SINEE Inverter
SINEE Inverter
SINEE Inverter
Preface
Thank you for choosing SINEE’s EM730 series inverter.
Before using the EM730 series inverter, please read this manual carefully and keep it
properly.
While connecting the inverter to motor for the first time, please select the motor type
(asynchronous or synchronous) correctly and set the motor nameplate parameters: rated
power, rated voltage, rated current, rated frequency, rated speed, motor connection, rated
power factor, etc.
Since we are committed to continuously improving our products and product data, the data
provided by us may be modified without prior notice.
For the latest changes and contents, please visit www.sinee.cn.
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User Manual of EM730 Series Inverter
Safety precautions
Safety definition: Safety precautions are divided into the following two categories in this
manual:
Danger: The dangers caused by nonconforming operations may include serious injuries
Precautions
Before installation:
Danger
1. Do not install the product in the case of water in the package or missing or damaged
components found in unpacking!
2. Do not install the product in the case of inconsistency between the actual product
name and identification on the outer package.
Warning
During installation:
Danger
1. Please install the inverter on a metal retardant object (e.g. metal) and keep it away
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from combustibles; otherwise, a fire may be caused!
2. Do not loosen the fixing bolts of components, especially those with red marks!
Warning
1. Never make wire connectors or screws fall into the inverter; otherwise, the inverter
may be damaged!
2. Install the inverter in a place with little vibration and exposure to direct sunlight.
3. When the inverter is installed a relatively closed cabinet or space, pay attention to the
installation gap to ensure the effects of heat dissipation.
During wiring:
Danger
1. Follow the instructions in this manual, and appoint professional and electrical
engineering personnel to complete wiring; otherwise, unexpected dangers may be
caused!
2. The inverter and power supply must be separated by a circuit breaker
(recommendation: greater than or equal to and closest to twice the rated current);
otherwise, a fire may be caused!
3. Before wiring, make sure that the power supply is in the zero energy status; otherwise,
electric shock may be caused!
4. Never connect the input power supply to the output terminals (U, V, W) of the inverter.
Pay attention to the marks of wiring terminals, and connect wires correctly! Otherwise,
the inverter may be damaged!
5. Make the inverter grounded correctly and reliably according to the standards;
otherwise, electric shock and fire may be caused!
Warning
1. Make sure that the lines meet the EMC requirements and local safety standards. For
wire diameters, refer to the recommendations. Otherwise, an accident may occur!
2. Never connect the braking resistor directly between the DC bus and terminal.
Otherwise, a fire may be caused!
3. Tighten the terminals with a screwdriver of specified torque; otherwise, there is a risk
of fire.
4. Never connect the phase-shifting capacitor and LC/RC noise filter to the output circuit.
5. Do not connect the electromagnetic switch and electromagnetic contactor to the output
circuit. Otherwise, the overcurrent protection circuit of the inverter will be enabled. In
severe cases, the inverter may be subject to internal damage.
6. Do not dismantle the connecting cable inside the inverter; otherwise, internal damage
may be caused to the inverter.
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Before power-on:
Danger
1. Make sure that the voltage level of the input power supply is consistent with the rated
voltage of the inverter; and the input terminals (R, S, T) and output terminals (U, V,
W) of the power supply are connected correctly. Check whether there is short circuit in
the peripheral circuits connected to the inverter and whether all connecting lines are
tightened; otherwise, the inverter may be damaged!
2. The withstand voltage test has been performed to all parts of the inverter, so it is not
necessary to carry it out again. Otherwise, an accident may be caused!
Warning
1. The inverter must not be powered on until it is properly covered; otherwise, electric
shock may be caused!
2. The wiring of all peripheral accessories must be in line with the instructions in this
manual. All wires should be connected correctly according to the circuit connections in
this manual. Otherwise, an accident may occur!
After power-on:
Danger
1. Never touch the inverter and surrounding circuits with wet hands; otherwise,
electric shock may occur!
2. If the indicator is not ON and the keyboard has no response after power-on,
immediately turn off the power supply. Never touch the inverter terminals (R,
S, T) and the terminals on the terminal block with your hands or screwdriver;
otherwise, electric shock may be caused. Upon turning off the power supply,
contact our customer service personnel.
3. At the beginning of power-on, the inverter automatically performs a safety test
to external strong current circuits. Do not touch the inverter terminals (U, V,
W) or motor terminals; otherwise, electric shock may be caused!
4. Do not disassemble any parts of the inverter while it is powered on.
Warning
1. When parameter identification is required, please pay attention to the danger of injury
during motor rotation; otherwise, an accident may occur!
2. Do not change the parameters set by the inverter manufacturer without permission;
otherwise, the inverter may be damaged!
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During operation:
Danger
1. Do not touch the cooling fan, radiator and discharge resistor to feel the temperature;
otherwise, burns may be caused!
2. Non-professional technicians must not test signals when the controller is in operation;
otherwise, personal injury or equipment damage may be caused!
Warning
1. Prevent any object from falling into the inverter in operation; otherwise, the inverter
may be damaged!
2. Do not start or stop the inverter by turning on or off the contactor; otherwise, the
inverter may be damaged!
During maintenance:
Danger
1. Never carry out repair and maintenance in the live state; otherwise, electric shock may
be caused!
2. Maintenance of the inverter must be carried out 10 min after the main circuit is
powered off and the display interface of the keyboard is disabled; otherwise, the
residual charge in the capacitor will do harm to the human body!
3. Personnel without professional training are not allowed to repair and maintain the
inverter; otherwise, personal injury or inverter damage may be caused!
4. The parameters must be set after the inverter is replaced. Plugs in all interfaces must
be operated in the power-off status!
5. The synchronous motor generates electricity while rotating. Inverter maintenance and
repair must be performed 10 min after the power supply is turned off and the motor
stops running; otherwise, electric shock may be caused!
Cautions
Motor insulation inspection
When the motor is used for the first time or after long-term storage or subject to regular
inspection, its insulation should be checked to prevent the inverter from damage caused by
failure of the motor winding insulation. During the insulation inspection, the motor must be
disconnected from the inverter. It is recommended to use a 500V megohmmeter. The measured
insulation resistance must not be less than 5 MΩ.
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Thermal protection of motor
If the motor used does not match the rated capacity of the inverter, especially when the rated
power of the inverter is greater than that of the motor, the motor must be protected by adjusting
the motor protection parameters of the inverter or installing a thermal relay in front of the motor.
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Contents
PREFACE ................................................................................................................ 1
SAFETY PRECAUTIONS ..................................................................................... 2
PRECAUTIONS .............................................................................................................................2
CAUTIONS ...................................................................................................................................5
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Chapter 1 Overview
★ Correct selection of the inverter: The rated output current of the inverter is greater than or
equal to the rated current of the motor, taking into account the overload capacity.
★ The difference between the rated power of the inverter and that of the motor is usually
recommended not to exceed two power segments.
★ When a high-power inverter is provided with a low-power motor, the motor parameters
must be entered accurately to prevent the motor from damage as a result of overload.
The technical specifications of the EM730 series inverter are shown in Table 1-2.
Table 1- 2 Technical Specifications of EM730 Series Inverter
Item Specification
Three-phase 340V-10% to 460V+10%,
Power Rated voltage of
Single-phase/three-phase 200V-10% to 240V+10%;
supply power supply
50-60Hz ± 5%; voltage unbalance rate: <3%
Maximum output The maximum output voltage is the same as the input power
voltage voltage.
Rated output current Continuous output of 100% rated current
Output 150% heavy-duty rated current: 60s ( 185~450kw 140%
Maximum overload heavy-duty rated current: 60s );
current 120% light-duty rated current: 60s; 150% light-duty rated
current: 10s; 180% light-duty rated current: 2s
Drive mode V/F control (VVF); speed sensorless vector control (SVC)
Basic
Input mode Frequency (speed) input, torque input
control
Start and stop control Keyboard, control terminal (two-line control and three-line
functions
mode control), communication
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Frequency control
0.00~600.00Hz/0.0~3000.0HZ
range
Input frequency Digital input: 0.01Hz/0.1Hz
resolution Analog input: 0.1% of maximum frequency
Speed control range 1:50 (VVF), 1:200 (SVC)
Speed control
Rated synchronous speed ± 0.2%
accuracy
Acceleration and
0.01 s to 600.00 s / 0.1 s to 6,000.0 s / 1 s to 60,000 s
deceleration time
Voltage/frequency Rated output voltage: 20% to 100%, adjustable
characteristics Reference frequency: 1Hz to 600Hz/3,000Hz
Fixed torque boost curve
Torque boost
Any V/F curve is acceptable.
150%/1Hz (VVF)
Starting torque
150%/0.25Hz (SVC)
Torque control
±8% rated torque (SVC)
accuracy
Self-adjustment of When the input voltage changes, the output voltage will
output voltage basically remain unchanged.
Automatic current Output current is automatically limited to avoid frequent
limit overcurrent protection actions.
Braking frequency: 0.01 to maximum frequency
DC braking Braking time: 0~30s
Braking current: 0% to 150% rated current
Signal input source Communication, multi-speed, analog, etc.
Reference power
10V/20mA
Input and supply
output Terminal control
24V/100mA
function power
Digital input terminal 5-channel digital multi-function input: X1~X5
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setting can be performed separately or in a mixed manner. Fig. 1-1 to Fig. 1-4 detail various
input modes of the EM730 series inverter by speed setting.
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communication settings can be applied directly.
If the terminals are unavailable, the current setting channel is determined by the function
code F00.04, and final settings are obtained through UP/DOWN setting calculation.
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Torque setting mode with the motor current as controlled target
The digital setting, analog input setting, high-speed pulse input setting, communication
setting, digital potentiometer setting or multi-segment torque setting can be applied. Fig. 1-5
details the input modes of EM730 series inverters with the set torque.
★ :The jog speed setting mode is superior to other setting modes. That is, when the control
terminals FJOG and RJOG are enabled, the inverter will automatically change to the jog speed
The operation method of the inverter refers to the operating conditions for the inverter to
enable the running status. It includes: keyboard operation, terminal operation and
communication operation. Terminal operation is divided into two-line control (RUN, F/R) and
three-line control (RUN, F/R, Xi (i=1-5) (change the definition of Xi to three-line operation stop
control). The control logic of this operation method is shown in Fig. 1- 6 (take the NPN input
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mode as an example).
