity: None, Stop Bit: 1
1=Parity: None, Stop Bit: 2
2=Parity: Even, Stop Bit: 1
3=Parity: Odd, Stop Bit: 1
Default:
Access
0
Tunable
See Also:
t59-t61, t64, t66-t81
When the protocol is set, the communication format can be set.
t66
t67
t68
t69
t70
t71
t72
t73
Read address register 1
Read address register 2
Read address register 3
Read address register 4
Read address register 5
Read address register 6
Read address register 7
Read address register 8
Range:
Default:
Access
0-42239
t66=5, t67=6, t68=7, t69=8, t70=9, t71=10, t72=11, t73=12
Tunable
The user can register up to 8 discontinuous addresses and read them all
with one read command.
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t74
t75
t76
t77
t78
t79
t80
t81
Write address register 1
Write address register 2
Write address register 3
Write address register 4
Write address register 5
Write address register 6
Write address register 7
Write address register 8
Range:
Default:
Access
0-42239
t74=5, t75=6, t76=7, t77=8, t78=5, t79=6, t80=7, t81=8
Tunable
The user can register up to 8 discontinuous addresses and read them all
with one read command.
Parameter Descriptions
7-27
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7.5 Function Group 1 Parameters
F0
Jump Code
Range:
0-64
0
Default:
Access
Tunable
Sets the code to jump directly to a specific parameter within the group.
F1
Forward/Reverse Run Disable
Range:
0 = Forward and Reverse run enable
1 = Forward run disable
2 = Reverse run disable
Default:
Access
0
Configurable
Enables/disables the function that allows the direction of the motor rotation
to be changed. The forward or reverse command may come from a digital
command, the keypad or serial command. All forward or reverse inputs will
be ignored if the corresponding directional control is disabled in F1.
F2
F3
Accel Pattern
Decel Pattern
Range:
0=Linear
1=S-Curve
Default:
Access
0
Configurable
H17, H18, t1-t8
See Also:
Sets the acceleration and deceleration pattern in the drive.
Linear: General pattern for constant torque applications.
S-Curve:This curve allows the motor to accelerate and decelerate smoothly.
To adjust the slope of the S-Curve see parameters H17 and H18.
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F8
DC Brake start frequency
Range:
Default:
Access
See Also:
Note:
0.1-60 [Hz]
5.00
Configurable
P35,P39, F8-F11
Only viewable when P39 – Stop mode select is set to DC
Brake.
Establishes the DC brake start frequency, it can not be set below P35 –
Frequency low limit. Setting this value too high may cause an over current
trip. It can be prevented by adjusting F9 – DC Brake wait time.
F9 F11
F 8
Freq.
Voltage
Current
F10
Run
command
F9
DC Brake wait time
Range:
Default:
Access
See Also:
Note:
0-60 [sec]
0.1
Configurable
P35, P39, F8-F11
Only viewable when P39 – Stop mode select is set to DC
Brake.
The drive will hold for the time set in F9 after F8 – DC Brake start frequency
is reached before it applies the voltage level set in F10 – DC Brake Voltage.
Use DC Brake wait time when the load inertia is large to prevent nuisance
trips or damage to the motor.
F10
DC Brake Voltage
Range:
Default:
Access
See Also:
Note:
0-200 [%]
50
Configurable
P32,P35, P39, F8-F11
Only viewable when P39 – Stop mode select is set to DC
Brake.
Sets the DC Brake Voltage as a percent of P32 – Motor Rated Current.
Parameter Descriptions
7-29
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F11
DC Brake Time
Range:
0-60 [sec]
1.0
Default:
Access
Configurable
P35, P39, F8-F11
See Also:
Note:
Only viewable when P39 – Stop mode select is set to DC
Brake.
Sets the time for F10 – DC Brake Voltage to be applied to the motor after F9
– DC Brake wait time. Setting F10 or F11 to zero will disable the DC Brake
function. In case of DC Brake at high load inertia and frequency, change
the DC brake controller gain according to H37 set value.
F12
DC Brake start voltage
Range:
0-200 [%]
50
Default:
Access
See Also:
Configurable
F12, t1-t8
This parameter sets the amount of DC voltage before a motor starts to run.
It is set as percentage of P33 – Motor rated current.
F13
DC Brake start time
Range:
0-60 [sec]
0
Default:
Access
See Also:
Configurable
F12, t1-t8
DC voltage is applied to the motor for DC Brake start time before motor
accelerates.
Freq.
F13
t
Voltage
Run
F12
command
Setting F12 or F13 to 0 will disable the Starting DC brake. After F13 – DC
Brake start time, the frequency is increased. If a digital input (t1~t8) is set
for 11 – DC brake during start, the voltage is not released until the input is
opened. The drive will accelerate with dc voltage applied until the input is
open.
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F14
Time for magnetizing a motor
Range:
0-60 [sec]
Default:
Access
See Also:
0.1
Configurable
P30, P32, H32, H34, H40, H42, H44
This parameter accelerates the motor after pre-exciting the motor for the set
time. The amount of the pre-exciting current is set in H34 – Motor no load
current.
F20
Jog Frequency
Range:
0-400 [Hz]
10.00
Default:
Access
See Also:
Tunable
P36, t1-t8
This parameter sets the Jog Frequency, it cannot be set above P36 –
Frequency High Limit. Jog is only available in 2-wire control mode.
F27
Torque Boost select
Range:
0=Manual Torque Boost
1=Auto Torque Boost
Default:
Access
0
Configurable
See Also:
F28-F29, H34, H41-42
If F27 = 0, set manual torque boost values in F28 and F29.
Voltage
100%
No torque boost
F28 - FX
torque boost
Time
F29 - RX
torque boost
FX
RX
If F27 = 1 (Auto toque boost), the inverter automatically calculates torque
boost values using motor parameters and outputs the corresponding
voltage. Before enabling Auto torque boost, H34 – No load current and H42
– Stator resistance must be set properly.
Parameter Descriptions
7-31
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F28
F29
Torque boost in forward direction
Torque boost in reverse direction
Range:
0-15 [%]
2
Default:
Access
See Also:
Configurable
F27-F29
This parameter sets the amount of torque boost applied to a motor during
forward or reverse run. It is set as a percent of maximum output voltage.
F30
V/F Pattern
Range:
0=Linear
1=Square
2=User V/F
Default:
Access
0
Configurable
See Also:
P34, P35, F31-F38, H40
Selects a pattern for the drive.
0 = Linear volts per hertz ratio from P35 – Frequency low limit to P34 –
Base frequency.
Base freq.
Start freq.
Freq.
Inverter rated
voltage
Voltage
Run
command
1 = Squared volts per hertz ratio. Applications are fans, pumps or variable
torque.
Voltage
100%
Freq.
Base freq.
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2 = User V/F is a custom volts per hertz pattern established using
parameters F31~F38.
Voltage
100%
F38
F36
Linear
V/F
F34
F32
Freq.
Start
freq.
Base
freq.
F31
F33 F35
F37
F31
F33
F35
F37
User V/F frequency 1
User V/F frequency 2
User V/F frequency 3
User V/F frequency 4
Range:
0 - 400 [Hz]
Default:
Access
See Also:
F31=15, F33=30, F35=45, F37=60
Configurable
P34, P35, F31-F38, H40
When F30 = 2, selects the frequency for each point in a custom volts per
hertz pattern.
F32
F34
F36
F38
User V/F voltage 1
User V/F voltage 2
User V/F voltage 3
User V/F voltage 4
Range:
0-100 [%]
Default:
Access
See Also:
F32=25,F34=5-, F36=75, F38=100
Configurable
P34, P35, F31-F38, H40
When F30 = 2, selects the voltage for each point in a custom volts per hertz
pattern.
Parameter Descriptions
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F39
Output voltage adjustment
Range:
Default:
Access
40-110 [%]
100
Configurable
This parameter adjusts the amount of output voltage, set as a percentage of
input voltage. Use when the motor voltage is less than the input voltage.
Voltage
100% setting
100%
70% setting
70%
Freq.
Base freq.
F40
Energy Savings Level
Range:
Default:
Access
0-30 [%]
0
Tunable
This parameter adjusts decreases the output voltage according to load
status. It is set as a percent of the maximum output voltage. When used on
pump and fan applications, it can dramatically reduce energy consumption
by decreasing the output voltage with light loads.
F50
Electronic thermal select
Range:
0 - 1
Default:
Access
0
Tunable
F51-F53
Read Only:
Setting this parameter to a 1 enables the electronic thermal overload. It
activates when the motor is overheated if current is greater than the value
set in F51 (time-inverse), and the drive output is turned off for the preset
time.
Only viewable when F50 = 1 (Electronic Thermal Overload).
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F51
Electronic thermal level for 1 minute
Range:
50-200 [%]
150
Default:
Access
See Also:
Tunable
F50, F52-F53
This parameter sets the maximum current capable of flowing to the motor
continuously for 1 minute. The set value is a percentage of P32 – Motor
Rated Current. It can not be set lower than F52 – Electronic thermal level
for continuous.
F52
Electronic thermal level for continuous
Range:
50-15 [%]
10
Default:
Access
See Also:
Tunable
F50, F51, F53
This parameter sets the amount of current to keep the motor running
continuously. It cannot be set higher than F51 – Electronic thermal level for
1 minute.
Motor cooling method
F53
Range:
0 = Standard Motor
1 = Variable Speed Motor
Default:
Access
00
Tunable
For a Standard Motor, cooling effects decrease when a motor is run at low
speed. A Variable Speed motor is a special motor that uses a separately
powered cooling fan to maximize cooling effect even at low speed.
Current for
continuous [ %]
100
F53 = 1
95
F53 = 2
65
Freq [ Hz]
20
60
Parameter Descriptions
7-35
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F54
Overload Warning Level
Range:
30-150 [%]
150
Default:
Access
See Also:
Tunable
P32, t32, t33, F55
Sets the amount of current to issue an alarm signal at a relay or digital
output terminal (see parameters t32 and t33). The value is set as a
percentage of P32 – Motor Rated Current.
Select an output terminal for this function between MO (Digital Output) and
3A~C (Relay Output). If selecting MO as the output terminal, set t32 = 5
(Overload: OL).
F55
Overload warning time
Range:
0-30 [sec]
10
Default:
Access
See also:
tunable
P32, t32,t33, F54
This parameter issues an alarm signal when the current greater than F54 –
Overload warning level flows to the motor for F55 – Overload warning time.
F56
Overload trip enable
Range:
0 - 1
Default:
Access
See Also:
1
Tunable
F57, F58
When set to a 1 = enabled, this parameter turns off the inverter output when
the motor is overloaded. Overload level and time are set in F57 and F58
respectively.
F57
Overload trip level
Range:
30-200 [%]
180
Default:
Access
See Also:
Tunable
P32, F56, F58
This parameter sets the amount of overload current before the drive trips.
The value is a percentage of P32 – Motor rated current.
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Overload trip time
F58
Range:
0-60 [sec]
Default:
Access
See Also:
60
Tunable
F56, F57
The inverter output is turned off if the current level set in F57 is exceeded
for the time set in F58 – Overload trip time.
F59
Stall Prevention select
Range:
0 - 7
Default:
Access
See Also:
0
Configurable
t32, t33, F60
During Decel
During Constant Run
During Accel
Bit 2
Bit 1
Bit 0
0
1
2
3
4
5
6
7
-
-
-
-
-
-
-
-
-
-
-
-
During:
Function Description:
Acceleration
Motor starts deceleration when current exceeds the value
set in F60.
Constant run
Deceleration
t32 and t33:
Motor decelerates when current exceeds the value set in
F6.
Motor deceleration is stopped when inverter DC link
voltage rises above a certain voltage level.
The drive outputs signals through either the digital (MO) or
relay output (3A~C) terminals when set = 7 Motor Stall.
Motor stall status can be monitored in the above codes
even if F59 is not active.
Example:
F59 = 3; stall prevention active during acceleration and
constant run. When stall prevention is executed during
acceleration or deceleration, accel/decel times may take
longer than the user-setting time to prevent a stall
condition. When stall prevention is activated during
constant run, t1, t2 executed in accordance with the value
set in P41 – Accel Time and P42 – Decel Time.
Parameter Descriptions
7-37
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F60
Stall prevention level
Range:
30-200 [%]
Default:
Access
See Also:
150
Configurable
P32, F59
This parameter sets the amount of current to activate stall prevention during
acceleration, constant run or deceleration. The value set is a percentage of
P32 – Motor Rated Current.
F63
Save Up/down frequency
Range:
0 -1
Default:
Access
See Also:
0
Configurable
t1-t8,F64
This parameter decides whether to save the specified frequency during
up/down operation. When 1 is selected, the up/down frequency is saved in
F64.
