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Goodrive 10
Operation Manual
110 pgs2.02 Mb0

Universal Motors Goodrive 10 Operation Manual

Goodrive10 inverters Content
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Content
Content .....................................................................................................................................................................1
1 Safety Precautions ..............................................................................................................................................3
1.1 Safety definition.............................................................................................................................................3
1.2 Warning symbols...........................................................................................................................................3
1.3 Safety guidelines...........................................................................................................................................4
2 Product overview .................................................................................................................................................7
2.1 Quick start-up ................................................................................................................................................7
2.2 Product specification ....................................................................................................................................9
2.3 Name plate ..................................................................................................................................................10
2.4 Type designation key ..................................................................................................................................10
2.5 Rated specifications.................................................................................................................................... 11
2.6 Structure diagram........................................................................................................................................12
3 Installation Guidelines ......................................................................................................................................13
3.1 Mechanical installation ...............................................................................................................................13
3.2 Standard wiring ...........................................................................................................................................16
3.3 Layout protection ........................................................................................................................................19
4 Keypad Operation Procedure ..........................................................................................................................20
4.1 Keypad displaying .......................................................................................................................................22
4.2 Keypad operation ........................................................................................................................................24
5 Function Parameters.........................................................................................................................................26
6 Fault tracking......................................................................................................................................................71
6.1 Maintenance intervals.................................................................................................................................71
6.2 Fault solution ...............................................................................................................................................75
7 Communication protocol .................................................................................................................................78
7.1 Brief instruction to Modbus protocol ..........................................................................................................78
7.2 Application of the inverter ...........................................................................................................................78
7.3 RTU mode ...................................................................................................................................................80
7.4 RTU command code and communication data illustration ......................................................................83
Appendix A Technical data..................................................................................................................................95
A.1 Ratings ........................................................................................................................................................95
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A.2 CE ................................................................................................................................................................96
A.3 EMC regulations .........................................................................................................................................96
Appendix B Dimension drawings ......................................................................................................................98
B.1 Keypad structure ........................................................................................................................................98
B.2 Inverter chart ...............................................................................................................................................98
Appendix C Peripherial options and parts .................................................................................................... 100
C.1 Peripherial wiring ..................................................................................................................................... 100
C.2 Power supply ........................................................................................................................................... 101
C.3 Cables ...................................................................................................................................................... 101
C.4 Breaker and electromagnetic contactor................................................................................................. 102
C.5 Reactors ................................................................................................................................................... 103
C.6 Filter.......................................................................................................................................................... 104
C.7 Braking system ........................................................................................................................................ 106
Appendix D Further information ..................................................................................................................... 108
D.1 Product and service inquirie ................................................................................................................... 108
D.2 Document library on the Internet............................................................................................................ 108
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1 Safety Precautions
Please read this manual carefully and follow all safety precautions before moving, installing, operating and servicing the inverter. If ignored, physical injury or death may occur, or damage may occur to the devices. If any physical injury or death or damage to the devices occurs for ignoring to the safety precautions in the manual, our company will not be responsible for any damages and we are not legally bound in any manner.
1.1 Safety definition
Danger:
Serious physical injury or even death may occur if not follow relevant requirements
Warning:
Physical injury or damage to the devices may occur if not follow relevant requirements
Note:
Physical hurt may occur if not follow relevant requirements
Qualified electricians:
People working on the device should take part in professional electrical and safety training, receive the certification and be familiar with all steps and requirements of installing, commissioning, operating and maintaining the device to avoid any emergency.
1.2 Warning symbols
Warnings caution you about conditions which can result in serious injury or death and/or damage to the equipment, and advice on how to avoid the danger. Following warning symbols are used in this manual:
Symbols
Name
Instruction
Abbreviation
Danger
Danger
Serious physical injury or even death may occur if not follow the relative requirements
Warning
Warning
Physical injury or damage to the devices may occur if not follow the relative requirements
Do not
Electrostatic
discharge
Damage to the PCBA board may occur if not follow the relative requirements
Hot sides
Hot sides
Sides of the device may become hot. Do not touch.
Note
Note
Physical hurt may occur if not follow the relative requirements
Note
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1.3 Safety guidelines
Only qualified electricians are allowed to operate on the inverter. Do not carry out any wiring and inspection or changing components when the power
supply is applied. Ensure all input power supply is disconnected before wiring and checking and always wait for at least the time designated on the inverter or until the DC bus voltage is less than 36V. Below is the table of the waiting time:
Do not refit the inverter unauthorizedly; otherwise fire, electric shock or other injury may
occur.