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Chapter 2 Installation
Danger
Nameplate
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Description of inverter model
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Table 2- 2 Outline and Installation Dimensions of EM730 Series Inverter
Specifications W W1 H H1 H2 D D1 D2 d
EM730-0R4-2B
75 65 142 132 146 67 152 4.5
EM730-0R7-2B
EM730-1R5-2B
93 82 172 163 136 85 141 4.7
EM730-2R2-2B
EM730-0R7-3B
75 65 142 132 146 67 152 4.5
EM730-1R5-3B
EM730-2R2-3B
93 82 172 163 136 85 141 4.7
EM730-4R0-3B
EM730-5R5-3B
109 98 207 196 154 103 160 5.5
EM730-7R5-3B
EM730-011-3B
136 125 250 240 169 115 174 5.5
EM730-015-3B
EM730-018-3B
190 175 293 280 184 145 189 6.5
EM730-022-3B
EM730-030-3
EM730-030-3B
245 200 454 440 420 205 156 212 7.5
EM730-037-3
EM730-037-3B
EM730-045-3
300 266 524 508 480 229 174 236 9
EM730-055-3
EM730-075-3 335 286 580 563 536 228 177 235 9
EM730-090-3
335 286 630 608 570 310 247 317 11
EM730-110-3
EM730-132-3
430 330 770 747 710 311 248 319 13
EM730-160-3
EM730-185-3 422 320 786 758 709 335 271 256.4 11.5
EM730-200-3 441 320 1025 989 942 357 285 11.5
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EM730-220-3
EM730-250-3
EM730-280-3
560 450 1024 1170.5 1100 400 333 13
EM730-315-3
EM730-355-3
EM730-400-3 660 443 1597 1567 1504 430 375.5 325.5 13
EM730-450-3
Attention
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9. Avoid electromagnetic interference and keep the controller away from interference
sources.
2.3.2 Environment temperature
In order to improve the operational reliability, please install the inverter in a well-ventilated
place. When it is used in a closed cabinet, a cooling fan or cooling air conditioner should be
installed to keep the ambient temperature below 50C.
2.3.3 Preventive measures
Take protective measures to the inverter during installation to prevent metal fragments or
dust generated in drilling and other processes from falling into the inverter. Remove the
protection after installation.
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Chapter 3 Wiring
Power supply
Circuit breaker or
leakage protection switch
Contactor
AC input reactor
EM730 inverter
Braking resistor
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DC bus terminals:
Motor terminals: U, V, W
The layout of main circuit terminals is shown in Fig. 3-2.
Note:
EM730-0R4-2B~ EM730-0R7-2B terminals are the same as EM730-0R7-3B~ EM730-1R5-3B;
EM730-1R5-2B~ EM730-2R2-2B terminals are the same as EM730-2R2-3B~ EM730-4R0-3B.
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P, DC reactor terminal, for the external DC reactor of EM730-090-3 and above
Grounding terminal, connected to earth
The MCCB capacity should be 1.5-2 times the rated current of the inverter.
The time characteristics of the MCCB must meet the requirements for overheat protection
(150% rated current/1 minute) of the inverter.
When the MCCB is used with multiple inverters or other devices, connect the protection
output relay contact of the inverter in series to the power contactor coil, as shown in
Fig.3-4, to disconnect the power supply according to the protection signal.
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Installation of AC reactor
When a large-capacity (above 600KVA) power transformer is connected, or the input
power supply is connected to a capacitive load, a high inrush current will be generated, which
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will cause damage to the rectifier part of the inverter. In this case, please connect a three-phase
AC reactor (optional) to the input side of the inverter. This will not only suppress the peak
current and voltage, but also improve the power factor of the system.
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(a)
(b)
Fig. 3- 6 Incorrect Installation of Noise Filter
3.2.5 Output side wiring of main circuit
Wiring of inverter and motor
Connect the output terminals (U, V, W) of the inverter to those (U, V, W) of the motor.
During operation, check whether the motor rotates forward when a forward rotation
command is sent. If the motor rotates reversely, exchange any two wires of the output terminals
(U, V, W) of the inverter.
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Prohibition of short circuit or grounding of output terminal
Do not directly touch the output terminals, or short-circuit the output cable and inverter
housing; otherwise, electric shock and short circuit may be caused. In addition, never
short-circuit the output cable.
Prohibition of use of phase-shifting capacitor
Do not connect a phase-shifting advanced electrolytic capacitor or LC/RC filter to the
output circuit; otherwise, the inverter may be damaged.
Prohibition of use of electromagnetic switch
Do not connect the electromagnetic switch or electromagnetic contactor to output circuit.
Otherwise, such devices will enable overcurrent and overvoltage protection and even damage
the internal components of the inverter in severe cases.
When an electromagnetic contactor is used to switch the PF power supply, make sure that
switching is not performed until the inverter and motor are shut down.
Installation of noise filter on output side
Connect a noise filter on the output side of the inverter to reduce inductive interference and
radio interference.
Inductive interference: Electromagnetic induction will lead to noise of the signal
line and malfunction of controls.
Radio interference: The high-frequency electromagnetic waves emitted by the
inverter itself and cables will cause interference to nearby radio devices and noise
in signal reception.
The noise filter installation on the output side is shown in Fig. 3-7.
Solution to RF interference
The input cable, output cable and inverter itself generates RF interference, which can be
reduced by installing noise filters on the input and output sides and shielding the inverter body
with an iron box, as shown in Fig. 3-9.
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When the motor wiring distance exceeds 50 m, connect the output terminals (U, V, W) of the
inverter with the dedicated AC reactor (phase capacity: the same as that of the inverter) for
inverter output.
Table3- 2 Wiring Distance and Carrier Frequency between Inverter and Motor
Wiring distance between inverter and <50m <100m >100m
motor
Carrier frequency Below 10kHz Below 8kHz Below 5kHz
Function code F00.23 10.0 8.0 5.0
EM730-1R5-3B 1.5
EM730-1R5-2B
EM730-2R2-2B 4
PB, +, -, R, S, T, U, V,
EM730-2R2-3B
W M4 1.5~2.0
EM730-4R0-3B
EM730-5R5-3B 6
EM730-7R5-3B
EM730-011-3B
EM730-015-3B 10 750V
M5 3.0~4.0
EM730-018-3B wire
16
EM730-022-3B
EM730-030-3B
EM730-037-3B R, S, T, PB, +, -, U, V,
W, M6 4.0~5.0 25
EM730-030-3
EM730-037-3
EM730-045-3 R, S, T, +, -, U, V, W, 35
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M8 9.0~10.0 35
EM730-055-3
EM730-075-3 60
EM730-090-3 60
M10 17.0~22.0
EM730-110-3 90
EM730-132-3 90
R, S, T, P, +, -, U, V, W
EM730-160-3 120
EM730-185-3 180
EM730-200-3
EM730-220-3 2*120
EM730-250-3
R, S, T, P, +, -, U, V, W M12 30.0~40.0
EM730-315-3 2*150
EM730-355-3
EM730-400-3
EM730-450-3
Table 3- 1 Cable Dimensions and Terminal Screw Specifications Note: 1: The specifications of
the wire are dependent on its voltage drop. Under normal circumstances, the voltage drop
calculated by the following formula should be less than 5V.
Voltage drop = 3 * wire resistivity (Ω/KM) * wire length (m) * rated current (A) * 10 -3
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Select the ground wire according to the technical specifications for electrical
equipment, and minimize the length of the ground wire connected to the grounding
point.
Where two or more inverters are used, the ground wires must not form a loop. The
correct and incorrect grounding methods are shown in Table 3-10.
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3.3.2 Functions and wiring of control circuit terminals
Table 3- 3 Functions of Control Circuit Terminals
Terminal
Category Terminal name Function description
label
External power Supply 24V power to external devices, with
24V
supply the maximum output current of 100mA.
Power supply Power grounding terminal of the external
Power grounding
COM power supply, and common side of the digital
terminal
input terminal
Supply 10V power to external devices.
Analog terminal Maximum output current: 10.5±0.5V/20mA,
±10V
power supply usually as the power supply of the external
potentiometer
Analog power Grounding terminal of analog input and
GND
Analog input grounding terminal output
Analog voltage -10V to 10V, 50kΩ input impedance, bipolar
AI1
input analog voltage input
Analog
Current or voltage type
AI2 current/voltage
Input range: 0/4-20mA or 0-10V
input
Analog
Analog output M1 voltage/current 0-10V/0-20mA; output accuracy: ±2%
output
X1 Program the corresponding terminals by
X2 setting function codes, to realize the input
X3 control of the set functions.
Digital input X4 Multi-function The input terminal supports PNP and NPN
port input terminal input modes, and the default mode is the NPN
input mode.
X5
X5 can also be used as the high-frequency
pulse input, with the input frequency up to
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100kHz.
Open collector It can be programmed as the multi-function
Y1
output terminal output terminal.
Multi-function
The common side YCM of Y terminal and the
digital output Common side of Y
YCM common side COM of the digital input
terminal
terminal are independent of each other.
A+ RS485 positive terminal of RS485 differential signal
Communication communication
A- negative terminal of RS485 differential signal
terminal
EA
Relay output EA-EC: Normally open
Relay output EB
terminal EB-EC: Normally closed
EC
For the external operation panel
External External keyboard The upper computer can also be connected
RJ45
keyboard port terminal through this port for background software
debugging.
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(a)
(b)
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3.3.4 Wiring of multi-function input terminal
The multi-function input terminals of EM730 series inverters support the access in the NPN
or PNP mode. The terminals X1~X5 can be flexibly connected with external devices. The NPN
or PNP mode (NPN by default) can be selected via the jumper cap J10 on the control panel. The
wiring of the multi-function input terminal in different modes is shown below:
a: Use of internal power supply in NPN mode b: Use of internal power supply in PNP mode
c: Use of external power supply in NPN mode d: Use of external power supply in PNP mode
Fig. 3-14 Wiring Diagram of Multi-function Input Terminals
3.3.5 Wiring of multi-function output terminals
The multi-function output terminal Y1 is powered on by the internal 24V power supply of
the inverter or an external power supply, as shown in Fig. 3-15:
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a: Use of internal power supply NPN b: Use of external power supply NPN
a: Use of internal power supply PNP b: Use of external power supply PNP
Fig.3- 15 Wiring of Multi-function Output Terminals
Note: An anti-parallel diode must be included in the relay wire package. The absorption circuit
components should be installed at both ends of the coil of the relay or contactor.