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F64
Saved up/down frequency
Range:
Default:
Access
See also:
Notes:
n/a
0.00
Read Only
t1-t8, F63
F64 viewable when F63 = 1 (Save up/down frequency)
Stores the up/down frequency if F63 = 1 before the drive stops or
decelerates.
F65
Start Frequency
Range:
Default:
Access
0.10 to 10.00 [Hz]
0.5
Configurable
The drive starts to output its voltage at this frequency. It is the low frequency
limit.
Parameter Descriptions
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7.6 Function Group 2 Parameters
H0
Jump Code
Range:
0 - 95
0
Default:
Access
Tunable
Sets the code to jump directly to a specific parameter within the group.
H1
H2
H3
H4
H5
Last Fault 1
Last Fault 2
Last Fault 3
Last Fault 4
Last Fault 5
Range:
n/a
Default:
Access
See also:
0
Read Only
H6
Stores information on the types of faults, the frequency, the current and the
Accel/Decel condition at the time of fault. The latest fault is automatically
stored in the H1 – Fault History 1. Up to the last five faults can be stored.
When a fault occurs during operation, it can be monitored in the d – display
parameters under nOn. See Chapter 9 – Troubleshooting for information on
fault codes and actions.
H6
Reset Fault History
Range:
0 - 1
Default:
Access
See also:
0
Tunable
H1-H5
Clears the fault history saved in H1 to H5.
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H7
Dwell Frequency
Range:
0.1-400 [Hz]
Default:
Access
See also:
5.00
Configurable
P35, P36, H8
When run frequency is issued, the motor will accelerate after the Dwell
Frequency is applied for the Dwell Time – H8. Dwell frequency can be set
within Frequency High and Low Limits (P35 and P36).
Dwell frequency is used to output torque in an intended direction. It is
useful in hoisting applications to apply torque before releasing a mechanical
brake. Rated slip frequency is calculated by the formula shown below:
rpm × P
fs = fr −
120
f
Where, s = Rated slip frequency
f
rpm
r = Rated frequency
= = Motor nameplate RPM
P
= Number of Motor poles
Example:
Rated frequency = 60Hz; Rated RPM = 1740rpm;
Number of motor poles= 4
1740 × 4
120
fs = 60 −
= 2Hz
Dwell freq.
Start freq.
Frequency
Dwell time
Run
command
H8
Dwell Time
Range:
0-10 [sec]
0.0
Default:
Access
Configurable
H7
See also:
Sets the time for dwell operation.
Parameter Descriptions
7-41
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H10
Skip Frequency Enable
Range:
0 - 1
Default:
Access
See also:
0
Configurable
H11-H16
Set this parameter = 1 to enable the skip frequency settings configured in
H11 thru H16. When it is desirable to avoid resonance attributable to the
natural frequency of a mechanical system, these parameters allow resonant
frequencies to be skipped. Three different areas of Skip frequency
High/Low limit can be set. During acceleration or deceleration however, the
run frequency within the set area is valid.
H11
H12
H13
H14
H15
H16
Skip Frequency Low Limit 1
Skip Frequency High Limit 1
Skip Frequency Low Limit 2
Skip Frequency High Limit 2
Skip Frequency Low Limit 3
Skip Frequency High Limit 3
Range:
Default:
Access
See Also:
Note:
0.1-400 [Hz]
H11=10, H12=15, H13=20, H14=25, H15=30, H16=35
Configurable
H10
Parameters H11-H16 are only viewable when H10 – Skip
Frequency = 1 (Enabled).
Run frequency cannot be set within the range of H11 thru H16. The
frequency values of the low numbered parameters cannot be set above
those of the high numbered ones. Settable within the range of Frequency
High and Low Limits (P35 and P36).Sets the lower limit of frequency range
1 to skip.
Freq.
H16
H15
H14
H13
H12
H11
V1(Voltage input)
10V
0
I (Current input)
20mA
Run
command
Freq. Up setting
Freq. Down
setting
7-42
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Case 1:If frequency set value (Analog setting via voltage, current, RS485 or
keypad) is within the range of skip frequency, it maintains the low limit value.
If the set value is outside the range, it increases the frequency up to the set
value.
Case 2:In the case of a decreasing frequency setting, if the frequency set
value (Analog setting via voltage, current, RS485 or keypad) is within the
range of skip frequency, it maintains skip frequency high value. If the
setting is outside the range, it decreases frequency to the set value.
H17
H18
S-Curve Accel/Decel Start Side
S-Curve Accel/Decel End Side
Range:
0.1-100 [%]
40
Default:
Access
See also:
Configurable
P41, P42, F2, F3
Set the speed reference value to form a curve at the start and end cycle of
the acceleration and deceleration curves. If it is set higher, linear zone gets
smaller.
H17 sets the starting and H18 the ending ratio between S-curve and Linear
in ½ of Accel/Decel Ref. Frequency. For smooth Accel/Decel starting,
increase H17 or H18 to extend the S-curve ratio.
Note that setting Frequency Ref. for Accel/Decel (H70) is set to Max Freq
and target freq is set below Max freq. the shape of the S-curve may be
distorted.
H17
H18
= P41+ P41×
= P42 + P42×
+ P41×
+ P42×
2
2
Accel time for S-curve setting
Decel time for S-curve setting:
H17
H18
2
2
Parameter Descriptions
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H19
Phase Loss Protection
Range:
Default:
Access
0 - 3n
0
Tunable
Setting H19 to a value other than 0 enables Phase Loss Protection.
Output Phase Loss: Inverter output is shut off in the event of more than one
phase loss among U, V and W.
Input Phase Loss: Inverter output is blocked at the event of more than one
phase loss among R, S and T. If there is no input phase loss, output is shut
off when it is time to replace the DC link capacitor.
Note: Set P32 – Motor Rated Current correctly. If the actual motor rated
current and the value of P32 are different, output phase loss protection
function may not activate correctly.
0 = Not Used
1 = Output phase loss protection
2 = Input phase loss protection
3 = Input/output phase loss protection
H20
Power On Start
Range:
0 - 1
0
Default:
Access
See also:
Tunable
P38
Setting H20 = 1 enables power on start. This parameter is activated when
P38 – Drive Mode is set to 1 or 2 (Run/Stop via Control Terminal). Motor
will accelerate after AC power is applied and a Forward Run (FX) or
Reverse Run (RX) terminal is ON.
Input voltage
Frequency
Run
command
When H20 is 0
When H20 is 1
This parameter is inactive if P38 – Drive Mode is set to Keypad or RS485.
ATTENTION:Particular attention must be directed to this function due to
potential hazard as motor starts to run suddenly upon applying AC input
power.
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H21
Auto Restart
Range:
0 - 1
Default:
0
Access
Tunable
See also:
P38, H26, H27
Setting H21 = 1 enables auto restart. This parameter is activated when P38
– Drive Mode is set to 1 or 2 (Run/Stop via Control Terminal). Motor will
accelerate after a fault condition is reset. A Forward Run (FX) or Reverse
Run (RX) terminal must be ON to Auto Restart.
Frequency
Reset
Run
command
When H21 is 0
When H21 is 1
ATTENTION:Particular attention must be directed to this function due to
potential hazard as motor starts to run suddenly after the fault is cleared.
H22
Speed Search Select
Range:
0 - 15
Default:
Access
See also:
0
Configurable
t32, t33, H23-H27
This parameter is active to prevent any possible fault when the inverter
outputs its voltage to the running motor. See Chapter 8 – Customizing Your
Application for details on setting this parameter.
H23
Spped Search Current Level
Range:
80 - 200 [%]
100
Default:
Access
See also:
Tunable
P32, H22, H24-H27
This parameter limits the amount of current during speed search. The value
is a percentage of P32 – Motor Rated Current. See Chapter 8 –
Customizing Your Application for details on setting this parameter.
Parameter Descriptions
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H24
H25
Speed Search P Gain
Speed Search I Gain
Range:
Default:
Access
0-9999
100
Tunable
Settings H24 and H25 are used to set the Proportional and Integral gain
used for Speed Search PI Controller. See Chapter 8 – Customizing Your
Application for details on setting this parameter.
Auto Restart Attempts
H26
Range:
0-10
Default:
Access
See Also:
0
Tunable
H21, H27
This parameter sets the number of restart tries after a fault occurs. Auto
restart becomes active after the time is reached in H27 – Auto Restart Time.
Auto Restart is deactivated if the number of faults exceeds the value in H26
– Auto Restart Attempts.
H26 is reset back to its entered value if STOP key or a reset via the control
terminal is activated. If no trip occurs for 30 seconds after the auto restart
operation, H26 is reset.
It is not possible to restart (auto restart becomes deactivated) if the drive
faults due to a Low Voltage (Lvt), Emergency Stop (EST), Inverter Overheat
(Oht) or a Hardware Trip (HWt) fault. This parameter sets the number of
restart tries after a fault occurs. Auto restart becomes active after the time
is reached in H27 – Auto Restart Time. Auto Restart is deactivated if the
number of faults exceeds the value in H26 – Auto Restart Attempts.
H27
Auto Restart Time
Range:
0-60 [sec]
1.0
Default:
Access
See Also:
Tunable
H21, H27
This parameter sets the amount of time between auto restart attempts.
After the Auto Restart Time, the motor starts acceleration automatically.
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H32
Slip Frequency
Range:
0-10 [Hz]
1.67
Default:
Access
Configurable
P33, H40
See Also:
Enter the slip frequency in accordance with the following formula and motor
nameplate.
r p m x P
f s = f r -
( )
1 2 0
Where:
f
f
s = Rated Slip Frequency
r = Rated Frequency
rpm = Motor Nameplate rpm
P
= Number of Motor Poles
Example: Rated Freq: 60 Hz; Rated RPM: 1740 rpm; Poles: 4
fs = 60 - ((1740 x 4) / 120) = 2 HZ
H34
No Load Motor Current
Range:
Default:
Access
0.1-20 [A]
Based on drive rating
Configurable
Enter the current value detected when the motor is rotating at rated speed
(remove any load connected to the motor shaft). For applications where it is
difficult to measure the no load current, enter a value of 50% of the rated
nameplate motor current in this parameter.
H36
Motor Efficiency
Range:
50-100 [%]
Default:
87
Access
Configurable
Enter the motor efficiency from the motor nameplate.
Parameter Descriptions
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H37
Load Inertia Rate
Range:
0=Load inertia rate is less than 10 times that of motor
inertia
1=Load inertia rate equal to approximately 10 times the
motor inertia.
2=Load inertia rate is more than 10 times that of motor
inertia.
Default:
Access
0
Configurable
F8-F11, H40
See also:
Select range according to the connected inertia in relationship to the motor
inertia.
H39
Carrier Frequency Select
Range:
Default:
Access
2-15 [kHz]
2
Tunable
This parameter affects the audible sound of the motor, noise emission form
the inverter, inverter temperature, and leakage current. If the set value is
higher, the inverter sound is more quiet, but the noise from the inverter and
leakage current will be increased.
H40
Control Mode Select
Range:
0=Volts/Frequency Control
1=Slip Compensation Control
2=PID Feedback Control
3=Sensorless Vector Control
Default:
Access
0
Configurable
This parameter selects the control mode for the operation of the drive. See
the following description of control method and the corresponding
parameters for adjustment to each.
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Volts per Hertz: Basic Operation of the Drive, set standard motor
parameters:
P30 – Motor Hp
P32 – Motor Rated Current
P33 – Motor PolesF30 – V/F Pattern
Slip
Compensation: This function enables the motor to run in constant speed
by compensating inherent slip in an induction motor. Set
parameters:
P30 – Motor Hp
P32 – Motor Rated Current
P33 – Motor Poles
H32 – Rated Slip Freq
H34 – Motor No Load Current
H36 – Motor Efficiency
H37 – Load Inertia
PID Feedback: H50 thru H56 (see chapter 8 for advanced PID features)
Sensorless
Vector:
Open Loop Speed Regulated drive control. Set
parameters:
P30 – Motor Hp
P32 – Motor Rated Current
H32 – Rated Slip Freq
H34 – Motor No Load Current
H41 – Auto tuning
H42 – Stator resistance
H44 – Leakage inductance
F14 – Time for magnetizing
H41
Auto-Tuning
Range:
0 - 1
Default:
0
Access
Configurable
H40, H42, H44
See also:
If this parameter is set to a 1, it automatically measures the values to assign
for parameters H42 – Stator Resistance and H44 – Leakage Inductance.
H42
Stator Resistance (Rs)
Range:
0-28 [Ω]
Default:
Access
See also:
n/a
Configurable
H40, H41, H44
This is the value of the motor stator resistance.
Parameter Descriptions
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H44
Leakage Inductance (Lσ)
Range:
0-300.0 [mH]
Default:
Access
See also:
Based on drive rating
Configurable
H40, H41, H42
This is the leakage inductance of the stator and rotor of the motor.