The base of the radiator may become hot during running. Do not touch to avoid hurt.
The electrical parts and components inside the inverter are electrostatic. Take
measurements to avoid electrostatic discharge during relevant operation.
1.3.1 Delivery and installation
Please install the inverter on fire-retardant material and keep the inverter away from
combustible materials.
Connect the braking optional parts (braking resistors or feedback units) according to the
wiring diagram.
Don’t operate on the inverter if there is any damage or components loss to the inverter.  Don’t touch the inverter with wet items or body, otherwise electric shock may occur.
Note: Select appropriate moving and installing tools to ensure a safe and normal running of the inverter and
avoid physical injury or death. For physical safety, the erector should take some mechanical protective measurements, such as wearing exposure shoes and working uniforms.
Ensure to avoid physical shock or vibration during delivery and installation. Do not carry the inverter by its cover. The cover may fall off. Install away from children and other public places. The inverter cannot meet the requirements of low voltage protection in IEC61800-5-1 if the sea level of
installation site is above 2000m.
The pick-up current of the inverter may be above 3.5mA during operation. Ground with proper techniques
and ensure the grounding resistor is less than 10Ω. The conductivity of PE grounding conductor is the
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same as that of the phase conductor (with the same cross sectional area).
R, S and T are the input terminals of the power supply, while U, V and W are the motor terminals. Please
connect the input power cables and motor cables with proper techniques; otherwise the damage to the inverter may occur.
1.3.2 Commissioning and running
Disconnect all power supplies applied to the inverter before the terminal wiring and wait
for at least the designated time after disconnecting the power supply.
High voltage is present inside the inverter during running. Do not carry out any
operation except for the keypad setting.
The inverter may start up by itself when P01.21=1. Do not get close to the inverter and
motor.
The inverter can not be used as “Emergency-stop device. The inverter can not be used to break the motor suddenly. A mechanical braking device
should be provided.
Note:
Do not switch on/off the input power supply of the inverter frequently. For inverters that have been stored for a long time, check and fix the capacitance and try to run it again
before utilization (see Maintenance and Hardware Fault Diagnose).
Cover the front board before running, otherwise electric shock may occur.
1.3.3 Maintenance and replacement of components
Only qualified electricians are allowed to perform the maintenance, inspection, and
components replacement of the inverter.
Disconnect all power supplies to the inverter before the terminal wiring. Wait for at least
the time designated on the inverter after disconnection.
Take measures to avoid screws, cables and other conductive matters to fall into the
inverter during maintenance and component replacement.
Note:
Please select proper torque to tighten screws. Keep the inverter, parts and components away from combustible materials during maintenance and
component replacement.
Do not carry out any isolation and pressure test on the inverter and do not measure the control circuit of
the inverter by megameter.
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1.3.4 What to do after scrapping
There are heavy metals in the inverter. Deal with it as industrial effluent.
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2 Product overview
2.1 Quick start-up
2.1.1 Unpacking inspection
Check as followings after receiving products:
1. Check that there are no damage and humidification to the package. If not, please contact with Universal Motors.
2. Check the information on the type designation label on the outside of the package to verify that the drive is of the correct type. If not, please contact with Universal Motors.
3. Check that there are no signs of water in the package and no signs of damage or breach to the inverter. If not, please contact with Universal Motors.
4. Check the information on the type designation label on the outside of the package to verify that the name plate is of the correct type. If not, please contact with Universal Motors.
5. Check to ensure the accessories (including user’s manual and control keypad) inside the device is complete. If not, please contact with Universal Motors.
2.1.2 Application confirmation
Check the machine before beginning to use the inverter:
1. Check the load type to verify that there is no overload of the inverter during work and check that whether the drive needs to modify the power degree.
2. Check that the actual current of the motor is less than the rated current of the inverter.
3. Check that the control accuracy of the load is the same of the inverter.
4. Check that the incoming supply voltage is correspondent to the rated voltage of the inverter.
2.1.3 Environment
Check as followings before the actual installation and usage:
1. Check that the ambient temperature of the inverter is below 40. If exceeds, derate 1% for every additional 1. Additionally, the inverter can not be used if the ambient temperature is above 50. Note: for the cabinet inverter, the ambient temperature means the air temperature inside the cabinet.
2. Check that the ambient temperature of the inverter in actual usage is above -10. If not, add heating facilities. Note: for the cabinet inverter, the ambient temperature means the air temperature inside the cabinet.
3. Check that the altitude of the actual usage site is below 1000m. If exceeds, derate1% for every additional 100m.
4. Check that the humidity of the actual usage site is below 90% and condensation is not allowed. If not, add additional protection inverters.