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3.3.10 Standard Wiring Diagram of Control Circuit
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counterclockwise.)
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In all menu modes, the user needs to press the ENTER key to save parameter
modifications. Differences after parameter saving are as follows: In the full menu mode, enter
the function code following the function code that has been successfully modified. In the
user-defined mode, enter the user-defined function code (according to the sequence defined in
F11.00-F11.31) following the function code that has been successfully modified. In the
non-default mode, enter the non-default function code following the non-default function code
that has been successfully modified. In the protection information display mode, enter the
protection information function code following the protection information function code that has
been successfully modified. In the version information display mode, enter the serial number
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function code following the serial number function code has been successfully modified.
In the Level 3 menu, press the ESC key to abandon parameter modifications.
4.2.2 User-defined mode (--U--)
Enter the F11 group of function codes from the full menu mode. Then the user can
arbitrarily set the shortcut for the parameter to be accessed frequently. When F11.00 is enabled
for the first time, U00.00 will be displayed by default, meaning that the function code defined by
default for F11.00 is F00.00. The lowest cursor bit will flicker. The user can set any function
code, similar to the function code selection in the Level 2 menu. After setting, press the ENTER
key to save it and enter the user-defined menu mode to display the set function code.
For example, F11.00 is set to U00.07 and F11.01 to U00.09. F11.00 and F11.01 will be
defined as F00.07 and F00.09, respectively. They are distinguished by U and F. U indicates that
this function code is user-defined, as shown in Fig. 4- 4.
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parameter will automatically change from the current value to that indicated by F12.33. When
the inverter changes from the running status to stop status, the monitoring parameter will
automatically change from the current value to that indicated by F12.34.
4.4.2 Editing Mode
Quick change in the monitoring mode:
When F00.04 is set to “0: digital frequency setting F00.07”, turn the potentiometer key
to directly change the offset;
When F00.04 is set to “8: digital potentiometer”, turn the potentiometer key to change
the set frequency of F12.42 digital potentiometer. In this case, turn the potentiometer key to
enter the editing mode. The value will change from the second digit of the digital tube by default.
The digital tube corresponding to the changed digit will flash. Press the right shift key
to move to next digit on the right. Press the ESC key to cancel change and return to the
original value. Or, press the ENTER key to confirm the change and exit the editing mode.
The indicator will not be flicker. Press the right shift key to enable the normal
monitoring mode: switch to next monitoring parameter. Fig. 4-6 shows the editing status in the
monitoring mode.
4.5 Run/Stop
After setting the parameters, press the RUN key to enable the normal operation of
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the inverter, and the STOP/RESET key to stop the inverter.
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5.5.1 Terminal control of start and stop
Function Function code Parameter description Default Attribute
code name setting
0: terminal RUN (running) and F/R
(forward/reverse)
1: terminal RUN (forward) and F/R
Options of (reverse)
F00.03 terminal 2: terminal RUN (forward), Xi (stop) 0 〇
control mode and F/R (reverse)
3: terminal RUN (running), Xi (stop)
and F/R (forward/reverse)
Terminal RUN: Xi terminal is set to “1: terminal RUN”
Terminal F/R: Xi terminal is set to “2: running direction F/R”
Terminal control can be divided into two types: two-line control and three-line
control.
Two-line control:
F00.03=0: the terminal RUN is enabled and the terminal F/R controls forward/reverse
running.
Enable/Disable the terminal RUN to control the start and stop of the inverter, and the
terminal F/R to control the forward/reverse running. If F00.21 is set to 1 and reverse running is
disabled, the F/R terminal will not be available. When the mode of deceleration to stop is
selected, the logic diagram is as shown in Fig. 5-2 (b).
F00.03=1: the terminal RUN controls forward running, and the terminal F/R is in the
reverse mode.
Enable/Disable the terminal RUN to control the forward running and stop of the inverter, and
the terminal F/R to control the reverse running and stop. When the terminals RUN and F/R are
enabled simultaneously, the inverter will be stopped. If reverse running is disabled, the terminal
F/R will not be available. When the mode of deceleration to stop is selected, the logic of
forward/reverse running is as shown in Fig. 5-2 (d);
(a) Wiring diagram of two-line control (F00.03=0) (b) F04.19=0, F00.03=0, run the
forward/reverse logic
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User Manual of EM730 Series Inverter
(a) Wiring diagram of three-line control (F00.03=2) (b) Forward/reverse control logic
(F04.19=0, F00.03=2)
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User Manual of EM730 Series Inverter
(c) Wiring diagram of three-line control (F00.03=3) (d) Forward/reverse running logic
(F04.19=0, F00.03=3)
Fig. 5-3 Three-line Control
The three-line control logic of the EM730 series inverter is consistent with the
conventional electrical control. The keys and knob switches should be used correctly as
shown in the schematic diagram. Otherwise, operation errors may be caused.
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User Manual of EM730 Series Inverter
F00 Basic function P69; P136 F01 Parameter group of motor 1 P72; P154
parameter group
F02 Input terminal P72; P154
F03 Output terminal function P80; P173
function group group
F04 Start/stop control P82; P 错 F05 V/F control parameter P84; P 错
parameter group 误!未定义 group 误!未定义
书签。 书签。
F06 Vector control P86; P 错 F07 Protection function setting P90; P 错
parameter group 误!未定义 group 误!未定义
书签。 书签。
F08 Multi-segment speed P92; P 错 F09 PID function group P98; P 错
and simple PLC 误!未定义 误!未定义
书签。 书签。
F10 Communication P101; P 错 F11 User-selected parameter P102; P 错
function group 误!未定义 group 误!未定义
书签。 书签。
F12 Keyboard and display P104; P 错 F13 Torque control parameter P107; P 错
function group 误!未定义 group 误!未定义
书签。 书签。
F14 Parameter group of P108; P 错 F15 Auxiliary function group P114; P 错
motor 2 误!未定义 误!未定义
书签。 书签。
F16 Customization P117; P 错 F17 Virtual I/O function group P119; P 错
function group 误!未定义 误!未定义
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User Manual of EM730 Series Inverter
书签。 书签。
F18 Monitoring parameter P122; P 错 F19 Protection record group P124; P 错
group 误!未定义 误!未定义
书签。 书签。
F27 Winding/unwinding P126; P290 F45 Modbus free mapping P129; P306
application macro parameter group
parameter group
★ Some parameters of the current series are reserved, and their readings are 0. Some options
of parameters are reserved and settable, but this may result in abnormal operation of the
inverter. Please avoid misuse of such parameters.
The table below provides the details of the function code table.
Function F00.00 to F99.99: function code number
code
Function Full name of the function code. “Reserved” means that the corresponding
code name function code is temporarily reserved and has no practical meaning.
Brief description of the function code. It is mainly divided into the following
three types:
The value of the integral function code represents the current
Integral
parameter selection or meaning.
Parameter
The ones, tens, hundreds, thousands and tens of thousands
description
Quantifier represent one option or the current meaning of the function
code.
Each binary bit represents one option or the current meaning
Binary
of the function code.
Metric units of the function code. The units and abbreviations are as follows:
Hz Hertz kW kilowatt us Microsecond
kHz Kilohertz kWh Kilowatt-hour ms Millisecond
★
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User Manual of EM730 Series Inverter
Function code settings before delivery, or values after parameter restoration
(F12.14=1). This is mainly described by the following three categories.
Number Refer to each power segment. The function code is set to
Default (e.g. 50.00) the current value by default.
setting Depending on The default setting of this function code varies based on
the motor type the power segments.
The default setting of this function code varies based on
XXX
the power segments and batches.
Change attribute of the function code (permission and condition of change),
as described below:
Changeable in running: The current function code can be
●
changed in any status.
Attribute
Non-changeable in running: The current function code can be
〇
changed except in the running status.
Read-only: The current function code cannot be changed in
×
any status.