H45
H46
Sensorless P Gain
Sensorless I Gain
Range:
Default:
Access
See also:
Note:
0-32767
H44=1000, H45=100
Configurable
H40
Set H40 = 3 (Sensorless Vector Control) to display these
parameters.
Proportional and Integral gain for Sensorless Vector Control.
H50
PID Feedback Selection
Range:
0=Terminal I Input (0-20 mA)
1=Terminal V1 Input (0-10V)
Default:
Access
Based on drive rating
Configurable
See Also:
H40, H50-H56
Selects the source for the PID loop feedback.
H51
P Gain for PID
Range:
0 - 999.9%
300.0
Default:
Access
See Also:
Configurable
H40, H50-H56
These parameter sets the Proportional gain for the PID Controller.
I Gain for PID
H52
Range:
0.1-32.0[sec]
1.0
Default:
Access
See Also:
Tunable
H40, H50-H56
These parameter sets the Integral gain for the PID Controller.
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D Gain for PID
H53
Range:
0-30.0[sec]
0.0
Default:
Access
See Also:
Tunable
H40, H50-H56
These parameter sets the Differential gain for the PID Controller.
H54
F Gain for PID
Range:
0-999.9[%]
0.0
Default:
Access
See Also:
Tunable
H40, H50-H56
This is the Feed forward gain for the PID controller.
H55
H56
PID output frequency high limit
PID output frequency low limit
Range:
0.1-400[Hz]
60.00
Default:
Access
See Also:
Tunable
H40, H50-H56
These parameters set the limits for the output frequency through the PID
control.
H60
Self Diagnostics Select
Range:
0 - 3
Default:
Access
See Also:
0
Configurable
t1-t8
0 = Self-diagnostic disabled
1 = IGBT fault/ground fault
2 = Output phase short & open/ground fault
3 = Ground Fault
Parameter Descriptions
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H70
Frequency Reference for Accel/Decel
Range:
0 - 1
Default:
Access
See Also:
0
Configurable
P36, P41, P42, H71
0 = Based on P36 – Frequency High Limit
1 = Based on Delta Frequency
Set the desired Accel/Decel time sin P41 and P42. If H70 = 0, the
acceleration and deceleration time is the time that it takes to reach
maximum frequency from 0 hertz. If you set H70 to 1 = Delta Frequency,
Accel/Decel time is the time that it takes to reach target frequency from a
constant run frequency (current operating frequency). To scale the time
units for accel/decel set parameter H71.
H70 = 0 (Max Frequency)
Max. freq.
60Hz
Run Freq.
30Hz
Run
command
Accel time
Decel time
H70 = 1 (Delta Frequency)
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H71
H72
H74
Accel/Decel Time Scale
Range:
0 - 2
Default:
Access
See Also:
1
Tunable
P36, P41, P42, H70
This parameter is used to scale the time units for the accel/decel ramp. The
display for the VS1MD is available up to 5-digits. Therefore, if time unit is
set to 0.01 sec for example, maximum accel/decel time would be 600.00
seconds.
0 = Setting Unit: 0.01 sec
1 = Setting Unit: 0.1 sec
2 = Setting Unit: 1 sec
Range: 0.01 ~ 600.00
0.1 ~ 6000.0
1 ~ 60000
Power-On Display
Range:
0 - 9
Default:
Access
See Also:
0
Configurable
d0-d9, H74
This parameter selects the parameter to display on the keypad when power
is applied.
0 = Frequency Command
2 = Output Current
4 = Output Power
6 = DC Link Voltage
8 = Digital Output Status
1 = Motor RPM
3 = Output Voltage
5 = Output Torque
7 = Digital Input Status
9 = Software Version
Gain for Motor RPM Display
Range:
1-100 [%]
100
Default:
Access
See Also:
Configurable
d1, H72
This parameter is used to change the motor rpm display to a scaled custom
factor. When H40 = 0 (V/F Control) or 1 (PID Control), the inverter output
frequency is displayed in RPM suing the formula below. Motor slip is not
considered.
120 × f
P32
H 74
RPM =
×
100
Parameter Descriptions
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H75
DB Resistor Select
Range:
0 - 1
Default:
1
Access
Configurable
H76
See Also:
0 = Unlimited
1 = Limited by setting in H76
ATTENTION:Take caution when DB resistor is used over its Watt rating.
Firemay resultfromresistoroverheat. Whenresistor having heatdetection
sensor is used, sensor output can be used as external trip signal in digital
input.
H76
DB Resistor Operating Rate
Range:
0-30[%]
10
Default:
Access
See Also:
Configurable
H75
Sets the percent of DB resistor operating rate to be activated during one
sequence of operation. Continuous usage rate is a maximum of 15
seconds.
Example 1)
T _ dec
H76 =
×100[%]
T _ acc + T _ steady + T _ dec + T _ stop
T_acc: Acceleration time to reach a setting freq.
T_steady: Time for constant speed operation at setting freq.
T_dec: Time to decelerate to lower freq. than that in constant speed
or time to stop from freq. in constant speed.
T_stop: waiting time at a stop before operation is resumed.
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Example 2)
T _ dec
T _ dec + T _ steady1+ T _ acc + T _ steady2
H76 =
×100[%]
H77
Cooling Fan Control
Range:
Default:
Access
0 - 1
0
Configurable
This parameter determines if the cooling fan for the drive will always
operate or only run when the temperature of the inverter exceeds the
protective temperature limit.
0 = Always ON, cooling fan operates when power is applied to drive. Fan
turns off when inverter voltage becomes low due to power off.
1 = Fan operates when temp above limit; fan begins to operate when power
is ON and a operating command is ON. Fan turns off when operating
command is turned off. Fan will continue to operate if the heat sink
temperature exceeds a certain limit regardless of operating command. Use
this setting for applications requiring frequent starts and stops.
H78
Operating method when cooling fan fails
Range:
0 - 1
Default:
Access
See Also:
0
Configurable
t32, t33
This parameter determines if what the drive will do if the cooling fan fails.
0 = Continuous operation when cooling fan malfunctions
Setting t32 or t33 = 18 (Cooling Fan Fault Alarm) will send an alarm signal
to the output.
ATTENTION:If operation is continued after a fan trip occurs, an overheat
trip may happen and protective functions may be activated. It may also
reduce the life of main board components due to a rise in inverter internal
temperatures.
Parameter Descriptions
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1 = Operation stops when cooling fan malfunctions
When cooling fan fault occurs,
message is displayed on the
LED and operation is stopped. If t32 and/or t33 is set to 17 (Fault Output),
fault message is displayed.
H81 -
H90
Second Motor Parameters
Range:
See below
See below
Configurable
t1-t8
Default:
Access
See Also:
These parameters activate when a selected terminal is ON and one of the
t1 thru t8 terminals is set for 12 (2nd Motor Select).
Param. Description
Range
Factory Default
Adj. run
H81
H82
H83
H84
H85
H86
H87
H88
H89
H90
Accel Time
Decel Time
Base Freq
V/F Pattern
FX Torque Boost
RX Torque Boost
Stall Level
1 Min Overload Level
Continuous Overload Level
Motor Rated Current
0 ~ 60000 Sec
0 ~ 60000 Sec
30 ~ 400 Hz
0 ~ 2
0 ~ 15 %
0 ~ 15 %
30 ~ 150 %
50 ~ 200 %
50 ~ 150 %
0.1 ~ 50 Amps
1.0
5.0
60.0
0
5
5
150
150
100
26.3
-
-
-
-
-
-
Use these settings when an inverter operates two motors connected to two
different types of loads. 2nd motor operation does not drive two motors at
the same time. When first selected motor operation is stopped, select a
terminal for the second motor and define H81 thru H90 to run the second
motor.
M 1
VS1MD
M 2
P8
Sets the V/F pattern for the second motor.
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H91
H92
Parameter Read
Parameter Write
Range:
Default:
Access
0-1
0
Configurable
H91 Copies the parameters from the drive and saves them into a remote
keypad.
H92 Copies the saved file in a remote keypad and writes it to the drive.
H93
Parameter Initialize
Range:
Default:
Access
0 - 5
0
Configurable
This parameter is used to initialize the drive settings back to their factory
default values.
0 = No Action
1 = All parameters set to factory defaults
To reset individual groups only and not all parameters select one of the
following:
2 = P Group Parameter Reset
4 = H Group Parameter Reset
3 = F Group Parameter Reset
5 = t Group Parameter Reset
Press the ENTER key after setting H93. H93 will be displayed again after
initialization.
H94
Password Register
Range:
0-FFFF
0
Default:
Access
See Also:
Tunable
H95
This parameter is used to assign a password for the drive.
H95
Parameter Lock
Range:
0 -FFFF
0
Default:
Access
See Also:
Tunable
H94
This parameter is able to lock or unlock parameters by typing the password
registered in H94.
Parameter Descriptions
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CHAPTER 8
Customizing for Your Application
8.1 Frequency Mode
8.1.1 Keypad Frequency Setting 1
Group Code Parameter Name
Setting Range
Initial
0.00
Unit
Hz
Drive
P37
P40
[Frequency Command]
-
0 to
400
group
[Frequency Setting
Method]
1
1 to 7
1
Step 1. Set P40 [Frequency mode] to “1”.
Step 2. Set the desired frequency in P37 and press the Prog/Ent ( ) key to enter
the value into memory.
Step 3. The value can not be set above P36 [Frequency Hiigh Limit].
Note: When remote keypad is connected, keypad keys on the body are deactivated.
Customizing for Your Application
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8.1.2 Frequency Setting via –10 to +10[V] Input
Group
Code
P37
P40
t36
Parameter Name
Setting Range
Initial
0.00
1
Unit
Hz
Drive
group
[Frequency Command]
[Frequency Mode]
-
0 to400
1 to 7
2
-
t40 TO
t44
[NV Input Minimum Voltage]
0 to -10
0 to 400
0.0
V
t37
[Frequency Corresponding to
t36]
-
0.00
Hz
t38
t39
[NV Input Max Voltage]
-
-
0 to 10
10.00
60.00
V
[Frequency Corresponding to
t38]
0 to 400
Hz
t40 to
t44
[V1 Input]
Step 1. Set P40 [Frequency Setting Method] to “2”.
Step 2. The set frequency can be monitored in D-0[Frequency Command].
Apply –10V to +10V signal between V1 and CM terminal.
Output frequency corresponding to –10V to +10V input voltage to V1 terminal
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I1 (Filter time constant for NV input): Effective for eliminating noise in the frequency
setting circuit. Increase the filter time constant if steady operation cannot be
performed due to noise. A higher setting results in slower response (t gets longer).
V1 Input
t
Set Freq.
t36 to t39: Setting input range and corresponding frequency to -10V to 0V V1 input
voltage
Ex) when minimum (-) input voltage is -2V with corresponding frequency 10Hz and
Max voltage is –8V with run freq. 50Hz.
t36
t38
t40 to t44: Setting input range and corresponding frequency to 0 to +10V V1 input
voltage
Ex) when minimum (+) input voltage is 2V with corresponding frequency 10Hz and
Max voltage is 8V with run freq.
t44
t42
t41
t49
Customizing for Your Application
8-3
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8.1.3 Frequency Setting via 0 to 10 [V] Input or Terminal Potentiometer
Group
Code
Parameter Name
[Frequency Command]
Setting
Range
Initial
Unit
P37
-
0 to 400
0.00
Hz
Drive
group
P40
t40
[Frequency Setting Method]
3
1 to 7
1
[Filter Time Constant for V1
Input]
10
0 to 9999
10
t41
t42
[V1 Input Min Voltage]
-
-
0 to 10
0
V
I/O
group
[Frequency corresponding to I
7]
0 to 400
0.00
Hz
t43
t44
[V1 Input Max Voltage]
-
-
0 to 10
10
V
[Frequency Corresponding to
I 9]
0 to 400
60.00
Hz
Step 1. Set P40 [Frequency Setting Method] to “3”
Step 2. 0-10V can be directly applied from an external controller or a
potentiometer connected on terminals VR, V1 and CM.
Wire the terminals as shown below.
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8.1.4 Frequency Setting via 0 to 20 [mA] Input
Group
Code
P37
Parameter Name
Setting
Range
Initial
0.00
Unit
Hz
[Frequency Command]
-
0 to 400
Drive
group
P40
t45
t46
t47
t48
t49
[Frequency Setting Method]
[Filter Time Constant for I Input]
[I Input Minimum Current]
4
10
-
1 to 7
1
0 to 9999
0 to 20
0 to 400
0 to 20
0 to 400
10
4
mA
Hz
I/O
group
[Frequency Corresponding to I12]
[I input Max Current]
-
0.00
20
-
mA
Hz
[Frequency Corresponding to I14]
-
60.00
Step 1. Set P40 [Frequency Setting Method] to “4”.