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5. Check that the actual usage site is away from direct sunlight and foreign objects can not enter the inverter. If not, add additional protective measures.
6. Check that there is no conductive dust or flammable gas in the actual usage site. If not, add additional protection to inverters.
2.1.4 Installation confirmation
Check as followings after the installation:
1. Check that the load range of the input and output cables meet the need of actual load.
2. Check that the accessories of the inverter are correctly and properly installed. The installation cables should meet the needs of every component (including reactors, input filters, output reactors, output filters, DC reactors and braking resistors).
3. Check that the inverter is installed on non-flammable materials and the calorific accessories (reactors and brake resistors) are away from flammable materials.
4. Check that all control cables and power cables are run separately and the routation complies with EMC requirement.
5. Check that all grounding systems are properly grounded according to the requirements of the inverter.
6. Check that the free space during installation is sufficient according to the instructions in user’s manual.
7. Check that the installation conforms to the instructions in user’s manual. The drive must be installed in an upright position.
8. Check that the external connection terminals are tightly fastened and the torque is appropriate.
9. Check that there are no screws, cables and other conductive items left in the inverter. If not, get them out.
2.1.5 Basic commissioning
Complete the basic commissioning as followings before actual utilization:
1. Autotune. If possible, de-coupled from the motor load to start dynamic autotune. Or if not, static autotune is available.
2. Adjust the ACC/DEC time according to the actual running of the load.
3. Commission the device via jogging and check that the rotation direction is as required. If not, change the rotation direction by changing the wiring of motor.
4. Set all control parameters and then operate.
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2.2 Product specification
Function
Specification
Power input
Input voltage (V)
Single-phase 220(-15%)~240(+10%) Three-phase 220(-15%)~240(+10%) Three-phase 380(-15%)~440(+10%)
Input current (A)
Refer to 2.5
Input frequency (Hz)
50Hz or 60Hz Allowed range: 47~63Hz
Power output
Output voltage (V)
=the input voltage (error5%)
Output current (A)
Refer to 2.5
Output power (kW)
Refer to 2.5
Output frequency (Hz)
50Hz/60Hz, fluctuation:±5%
Technical
control
Control mode
SVPWM
Maximum output
frequency
400Hz
Adjustable-speed ratio
1:100
Overload capability
150% of rated current: 1 minute 180% of rated current: 10 seconds 200% of rated current: 1 second
Running
control
Key functions
Stop mode and anti-overtemperature of the bus
Temperature
measurement accuracy
Overtemperature point ±3
Terminal switch input
resolution
≤ 2ms
Terminal analog input
resolution
≤ 20mV
Analog input
1 input 0~10V/0~20mA
Analog output
1 output 0~10V/0~20mA
Digital input
5 common input
Digital output
1 Y output (commonly used with digital output) and 1 pogrammable relay output
Communication
485 communication
Frequency setting
Digital setting, analog setting, multi-step speed setting, PID setting, MODBUS communication setting and so on Switch between different settings
Automatic voltage
adjustment
Keep output voltage stable when the grid voltage changes
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Function
Specification
Fault protection
More than 10 fault protections
Others
Mountable method
Wall mountable
Temperature of the
running environment
-10~50, If temperature is above 40°C, derate 1% for every additional 1°C.
Cooling
Single/three-phase 220V 0.2-0.75kW natural cooling Single/three-phase 220V 1.5-2.2kW, three-phase 380V
0.75-2.2kW
Braking unit
Embedded
DC reactor
Not optional
Braking resistor
Optional and external
EMC filter
C2 filter
2.3 Name plate
Fig 2-1 Name plate
2.4 Type designation key
The type designation contains information on the inverter. The user can find the type designation on the type designation label attached to the inverter or the simple name plate.
GD10 – 2R2G – 4 – B
① ②
Fig 2-2 Product type
Field
identification
Sign
Detailed description of the sign
Detailed content
Abbreviation
Product abbreviation
Goodrive10 is shorted for GD10.
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Field
identification
Sign
Detailed description of the sign
Detailed content
Rated power
Power range + Load type
2R2-2.2kW GConstant torque load
Voltage degree
Voltage degree
4: 380(-15%)~440(+10%) 2: 220(-15%)~240(+10%) S2: 220(-15%)~240(+10%)
Lot No. ④ Lot No.