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User Manual of EM730 Series Inverter
4:reserved
5: high frequency pulse input (X5)
6: main frequency communication setting
(percentage)
7: main frequency communication setting
(direct frequency)
8: digital potentiometer setting
0: digital frequency setting F00.07
1:AI1
2:AI2
3: reserved
4: reserved
5: high frequency pulse input (X5)
Options of
6: auxiliary frequency communication setting
F00.05 auxiliary frequency 0 〇
(percentage)
source B
7: auxiliary frequency communication setting
(direct frequency)
8: digital potentiometer setting
9: reserved
10: process PID
11: simple PLC
0: main frequency source A
1: auxiliary frequency source B
2: main and auxiliary operation results
3: switching between main frequency source
A and auxiliary frequency source B
Options of 4: switching between main frequency source
F00.06 0 〇
frequency source A and main and auxiliary operation results
5: switching between auxiliary frequency
source B and main and auxiliary operation
results
6: auxiliary frequency source B + feedforward
calculation (winding application)
Digital frequency
F00.07 0.00 to maximum frequency F00.16 Hz 50.00 ●
setting
0: main frequency source A + auxiliary
frequency source B
1: main frequency source A - auxiliary
Options of main
frequency source B
F00.08 and auxiliary 0 〇
2: larger value of main and auxiliary
operation
frequency sources
3: smaller value of main and auxiliary
frequency sources
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User Manual of EM730 Series Inverter
4: main frequency source A - auxiliary
frequency source B, the operation result is
greater than or equal to zero
5: main frequency source A + auxiliary
frequency source B, the operation result is
greater than or equal to zero
Reference options
of auxiliary
0: relative to he maximum frequency
F00.09 frequency source B 0 〇
1: relative to main frequency source A
in main and
auxiliary operation
Gain of main
F00.10 0.0~300.0 % 100.0 ●
frequency source
Gain of auxiliary
F00.11 0.0~300.0 % 100.0 ●
frequency source
Synthetic gain of
F00.12 main and auxiliary 0.0~300.0 % 100.0 ●
frequency sources
0: synthetic frequency of main and auxiliary
channels
1: AI1 * synthetic frequency of main and
auxiliary channels
Analog adjustment
2: AI2 * synthetic frequency of main and
F00.13 of synthetic 0 〇
auxiliary channels
frequency
3: reserved
4: reserved
5: high frequency pulse (PULSE) * synthetic
frequency of main and auxiliary channels
0.00 ~ 650.00 (F15.13=0)
F00.14 Acceleration time 1 0.0 ~ 6500.0 (F15.13=1) s 15.00 ●
0 ~ 65000 (F15.13=2)
0.00 ~ 650.00 (F15.13=0)
F00.15 Deceleration time 1 0.0 ~ 6500.0 (F15.13=1) s 15.00 ●
0 ~ 65000 (F15.13=2)
Maximum
F00.16 1.00~600.00/1.0~3000.0 Hz 50.00 〇
frequency
0: set by F00.18
1:AI1
Options of upper 2:AI2
F00.17 frequency limit 3: reserved 0 〇
control 4: reserved
5: high frequency pulse input (X5)
6: communication setting (percentage)
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User Manual of EM730 Series Inverter
7: communication setting (direct frequency)
Upper frequency lower frequency limit F00.19 to maximum
F00.18 Hz 50.00 ●
limit frequency F00.16
Lower frequency
F00.19 0.00 to upper frequency limit F00.18 Hz 0.00 ●
limit
0: consistent direction
F00.20 Running direction 0 ●
1: opposite direction
0: allow forward/reverse running
F00.21 Reverse control 0 〇
1: prohibit reversing
Duration of
F00.22 forward and reverse 0.00~650.00 s 0.00 ●
dead zone
1.0 ~ 16.0 (rated power of the inverter:
0.75-4.00kW)
1.0 ~ 10.0 (rated power of the inverter:
4.0
5.50~7.50kW)
(0.75
1.0 ~ 8.0 (rated power of inverter 11.00 -
F00.23 Carrier frequency kHz and ●
45.00kW)
below)
1.0 ~ 4.0 (rated power of inverter 55.00 -
/2.0
90.00kW)
1.0 ~ 3.0 (rated power of inverter: 110.00 and
above)
Automatic 0: invalid
F00.24 adjustment of 1: valid 1 1 〇
carrier frequency 2: valid 2
0: invalid
1: noise suppression of carrier frequency
Noise suppression
F00.25 mode 1 0 〇
of carrier frequency
2: noise suppression of carrier frequency
mode 2
Noise suppression
F00.26 1~20 Hz 1 ●
width
0: invalid
0~10: noise suppression of carrier frequency
Noise suppression
F00.27 mode 1 % 2 ●
intensity
0~ 4: noise suppression of carrier frequency
mode 2
Options of motor 0: parameter group of motor 1
F00.28 0 〇
parameter group 1: parameter group of motor 2
F00.29 User password 0 ~ 65535 0 〇
Frequency 0:0.01Hz
F00.31 0 〇
resolution 1: 0.1Hz (speed unit: 10rpm)
F00.35 Power supply 0: 380V 0 〇
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User Manual of EM730 Series Inverter
voltage selection 1: 440V
F01 Parameter group of motor 1
0: ordinary asynchronous motor
F01.00 Motor type 1: variable-frequency asynchronous motor 0 〇
2: permanent magnet synchronous motor
Depend
ing on
Rated power of
F01.01 0.10~650.00 kW the 〇
electric motor
motor
type
Depend
ing on
Rated voltage of
F01.02 50~2000 V the 〇
motor
motor
type
Depend
ing on
Rated current of 1~ 60000 (rated power of motor: ≤ 75 kW)
F01.03 A the 〇
motor 0.1~6000.0 (rated power of motor: > 75kW)
motor
type
Depend
ing on
Rated frequency of
F01.04 0.01~600.00 Hz the 〇
motor
motor
type
Depend
ing on
F01.05 Rated speed 1~60000 rpm the 〇
motor
type
Depend
ing on
Motor winding 0:Y
F01.06 the 〇
connection 1:Δ
motor
type
Depend
ing on
Rated power factor
F01.07 0.600~1.000 the 〇
of motor
motor
type
Depend
F01.08 Motor efficiency 30.0~100.0 % ing on 〇
the
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User Manual of EM730 Series Inverter
motor
type
Depend
Stator resistance of ing on
1~ 60000 (rated power of motor: ≤ 75 kW)
F01.09 asynchronous mΩ the 〇
0.1~6000.0 (rated power of motor: > 75kW)
motor motor
type
Depend
Rotor resistance of ing on
1~ 60000 (rated power of motor: ≤ 75 kW)
F01.10 asynchronous mΩ the 〇
0.1~6000.0 (rated power of motor: > 75kW)
motor motor
type
Depend
Leakage inductance ing on
0.01 to 600.00 (rated power of motor: ≤ 75 kW)
F01.11 of asynchronous mH the 〇
0.001 to 60.000 (rated power of motor: > 75 kW)
motor motor
type
Depen-
Mutual inductance ding
0.1 to 6000.0 (rated power of motor: ≤ 75 kW)
F01.12 of asynchronous mH on the 〇
0.01 to 600.00 (rated power of motor: > 75 kW)
motor motor
type
Depend
No-load excitation
ing on
current of 0.01 to 600.00 (rated power of motor: ≤ 75 kW)
F01.13 A the 〇
asynchronous 0.1 to 6000.0 (rated power of motor: > 75 kW)
motor
motor
type
Flux weakening
coefficient 1 of
F01.14 10.00 ~ 100.00 % 87.00 〇
asynchronous
motor
Flux weakening
coefficient 2 of
F01.15 10.00 ~ 100.00 % 80.00 〇
asynchronous
motor
Flux weakening
coefficient 3 of
F01.16 10.00 ~ 100.00 % 75.00 〇
asynchronous
motor
Flux weakening
coefficient 4 of
F01.17 10.00 ~ 100.00 % 72.00 〇
asynchronous
motor
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User Manual of EM730 Series Inverter
Flux weakening
coefficient 5 of
F01.18 10.00 ~ 100.00 % 70.00 〇
asynchronous
motor
Depend
ing on
Stator resistance of 1~ 60000 (rated power of motor: ≤75kW)
F01.19 mΩ the 〇
synchronous motor 0.1 to 6000.0 (rated power of motor: > 75 kW)
motor
type
Depend
d-axis inductance ing on
0.01 to 600.00 (rated power of motor: ≤ 75 kW)
F01.20 of synchronous mH the 〇
0.001 to 60.000 (rated power of motor: > 75 kW)
motor motor
type
Depend
q-axis inductance 0.01~600.00 (rated power of motor: ≤ 75 kW) ing on
F01.21 of synchronous 0.001~60.000 (rated power of motor: > mH the 〇
motor 75kW) motor
type
Depend
Counter
ing on
electromotive force 10.0 ~ 2000.0 (counter electromotive force of
F01.22 V the 〇
of synchronous rated speed)
motor
motor
type
Initial electrical
F01.23 angle of 0.0 ~ 359.9 (valid for synchronous motor) 〇
synchronous motor
00: no operation
01: static self-learning of asynchronous motor
02: rotation self-learning of asynchronous
motor
Motor parameter 03: inertia self-learning of asynchronous
F01.34 00 〇
self-learning motor
11: static self-learning of synchronous motor
12: rotary self-learning of synchronous motor
13: encoder self-learning of synchronous
motor
F02 Input terminal function group
Options of X1 0: no function
F02.00 digital input 1: terminal running (RUN) 1 〇
function 2: running direction (F/R)
Options of X2 3: stop control in three-line operation
F02.01 2 〇
digital input 4: forward jog (FJOG)
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User Manual of EM730 Series Inverter
function 5: reverse jog (RJOG)
Options of X3 6: terminal UP
F02.02 digital input 7: terminal DOWN 11 〇
function 8: clear UP/DOWN offset
Options of X4 9: free stop
F02.03 digital input 10: reset protection 12 〇
function 11: multi-segment speed terminal 1
Options of X5 12: multi-segment speed terminal 2
F02.04 digital input 13: multi-segment speed terminal 3 13 〇
function 14: multi-segment speed terminal 4
Options of AI1 15: multi-segment PID terminal 1
F02.07 digital input 16: multi-segment PID terminal 2 0 〇
function 17: multi-segment torque terminal 1
18: multi-segment torque terminal 2
19: acceleration and deceleration time
terminal 1
20: acceleration and deceleration time
terminal 2
21: acceleration and deceleration prohibition
22: operation pause
23: external protection input
24: switching of RUN command to keyboard
25: switching of RUN command to
communication
26: frequency source switching
27: clearing of regular running time
28: speed control/torque control switching
Options of AI2 29: torque control prohibition
F02.08 digital input 30: motor 1/motor 2 switching 0 〇
function 31: resetting of simple PLC status (running
from the first segment, with the running time
cleared)
32: simple PLC time pause (keep running at
current segment)
33: reserved
34: counter input (≤250Hz)
35: high-speed count input (≤100kHz, only
valid for X5)
36: count clearing
37: length counter input (≤250Hz)
38: High-speed length counting input
(≤100kHz, only valid for X5)
39: reset length (clear by meter)
40: pulse input (≤100kHz, only valid for X5)
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User Manual of EM730 Series Inverter
41: process PID pause
42: process PID integral pause
43: PID parameter switching
44: PID positive/negative switching
45: stop and DC braking
46: DC braking at stop
47: immediate DC braking
48: fastest deceleration to stop
49: reserved
50: external stop