Step 2. Frequency is set via 0 to 20mA input between I and CM terminal.
8.1.5 Frequency Setting via -10 to +10 V Voltage Input + 0 to 20 mA
Input
Group
Code
P37
P40
Parameter Name
Setting
Range
Initial
0.00
Unit
Hz
[Frequency Command]
-
0 to 400
Drive
group
[Frequency Setting Method]
5
1 to 7
1
Step 1. Set P40 [Frequency Setting Method] to “5”.
Step 2. Override function available using Main/Auxiliary speed adjustment
Step 3. Related code: t36, t39, t40, t44, t45, t49
Override function allows more precise control and a faster response by combining
Main and Auxiliary speed input. Fast response can be achieved via Main speed and
precise control can be accomplished by Aux. speed if the accuracy of Main/Aux speed
is set differently.
Follow the settings shown in the table below when Main speed is given via 0 to 20mA
with Aux. speed via V1 terminal (–10 to 10V).
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When override function is used, select the Main/Aux. speed according to loads used.
Group
Code
t36
Parameter Name
[NV Input Min Voltage]
Setting
Unit
0
V
t37
t38
t39
t41
t42
t43
t44
t46
t47
t48
t49
[Frequency Corresponding to t36]
[NV Input Max Voltage]
0.00
10.00
5.00
0
Hz
V
[Frequency Corresponding to t38]
[V1 Input Min Voltage]
Hz
V
[Frequency Corresponding to t41]
[V1 Input Max Voltage]
0.00
10
Hz
V
I/O group
[Frequency Corresponding to t43]
[I Input Minimum Current]
5.00
4
Hz
mA
Hz
mA
Hz
[Frequency Corresponding to t46]
[I Input Max Current]
0.00
20
[Frequency Corresponding to t48]
60.00
After the above parameters are set, if 5V is applied to V1 with 12mA given to terminal
I, output frequency would be 32.5Hz. If –5V is applied to V1 terminal with 12mA given
to terminal I, output frequency would be 27.5Hz.
8.1.6 Frequency Setting via 0 to 10 V + 0 to 20 mA Input
Group
Code
P37
P40
Parameter Name
Setting
Range
Initial
0.00
Unit
Hz
[Frequency Command]
-
0 to 400
Drive
group
[Frequency Mode]
6
1 to 7
1
Step 1. Set P40 [Frequency Setting Method] to “6”.
Step 2. Related code: t40 to t44, t45 to t49
Step 3. Refer to Frequency setting via -10 to +10V voltage input + 0 to 20mA
input.
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8.1.7 Frequency Setting via RS 485 Communication
Group
Code
P37
P40
Parameter Name
Setting
Range
Initial
0.00
Unit
Hz
[Frequency Command]
-
0 to400
Drive
group
[Frequency Setting Method]
7
1
1 to
Set P40 [Frequency Setting Method] to “7”.
Related code: t59 - t61
Refer to Appendix D. RS485 communication.
8.1.8 Operating Command via RS485 Communication
Group
Code
P38
Parameter Name
[Drive Mode]
Setting
Range
0 to 3
Initial
Unit
Drive group
3
-
1
0
t59
[Communication Protocol
Selection]
0 to 1
I/O group
t60
t61
[Inverter Number]
[Baud Rate]
-
-
1 to 250
0 to 4
1
3
Step 1. Set P38 [Drive Mode] to “3”.
Step 2. Set t59, t60 and t61 correctly.
Step 3. Drive operation is performed via RS485 communication.
8.1.9 Rotating Direction Selection via –10 to +10[V] Input of V1 Terminal
Group
Code
P40
P38
Parameter Name
Setting
Range
1 to 7
0 to 3
Initial
Unit
Drive group
[Frequency Setting]
2
-
1
[Drive Mode]
1
Step 1. Set P40 to 2.
Step 2. Inverter is operating as the table below regardless of Drive mode setting.
FWD RUN Command
FWD RUN
REV RUN Command
REV RUN
0 to +10 [V]
-10 to 0 [V]
REV RUN
FWD RUN
Motor runs in Forward direction when input voltage to V1-CM is between 0 and 10[V]
and FWD RUN command is active. When input voltage polarity is reversed to –10 to
0[V] during FWD RUN, motor decelerates to stop and runs in reverse direction.
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Motor runs in Reverse direction when input voltage to V1-CM is between 0 and 10[V]
and REV RUN command is active. When input voltage polarity is reversed to –10 to
0[V], motor decelerates to stop and runs in forward direction.
8.2 UP-Down
Group
Display
Parameter Name
Setting
0
Range
0 to 25
Default
0
Unit
t1
to
t7
t8
[Multi-function Input Terminal P1 Selection]
to
I/O
group
[Multi-function Input Terminal P7 Selection]
[Multi-function Input Terminal P8 Selection]
15
16
6
7
Select terminals for Up-Down operation from P1-P8.
If P7 and P8 are selected, set t7 and t8 to 15 [Frequency Up command] and 16 [Frequency Down
command], respectively.
If P6 is selected, set t6 to t8 [Up/Down Save Frequency Initialization].
t1
Frequency
t6
P7 (UP)
t7
P8 (DOWN)
Run
t8
command(FX)
Up/down Save function: If F63, ‘Save up/down frequency’, is set to 1, the frequency
before the inverter was stopped or decelerated is saved in F64
0
1
Remove ‘save up/down frequency’
Set ‘save up/down frequency’
F63
F64
Save up/down frequency select
Save up/down frequency
Up/down frequency saved
The Up/down frequency can be initialized by setting the multi-function input terminal
as ‘Up/Down Save Frequency Initialization’.
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If ‘Up/Down Save Frequency Initialization’ signal is input while the multi-function input
‘Up’ or ‘Down’ function is applied, this signal is ignored.
8.3 3-Wire
Group
Display
Parameter Name
Setting
0
Range
0 to 24
Default
0
Unit
t1
to
t8
[Multi-function Input Terminal P1 Selection]
I/O
group
to
[Multi-function Input Terminal P8 Selection]
17
7
Select the terminal from P1-P8 for use as 3-Wire operation.
If P8 is selected, set I24 to “17” [3-Wire operation].
t1
t2
t8
Frequency
t
FX
RX
P8 (3-Wire)
Input signal is saved in 3-Wire operation. Therefore, inverter can be operated by
Push-button switch.
The bandwidth of pulse (t) should not be less than 50msec.
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8.4 PID Control
Group
Display
H40
Parameter Name
[Control Mode Selection]
Setting
Range
0 to 3
Default
Unit
-
2
-
0
H50
H51
H52
H53
H54
H55
H56
t1 to t8
[PID Feedback Selection]
[P Gain for PID Controller]
[I Gain for PID Controller]
[D Gain for PID Controller]
[F Gain for PID Controller]
[PID Output Frequency High Limit]
[PID Output Frequency Low Limit]
0 to 1
0
-
-
0 to 999.9
0.1 to 32.0
0.0 to 30.0
0 to 999.9
0.1 to 400
0.1 to 400
0 to 25
300.0
1.0
0
%
-
sec
sec
%
Function
group 2
-
0
-
60.0
0.50
-
Hz
Hz
-
-
I/O group
[Multi-function Input Terminal
P1-P8 Definition]
21
Drive group
d1
[Motor RPM]
Set H40 to “2” [PID Feedback control].
Output frequency of the inverter is controlled by PID control for use as constant control of flow, pressure or
temperature.
H50: Select the feedback type of PID controller.
0
1
Terminal I input (0 to 20[mA] )
Terminal V1 input (0 to 10[V])
H50
[PID Feedback Selection]
H51: Set the percentage of output to error. If P Gain is set to 50%, 50% of the error
value will be output. Higher value can reach the target control value faster but it may
cause oscillation.
H52: Set the time to output the accumulated error value. Set the time required to
output 100% when the error value is 100%. If H52 [Integral time for PID controller (I
gain)] is set to 1 sec and the error becomes 100%, 100% will be output in 1 sec.
Adjusting the value may reduce the nominal error. If the value is reduced, response
will be faster but setting too low may lead to controller oscillation.
H53: Set the output value to the variation of the error. The error is detected by 0.01
sec in SV-iG5A. If differential time is set to 0.01 sec and the percentage variation of
error per 1 sec is 100%, 1% per 10msec is output.
H54: PID Feed Forward Gain. Set the gain to add the target value to the PID controller
output.
H55, H56: Limits the output of the PID controller.
I17 to I24: To go from PID to normal operation, set one of P1-P8 terminal to 21 and
turn ON.
d1: Calculates the feedback from H50 into Motor frequency and displays it.
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PID Block Diagram
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8.5 Auto-tuning
Group
Display
Parameter Name
[Auto Tuning]
Setting
Range
0 to 1
Default
Unit
-
H41
H42
H44
1
0
H-
Function
group 2
[Stator Resistance (Rs)]
-
-
0 to 28
-
-
W
[Leakage Inductance (Lσ)]
0 to 300.00
mH
Motor parameters will be automatically measured.
The measured motor parameters in H41 can be used in Auto Torque Boost and Sensorless Vector
Control.
ATTENTION:Auto tuning should only be executed after
motor has stopped. Motor shaft must not run by the load
during H41[Auto tuning].
!
H41: When H41 is set to 1 and press the Enter (ò) key, Auto tuning is activated and
“TUn” will appear on the LED keypad. When finished, “H41” will be displayed.
H42, H44: The values of motor stator resistance and leakage inductance detected in
H41 are displayed, respectively. When Auto tuning is skipped or H93 – [Parameter
initialize] is done, the default value corresponding to motor type (H30) will be
displayed.
Press the STOP/RST key on the keypad or turn on the EST terminal to stop the Auto
Tuning.
If Auto tuning of H42 and H44 is interrupted, the default value will be set. If H42 and
H44 are finished and auto-tuning of leakage inductance is interrupted, the measured
value of H42 and H44 are used and the default of leakage inductance is set.
See page for motor parameter default values.
ATTENTION:Be sure accurate values are entered for stator
resistance and leakage inductance. Otherwise, the performance
of Sensorless vector control and Auto torque boost could be
compromised.
!
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8.6 Sensorless Vector Control
Group
Display
H40
Parameter Name
Setting
3
Range
0 to 3
Default
0
Unit
[Control Mode Selection]
-
P30
H32
P32
H34
H42
H44
F14
[Motor Type Selection]
[Rated Slip Frequency]
[Motor Rated Current]
-
-
-
-
-
-
-
0.2 to 7.5
0 to 10
-
kW
Hz
A
-
H - Function
group 2
0.5 to 50
0.1 to 20
0 to 14
-
[Motor No Load Current]
[Stator Resistance (Rs)]
[Leakage Inductance (Lσ)]
[Time for Energizing a Motor]
-
A
-
W
0 to 300.00
0.0 to 60.0
-
mH
sec
Function
group 1
0.1
If H40[Control mode Selection] is set to “3”, Sensorless vector control will become active.
ATTENTION:Motor parameters should be measured for
optimal performance. It is highly recommended H41 [Auto
tuning] be done prior to operating via Sensorless vector
control.
!
Ensure that the following parameters are entered correctly for optimal performance in
Sensorless vector control.
P30: Select motor type connected to inverter output.
H32: Enter rated slip frequency based on motor nameplate RPM and rated frequency
(See 10-6).
P32: Enter motor nameplate rated current.
H34: After removing the load, set H40[Control mode Selection] to “0” [V/F control] and
run the motor at 60Hz. Enter the current displayed in Cur-[Output current] as motor no
load current. If it is difficult to remove the load from the motor shaft, enter a value
equal to 40 to 50% of H33[Motor rated current] or the factory default.
H42, H44: Enter the value of the parameter measured during H41[Auto tuning] or the
factory default.
F14: This parameter accelerates the motor after pre-exciting the motor for the set
time. The amount of the pre-exciting current is set in H34[Motor No Load Current].
Directly enter the motor nameplate value except motor rating when 0.2kW is used.