B: standard braking unit
2.5 Rated specifications
Model
Output
power(kW)
Input
current(A)
Output current
(A)
Single-phase 220V
GD10-0R2G-S2-B
0.2
4.9
1.6
GD10-0R4G-S2-B
0.4
6.5
2.5
GD10-0R7G-S2-B
0.75
9.3
4.2
GD10-1R5G-S2-B
1.5
15.7
7.5
GD10-2R2G-S2-B
2.2
24
10
Three-phase 220V
GD10-0R2G-2-B
0.2
1.9
1.6
GD10-0R4G-2-B
0.4
2.7
2.5
GD10-0R7G-2-B
0.75
4.9
4.2
GD10-1R5G-2-B
1.5
9.0
7.5
GD10-2R2G-2-B
2.2
15
10
Three-phase 380V
GD10-0R7G-4-B
0.75
3.2
2.5
GD10-1R5G-4-B
1.5
4.3
4.2
GD10-2R2G-4-B
2.2
7.1
5.5
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2.6 Structure diagram
Below is the layout figure of the inverter (take the inverter of 2.2kW as the example).
1
2 3
4
5 6
7 8
9 10
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Fig 2-3 Product structure diagram
Serial No.
Name
Illustration
1
Keypad
See Keypad Operation Procedure for detailed information
2
Cover
Protect the internal parts and components
3
POWER indicator
POWER indicator
4
Side cover
Protect the internal components
5
Simple name plate
See Type Designation Key for detailed information
6
Keypad port
Connect the keypad 6 is for external installation
7
8
Control circuit terminals
See Electric Installation for detailed information
9
Bobbin winder
To protect the internal parts and components, detachable for wiring
10
Main circuit terminals
See Electric Installation for detailed information
11
Name plate
See Product Overview for detailed information
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3 Installation Guidelines
The chapter describes the mechanical installation and electric installation.
Only qualified electricians are allowed to carry out what described in this chapter. Please
operate as the instructions in Safety Precautions. Ignoring these may cause physical injury or death or damage to the devices.
Ensure the power supply of the inverter is disconnected during the operation. Wait for at
least the time designated until the POWER indicator is off after the disconnection if the power supply is applied.
The installation and design of the inverter should be complied with the requirement of
the local laws and regulations in the installation site. If the installation infringes the requirement, our company will exempt from any responsibility. Additionally, if users do not comply with the suggestion, some damage beyond the assured maintenance range may occur.
3.1 Mechanical installation
3.1.1 Installation environment
The installation environment is the safeguard for a full performance and long-term stable functions of the inverter. Check the installation environment as followings:
Environment
Conditions
Installation site
Indoor
Environment
temperature
-10~40, and the temperature changing rate is less than 0.5/minute. If the ambient temperature of the inverter is above 40, derate 1% for every additional 1. It is not recommended to use the inverter if the ambient temperature is above 60. In order to improve the reliability of the device, do not use the inverter if the ambient temperature changes frequently. Please provide cooling fan or air conditioner to control the internal ambient temperature below the required one if the inverter is used in a close space such as in the control cabinet. When the temperature is too low, if the inverter needs to restart to run after a long stop, it is necessary to provide an external heating device to increase the internal temperature, otherwise damage to the devices may occur.
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Environment
Conditions
Humidity
RH90% No condensation is allowed.
The maximum relative humility should be equal to or less than 60% in corrosive air.
Storage
temperature
-40 ~70, and the temperature changing rate is less than 1/minute.
Running environment
condition
The installation site of the inverter should: keep away from the electromagnetic radiation source; keep away from contaminative air, such as corrosive gas, oil mist and flammable gas; ensure foreign objects, such as metal power, dust, oil, water can not enter into the inverter(do not install the inverter on the flammable materials such as wood); keep away from direct sunlight, oil mist, steam and vibration environment.
Altitude
Below 1000m If is installed above 1000m of the sea level derate 1% for every additional 100m.
Vibration
5.8m/s2(0.6g)
Installation direction
The inverter should be installed on an upright position to ensure sufficient cooling effect.
Note:
Goodrive10 series inverters should be installed in a clean and ventilated environment according
to enclosure classification.
Cooling air must be clean, free from corrosive materials and electrically conductive dust.
3.1.2 Installation direction
The inverter may be installed on the wall or in a cabinet. The inverter must be installed in an upright position. Check the installation site according to the requirements below. Refer to chapter Dimension Drawings in the appendix for frame details.
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3.1.3 Installation manner
The inverter can be installed in wall mounting (for all frame sizes):
Fig 3-1 Installation manner (1) Mark the hole location. The location of the holes is shown in the dimension drawings in the appendix. (2) Fix the screws or bolts to the marked locations. (3) Position the drive onto the wall. (4) Tighten the screws in the wall securely.
3.1.4 Installation space
Fig 3-2 Installation space
Note: The minimum space of A and B is 100mm.