51: switching of main frequency source to
digital frequency setting
52: switching of main frequency source to AI1
53: switching of main frequency source to AI2
54: reserved
55: switching of main frequency source to
high-frequency pulse input
56: switching of main frequency source to
communication setting
57: inverter enabling
58: prohibit reversing and prohibit enabling
68: disable reversal
69: prohibit reversing
70: input terminal expansion
121: external material cutoff signal
122: wiring detection signal
123: brake reset terminal
D7 D6 D5 D4 D3 D2 D1 D0
* * * X5 X4 X3 X2 X1
Positive/negative
0: positive logic, valid in the closed
F02.15 logic 1 of digital 00000 〇
state/invalid in the open state
input terminal
1: negative logic, invalid in the closed
state/valid in the open state
D7 D6 D5 D4 D3 D2 D1 D0
* * * * * * AI2 AI1
Positive/negative
0: positive logic, valid in the closed
F02.16 logic 2 of digital 00 〇
state/invalid in the open state
input terminal
1: negative logic, invalid in the closed
state/valid in the open state
Filtering times of
F02.17 digital input 0~100, 0: no filtering; n: sampling every n ms 2 〇
terminal
F02.18 X1 valid delay time 0.000~30.000 s 0.000 ●
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User Manual of EM730 Series Inverter
X1 invalid delay
F02.19 0.000~30.000 s 0.000 ●
time
F02.20 X2 valid delay time 0.000~30.000 s 0.000 ●
X2 invalid delay
F02.21 0.000~30.000 s 0.000 ●
time
F02.22 X3 valid delay time 0.000~30.000 s 0.000 ●
X3 invalid delay
F02.23 0.000~30.000 s 0.000 ●
time
D7 D6 D5 D4 D3 D2 D1 D0
Control logic
00
F03.31 options of PLC * * * * * R1 * Y1 ●
000
output terminal
0: no output
1: output
0: 0~10V
Selection of analog
F03.34 1: 4~20mA 0 〇
output M1 type
2: 0~20mA
0: direct start
F04.00 Start-up method 0 〇
1: start of speed tracking
Start frequency
F04.02 0.00 ~ 60.00, 0.00 is invalid s 0.00 〇
hold time
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User Manual of EM730 Series Inverter
Starting current of
F04.03 0.0~100.0 (100.0 = Rated current of motor) % 100.0 〇
DC braking
Starting time of DC
F04.04 0.00~30.00 0.00: invalid s 0.00 〇
braking
Pre-excitation
F04.06 50.0 ~ 500.0 (100.0 = no-load current) % 100.0 〇
current
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User Manual of EM730 Series Inverter
Energy saving
F05.17 1.00 ~ 60.00 s 5.00 ●
action time
Flux compensation
F05.18 gain of 0.00 ~500.00 % 0.00 ●
synchronous motor
Filtering time
constant of flux
F05.19 0.00 ~ 10.00 s 0.50 ●
compensation of
synchronous motor
Change rate of VF
F05.20 separate power -500.0 ~ +500.0 % 0.0 ●
supply setting
Speed proportional
F06.00 gain 0.00 ~ 100.00 12.00 ●
ASR_P1
Speed integral time
0.000-30.000
F06.01 constant s 0.200 ●
0.000: no integral
ASR_T1
Speed proportional
F06.02 gain 0.00 ~ 100.00 8.00 ●
ASR_P2
Speed integral time
0.000-30.000
F06.03 constant s 0.300 ●
0.000: no integral
ASR_T2
Switching
F06.04 0.00 to switching frequency 2 Hz 5.00 ●
frequency 1
Switching Switching frequency 1 to maximum frequency
F06.05 Hz 10.00 ●
frequency 2 F00.16
No-load current
F06.06 50.0~300.0 % 100.0 ●
gain
Filtering time
F06.07 constant of speed 0.000 ~ 0.100 s 0.001 ●
loop output
Vector control slip
F06.08 50.00 ~ 200.00 % 100.00 ●
gain
0: set by F06.10 and F06.11
Upper limit source
1: AI1
F06.09 selection of speed 0 〇
2: AI2
control torque
3: reserved
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User Manual of EM730 Series Inverter
4: reserved
5: communication setting (percentage)
6: The larger of AI1 and AI2
7: The smaller of AI1 and AI2
Upper limit of
F06.10 speed control motor 0.0 ~ 250.0 % 165.0 ●
torque
Upper limit of
F06.11 speed control brake 0.0 ~ 250.0 % 165.0 ●
torque
Excitation current
F06.12 proportional gain 0.00 ~ 100.00 0.50 ●
ACR-P1
Excitation current
integral time 0.00-600.00
F06.13 ms 10.00 ●
constant 0.00: no integral
ACR-T1
Torque current
F06.14 proportional gain 0.00 ~ 100.00 0.50 ●
ACR-P2
Torque current
integral time 0.00 ~ 600.00
F06.15 ms 10.00 ●
constant 0.00: no integral
ACR-T2
SVC 0: braking
F06.17 zero-frequency 1: not processed 2 〇
processing 2: seal the tube
SVC
50.0 ~ 400.0 (100.0 is the no-load current of
F06.18 zero-frequency % 100.0 〇
the motor)
braking current
Voltage
F06.20 0 ~ 100 % 0 ●
feedforward gain
0: invalid
Flux weakening
F06.21 1: direct calculation 2 〇
control options
2: automatic adjustment
Flux weakening
F06.22 70.00 ~ 100.00 % 95.00 ●
voltage
Maximum field
0.0 ~ 150.0 (100.0 is the rated current of the
F06.23 weakening current % 100.0 ●
motor)
of synchronous
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User Manual of EM730 Series Inverter
motor
Proportional gain
F06.24 of flux weakening 0.00 ~ 10.00 0.50 ●
regulator
Integral time of
F06.25 flux weakening 0.01 ~ 60.00 s 2.00 ●
regulator
MTPA control
0: invalid
F06.26 option of 1 〇
1: valid
synchronous motor
Self-learning gain
F06.27 0 ~ 200 % 100 ●
at initial position
Frequency of low
0.00 ~ 100.00 (100.00 is the rated frequency
F06.28 frequency band of % 10.00 ●
of the motor)
injection current
20.0
Injection current of 0.0 ~ 60.0 (100.0 is the rated current of the 40.0-(F
F06.29 % ●
low frequency band motor) 16.00=
2)
Regulator gain of
F06.30 low frequency band 0.00 ~ 10.00 0.50 ●
of injection current
Regulator integral
time of low
F06.31 0.00 ~ 300.00 ms 10.00 ●
frequency band of
injection current
Frequency of high
0.00 ~ 100.00 (100.00 is the rated frequency
F06.32 frequency band of % 20.00 ●
of the motor)
injection current
Injection current of
0.0 ~ 30.0 (100.0 is the rated current of the
F06.33 high frequency % 8.0 ●
motor)
band
Regulator gain of
high frequency
F06.34 0.00 ~ 10.00 0.50 ●
band of injection
current
Regulator integral
time of high
F06.35 0.00 ~ 300.00 ms 10.00 ●
frequency band of
injection current
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User Manual of EM730 Series Inverter
Magnetic saturation
F06.36 coefficient of 0.00~1.00 0.75 〇
synchronous motor
Stiffness coefficient
F06.37 0~20 12 ●
of speed loop
Gain coefficient of
F06.38 sliding mode of 1.00~3.70 3.50 〇
synchronous motor
Error width of
F06.39 sliding mode of 0.005~0.100 0.100 〇
synchronous motor
Amplitude of
injected reactive
F06.40 0.0~20.0 % 10.0 〇
current of
synchronous motor
Open-loop
0: VF
low-frequency
F06.41 1: IF 0 〇
processing of
2: IF in start and VF in stop
synchronous motor
Open-loop
low-frequency
F06.42 0.0 ~ 50.0 % 8.0 〇
processing range of
synchronous motor
Time constant of
F06.44 pull-in current of 0.0 ~ 6000.0 ms 1.0 〇
magnetic pole
Initial lead angle of
F06.45 0.0 ~ 359.9 ° 30.0 〇
magnetic pole
Speed tracking
F06.46 proportional gain of 0.00 ~ 10.00 1.00 〇
synchronous motor
Speed tracking
F06.47 integral gain of 0.00 ~ 10.00 1.00 〇
synchronous motor
Filtering time
constant of speed
F06.48 0.00 ~ 10.00 ms 0.40 〇
tracking of
synchronous motor
Speed tracking
F06.49 1.0 ~ 100.0 5.0 〇
control intensity of
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User Manual of EM730 Series Inverter
synchronous motor
Speed tracking
F06.50 control threshold of 0.00 ~ 10.00 0.20 〇
synchronous motor
Rise time of
injected active
F06.51 0.010 ~ 1.000 s 0.020 〇
current of
synchronous motor
Low-speed
correction factor of
F06.76 stator resistor of 10.0~500.0 % 100.0 ●
asynchronous
motor
Low speed
correction factor of
F06.77 rotor resistor of 10.0~500.0 % 100.0 ●
asynchronous
motor
Slip gain switching
frequency of
F06.78 0.10 ~ Fmax Hz 5.00 〇
asynchronous
motor
Udc filtering time 0~1500.0 ms 2.0 ●
F06.82
constant
F07.12 Current limit level 20.0-180.0(100.0 = the rated current of inverter) % 150.0 ●
Options of digital
0: no action
F07.15 output action in 0 〇
1: action
protection retries
Interval of
F07.16 0.01 ~ 30.00 s 0.50 ●
protection retries
Restoration time of
F07.17 0.01 ~ 30.00 s 10.00 ●
protection retries
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* * * * * * E09 E17
Action option 3 of ****
F07.36 〇
protection 0: allow protection retry *00
1: disable protection retry
Save the initial
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power-off
Multi-segment
F08.00 0.00 to maximum frequency F00.16 Hz 0.00 ●
speed 1
Multi-segment
F08.01 0.00 to maximum frequency F00.16 Hz 5.00 ●
speed 2
Multi-segment
F08.02 0.00 to maximum frequency F00.16 Hz 10.00 ●
speed 3
Multi-segment
F08.03 0.00 to maximum frequency F00.16 Hz 15.00 ●
speed 4
Multi-segment
F08.04 0.00 to maximum frequency F00.16 Hz 20.00 ●
speed 5
Multi-segment
F08.05 0.00 to maximum frequency F00.16 Hz 25.00 ●
speed 6
Multi-segment
F08.06 0.00 to maximum frequency F00.16 Hz 30.00 ●
speed 7
Multi-segment
F08.07 0.00 to maximum frequency F00.16 Hz 35.00 ●
speed 8
Multi-segment
F08.08 0.00 to maximum frequency F00.16 Hz 40.00 ●
speed 9
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Multi-segment
F08.10 0.00 to maximum frequency F00.16 Hz 50.00 ●
speed 11
Multi-segment
F08.11 0.00 to maximum frequency F00.16 Hz 50.00 ●
speed 12
Multi-segment
F08.12 0.00 to maximum frequency F00.16 Hz 50.00 ●
speed 13
Multi-segment
F08.13 0.00 to maximum frequency F00.16 Hz 50.00 ●
speed 14
Multi-segment
F08.14 0.00 to maximum frequency F00.16 Hz 50.00 ●
speed 15
0: stop after a single run
1: stop after a limited number of cycles
Simple PLC
F08.15 2: run at the last segment after a limited 0 ●
running mode
number of cycles
3: continuous cycles
Limited number of
F08.16 1 ~ 10000 1 ●
cycles
Ones place: stop memory options
0: no memory (from the first segment)
Simple PLC 1: memory (from the moment of stop)
F08.17 0 ●
memory options Tens place: power-down memory options
0: no memory (from the first segment)
1: memory (from the power-down moment)
Simple PLC time 0: s (second)
F08.18 0 ●
unit 1: min (minute)
Ones place: running direction options
0: forward
1: reverse
Tens place: acceleration and deceleration time
Setting of the first
F08.19 options 0 ●
segment
0: acceleration and deceleration time 1
1: acceleration and deceleration time 2
2: acceleration and deceleration time 3
3: acceleration and deceleration time 4
Running time of the s/
F08.20 0.0 ~ 6000.0 5.0 ●
first segment min
Ones place: running direction options
Setting of the
F08.21 0: forward 0 ●
second segment
1: reverse
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Tens place: acceleration and deceleration time