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Factory default by motor ratings
Motor
rating
[kW]
Current
rating
[A]
No-load
current
[A]
Rated slip
freq
[Hz]
Stator
resistance
[Ω]
Leakage
inductance
[mH]
Input
voltage
0.2
1.1
0.6
2.33
3.00
2.33
2.33
2.00
2.33
2.33
2.33
2.33
3.0
14.0
122.00
61.00
28.14
14.75
11.31
5.41
0.4
0.75
1.5
2.2
3.7
5.5
7.5
0.2
0.4
0.75
1.5
2.2
3.7
5.5
7.5
1.8
1.2
2.1
3.5
4.4
4.9
6.6
9.0
0.4
0.7
1.3
2.1
2.6
3.3
3.9
5.7
6.70
3.5
2.46
6.5
1.13
200
8.8
0.869
0.500
0.314
0.169
28.00
14.0
12.9
19.7
26.3
0.7
3.60
2.89
300.00
177.86
88.44
44.31
34.21
16.23
10.74
8.80
1.1
2.0
2.33
2.33
2.00
2.33
2.33
2.33
7.38
3.7
3.39
400
5.1
2.607
1.500
0.940
0.520
6.5
9.9
15.2
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8.7
Speed Search
Group
Display
H22
Parameter Name
Setting
Range
0 to 15
Default
Unit
[Speed Search Selection]
-
0
H23
H24
H25
t32
[Current Level]
-
80 to 200
100
100
200
12
%
Function
group 2
[Speed Search P Gain]
[Speed Search I Gain]
-
0 to 9999
-
[Multi-function Output
Terminal Selection]
15
I/O group
0 to 18
t33
[Multi-function Relay Selection] 15
17
This is used to prevent possible faults from occurring if the inverter outputs the voltage during operation
after the load is removed.
The inverter estimates the motor rpm based on output current. Therefore, detecting exact speed is
difficult.
The following table shows 4 types of Speed search selections.
Speed Search
During
H20[Power ON
Start]
Speed Search
During Instant
Power Failure
Restart
Speed Search
During
H21[Restart After
Fault Reset]
Speed Search
During
Acceleration
Bit 3
Bit 2
Bit 1
Bit 0
-
0
1
-
-
-
-
-
-
-
-
-
-
-
-
-
-
2
-
-
-
-
-
-
-
3
4
-
-
5
H22
6
7
8
-
-
-
-
-
-
9
10
11
12
13
14
15
-
-
H23: Limits current during Speed search. Set as a percentage of H33.
H24, H25: Speed search is activated via PI control. Adjust P gain and I gain
corresponding to the load characteristics.
t32, t33: Signal of active Speed search is given to external sequence via Multi-function
output terminal (MO) and Multi-function relay output (3ABC).
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Example
Speed search during Instant Power Failure restart
• When the input power is cut off due to instant power failure, the
inverter outputs Low voltage trip (LV) to hold the output.
• When the power is restored, the inverter outputs the frequency
before the low voltage trip and the voltage is increased due to PI
control.
• t1: If current is increasing over the preset level in H23, the rise in
voltage will stop and the frequency is decreased.
• t2: If the opposite of t1 occurs, the increase in voltage starts again
and the decrease in frequency stops.
• When the frequency and voltage are restored back to the nominal
level, acceleration will continue at the frequency before trip.
Speed search operation is suitable for loads with high inertia. Stop the motor and
restart when friction in load is high.
VS1MD keeps normal operation when instant power failure occurs and power is
restored in 15msec for the use of its inverter rating.
Inverter DC link voltage can vary depending on output load quantity. Therefore, Low
Voltage trip may occur when instant power failure is maintained over 15msec or output
is higher than its rating.
Instant power failure specification is applied when input voltage to Inverter is 200 to
230V AC for 200V class, or 380 to 480V AC for 400V class.
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8.8
Self-Diagnostic Function
8.8.1 How to Use Self-Diagnostic Function
Group
Display
H60
Parameter Name
Setting
-
Range
0 to 3
Default
0
Unit
Function
group 2
Self-Diagnostic Selection
-
t1
Multi-function Input Terminal P1
Selection
-
0
-
-
to
t8
to
I/O group
0 to 25
Multi-function Input Terminal P8
Selection
20
7
Select Self-Diagnostic function in H60, Function group 2.
Define one terminal among P1toP8 terminals for this function.
To define P8 for this function, set t8 to “20”.
ATTENTION:Do not touch the inverter with hands or other
objects while performing this function because current is
flowing to the inverter output.
!
Perform Self-diagnostic function after input/output wiring of the inverter is finished.
This function allows the user to safely check for the IGBT fault, output phase open and
short, and Ground fault without disconnecting the inverter wiring.
There are 4 options:
0
1
Self-Diagnostic disabled
IGBT fault and Ground fault2
Self-Diagnostic
function
H601
2
3
Output phase short & open circuit and Ground fault
Ground fault (IGBT fault, Output phase short and open circuit)
1Selecting the higher number performs all functions within lower numbers.
2Ground fault of U phase in 2.2KW to 4.0KW inverters and ground fault of
V phase in other rating inverters may not be detected when selecting “1”.
Select 3 to make sure to detect all phase of U, V, W
Once H60 is set to a specific value from 1 to 3 and the terminal defined for this
function among P1 to P8 terminals is turned ON, the corresponding function is
conducted, displaying “dIAG”
To stop this function, press STOP/RESET key on the keypad, turn the defined terminal
OFF or turn the EST terminal ON.
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The following table shows the fault type while this function is active.
No.
Display
UPHF
UPLF
vPHF
Fault type
Switch above IGBT’s U phase fault
Switch below IGBT’s U phase fault
Switch above IGBT’s V phase fault
Switch below IGBT’s V phase fault
Switch above IGBT’s W phase fault
Switch below IGBT’s U phase fault
Output short between U and W
Output short between U and V
Output short between V and W
Ground fault at U phase
Diagnosis
1
2
3
Contact sales representatives.
4
vPLF
5
WPHF
WPLF
UWSF
vUSF
6
7
Check for a short in inverter output
terminal, motor connection
terminal or the proper motor
connection.
8
9
WvSF
UPGF
vPGF
WPGF
UPOF
vPOF
WPOF
10
11
12
13
14
15
Check for ground fault occurring at
inverter output cable or motor or
motor insulation damage.
Ground fault at V phase
Ground fault at W phase
Output open at U phase
Check for proper connection of the
motor to the inverter output or
proper motor connection.
Output open at V phase
Output open at W phase
8.9
Parameter Read/Write
Group
Display
H91
H92
Parameter Name
[Parameter Read]
Setting
Range
0 to 1
0 to 1
Default
Unit
1
1
0
Function
group 2
[Parameter Write]
0
Used to read/write Inverter Parameters using remote keypad.
ATTENTION:Take caution when Parameter write (H92) is
executed. By doing this, parameters in inverter are cleared
and parameters in remote keypad are copied to inverter.
!
8.9.1 Parameter Read
Step 1. Move to H91 code.
Step 2. Press Enter ( ) key once. 0 will be displayed.
Step 3. Press Up ( ) key once. Rd will be displayed.
Step 4. Press Enter ( ) key twice. Rd will be displayed
Step 5. H91 is displayed when Parameter read is finished.
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8.9.2 Parameter Write
Step 1. Move to H92 code. H92 will be displayed.
Step 2. Press Enter ( ) key once. 0 will be displayed.
Step 3. Press Up ( ) key once. Wr will be displayed.
Step 4. Press Enter ( ) key twice. Wr will be displayed.
Step 5. H91 is displayed when Parameter read is finished.
8.10 Parameter Initialization / Lock
8.10.1 Parameter Initialization
Group
Display
Parameter Name
Range
Default
0
1
2
3
4
5
-
Initialize All Groups
Initialize Drive Group
Initialize F 1 Group
Initialize F 2 Group
Initialize I/O group
Function
group 2
H93
[Parameter Initialization]
0
Select the group to be initialized and perform it in H93 code.
Press Enter
is complete.
key after setting in H93. H93 will be displayed again after initialization
8.10.2 Password Registration
Group
Display
H94
H95
Parameter Name
Setting
Range
Default
Unit
[Password Registration]
-
-
0 to FFFF
0
Function
group 2
[Parameter Lock]
0 to FFFF
0
Register password for Parameter lock (H95). Password should be Hex decimal. (0 to 9, A, B, C, D, E, F)
ATTENTION:Do not forgetthe registered password. Itisneeded
to unlock parameters.
!
Factory default password is 0. Enter any new password except 0.
8.10.2.1 Registering the password for the first time.
Step 1. Move to H94 code. H94 will be displayed.
Step 2. Press Enter ( ) key twice. 0 will be displayed.
Step 3. Register password. (Ex: 123) 123 will be displayed.
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Step 4. 123 will blink when Enter ( ) key is pressed. 123 will be displayed.
Step 5. Press Enter ( ) key. H94 will be displayed after the new password has been
registered.
8.10.2.2 Changing password. (Current PW: 123 -> New PW: 456)
Step 1. Move to H94 code. H94 will be displayed.
Step 2. Press Enter ( ) key. 0 will be displayed.
Step 3. Enter any number (e.g.: 122). 122 will be displayed.
Step 4. Press the Enter ( ) key. 0 is displayed because wrong value was entered.
Password cannot be changed in this status. 0 will be displayed.
Step 5. Enter the right password. 123 will be displayed.
Step 6. Press Enter ( ) key. 123 will be displayed.
Step 7. Enter the new password. (e.g. 456). 456 will be displayed.
Step 8. Press the Enter ( ) key. Then “456” will blink. 456 will be displayed.
Step 9. Press Enter ( ) key. H94 will be displayed.
8.10.3 Parameter Lock
Group
Display
H95
Parameter Name
[Parameter Lock]
[Password Registration]
Setting
Range
Default
Unit
-
0 to FFFF
0
Function
group 2
H94
-
0 to FFFF
0
This parameter is used to lock the user-set parameters using the password.
8.10.3.1 Locking the user-set parameters.
Step 1. Move to H95 code. H9 will be displayed.
Step 2. Press Enter ( ) key. UL will be displayed.
Step 3. Parameter value can be changed in UL (Unlock) status. UL will be displayed.
Step 4. Press Enter ( ) key. 0 will be displayed.
Step 5. Enter the password created in H94 (e.g.: 123). 123 will be displayed.
Step 6. Press Enter ( ) key. L will be displayed.
Step 7. Parameter value cannot be changed in L (Lock) status. L will be displayed.
Step 8. Press Enter ( ) key. H95 will be displayed.
8.10.3.2 Unlocking the user-set parameter.
Step 1. Move to H95 code. H9 will be displayed.
Step 2. Press Enter ( ) key. L will be displayed.
Step 3. Parameter value cannot be changed in L(Lock) status. L will be displayed.
Step 4. Press Enter ( ) key. 0 will be displayed.
Step 5. Enter the password created in H94 (e.g.: 123). 123 will be displayed.
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Step 6. Press Enter ( ) key. UL will be displayed.
Step 7. Parameter value can be changed in UL (Unlock) status. While UL is
displayed, press Enter ( ) key. H95 will be displayed.
8.11 Multi-function Output Terminal (MO) and Relay (3AC)
Group
Code
t32
Parameter
Setting range
Initial
12
I/O
group
[Multi-function output
terminal Selection]
0
FDT-1
FDT-2
FDT-3
FDT-4
FDT-5
1
t33
[Multi-function relay
Selection]
2
17
3
4
5
Overload [OL ]
6
Inverter Overload [IOL ]
Motor stall [STALL]
Over voltage trip [OV]
Low voltage trip [LV]
Inverter overheat [OH]
Command loss
7
8
9
10
11
12
13
14
15
16
17
18
During run
During stop
During constant run
During speed searching
Wait time for run signal input
Fault output
Cooling fan trip alarm
t34
[Fault relay output]
When
setting
H26
[Number
of auto
restart
tries]
Whentrip
other
When
low
voltage
trip
occurs
than low
voltage
trip
occurs
Bit 2
Bit 1
Bit 0
0
1
2
3
2
-
-
-
-
-
-
-
-
-
-
4
5
6
7
-
-
Select the desired item to be output via MO terminal and relay (30AC).
t34: When 17 [Fault display] is selected in t32 and t33, Multi-function output terminal
and relay will be activated with the value in t34.
Customizing for Your Application
8-21
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8.11.1 FDT-1
Check whether the output frequency matches the user-setting frequency.
Active condition: Absolute value (preset frequency - output frequency) <= Frequency
Detection Bandwidth/2
Group
Display
t31
Parameter Name
Setting
Range
Default
10.00
Unit
Hz
I/O group
[Detected Frequency Bandwidth]
-
0 to 400
Cannot be set above Max frequency (P36).
When setting t31 to 10.0
8.11.2 FDT-2
Activated when the preset frequency matches frequency detection level (t52) and
FDT-1 condition is met.
Active condition: (Preset frequency = FDT level) & FDT-1
Group
Display
t30
t31
Parameter Name
[Detected Frequency level]
[Detected Frequency Bandwidth]
Setting
Range
Default
30.00
10.00
Unit
Hz
-
0 to 400
I/O
group
-
Cannot be set above Max frequency (P36).
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When setting t30 and t31 to 30.0 Hz and 10.0 Hz, respectively
8.11.3 FDT-3
Activated when run frequency meets the following condition.