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3.2 Standard wiring
3.2.1 Connection diagram of main circuit
Diagram 3-3 Connection diagram of main circuit
Note:
The fuse, DC reactor, braking resistor, input reactor, input filter, output reactor, output filter are
optional parts. Please refer to Peripheral Optional Parts for detailed information.
Before connecting the braking resistor cable, remove the yellow labels of PB, (+), and (-) from the
terminal blocks. Otherwise, poor connection may occur.
3.2.2 Terminals figure of main circuit
R/L
S/N
T/
(+)
PB U V
W
Fig 3-4 Terminals of main circuit
Terminal
sign
Terminal name
Function
R/L
Power input of the main circuit
3-phase/single-phase AC input terminals which are generally connected with the grid.
S/N
T
U
The inverter output
3-phase AC output terminals which are generally connected with the motor.
V
W
PB
Braking resistor terminal
PB and (+) are connected to the external resistor.
(+)
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Terminal
sign
Terminal name
Function
Grounding terminal
Each machine has a standard PE terminal.
Note:
Do not use an asymmetrically constructed motor cable. If there is a symmetrically constructed grounding
conductor in the motor cable in addition to the conductive shield, connect the grounding conductor to the grounding terminal at the inverter and motor ends.
Route the motor cable, input power cable and control cables separately. “T” terminal can not be wired in single-phase input.
3.2.3 Wiring of terminals in main circuit
1. Fasten the grounding conductor of the input power cable with the grounding terminal of the inverter (PE) by 360 degree grounding technique. Connect the phase conductors to R/L1, S/L2, T/L3 and T terminals and fasten.
2. Strip the motor cable and connect the shield to the grounding terminal of the inverter by 360 degree grounding technique. Connect the phase conductors to U, V and W terminals and fasten.
3. Connect the optional brake resistor with a shielded cable to the designated position by the same procedures in the previous step.
4. Secure the cables outside the inverter mechanically.
3.2.4 Connection diagram of the control circuit
Figure 3-5 Connection diagram of the control circuit
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3.2.5 Wiring diagram of control circuit
Fig 3-6 Wiring of control circuit
Description
ROA
RO relay output Contactor capability: 3A/AC250V,1A/DC30V
ROC
+10V
Local power supply +10V
AI
1. Input range: AI voltage and current: 0~10V/0~20mA and switch by J3
2. Input impedance: voltage input: 20kΩ; current input: 500Ω
3. Resolution: the minimum one is 5mV when 10V corresponds to 50Hz
4. Deviation ±1%, 25 Notel: Keyboard potentiometer set AI1 parameters of and AI terminal set AI2 parameters
24V
Local +24V power supply, 100mA
GND
+10V reference zero potential
AO
1. Output range:0~10V or 0~20mA
2. The voltage or the current output is depended on J2
3. Deviation ±1%, 25
S1
Switch input 1
1. Internal impedance:3.3kΩ
2. 0~4V corresponds to low electric level input and 7~30V corresponds to high electric level input
3. Max input frequency:1kHz
4. All are programmable digital input terminal. User can set the terminal function through function codes.
S2
Switch input 2
S3
Switch input 3
S4
Switch input 4
S5
Switch input 5
Common terminal for S5/Y and switch by J1 Note: S5 and Y can not be used at the same time
Y
Digital output
terminal
485+
485 communication interface and 485 differential signal interface If it is the standard 485 communication interface, please use twisted pairs or shield cable.
485-
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3.3 Layout protection
3.3.1 Protect the inverter and input power cable in short-circuit situations
Protect the inverter and input power cable in short circuit situations and against thermal overload. Arrange the protection according to the following guidelines.
Fig 3-10 Fuse configuration
Note: Select the fuse as the manual indicated. The fuse will protect the input power cable from damage in short-circuit situations. It will protect the surrounding devices when the internal of the inverter is short circuited.
3.3.2 Protecting the motor and motor cables
The inverter protects the motor and motor cable in a short-circuit situation when the motor cable is dimensioned according to the rated current of the inverter. No additional protection devices are needed.
If the inverter is connected to multiple motors, a separate thermal overload switch or a
circuit breaker must be used for protecting each cable and motor. These devices may require a separate fuse to cut off the short-circuit current.
3.3.3 Implementing a bypass connection
It is necessary to set power frequency and variable frequency conversion circuits for the assurance of continuous normal work of the inverter if faults occur in some significant situations. In some special situations, for example, if it is only used in soft start, the inverter can be conversed into power frequency running after starting and some corresponding bypass should be added.