options
0: acceleration and deceleration time 1
1: acceleration and deceleration time 2
2: acceleration and deceleration time 3
3: acceleration and deceleration time 4
Running time of the s/
F08.22 0.0 ~ 6000.0 5.0 ●
second segment min
Ones place: running direction options
0: forward
1: reverse
Tens place: acceleration and deceleration time
Setting of the third
F08.23 options 0 ●
segment
0: acceleration and deceleration time 1
1: acceleration and deceleration time 2
2: acceleration and deceleration time 3
3: acceleration and deceleration time 4
Running time of the s/
F08.24 0.0 ~ 6000.0 5.0 ●
third segment min
Ones place: running direction options
0: forward
1: reverse
Tens place: acceleration and deceleration time
Setting of the
F08.25 options 0 ●
fourth segment
0: acceleration and deceleration time 1
1: acceleration and deceleration time 2
2: acceleration and deceleration time 3
3: acceleration and deceleration time 4
Running time of the s/
F08.26 0.0 ~ 6000.0 5.0 ●
fourth segment min
Ones place: running direction options
0: forward
1: reverse
Tens place: acceleration and deceleration time
Setting of the fifth
F08.27 options 0 ●
segment
0: acceleration and deceleration time 1
1: acceleration and deceleration time 2
2: acceleration and deceleration time 3
3: acceleration and deceleration time 4
Running time of the s/
F08.28 0.0 ~ 6000.0 5.0 ●
fifth segment min
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Ones place: running direction options
0: forward
1: reverse
Tens place: acceleration and deceleration time
Setting of the sixth
F08.29 options 0 ●
segment
0: acceleration and deceleration time 1
1: acceleration and deceleration time 2
2: acceleration and deceleration time 3
3: acceleration and deceleration time 4
Running time of the s/
F08.30 0.0 ~ 6000.0 5.0 ●
sixth segment min
Ones place: running direction options
0: forward
1: reverse
Tens place: acceleration and deceleration time
Setting of the
F08.31 options 0 ●
seventh segment
0: acceleration and deceleration time 1
1: acceleration and deceleration time 2
2: acceleration and deceleration time 3
3: acceleration and deceleration time 4
Running time of the s/
F08.32 0.0 ~ 6000.0 5.0 ●
seventh segment min
Ones place: running direction options
0: forward
1: reverse
Tens place: acceleration and deceleration time
Setting of the
F08.33 options 0 ●
eighth segment
0: acceleration and deceleration time 1
1: acceleration and deceleration time 2
2: acceleration and deceleration time 3
3: acceleration and deceleration time 4
Running time of the s/
F08.34 0.0 ~ 6000.0 5.0 ●
eighth segment min
Ones place: running direction options
0: forward
1: reverse
Tens place: acceleration and deceleration time
Setting of the ninth
F08.35 options 0 ●
segment
0: acceleration and deceleration time 1
1: acceleration and deceleration time 2
2: acceleration and deceleration time 3
3: acceleration and deceleration time 4
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Running time of the s/
F08.36 0.0 ~ 6000.0 5.0 ●
ninth segment min
Ones place: running direction options
0: forward
1: reverse
Tens place: acceleration and deceleration time
Setting of the tenth
F08.37 options 0 ●
segment
0: acceleration and deceleration time 1
1: acceleration and deceleration time 2
2: acceleration and deceleration time 3
3: acceleration and deceleration time 4
Running time of the s/
F08.38 0.0 ~ 6000.0 5.0 ●
tenth segment min
Ones place: running direction options
0: forward
1: reverse
Tens place: acceleration and deceleration time
Setting of the
F08.39 options 0 ●
eleventh segment
0: acceleration and deceleration time 1
1: acceleration and deceleration time 2
2: acceleration and deceleration time 3
3: acceleration and deceleration time 4
Running time of the s/
F08.40 0.0 ~ 6000.0 5.0 ●
eleventh segment min
Ones place: running direction options
0: forward
1: reverse
Tens place: acceleration and deceleration time
Setting of the
F08.41 options 0 ●
twelfth segment
0: acceleration and deceleration time 1
1: acceleration and deceleration time 2
2: acceleration and deceleration time 3
3: acceleration and deceleration time 4
Running time of the s/
F08.42 0.0 ~ 6000.0 5.0 ●
twelfth segment min
Ones place: running direction options
0: forward
1: reverse
Setting of the
F08.43 Tens place: acceleration and deceleration time 0 ●
thirteenth segment
options
0: acceleration and deceleration time 1
1: acceleration and deceleration time 2
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2: acceleration and deceleration time 3
3: acceleration and deceleration time 4
Running time of the s/
F08.44 0.0 ~ 6000.0 5.0 ●
thirteenth segment min
Ones place: running direction options
0: forward
1: reverse
Tens place: acceleration and deceleration time
Setting of the
F08.45 options 0 ●
fourteenth segment
0: acceleration and deceleration time 1
1: acceleration and deceleration time 2
2: acceleration and deceleration time 3
3: acceleration and deceleration time 4
Running time of the s/
F08.46 0.0 ~ 6000.0 5.0 ●
fourteenth segment min
Ones place: running direction options
0: forward
1: reverse
Tens place: acceleration and deceleration time
Setting of the
F08.47 options 0 ●
fifteenth segment
0: acceleration and deceleration time 1
1: acceleration and deceleration time 2
2: acceleration and deceleration time 3
3: acceleration and deceleration time 4
Running time of the s/
F08.48 0.0 ~ 6000.0 5.0 ●
fifteenth segment min
F09.01 Digital PID setting 0.0 to PID setting feedback range F09.03 0.0 ●
1: AI1
2: AI2
PID feedback
F09.02 3: reserved 1 〇
source
4: reserved
5: PULSE, high-frequency pulse (X5)
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6: communication setting
PID setting
F09.03 0.1 ~ 6000.0 100.0 ●
feedback range
PID positive and
0: positive
F09.04 negative action 0 〇
1: negative
selection
0: no switching
PID parameter
1: switching via digital input terminal
F09.11 switching 0 ●
2: automatic switching according to deviation
conditions
3: automatic switching by frequency
PID parameter
F09.12 switching deviation 0.00 ~ F09.13 % 20.00 ●
1
PID parameter
F09.13 switching deviation F09.12 ~ 100.00 % 80.00 ●
2
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PID differential
F09.19 0.00~100.00 % 5.00 ●
limit
PID integral
0.00~100.00 (100.00% = invalid integral
F09.20 separation % 100.00 ●
separation)
threshold
PID setting change
F09.21 0.000~30.000 s 0.000 ●
time
PID feedback
F09.22 0.000~30.000 s 0.000 ●
filtering time
PID output filtering
F09.23 0.000~30.000 s 0.000 ●
time
Upper limit
detection value of 0.00~100.00; 100.00 = invalid feedback
F09.24 % 100.00 ●
PID feedback disconnection
disconnection
Lower limit
detection value of 0.00~100.00; 0.00 = invalid feedback
F09.25 % 0.00 ●
PID feedback disconnection
disconnection
Detection time of
F09.26 PID feedback 0.000 ~ 30.000 s 0.000 ●
disconnection
0: invalid
PID sleep control 1: sleep at zero speed
F09.27 0 ●
options 2: sleep at lower frequency limit
3: sleep with tube sealed
0.00-100.00 (100.00 corresponds to the PID
F09.28 Sleep action point % 100.00 ●
setting feedback range)
Multi-segment PID
F09.32 0.0 to PID setting feedback range F09.03 0.0 ●
setting 1
Multi-segment PID
F09.33 0.0 to PID setting feedback range F09.03 0.0 ●
setting 2
Multi-segment PID
F09.34 0.0 to PID setting feedback range F09.03 0.0 ●
setting 3
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Upper limit of
F09.35 lower limit of feedback voltage to 10.00 V 10.00 ●
feedback voltage
Lower limit of
F09.36 0.00 to upper limit of feedback voltage V 0.00 ●
feedback voltage
0: always calculate the integral term
Integral action 1: calculate the integral term after the F09.21 0
option within set
F09.37 set time is reached Straight ●
PID change time
2: calculate the integral term when the error is -2
Local Modbus
F10.00 communication 1-247; 0: broadcast address 1 〇
address
0:4800
1:9600
Baud rate of
2:19200
F10.01 Modbus 1 〇
3:38400
communication
4:57600
5:115200
0: 1-8-N-1 (1 start bit + 8 data bits + 1 stop
Modbus data bit)
F10.02 0 〇
format 1: 1-8-E-1 (1 start bit + 8 data bits + 1 even
parity check bit + 1 stop bit)
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2: 1-8-O-1 (1 start bit + 8 data bits + 1 odd
parity check bit + 1 stop bit)
3: 1-8-N-2 (1 start bit + 8 data bits + 2 stop
bits)
4: 1-8-E-2 (1 start bit + 8 data bits + 1 even
parity check bit + 2 stop bits)
5: 1-8-O-2 (1 start bit + 8 data bits + 1 odd
parity check bit + 2 stop bits)
485 communication 0.0s ~ 60.0s; 0.0: invalid (valid for the
F10.03 s 0.0 ●
timeout master-slave mode)
Modbus response
F10.04 1 ~ 20 ms 2 ●
delay
Options of
master-slave 0: invalid
F10.05 0 〇
communication 1: valid
function
0: slave
Master-slave
F10.06 1: host (Modbus protocol broadcast 0 〇
options
transmission)
0: output frequency
1: set frequency
2: output torque
F10.07 Data sent by host 1 〇
3: set torque
4: PID setting
5: output current
Proportional factor
F10.08 0.00 ~ 10.00 (multiple) 1.00 ●
of slave reception
Host sending
F10.09 0.000 ~ 30.000 s 0.200 ●
interval
Communication
F10.10 0: Modbus-RTU protocol 0 ×
protocol option
0-10: default operation (for commissioning)
Options of 485
F10.56 11: writing not triggered (available after 0 〇
EEPROM writing
commissioning)
Enabling of SCI
0: invalid resetting
F10.57 sending timeout 1 ●
1: valid resetting
resetting
Delay time of SCI
F10.58 sending timeout 110 ~10000 mS 150 ●
resetting
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0: reply to both read and write commands
SCI response
F10.61 1: reply to write commands only 0 〇
option
2: no reply to both read and write commands
User-selected U
F11.00 ●
parameter 1 00.00
User-selected U
F11.01 ●
parameter 2 00.01
User-selected U
F11.02 ●
parameter 3 00.02
User-selected U
F11.03 ●
parameter 4 00.03
User-selected U
F11.04 ●
parameter 5 00.04
User-selected U
F11.05 ●
parameter 6 00.07
User-selected U
F11.06 ●
parameter 7 00.14
The displayed content is Uxx.xx, which
User-selected means that the Fxx.xx function code is U
F11.07 ●
parameter 8 selected When the function code F11.00 is 00.15
User-selected enabled, the keyboard displays U00.00, U
F11.08 indicating that the first selected parameter is ●
parameter 9 00.16
F00.00.