Active condition: Absolute value (FDT level - run frequency) <= FDT Bandwidth/2
Group
Display
t30
Parameter Name
Setting
Range
Default
30.00
Unit
Hz
[Detected Frequency level]
[Detected Frequency Bandwidth]
-
-
0 to 400
I/O
group
t31
10.00
Cannot be set above Max frequency (P36).
When setting t30 and t31 to 30.0Hz and 10.0 Hz, respectively
8.11.4 FDT-4
Activated when run frequency meets the following condition.
Active condition:
Accel time: Run Frequency >= FDT Level
Customizing for Your Application
8-23
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Decel time: Run Frequency > (FDT Level – FDT Bandwidth/2)
Group
Display
t30
t31
Parameter Name
Setting
Range
Default
30.00
Unit
Hz
[Detected Frequency level]
[Detected Frequency Bandwidth]
-
-
0 to 400
I/O
group
10.00
Cannot be set above Max frequency (P36).
When setting t30 and t31 to 30.0Hz and 10.0 Hz, respectively
8.11.5 FDT-5
Activated as B contact contrast to FDT-4.
Active condition:
Accel time: Run Frequency >= FDT Level
Decel time: Run Frequency > (FDT Level – FDT Bandwidth/2)
Group
Display
t30
Parameter Name
Setting
Range
Default
30.00
10.00
Unit
Hz
[Detected Frequency level]
[Detected Frequency Bandwidth]
-
0 to 400
I/O group
t31
-
Cannot be set above Max frequency (P36).
When setting t30 and t31 to 30.0Hz and 10.0 Hz, respectively
8.11.6 Over Voltage Trip (Ovt)
Activated when over voltage trip occurs due to DC link voltage exceeded 460Vdc for
230V class and 820Vdc for 460V class.
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8.11.7 Low Voltage Trip (Lvt)
Activated when low voltage trip occurs due to DC link voltage under 180Vdc for 200V
class and 360Vdc for 400V class.
8.11.8 Inverter Heatsink Overheat (OHt)
Activated when the heatsink is overheated.
8.11.9 Command Loss
Activated when Analog (V1,I) and RS485 communication commands are lost.
8.11.10 During Operation
Activated when run command is input and inverter outputs its voltage.
8.11.11 During Stop
Activated during stop without active command.
8.11.12 During Constant Run
Activated during constant speed operation.
Customizing for Your Application
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8.11.13 Wait Time for Run Signal Input
This function becomes active during normal operation and that the inverter waits for
active run command from external sequence.
8.11.14 Fault Output
The parameter set in t34 is activated.
For example, if setting t33, t34 to 17 and 2, respectively, Multi-function output relay will
become active when trip other than “Low voltage trip” occurred.
8.11.15 Cooling Fan Trip Alarm
Used to output alarm signal when H78 is set to ”0”(constant operation at cooling fan
trip).
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8.12 Accel/Decel setting and V/F Control
Customizing for Your Application
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8.13 Control Block Diagram
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8.14 Frequency and Drive Mode Setting
Customizing for Your Application
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CHAPTER 9
Troubleshooting
ATTENTION: This drive contains high voltage capacitors that take
time to discharge after removal of mains supply. Before working on the
drive, ensure isolation of mains supply from line inputs. Wait ten (10)
minutes for capacitors to discharge to safe voltage levels. Failure to
observe thisprecaution couldresultinseverebodilyinjuryor lossoflife.
!
ATTENTION: Only qualified electical personnel familiar with the
construction and operation of this equipment and the hazards involved
should install, adjust, operate, or service this equipment. Read and
understand this manual and other applicable manuals in their entirety
before proceeding. Failure to observe this precaution could result in
severe bodily injury or loss of life.
The VS1MD constantly monitors its status and provides the following ways to
determine the status of the drive and to troubleshoot problems that may occur:
• LEDS on the drive
• Fault Codes displayed on seven segment display
• Drive monitor and status parameters
• Entries in the fault queue
9.1 Verifying that DC Bus Capacitors are Discharged
Before Servicing the Drive
ATTENTION: DC Buscapacitorsretain hazardous voltages afterinput
power hasbeen disconnected. After disconnectiong inputpower, wait ten
(10) minutes for the DC Bus capacitors to discharge and then check the
voltage with a voltmeter to ensure the DC bus capacitors are discharged
before touching any internal components. Failure to observe this
precaution could result in severe bodily injury or loss of life.
!
The drive’s DC bus capacitors retain hazardous voltages after input power has been
disconnected. Perform the following steps before touching any internal components:
Step 1. Turn off and lock out input power. Wait 10 minutes after drive’s 7-segment
display goes blank.
Step 2. Open the drive’s cover.
Step 3. Verify that there is no voltage at the drive’s input power terminals.
Step 4. Once the drive has been serviced, reattach the drive’s cover.
Step 5. Reapply input power to the drive.
Troubleshooting
9-1
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9.2 Determining Drive Status Using the STP/FLT LED
The STP/FLT LED can be used to determine at a quick glance the status of the drive.
If the drive is stopped, but not faulted, this LED will be illuminated solid. If the drive is
running, this LED will be off. If this LED is flashing, then this indicates that the drive is
faulted thus requiring attention. Please refer to figure 9.1.
9.3 Monitoring Drive Status Using the Display
Parameters
The Display Group has multiple parameters that can be utilized for monitoring the
status of the drive and are useful for diagnosing certain situations. Chapter 6
describes how to display these parameters.
If the drive is being operated from the terminal strip, it is useful to monitor the status of
the digital inputs to determine operational problems. The digital input status can be
monitored by displaying parameter d7. The below describes the details of
understanding the status of each of the digital inputs (labeled P1 ~ P8 on the control
board terminal strip). In this example, P1, P3, and P4 are “ON” and P2, P5, P6, P7,
and P8 are “OFF”.
(ON)
(OFF)
P8
P7
P6
P5
P4
P3
P2
P1
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If the application is using digital outputs to reflect the internal status of the drive, these
can be monitored using parameter d8. The below describes the details of
understanding the status of each of the digital outputs (labeled MO for the open
collector output and 3A/3B/3C for the relay output on the control board terminal strip).
In this example, the multi-function output MO is “ON” and the multi-function relay is
“OFF” (note that the indication for the multi-function relay is an indication of whether or
not the relay coil is energized).
(ON)
(OFF)
3A/3B
MO
9.4 Reviewing Fault Status of the Drive
As noted in Chapter 6, the Display Group has an entry that designates if there is an
active fault and will display the fault code associated with that fault. The fault codes
are described later in this chapter. While displaying the fault code within the Display
Group, you can press the enter key to display the frequency the drive was running at
when the fault occurred. By pressing the up arrow one time, you can display the
current the drive detected when the fault occurred. By pressing the up arrow again,
you will display the drive status when the fault occurred.
Function Group 2 (H parameters) also contains the current fault along with a history of
the previous 4 faults. These faults are located at parameters H1, H2, H3, H4, and H5.
As with the fault memory in the Display Group, you can subsequently display the
frequency, current, and status for each of these faults using the same procedure
outlined in Chapter 6.
9.5 Fault Codes
Fault codes indicate conditions within the drive that require immediate attention. The
drive responds to a fault by initiating a coast-to-stop sequence and turning off the
power to the motor.
The integral keypad provides visual notification of a fault condition by displaying the
following:
• Fault code on the display. (See table 9.1 for the fault code descriptions.)
• Flashing STP/FLT LED
Troubleshooting
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9.5.1 Manually Clearing Faults
Step 1. Note the code of the fault condition on the display.
Step 2. Address the condition that caused the fault. Refer to table 9.1 for a
description of the fault and corrective actions. The cause must be corrected
before the fault can be cleared.
Step 3. After corrective action has been taken, clear the fault and reset the drive.
9.5.2 Automatically Clearing Faults (Auto Restart Feature)
The Auto Restart feature provides the ability for the drive to automatically perform a
fault reset followed by a start attempt without user or application intervention. This
allows remote operation. This feature can only be used for faults that are
auto-resettable.
When this type of fault occurs, and H26 (Auto Restart) is set to a value greater than 0,
a user-configurable timer, H27 (Retry Delay) begins. When the timer reaches zero, the
drive attempts to automatically reset the fault. If the condition that caused the fault is
no longer present, the fault will be reset and the drive will be restarted.
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9.5.3 Fault Descriptions
Table 9.1 – Fault Descriptions
Fault Code/
Display
Fault
Descriptions
Overcurrent
The drive diables when the output current is
detected at a level higher than the inverter rated
current.
Ground fault
current
The drive disables when a ground fault occurs
and the ground fault current is greater than the
internal setting value of the inverter.
Inverter
Overload
The drive disables its output when the output
current of the inverter is greater than the rated
level.
Overload trip
The drive disables if the output current of the
inverter is at 150% of the inverter rated current
for more than the current limit time (1 min).
Inverter
overheat
The drive disables if the heat sink overheats due
to a damaged cooling fan or a blockage in the
cooling fan by detecting the temperature of the
heat sink.
Output Phase
loss
The drive disables its output when one or more
of the output (U, V, W) phases is open. The drive
detects the output current to check the output
phase loss.
Over voltage
Low voltage
The drive disables its output if the DC bus
voltage increases above the bus overvoltage
threshold. This fault can also occur due to a
surge voltage generated at the input terminals.
The drive disables its output if the DC bus
voltage is less than the undervoltage threshold
because insufficient torque or overheating of the
motor can occur when the input voltage of the
drive is too low.
Electronic
Thermal
The internal electronic thermal of the drive
determines the motor heat. If the motor is
overloaded the inverter disables the output. The
drive cannot protect the motor when controlling a
motor having more than 4 poles or multiple
motors.
Input phase
loss
Drive output is disabled when one of the input
phases (R, S, T) is open.
Self-
diagnostic
malfunction
Displayed when IGBT damage, output phase
short, output phase ground fault or output phase
open occurs.
Troubleshooting
9-5
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Table 9.1 – Fault Descriptions
Parametersave Displayed when user-modified parameters fail to
error
be stored into memory.
Inverter
hardware fault
Displayed when an error occurs in the control
circuitry of the drive.
Communication Displayed when the drive cannot communicate
Error with the keypad.
Remote keypad Displayed when drive and remote keypad do not
communication communicate with each other. This fault does not
error
stop Inverter operation.
Keypad error
Displayed after drive resets keypad upon a
keypad error and the error remains for a
predetermined time.
Cooling fan
fault
Displayed when a fault condition occurs in the
drive cooling fan.
Instant Cut Off
Used for the immediate stop of the drive. The
inverter instantly disables the output when the
EST terminal is actuated.
ATTENTION:The inverter resumes regular
operation when turning off the EST terminal
while either the FX or the RX terminal is ON.
!
External fault A When multi-function input terminal (t1-t8) is set
contact input
to 18 {External fault signal input: A (Normal Open
Contact)}, the inverter disables its output.
External fault B When multi-function input terminal (t1-t8) is set
contact input
to 19 {External fault signal input: B (Normally
Closed Contact)}, the drive disables its output.
Operating
method when
the frequency
command is
lost
When drive operation is set via an Analog input
(0-10V or 0-20mA input) or option (RS485) and
the signal is lost,the drive responds according to
the method set in t62 (Operating method when
the frequency reference is lost).
NTC open
When NTC connection is lost, output is disabled.
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9.6 Fault Correction
Use table 9.2 to troubleshoot the drive. If you cannot resolve the problem using this
table, contact Baldor-Reliance.
Table 9.2 – Corrective Actions
Keypad
Display
Fault
Cause
Remedy
• Accel/Decel time is
too short compared to
the inertia of the load.
• Increase the
Accel/Decel time.
Overcurrent
• Load is greater than
the drive rating.
• Replace the inverter
with appropriate
capacity
• Inverter enabled when • Resume operation
the motor is rotating.
after stopping the
motor or use H22
(Speed search).
• Output short circuit or
ground fault has
occurred.
• Check output wiring.
• Mechanical brake on
the motor is operating
incorrectly.
• Check the mechanical
brake
ATTENTION:When an overcurrent fault occurs,
the cause of the fault must be corrected before
operation is restarted. Failure to observe this
precaution could result in damage to, or
destruction of, the IGBT.
Ground fault
current
• Ground fault has
occurred in the output
wiring of the drive.
• Check the wiring
between the drive and
the motor.
• The insulation of the
motor is damaged.
• Replace the motor.
Inverter
Overload
• Load is greater than
the drive rating.
• Upgrade the capacity
of motor and drive or
reduce the load.
Overload trip
• Torque boost scale is
set too large.
• Reduce torque boost
scale.
Troubleshooting
9-7
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Table 9.2 – Corrective Actions
Inverter
overheat
• Cooling system has
problems.