Never connect the supply power to the inverter output terminals U, V and W. Power line
voltage applied to the output can result in permanent damage to the inverter.
If frequent shifting is required, employ mechanically connected switches or contactors to ensure that the motor terminals are not connected to the AC power line and inverter output terminals simultaneously.
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4 Keypad Operation Procedure
The keypad is used to control Goodrive10 series inverters, read the state data and adjust parameters.
Fig 4-1 Keypad
Note: Fix the external keypad with M3 screws or the installation bracket. The installation bracket is optional.
Serial
No.
Name
Description
1
State
LED
RUN/TUNE
LED off means that the inverter is in the stopping state; LED blinking means the inverter is in the parameter autotune state; LED on means the inverter is in the running state.
FWD/REV
FED/REV LED LED off means the inverter is in the forward rotation state; LED on means the inverter is in the reverse rotation state
LOCAL/REMOT
LED for keypad operation, terminals operation and remote communication control LED off means that the inverter is in the keypad operation state; LED blinking means the inverter is in the terminals operation state; LED on means the inverter is in the remote communication control state.
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Serial
No.
Name
Description
TRIP
LED for faults LED on when the inverter is in the fault state; LED off in normal state; LED blinking means the inverter is in the overload pre-alarm state.
2
Unit
LED
Mean the unit displayed currently
Hz
Frequency unit
RPM
speed unit
A
Current unit
%
Percentage
V
Voltage unit
3
Code
display
ing
zone
5-figure LED display displays various monitoring data and alarm code such as set frequency and output frequency.
Displayed
word
Correspon
ding word
Displayed
word
Correspon
ding word
Displayed
word
Correspon
ding word
0 1
2
3 4
5
6 7 8 9 A
B
C d E F H
I
L N n o P
r
S t U v .
-
4
Digital potenti ometer
Corresponds to AI1.
5
Button
Progra
mming
key
Enter or escape from the first level menu and remove the parameter quickly
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Serial
No.
Name
Description
Entry
key
Enter the menu step-by-step Confirm parameters
UP key
Increase data or function code progressively
DOWN
key
Decrease data or function code progressively
Right-s
hift key
Move right to select the displaying parameter circularly in stopping and running mode. Select the parameter modifying digit during the parameter modification
Run
key
This key is used to operate on the inverter in key operation mode
Stop/
Reset
key
This key is used to stop in running state and it is limited by function code P07.04 This key is used to reset all control modes in the fault alarm state
Quick
key
The function of this key is confirmed by function code P07.02.
4.1 Keypad displaying
The keypad displaying state of Goodrive10 series inverters is divided into stopping state parameter, running state parameter, function code parameter editing state and fault alarm state and so on.
4.1.1 Displayed state of stopping parameter
When the inverter is in the stopping state, the keypad will display stopping parameters which is shown in figure 4-2. In the stopping state, various kinds of parameters can be displayed. Select the parameters to be displayed or not by P07.07. See the instructions of P07.07 for the detailed definition of each bit. In the stopping state, there are 14 stopping parameters can be selected to be displayed or not. They are: set frequency, bus voltage, input terminals state, output terminals state, PID reference, PID feedback, AI1, AI2 and the current stage of multi-stage speeds, pulse counting value. P07.07 can select the parameter to be displayed or not by bit and/SHIFT can shift the parameters form left to right, QUICK/JOG(P07.02=2) can shift the parameters form right to left.
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4.1.2 Displayed state of running parameters
After the inverter receives valid running commands, the inverter will enter into the running state and the keypad will display the running parameters. RUN/TUNE LED on the keypad is on, while the FWD/REV is determined by the current running direction which is shown as figure 4-2. In the running state, there are 22 parameters can be selected to be displayed or not. They are: running frequency, set frequency, bus voltage, output voltage, output torque, PID reference, PID feedback, input terminals state, output terminals state, and the current stage of multi-stage speeds, pulse counting value, AI1, AI2, percentage of motor overload, percentage of inverter overload, linear speed. P07.05 and P07.06 can select the parameter to be displayed or not by bit and/SHIFT can shift the parameters form left to right,
QUICK/JOG(P07.02=2) can shift the parameters from right to left.
4.1.3 Displayed state of fault
If the inverter detects the fault signal, it will enter into the fault pre-alarm displaying state. The keypad will display the fault code by flicking. The TRIP LED on the keypad is on, and the fault reset can be operated by theSTOP/RST on the keypad, control terminals or communication commands.
4.1.4 Displayed state of function codes editing
In the state of stopping, running or fault, press PRG/ESC to enter into the editing state (if there is a password, see P07.00 ).The editing state is displayed on two classes of menu, and the order is: function code group/function code number→function code parameter, press DATA/ENT into the displayed state of function parameter. On this state, press DATA/ENT to save the parameters or press PRG/ESC to escape.