User-selected U
F11.09 ●
parameter 10 00.18
User-selected U
F11.10 ●
parameter 11 00.19
User-selected U
F11.11 ●
parameter 12 00.29
User-selected U
F11.12 ●
parameter 13 02.00
User-selected U
F11.13 ●
parameter 14 02.01
User-selected U
F11.14 ●
parameter 15 02.02
User-selected U
F11.15 ●
parameter 16 03.00
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User-selected U
F11.16 ●
parameter 17 03.02
User-selected U
F11.17 ●
parameter 18 03.21
User-selected U
F11.18 ●
parameter 19 04.00
User-selected U
F11.19 ●
parameter 20 04.20
User-selected U
F11.20 ●
parameter 21 05.00
User-selected U
F11.21 ●
parameter 22 05.03
User-selected U
F11.22 ●
parameter 23 05.04
User-selected U
F11.23 ●
parameter 24 08.00
User-selected U
F11.24 ●
parameter 25 19.00
User-selected U
F11.25 ●
parameter 26 19.01
User-selected U
F11.26 ●
parameter 27 19.02
User-selected U
F11.27 ●
parameter 28 19.03
User-selected U
F11.28 ●
parameter 29 19.04
User-selected U
F11.29 ●
parameter 30 19.05
User-selected U
F11.30 ●
parameter 31 19.06
F12.00 Reserved 1 〇
Options of stop
0: valid only in keyboard control
F12.01 function of STOP 1 〇
1: with all command channels valid
key
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0: do not lock
F12.02 Parameter locking 1: reference input not locked 0 ●
2: all locked, except for this function code
0: no operation
1: parameter upload to keyboard
F12.03 Parameter copying 2: download parameters to inverter(F01 and 0 〇
F14 groups do not download)
3: download parameters to inverter
Load speed display
F12.09 0.01~600.00 30.00 ●
coefficient
UP/DOWN
0.00: automatic rate 5.00Hz/
F12.10 acceleration and 〇
0.05~500.00Hz/s s
deceleration rate
0: not clear (clear changes in main frequency
Options of setting)
F12.11 UP/DOWN offset 1: clear in non-running state 0 〇
clearing 2: clear by releasing the UP/DOWN button
3: clear once in non-running state
Options of
UP/DOWN 0: do not save
F12.12 1 〇
power-down saving 1: save (valid after the offset is modified)
of offset
Power meter 0: do not clear
F12.13 0 ●
resetting 1: clear
0: no operation
1: restoration of factory defaults (excluding
Restoration of
F12.14 the motor parameters, inverter parameters, 0 〇
factory defaults
manufacturer parameters, running and
power-on time record)
Cumulative
F12.15 0~65535 h XXX ×
power-on time (h)
Cumulative
F12.16 power-on time 0 ~ 59 min XXX ×
(min)
Cumulative running
F12.17 0 ~ 65535 h XXX ×
time (h)
Cumulative running
F12.18 0 ~ 59 min XXX ×
time (min)
Depend
ing on
Rated power of
F12.19 0.40 ~ 650.00 kW the ×
inverter
motor
type
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Depend
ing on
Rated voltage of
F12.20 60 ~ 690 V the ×
inverter
motor
type
Depend
ing on
Rated current of
F12.21 0.1 ~ 1500.0 A the ×
inverter
motor
type
Performance XXX.X
F12.22 XXX.XX ×
software S/N 1 X
Performance XX.XX
F12.23 XX.XXX ×
software S/N2 X
Functional software XXX.X
F12.24 XXX.XX ×
S/N 1 X
Functional software XX.XX
F12.25 XX.XXX ×
S/N 2 X
Keyboard software XXX.X
F12.26 XXX.XX ×
serial number 1 X
Keyboard software XX.XX
F12.27 XX.XXX ×
serial number 2 X
XX.XX
F12.28 Serial No. 1 XX.XXX X
×
XXXX.
F12.29 Serial No. 2 XXXX.X ×
X
XXXX
F12.30 Serial No. 3 XXXXX ×
X
0: Chinese
LCD language
F12.31 1: English 0 ●
options
2: reserved
Running status
display parameter 1
of Mode 1
F12.33 0.00 ~ 99.99 18.00 ●
(LED stop status
display parameter
5)
Running status
display parameter 2
F12.34 of Mode 1 0.00 - 99.99 18.01 ●
(LED stop status
display parameter
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1)
Running status
display parameter 3
of Mode 1
F12.35 0.00 ~ 99.99 18.06 ●
(LED stop status
display parameter
2)
Running status
display parameter 4
of Mode 1
F12.36 0.00 ~ 99.99 18.08 ●
(LED stop status
display parameter
3)
Running status
display parameter 5
of Mode 1
F12.37 0.00 ~ 99.99 18.09 ●
(LED stop status
display parameter
4)
LCD large-line
F12.38 0.00 ~ 99.99 18.00 ●
display parameter 1
LCD large-line
F12.39 0.00 ~ 99.99 18.06 ●
display parameter 2
LCD large-line
F12.40 0.00 ~ 99.99 18.09 ●
display parameter 3
Options of
0: invalid
F12.41 UP/DOWN zero 0 〇
1: valid
crossing
Frequency setting
F12.42 of digital 0.00 to maximum frequency F00.16 Hz 0.00 ×
potentiometer
Digital
F12.43 potentiometer 0.00-|Digital torque setting F13.02| % 0.0 ×
torque setting
High- Digital Multi-
Commu Analog
speed frequen segment
nication quantity
pulse cy speed
UP/DOWN
F12.45 function options of 0 0 0 0 0 00000 〇
keyboard
0: invalid
1: valid
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Flux weakening
coefficient 3 of
F14.16 10.00 ~ 100.00 % 75.00 〇
asynchronous
motor
Flux weakening
coefficient 4 of
F14.17 10.00 ~ 100.00 % 72.00 〇
asynchronous
motor
Flux weakening
coefficient 5 of
F14.18 10.00 ~ 100.00 % 70.00 〇
asynchronous
motor
Depend
ing on
Stator resistance of 1~60000 (rated power of motor: ≤75kW)
F14.19 mΩ the 〇
synchronous motor 0.1 to 6000.0 (rated power of motor: > 75 kW)
motor
type
Depend
d-axis inductance 0.01~600.00 (rated power of motor: ≤ 75 kW) ing on
F14.20 of synchronous 0.001~60.000 (rated power of motor: > mH the 〇
motor 75kW) motor
type
Depend
q-axis inductance 0.01~600.00 (rated power of motor: ≤ 75 kW) ing on
F14.21 of synchronous 0.001~60.000 (rated power of motor: > mH the 〇
motor 75kW) motor
type
Depend
Counter
ing on
electromotive force 10.0~2000.0 (counter electromotive force of
F14.22 V the 〇
of synchronous rated speed)
motor
motor
type
Initial electrical
F14.23 angle of 0.0~359.9 (valid for synchronous motor) 〇
synchronous motor
00: no operation
01: static self-learning of asynchronous motor
02: rotation self-learning of asynchronous
motor
Motor parameter 03: inertia self-learning of asynchronous
F14.34 00 〇
self-learning motor
11: static self-learning of synchronous motor
12: rotary self-learning of synchronous motor
13: encoder self-learning of synchronous
motor
Drive control mode 0: v/f control (VVF)
F14.35 0 〇
of motor 2 1: speed sensorless vector control (SVC)
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Speed proportional
F14.36 gain 0.00~100.00 12.00 ●
ASR_P1
Speed integral time
0.000~30.000
F14.37 constant s 0.200 ●
0.000: no integral
ASR_T1
Speed proportional
F14.38 gain 0.00~100.00 8.00 ●
ASR_P2
Speed integral time
0.000~30.000
F14.39 constant s 0.300 ●
0.000: no integral
ASR_T2
Switching
F14.40 0.00 to switching frequency 2 Hz 5.00 ●
frequency 1
Switching switching frequency 1 to maximum frequency
F14.41 Hz 10.00 ●
frequency 2 F00.16
No-load current
F14.42 50.0~300.0 % 50.0 ●
gain of motor 2
Filtering time
F14.43 constant of speed 0.000 ~ 0.100 s 0.001 ●
loop output
Vector control slip
F14.44 50.00~200.00 % 100.00 ●
gain
0: set by F06.10 and F06.11
1: AI1
2: AI2
Upper limit source
3: reserved
F14.45 selection of speed 0 〇
4: reserved
control torque
5: communication setting (percentage)
6: The larger of AI1 and AI2
7: The smaller of AI1 and AI2
Upper limit of
F14.46 speed control motor 0.0 ~ 250.0 % 165.0 ●
torque
Upper limit of
F14.47 speed control brake 0.0 ~ 250.0 % 165.0 ●
torque
Excitation current
F14.48 proportional gain 0.00 ~100.00 0.50 ●
ACR-P1
Excitation current
integral time 0.00 ~ 600.00
F14.49 ms 10.00 ●
constant 0.00: no integral
ACR-T1
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Torque current
F14.50 proportional gain 0.00 ~ 100.00 0.50 ●
ACR-P2
Torque current
integral time 0.00 ~ 600.00