• Check for foreign
substances clogged in
the heat sink.
• Cooling fan has failed. • Replace the old
cooling fan with a new
one.
• Ambient temperature
is too high.
• Keep ambient
temperature under 50
degrees C.
Output Phase
loss
• Faulty contact in
output contactor.
• Replace or repair
output contactor.
• Faulty output wiring
• Check output wiring.
Cooling Fan
Fault
• An foreign substance
is clogged in a
ventilating slot.
• Check the ventilating
slot and remove the
clogged substances.
• Cooling fan has failed. • Replace the cooling
fan.
Over voltage
• Decel time is too short • Increase the Decel
for the inertia of the
load.
time.
• Regenerative load is
connected to the
drive.
• Use Dynamic Brake
Unit.
• Line voltage is too
high.
• Check to see if line
voltage exceeds the
rating.
Low voltage
• Line voltage is low.
• Check to see if line
voltage is below the
rating.
• Load larger than line
capacity is connected
to line (ex: welding
machine, motor with
high starting current
connected to the
• Check the incoming
AC line. Adjust the
line capacity
corresponding to the
load.
commercial line).
• Faulty contactor on
the input of the
inverter.
• Change contactor.
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Table 9.2 – Corrective Actions
Electronic
Thermal
• Motor has
overheated.
• Reduce load and/or
duty cycle.
• Load is greater than
inverter rating.
• Change drive with
higher capacity.
• ETH level is set too
low.
• Adjust ETH level to an
appropriate level.
• Drive capacity is
incorrectly selected.
• Select correct drive
capacity.
External fault A
contact input
• The terminal set to “18 • Eliminate the cause of
(External fault-A)” or
“19 (External fault-B)”
in t1-t8 within terminal.
fault in the circuit
connected to external
fault terminal.
External fault B
contact input
Operating
method when
the frequency
command is
lost
• No frequency
command is applied to
V1 and I.
• Check the wiring of V1
and I and frequency
reference level.
Remote
keypad
communication
error
• Communication error
between drive keypad
and remote keypad.
• Check for connection
of communication line
and connector.
• Call Baldor-Reliance
for assistance.
EEP: Parameter save error
HWT: Hardware fault
Err: Communication error
COM: Keypad error
NTC: NTC error
9.7 Overload Protection
IOLT : IOLT(inverter Overload Trip) protection is activated at 150% of the inverter
rated current for 1 minute and greater.
OLT : OLT is selected when F56 is set to 1 and activated at 200% of F57[Motor rated
current] for 60 sec in F58. This can be programmable.
Troubleshooting
9-9
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APPENDIX A
Technical Specifications
Appendix A provides technical specifications for the VS1MD drive..
Environment
Altitude
1000 m, (3300 ft.), max without derating
2
Vibration
5.9m/sec , (0.6G)
Ambient Operating
Temperature
-10º to 50º C, (14 to 122º F)
Storage Temperature -20º to 65º C, (-4 to 149º F)
Relative Humidity
Cooling Method
90%, non-condensing
Natural Convection / Forced Air Cooling,
(Fan)
Atmosphere
Important: The drive must not be installed in
an area exposed to volatile or corrosive gas,
vapors or dust. If the drive will be stored for a
time before installation, it must be stored in an
area where it will not be exposed to a
corrosive atmosphere.
Control
Control Method
V/Hz, Sensorless Vector
Speed Reference
Resolution
Digital command: 0.01Hz
Analog signal command: 0.06 Hz, (Max freq.,
60 Hz)
Frequency Accuracy Digital command: 0.01% of Max output freq.
Analog signal command: 0.1% of Max output
freq.
V/Hz Curve
Terminal Strip Input
P1 – P8
Linear, Squared, User custom V/Hz.
Multi-function programmable inputs, T/M 1-8
Common terminal
CM
Technical Specifications
A-1
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V1, Voltage Analog
Input
-12 - +12 VDC max.
I, Analog Current
Input
0 – 20 mA, Internal resistor, 250 Ohm
Terminal Strip Outputs
VR, Reference
Power Supply
12 VDC Output, 10mA max. Potentiometer 1
– 5 Kohm
AM, Multi-function
Analog Output
Signal
11 VDC, 100 mA max.
MO, Multi-function
Terminal, Open
Collector
<26 VDC, 100 mA
MG, External Power Supply Ground Terminal
24, Power Supply
100 mA max output current
3A
3B
Multi-function Relay Output Terminals: Max.
250 VAC, 1A
3C, common
30 VDC, 1A
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APPENDIX B
Options & Kits
B.1 Remote Option
B.1.1 Remote Keypad
(3.74)
(3.27)
(2.76)
(0.177)
0
(0.55)
(0.059)
(0.91)
(0.083)
Options & Kits
B-1
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B.1.2 Remote Cable (2M,3M,5M)
CAUTION: Only Baldor cables dhould be used to connect the keypad
!
and control. These are special cables to protect the control and keypad.
Damage associated with other cable types are not coverd by the Baldor
warranty.
B.1.3 Remote Keypad and Cable Model Numbers
Model number
Description
VS1MD-RKEY2
VS1MD-RKEY3
VS1MD-RKEY5
VS1MD to Remote Keypad 2 meter length (6.5 feet)
VS1MD to Remote Keypad 3 meter length (9.8 feet)
VS1MD to Remote Keypad 5 meter length (16.4 feet)
B.1.4 Installation
Step 1. Remove incoming power from VS1MD and wait 10 minutes.
Step 2. Take off the top cover of the I/O board kit and remove the hole cover to
connect remote cable on the side.
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WARNING: Do not touch any circuit board, power device or electrical
connection before you first ensure that power has been disconnected and
there is no high voltage present from this equipment or other equipment to
which it is connected. Electrical shock can cause serious or fatal injury.
Only qualified personnel should attempt the start-up procedure or
troubleshoot this equipment.
!
WARNING: Do not remove cover for at least ten (10) minutes after AC
power is disconnected to allow capacitors to discharge. Dangerous
voltages are present inside the equipment. Electrical shock can cause
serious or fatal injury.
!
Step 3. Attach the top cover of the I/O board kit and connect the remote cable as
shown below.
Step 4. Connect the other side of the remote cable to the remote keypad as shown
below.
ATTENTION:Without Parameter Read (H91), Parameter Write (H92) is
not available since the Remote memory is empty when the Remote
keypad is first used.
!
ATTENTION:Use only the remote cable supplied in the kit. Other cables
may introduce noise and/or voltage drop and cause erratic or improper
drive operation.
ATTENTION:Check for disconnection of the communication cable
and/or poor cable connection if ì----ì is displayed on the 7-segment
display of the Remote keypad.
Options & Kits
B-3
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B.2 Conduit Kit
B.2.1 Conduit Kit Model Numbers
Conduit Kit
Model
VS1MD-NM1A
VS1MD-NM1B
VS1MD-NM1C
VS1MD-NM1D
0.5 and 1.0 HP (0.4 and 0.75 kW)
2.0 HP (1.5 kW)
3.0 and 5.0 HP (2.2 and 4.0 kW)
7.5 and 10.0 HP (5.5 and 7.5 kW)
B.2.2 VS1MD-NM1A
B.2.3 VS2MD-NM1B
B-4
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B.2.4 VS1MD-NM1C
B.2.5 VS1MD-NM1D
Options & Kits
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B.2.6 Installation
B.2.6.1 VS1MD-NM1A, VS1MD-NM1B, VS1MD-NM1C
Preparation:
Step 1. Remove input power from drive and wait 10 minutes before proceeding.
WARNING: Do not touch any circuit board, power device or electrical
!
connection before you first ensure that power has been disconnected and
there is no high voltage present from this equipment or other equipment to
which it is connected. Electrical shock can cause serious or fatal injury.
Only qualified personnel should attempt the start-up procedure or
troubleshoot this equipment.
WARNING: Do not remove cover for at least ten (10) minutes after AC
power is disconnected to allow capacitors to discharge. Dangerous
voltages are present inside the equipment. Electrical shock can cause
serious or fatal injury.
!
Step 2. Remove cover from drive exposing the terminal strips.
Step 3. Remove two screws from ground connection bar inside drive to the left of
the power terminals. Retain screws.
Step 4. Remove two screws and cover from front of conduit kit. Retain screws.
Installation (refer to legends in diagram):
Step 1. Snap top vent cover onto the top of the drive, ensuring that all four tabs
correctly engage their respective openings in the drive vent holes.
Step 2. Place the conduit kit, less the cover, such that the lower left tab with the
two holes is over the ground connection bar holes and the top right tab is
inserted in the provided slot, near the bottom right of the drive.
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Step 3. Install the two screws removed from the ground connection bar during
preparation Step 3 such that they are inserted through the two holes in the
conduit kit prior to engaging the ground connection bar. Install the screw
provded with the conduit kit through the hole in the bottom right corner of the
drive into the top right tab of the conduit kit.
Step 4. After connecting conduits and making control and power connections,
replace the drive cover.
Step 5. Replace the conduit kit cover utilizing the two screws removed in preparation
Step 4.
B.2.6.2 VS1MD-NM1D
Preparation:
Step 1. Remove input power from drive and wait 10 minutes before proceeding.
WARNING: Do not touch any circuit board, power device or electrical
!
connection before you first ensure that power has been disconnected and
there is no high voltage present from this equipment or other equipment to
which it is connected. Electrical shock can cause serious or fatal injury.
Only qualified personnel should attempt the start-up procedure or
troubleshoot this equipment.
WARNING: Do not remove cover for at least ten (10) minutes after AC
power is disconnected to allow capacitors to discharge. Dangerous
voltages are present inside the equipment. Electrical shock can cause
serious or fatal injury.
!
Step 2. Remove cover from drive, exposing terminal strips.
Step 3. Remove two screws holding wire gland plate to drive. Retain screws.
Remove and discard wire gland plate.
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Step 4. Remove two screws and cover from front of conduit kit. Retain screws.
Installation:
Step 1. Slide conduit kit into slots in bottom of drive from which wire gland plate was
removed.
Step 2. Install the two screws removed from the wire gland plate during preparation
Step 3 such that they are inserted through the two holes in the conduit kit
prior to engaging the tapped holes in the drive.
Step 3. After connecting conduits and making control and power connections,
replace the drive cover.
Step 4. Replace the conduit kit cover utilizing the two screws removed in preparation
Step 4.
B.2.7 Conduit Hole Size
Conduit hole for control wiring
inches (mm)
Size of the Conduit
Inches (Metric)
Conduit Kit
Conduit hole for power wiring
inches (mm)
0.87 (22.2)
0.87 (22.2)
0.87 (22.2)
0.87 (22.2)
0.87 (22.2)
0.87 (22.2)
0.87 (22.2)
1.38 (35.0)
1/2 (16)
1/2 (16)
1/2 (16)
1/2 (16)
1/2 (16)
1/2 (16)
1/2 (16)
1 (27)
VS1MD-NM1A
VS1MD-NM1B
VS1MD-NM1C
VS1MD-NM1D
NOTE: Choose the proper size of the UL recognized Locknut and Bushing
corresponding to size of the Conduit in use.
B-8
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B.3 Braking Resistor
100 % braking
150% braking
Inverter
Input
capacity HP
Voltage
1
1
Ω
Ω
Ω
(kW)
Ω
0.5 (0.4)
1.0 (0.75)
2.0 (1.5)
400
200
100
60
50
100
200
300
500
700
1000
50
300
150
60
100
150
300
400
600
800
1200
100
150
300
400
600
1000
1200
3.0 (2.2)
50
230
5.0 (3.7)
7.5 (5.5)
10.0 (7.5)
0.5 (0.4)
1.0 (0.75)
2.0 (1.5)
40
33
30
20
20
15
1800
900
450
300
200
120
90
1200
600
300
200
130
85
100
200
300
500
700
1000
3.0 (2.2)
460
5.0 (3.7)
7.5 (5.5)
10.0 (7.5)
60
1The wattage is based upon a 5% duty cycle with maximum continuous
braking time of 15 sec.
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APPENDIX C
RS485 Protocol
C.1 Introduction
The drive can be controlled and monitored by the program of aPLC or other master
module.
Drives or other slave devices may be connected in a multi-drop fashion on the RS-485
network and may be monitored or controlled by a single PLC or PC. Parameters can
be set and changed through the PLC or PC.
C.1.1 Features
The VS1MD can easily be utilized for factory automation applications because
operation and monitoring are available by the user’s program.
• Parameter change and monitoring is available via computer. (Ex: Accel/Decel time,
Freq. Command etc.)
• RS484 Interface:
1.
2.
3.
Allows the drive to communicate with any other computers or PLC’s.
Allows connection of up to 31 drives with multi-drop link network.
Inherent noise immune design.