Fig 4-2 Displayed state
Goodrive10 inverters Keypad operation procedure
24
4.2 Keypad operation
Operate the inverter via operation panel. See the detailed structure description of function codes in the brief diagram of function codes.
4.2.1 How to modify the function codes of the inverter
The inverter has three levels menu, which are:
1. Group number of function code (first-level menu)
2. Tab of function code (second-level menu)
3. Set value of function code (third-level menu) Remarks: Press both the PRG/ESC and the DATA/ENT can return to the second-level menu from the third-level menu. The difference is: pressing DATA/ENT will save the set parameters into the control panel, and then return to the second-level menu with shifting to the next function code automatically; while pressing
PRG/ESC will directly return to the second-level menu without saving the parameters, and keep staying at the current function code. Under the third-level menu, if the parameter has no flickering bit, it means the function code cannot be modified. The possible reasons could be:
1) This function code is not modifiable parameter, such as actual detected parameter, operation records and so on;
2) This function code is not modifiable in running state, but modifiable in stop state. Example: Set function code P00.01 from 0 to 1.
Fig 4-3 Sketch map of modifying parameters
4.2.2 How to set the password of the inverter
Goodrive10 series inverters provide password protection function to users. Set P7.00 to gain the password and the password protection becomes valid instantly after quitting from the function code editing state. Press
PRG/ESC again to the function code editing state, “0.0.0.0.0” will be displayed. Unless using the correct password, the operators cannot enter it. Set P7.00 to 0 to cancel password protection function. The password protection becomes valid instantly after retreating form the function code editing state. Press
PRG/ESC again to the function code editing state, “0.0.0.0.0 will be displayed. Unless using the correct
Goodrive10 inverters Keypad operation procedure
25
password, the operators cannot enter it.
Fig 4-4 Sketch map of password setting
4.2.3 How to watch the inverter state through function codes
Goodrive10 series inverters provide group P17 as the state inspection group. Users can enter into P17 directly to watch the state.
Fig 4-5 Sketch map of state watching
Goodrive10 inverters Function codes
26
5 Function Parameters
The function parameters of Goodrive10 series inverters have been divided into 30 groups (P00~P29) according to the function, of which P18~P28 are reserved. Each function group contains certain function codes applying 3-level menus. For example, “P08.08” means the eighth function code in the P8 group function, P29 group is factory reserved, and users are forbidden to access these parameters. For the convenience of function codes setting, the function group number corresponds to the first level menu, the function code corresponds to the second level menu and the function code corresponds to the third level menu.
1. Below is the instruction of the function lists: The first column Function code”: codes of function parameter group and parameters The second column Name”: full name of function parameters The third column Detailed illustration of parameters”: Detailed illustration of the function parameters The fourth column Default value”: the original factory set value of the function parameter The fifth column Modify: the modifying character of function codes (the parameters can be modified or not
and the modifying conditions), below is the instruction:
“○”: means the set value of the parameter can be modified on stop and running state ”: means the set value of the parameter can not be modified on the running state “●”: means the value of the parameter is the real detection value which can not be modified.
Function
code
Name
Detailed instruction of parameters
Default
value
Modify
P00 Group Basic function group
P00.00
Speed control
mode
2:SVPWM control (suitable for AM) 2 is suitable in cases where it does not need high control accuracy, such as the load of fan and pump. One inverter can drive multiple motors.
2
P00.01
Run command
channel
Select the run command channel of the inverter. The control command of the inverter includes: start-up, stop, forward, reverse, jogging and fault reset. 0:Keypad running command channel(“LOCAL/REMOT” light off) Carry out the command control by RUN, STOP/RST on the keypad. Set the multi-function key QUICK/JOG to FWD/REV shifting function (P07.02=3) to change the running direction; press RUN and STOP/RST simultaneously in
0
Goodrive10 inverters Function codes
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Function
code
Name
Detailed instruction of parameters
Default
value
Modify
running state to make the inverter coast to stop. 1:Terminal running command channel (“ LOCAL/REMOT” flickering) Carry out the running command control by the forward rotation, reverse rotation and forward jogging and reverse jogging of the multi-function terminals 2:Communication running command channel (“LOCAL/REMOT” on) The running command is controlled by the upper monitor via communication
P00.03
Max. output
frequency
This parameter is used to set the maximum output frequency of the inverter. Users should pay attention to this parameter because it is the foundation of the frequency setting and the speed of acceleration and deceleration. Setting range: P00.04~400.00Hz
50.00Hz
P00.04
Upper limit of
the running
frequency
The upper limit of the running frequency is the upper limit of the output frequency of the inverter which is lower than or equal to the maximum frequency. Setting range:P00.05~P00.03 (Max. output frequency)
50.00Hz
P00.05
Lower limit of
the running
frequency
The lower limit of the running frequency is that of the output frequency of the inverter. The inverter runs at the lower limit frequency if the set frequency is lower than the lower limit one.
Note: Max. output frequency ≥ Upper limit frequency ≥
Lower limit frequency Setting range:0.00Hz~P00.04 (Upper limit of the running frequency)
0.00Hz
P00.06
A frequency
command
selection
Note: Frequency A and frequency B cannot use the same frequency setting mode. The frequency source can be set by P00.09. 0:Keypad data setting Modify the value of function code P00.10 (set the frequency by keypad) to modify the frequency by the keypad. 1:Analog AI1 setting 2:Analog AI2 setting
0
P00.07
B frequency
command
selection
2
Goodrive10 inverters Function codes
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Function
code
Name
Detailed instruction of parameters
Default
value
Modify
Analog input terminal sets the frequency. There are 2 standard analog input terminal, of which AI1 is adjusted through digital potentiometer, AI2 (0~10V/0~20mA)can be switched by the jumper. Note: when AI2 selects 0~20mA input, 20mA corresponds to 10V.
100.0% of the analog input corresponds to P00.03,
-100.0% of the analog input corresponds to the reverse P00.03. 6: Multi-stage speed running setting The inverter runs at multi-stage speed mode when P00.06=6 or P00.07=6. Set P05 to select the current running stage, and set P10 to select the current running frequency. The multi-stage speed has the priority when P00.06 or P00.07 does not equal to 6, but the setting stage can only be the 1~15 stage. The setting stage is 1~15 if P00.06 or P00.07 equals to 6. 7: PID control setting The running mode of the inverter is process PID control when P00.06=7 or P00.07=7. It is necessary to set P09. The running frequency of the inverter is the value after PID effect. See P09 for the detailed information of the preset source, preset value, feedback source of PID. 8:MODBUS communication setting The frequency is set by MODBUS communication. See P14 for detailed information.
P00.08
B frequency
command
reference
0: Maximum output frequency, 100% of B frequency setting corresponds to the maximum output frequency 1: A frequency command, 100% of B frequency setting corresponds to the maximum output frequency. Select this setting if it needs to adjust on the base of A frequency command
0
P00.09
Combination
type of the
setting source
0: A, the current frequency setting is A freauency command 1: B, the current frequency setting is B frequency command 2: A+B, the current frequency setting is A frequency command + B frequency command 3: A-B, the current frequency setting is A frequency
0
Goodrive10 inverters Function codes
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Function
code
Name
Detailed instruction of parameters
Default
value
Modify
command - B frequency command 4: Max (A, B): The bigger one between A frequency command and B frequency is the set frequency. 5: Min (A, B): The lower one between A frequency command and B frequency is the set frequency. Note:The combination manner can be shifted by P05(terminal function)
P00.10
Keypad set
frequency
When A and B frequency commands are selected as “keypad setting”, this parameter will be the initial value of inverter reference frequency Setting range:0.00 Hz~P00.03(the Max. frequency)
50.00Hz
P00.11
ACC time 1
ACC time means the time needed if the inverter speeds up from 0Hz to the Max. One (P00.03). DEC time means the time needed if the inverter speeds down from the Max. Output frequency to 0Hz (P00.03). Goodrive10 series inverters define four groups of ACC/DEC time which can be selected by P05. The factory default ACC/DEC time of the inverter is the first group. Setting range of P00.11 and P00.12:0.0~3600.0s
Depend
on model
P00.12
DEC time 1
Depend
on model
P00.13
Running direction
selection
0: Runs at the default direction, the inverter runs in the forward direction. FWD/REV indicator is off. 1: Runs at the opposite direction, the inverter runs in the reverse direction. FWD/REV indicator is on. Modify the function code to shift the rotation direction of the motor. This effect equals to the shifting the rotation direction by adjusting either two of the motor lines (U, V and W). The motor rotation direction can be changed by QUICK/JOG on the keypad. Refer to parameter P07.02. Note: When the function parameter comes back to the
default value, the motor’s running direction will come back
to the factory default state, too. In some cases it should be used with caution after commissioning if the change of rotation direction is disabled. 2: Forbid to run in reverse direction: It can be used in some special cases if the reverse running is disabled.
0
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