Users can use readily available RS232-485 converters. The specifications of
converters depend on the manufacturers.
C.1.2 Before Installation
ATTENTION:Before installation and operation, this manual should be
read thoroughly. Failure to observe this precaution could result in
personal injury or damage to the equipment.
!
RS485 Protocol
C-1
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C.2 Specifications
C.2.1 Performance Specifications
Item
Specification
Communication method
Transmission form
Applicable inverter
Converter
RS485
Bus method, Multi drop Link System
VS1MD series
RS232 converter
Connectable drives
Transmission distance
Max 31
Max. 1,200m (Within 700m Recommend)
C.2.2 Hardware Specifications
Item
Specification
Installation
Use S+, S- terminals on control terminal block
Power supply
Use Insulated power from the inverter power supply
C.2.3 Communication Specifications
Item
Specification
Communication speed
Control procedure
Communication system
Character system
Stop bit length
19,200/9,600/4,800/2,400/1,200 bps selectable
Asynchronous communication system
Half duplex system
ASCII (8 bit)
Modbus-RTU: 2 bit LS Bus: 1 bit
Sum check
2 byte
None
Parity check
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C.3 Installation
C.3.1 Connecting the Communication Line
Step 1. Connect the RS485 communication line to the inverter’s (S+), (S-) terminals
of the control terminals.
Step 2. Check the connection and turn ON the inverter.
Step 3. If the communication line is connected correctly, set the
communication-related parameters as follows:
• P38 [Drive mode]: 3(RS485)
• P40 [Freq. mode]: 7(RS485)
• t60 [Inv. Number]: 1 to 250 (If multiple inverters are connected, be sure to use
different numbers for each inverter)
• t61 [Baud-rate]: 3 (9,600 bps as Factory default)
• t62 [Lost Mode]: 0 - No action (Factory default)
• t63 [Time-Out]: 1.0 sec (Factory default)
• t59 [Comm. Prot]: 0 - Modbus-RTU
C.3.2 Computer and Inverter Connection
The maximum number of drives that can be connected is 31.
The maximum length of communication line is 1200m. To ensure stable
communication, keep the length to less than 700m.
C.4 Operation
C.4.1 Operating steps
Step 1. Check whether the computer and the inverter are connected correctly.
Step 2. Turn ON the inverter. But do not connect the load until stable communication
between the computer and the inverter is verified.
Step 3. Start the operating program for the inverter from the computer.
Step 4. Operate the inverter using the operating program for the inverter.
Step 5. Refer to Chapter 9: Troubleshooting if the communication is not operating.
RS485 Protocol
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C.5 Communication Protocol (MODBUS-RTU)
Use Modbus-RTU protocol (Open protocol).
Computer or other hosts can be Master and inverters Slave. Inverter responds to
Read/Write command from Master.
Table C.1 – Supported function codes
Function code
Description
0x03
0x04
0x06
0x10
Read Hold Register
Read Input Register
Preset Single Register
Preset Multiple Register
Table C.2 – Exception codes
Function code
Description
0x01
0x02
0x03
0x06
User
ILLEGAL FUNCTION
ILLEGAL DATA ADDRESS
ILLEGAL DATA VALUE
SLAVE DEVICE BUSY
0x14
1.Write Disable (Address 0x0004 value is 0).
2.Read Only or Not Program during Running.
define
C.6 Communication Protocol (LS Bus)
C.6.1 Basic Format
Command message (Request):
ENQ
1 byte
Drive No.
2 bytes
CMD
1 byte
Data
SUM
EOT
1 byte
n bytes
2 bytes
Normal response (Acknowledge Response):
ACK
1 byte
Drive No.
2 bytes
CMD
1 byte
Data
SUM
EOT
1 byte
n * 4 bytes
2 bytes
Negative response (Negative Acknowledge Response):
NAK
1 byte
Drive No.
2 bytes
CMD
1 byte
Error code
2 bytes
SUM
EOT
1 byte
2 bytes
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Description:
Request starts with “ENQ” and ends with “EOT”.
Acknowledge Response starts with “ACK” and ends with “EOT”.
Negative Acknowledge Response starts with ”NAK” and ends with “EOT”.
“Drive Number” is the number of the drive and is indicated in 2 byte ASCII-HEX.
(ASCII-HEX: Hexadecimal consists of ‘0’ to ‘9’, ‘A’ to ‘F)
CMD: Capital letter
Character
ASCII-HEX
Command
R
W
X
52h
57h
58h
59h
Read
Write
Request for monitoring
Action for monitoring
Y
Data: ASCII-HEX
Example: when data value is 3000: 3000 (dec)
‘0’ ‘B’ ‘B’ ‘8’h
30h 42h 42h 38h
Error code: ASCII (20h to 7Fh)
Receive/Send buffer size: Receive= 39 byte, Send=44 byte
Monitor register buffer: 8 Word
SUM: to check the communication error
SUM= ASCII-HEX format of lower 8 bit of (Drive No. + CMD + DATA)
Example: Command Message (Request) to read one address from address “3000”
ENQ
Drive
No
CMD
Address
Number of address to
read
SUM
EOT
05h
1 byte
“01”
“R”
“3000”
“1”
“A7”
2
04h
1
2 bytes 1 byte
4 bytes
1 byte
SUM = ‘0’ + ‘1’ + ’R’ + ‘3’ + ‘0’ + ‘0’ + ‘0’ + ‘1’
=30h + 31h + 52h + 33h + 30h + 30h + 30h + 31h
= 1A7h (Control values such as ENQ/ACK/NAK are excluded.)
RS485 Protocol
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C.6.2 Detail Communication Protocol
C.6.2.1 Request for Read:
Request to read successive ‘N’ numbers of WORD from address “XXXX”.
ENQ
Drive No
CMD
Addres Number of address to
read
SUM EOT
s
05h
1 byte
“01” to
2 bytes
“R”
1 byte
“XXXX “1” to “8” = n
4 bytes 1 byte
“XX”
2
04h
1
Total bytes = 12
Note: Quotation marks (“ ”) indicate character.
C.6.2.2 Acknowledge Response:
ACK
Drive No
“01” to “1F”
2 bytes
CMD
“R”
Data
SUM
“XX”
2 byte
EOT
06h
1 byte
“XXXX”
04h
1 byte
N * 4 bytes
1 byte
Total bytes= 7 + n * 4 = Max 39
C.6.2.3 Negative Acknowledge Response:
NAK
Drive No
CMD
Error code
SUM
EOT
15h
“01” to “1F”
2 bytes
“R”
“**”
“XX”
04h
1 byte
1 byte
2 bytes
2 bytes
1 byte
Total bytes = 9
C.6.2.4 Request for Write:
ENQ
Drive No
CMD Address
Number of
Data
SUM
EOT
address to
read
05h
“01” to
“W”
“XXXX”
“1” to “8” = n “XXXX
1 byte n*4
“XX”
2
04h
1
1 byte 2 bytes
1 byte 4 bytes
Total bytes = 12 + n * 4 = Max 44
C-6
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C.6.2.5 Acknowledge Response:
ACK
06h
1:byte
Drive No
CMD
Data
SUM
“XX”
2 bytes
EOT
“01” to “1F”
2:bytes
“W”
1:byte
“XXXX…”
n * 4 bytes
04h
1
Total bytes = 7 + n * 4 = Max 39
Note: When Request for Write and Acknowledge Response is exchanged between
PC and Inverter for the first time, previous data is returned. From subsequent
transmissions, the current data will be returned.
C.6.2.6 Negative Response:
NAK Drive No
CMD
Error code
“**”
2 bytes
SUM
“XX”
2 bytes
EOT
15h
“01” to “1F”
2 bytes
“W”
1 byte
04h
1
1 byte
Total bytes = 9
C.6.2.7 Request for Monitor Register
This is useful when constant parameter monitoring and data updates are required.
Request for Register of ‘n’ numbers of Address (not consecutive)
ENQ
Drive No CMD
Number of address to
read
Addres
s
SUM
EOT
05h
1 byte
“01” to
“X”
1
“1” to “8”=n
1 byte
“XXXX
n * 4
“XX”
2 byte
04h
1
2 bytes
Total bytes = 8 + n * 4 = Max 40
C.6.2.8 Acknowledge Response:
ACK
Drive No
CMD
SUM
EOT
06h
“01” to “1F”
2 bytes
“X”
“XX”
2 bytes
04h
1 byte
1 byte
1 byte
Total bytes = 7
C.6.2.9 Negative Acknowledge Response:
NAK
15h
Drive No
CMD
Error code
SUM
EOT
“01” to “1F” “X”
“**”
“XX”
04h
1 byte
2 bytes
1 byte
2 bytes
2 bytes
1 byte
Total bytes = 9
RS485 Protocol
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C.6.2.10 Action Request for Monitor Register:
Request to read address registered by monitor register.
ENQ
Drive No
CMD
SUM
EOT
05h
“01” to “1F”
2 bytes
“Y”
1 byte
“XX”
2 bytes
04h
1 byte
1 byte
Total bytes = 7
C.6.2.11Acknowledge Response:
ACK
06h
1 byte
Drive No
CMD
Data
SUM
“XX”
2 bytes
EOT
“01” to “1F” “Y”
“XXXX…”
n * 4 bytes
04h
2 bytes
1 byte
1 byte
Total bytes = 7 + n * 4 = Max 39
C.6.2.12Negative Response:
NAK
Drive No
“01” to “1F” “Y”
2 bytes 1 byte
CMD
Error code
SUM
EOT
15h
“**”
“XX”
04h
1 byte
2 bytes
2 bytes
1 byte
Total bytes = 9
C.6.2.13Error codes
Error code
Description
“IF”
When master is sending codes other than Function code (R, W, X,
When parameter address does not exist
“IA”
“ID”
“WM”
When Data value exceeds its permissible range during ‘W’ (Write).
When the specific parameters cannot be written during ‘W’ (Write).
(For example, in the case of Read Only, Write disabled during Run)
“FE”
When frame size of specific function is not correct and Checksum
C-8
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C.7 Troubleshooting
Refer to Troubleshooting when RS 485 communication error occurs.
Check Points
Corrective Measures
Provide electric power to the converter.
Is power provided to the converter?
Are the connections between converter Refer to the converter manual.
and computer correct?
Is Master not polling?
Verify the Master is polling the drive.
Is baud rate of computer and drive set Set the correct value.
correctly?
Is the data format of user program
correct?
Set data formats equal between drive and
computer.
Is the connection between the converter Check for the correct wiring.
and the communication card correct?
RS485 Protocol
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C.8 Miscellaneous
ASCII Code List
Character
Hex
Character
Hex
Character
Hex
Character
Hex
Character
Hex
A
B
C
D
E
F
G
H
I
41
42
43
44
45
46
47
48
49
4A
4B
4C
4D
4E
4F
50
51
52
53
54
55
56
57
58
59
5A
a
b
c
d
e
f
g
h
i
J
k
l
m
n
o
p
q
r
61
62
63
64
65
66
67
68
69
6A
6B
6C
6D
6E
6F
70
71
72
73
74
75
76
77
78
79
7A
0
1
2
3
4
5
6
7
30
31
32
33
34
35
36
37
38
39
20
21
22
23
24
25
26
27
28
29
2A
2B
:
;
3A DLE
3B EM
3C ACK
3D ENQ
EOT
10
19
06
05
04
1B
17
03
0C
1C
1D
09
0A
15
00
1E
0F
0E
01
02
1A
16
1F
0B
<
=
>
?
@
[
3E ESC
3F
40
ETB
ETX
8
9
\
]
5B FF
5C FS
5D GS
5E HT
J
K
L
space
!
"
#
$
%
&
'
(
)
*
+
,
-
.
/
M
N
O
P
Q
R
S
T
U
V
W
X
Y
Z
5F
60
LF
NAK
{
|
}
to
BEL
BS
CAN
CR
DC1
7B NUL
7C RS
7D S1
7E SO
s
t
07
08
18
SOH
STX
SUB
u
v
w
x
y
z
0D SYN
2C DC2
2D DC3
2E
2F
11
12
13
14
7F
US
VT
DC4
DEL
C-10
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DIF
Documentation
Improvement Form
Use this form to give us your comments concerning this publication or to report an
error that you have found. For convenience, you may attach copies of the pages with
your comments. After you have completed this form, please return it to:
Baldor V*S Drives
Technical Documentation
6040 Ponders Court
Greenville, SC 29615
Fax: 864-284-5483
Publication Name: VS1MD User Manual
Publication Date: 2007
Comments:
Your Name:
Company Name:
Address:
Date:
Phone: (
)
Thank you for your comments.
Technical Writing Internal Use
Date:
DIF Number:
Follow-Up Action:
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Publication MN760-3
2007 Baldor Electric Company. All rights reserved.
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|