F14.51 ms 10.00 ●
constant 0.00: no integral
ACR-T2
Stiffness coefficient
F14.52 of speed loop of 0~20 12 ●
motor 2
SVC 0: braking
F14.53 zero-frequency 1: not processed 2 〇
processing 2: seal the tube
SVC
50.0 ~ 400.0 (100.0 is the no-load current of
F14.54 zero-frequency % 100.0 〇
the motor)
braking current
Voltage
F14.56 0 ~ 100 % 0 ●
feedforward gain
0: invalid
Flux weakening
F14.57 1: direct calculation 2 〇
control options
2: automatic adjustment
Flux weakening
F14.58 70.00 ~ 100.00 % 95.00 ●
voltage
Maximum field
weakening current 0.0 ~ 150.0 (100.0 is the rated current of the
F14.59 % 100.0 ●
of synchronous motor)
motor
Proportional gain
F14.60 of flux weakening 0.00 ~ 10.00 0.50 ●
regulator
Integral time of
F14.61 flux weakening 0.01 ~ 60.00 s 2.00 ●
regulator
MTPA control
0: invalid
F14.62 option of 0 〇
1: valid
synchronous motor
Self-learning gain
F14.63 0 ~ 200 % 100 ●
at initial position
Frequency of low
0.00 ~ 100.00 (100.00 is the rated frequency
F14.64 frequency band of % 10.00 ●
of the motor)
injection current
Injection current of 0.0 ~ 60.0 (100.0 is the rated current of the
F14.65 % 20.0 ●
low frequency band motor)
Regulator gain of
F14.66 0.00 ~ 10.00 0.50 ●
low frequency band
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of injection current
Regulator integral
time of low
F14.67 0.00 ~ 300.00 ms 10.00 ●
frequency band of
injection current
Frequency of high
0.00 ~ 100.00 (100.00 is the rated frequency
F14.68 frequency band of % 20.00 ●
of the motor)
injection current
Injection current f
0.0 ~ 30.0 (100.0 is the rated current of the
F14.69 high frequency % 8.0 ●
motor)
band
Regulator gain of
high frequency
F14.70 0.00 ~ 10.00 0.50 ●
band of injection
current
Regulator integral
time of high
F14.71 0.00 ~ 300.00 ms 10.00 ●
frequency band of
injection current
0: the same as motor 1
Acceleration/decele 1: acceleration and deceleration time 1
F14.77 ration time options 2: acceleration and deceleration time 2 0 〇
of motor 2 3: acceleration and deceleration time 3
4: acceleration and deceleration time 4
Maximum
F14.78 frequency of motor 20.00 ~ 600.00 Hz 50 〇
2
Upper frequency lower limit frequency F00.19 to maximum
F14.79 Hz 50 ●
limit of motor 2 frequency F14.78
0: straight line V/F
1: multi-point broken line V/F
2: 1.3-power V/F
3: 1.7-power V/F
V/F curve setting of 4: square V/F
F14.80 0 〇
motor 2 5: VF complete separation mode (Ud = 0, Uq
= K * t = voltage of separation voltage source)
6: VF semi-separation mode (Ud = 0, Uq = K
* t = F/Fe * 2 * voltage of separation voltage
source)
Multi-point VF
F14.81 frequency F1 of 0.00 ~ F14.83 Hz 0.50 ●
motor 2
Multi-point VF
F14.82 voltage V1 of 0.0~100.0 (100.0 = Rated voltage) % 1.0 ●
motor 2
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Multi-point VF
F14.83 frequency F2 of F14.81 ~ F14.85 Hz 2.00 ●
motor 2
Multi-point VF
F14.84 voltage V2 of 0.0 ~ 100.0 % 4.0 ●
motor 2
Multi-point VF
F14.83 to rated frequency of motor (reference
F14.85 frequency F3 of Hz 5.00 ●
frequency)
motor 2
Multi-point VF
F14.86 voltage V3 of 0.0 ~ 100.0 % 10.0 ●
motor 2
Stop mode of motor 0: slow down to stop
F14.87 0 〇
2 1: free stop
Low speed
correction factor of
F14.96 stator resistor of 10.0 ~ 500.0 % 100.0 ●
asynchronous
motor 2
Low speed
correction factor of
F14.97 rotor resistor of 10.0 ~ 500.0 % 100.0 ●
asynchronous
motor 2
Slip gain switching
frequency of
F14.98 0.10 ~ Fmax Hz 5.00 〇
asynchronous
motor 2
F15 Auxiliary function group
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0.00 ~ 650.00 (F15.13=0)
F15.05 Acceleration time 3 0.0 ~ 6500.0 (F15.13=1) s 15.00 ●
0 ~ 65000 (F15.13=2)
0.00 ~ 650.00 (F15.13=0)
F15.06 Deceleration time 3 0.0 ~ 6500.0 (F15.13=1) s 15.00 ●
0 ~ 65000 (F15.13=2)
0.00 ~ 650.00 (F15.13=0)
F15.07 Acceleration time 4 0.0 ~ 6500.0 (F15.13=1) s 15.00 ●
0 ~ 65000 (F15.13=2)
0.00 ~ 650.00 (F15.13=0)
F15.08 Deceleration time 4 0.0 ~ 6500.0 (F15.13=1) s 15.00 ●
0 ~ 65000 (F15.13=2)
Fundamental
0: maximum frequency F00.16
frequency of
F15.09 1: 50.00Hz 0 〇
acceleration and
2: set frequency
deceleration time
Automatic
switching of 0: invalid
F15.10 0 〇
acceleration and 1: valid
deceleration time
Switching
frequency of
F15.11 0.00 to maximum frequency F00.16 Hz 0.00 ●
acceleration time 1
and 2
Switching
frequency of
F15.12 0.00 to maximum frequency F00.16 Hz 0.00 ●
deceleration time 1
and 2
Acceleration and 0:0.01s
F15.13 deceleration time 1:0.1s 0 〇
unit 2:1s
Frequency hopping
F15.14 0.00 ~ 600.00 Hz 600.00 ●
point 1
Frequency hopping
F15.16 0.00 ~ 600.00 Hz 600.00 ●
point 2
Frequency hopping
F15.18 0.00 ~ 600.00 Hz 600.00 ●
point 3
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Detection width of
F15.20 output frequency 0.00 ~ 50.00 Hz 2.50 〇
arrival (FAR)
Output frequency
F15.21 0.00 to maximum frequency F00.16 Hz 30.00 〇
detection FDT1
Output frequency
F15.23 0.00 to maximum frequency F00.16 Hz 20.00 〇
detection FDT2
Options of analog
0:AI1
F15.25 level detection 0 ○
1:AI2
ADT
Analog level
F15.26 0.00 ~ 100.00 % 20.00 ●
detection ADT1
F15.27 ADT1 hysteresis 0.00 to F15.26 (valid down in one direction) % 5.00 ●
Analog level
F15.28 0.00 ~ 100.00 % 50.00 ●
detection ADT2
F15.29 ADT2 hysteresis 0.00 to F15.28 (valid down in one direction) % 5.00 ●
Options of energy
0: invalid
F15.30 consumption 0 〇
1: valid
braking function
Energy
F15.31 consumption 110.0 ~ 140.0 (380V, 100.0 = 537V) % 125.0 〇
braking voltage
F15.32 Braking rate 20 ~ 100 (100 means that duty ratio is 1) % 100 ●
Operating mode
0: running at the lower frequency limit
with set frequency
F15.33 1: shutdown 0 〇
less than lower
2: zero-speed running
frequency limit
Ones place: fan control mode
0: running after power-on
F15.34 Fan control 101 〇
1: running at startup
2: intelligent operation, subject to temperature
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control
Tens place: power on fan control
0: run for 1 minute and then run in fan control
mode
1: directly operate in fan control mode
Hundreds place: Fan low speed mode enable
(above 280kW)
1: the operation at low speed is invalid
2: low speed operation is valid
Overmodulation
F15.35 1.00 ~ 1.10 1.05 ●
intensity
Switching options
0: invalid (7-segment PWM modulation)
F15.36 of PWM 0 〇
1: valid (5-segment PWM modulation)
modulation mode
Switching
F15.37 frequency of PWM 0.00 to maximum frequency F00.16 Hz 15.00 ●
modulation mode
Options of dead 0: no compensation
F15.38 zone compensation 1: compensation mode 1 1 〇
mode 2: compensation mode 2
Terminal jog 0: invalid
F15.39 0 〇
priorityv 1: valid
0.00 ~ 650.00 (F15.13=0)
Deceleration time
F15.40 0.0 ~ 6500.0 (F15.13=1) s 1.00 ●
for quick stop
0 ~ 65000 (F15.13=2)
F15.55 The current reaches 0.0~300.0(100.0% corresponding to rated % 100.0 ●
the measured value motor current)
F15.56 The current reaches 0.0~F15.44 % 5.0 ●
the hysteresis
F15.57 Torque reaches test 0.0~300.0(100.0% corresponding to rated % 100.0 ●
value motor torque)
F15.58 The torque reaches 0.0~F15.46 % 5.0 ●
the hysteresis ring
PG card feedback
F15.62 frequency display 0~20000 ms 300 ●
filtering time
F15.63 The speed reaches 0.00~Fmax Hz 30.00 ●
the limit of rise
F15.64 The speed reaches 0~60000 ms 500 ●
filtering time
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F15.65 The speed reaches 0.00~Fmax Hz 0.00 ●
the limit of descent
Overcurrent
F15.66 0.1~ 300.0 (0.0: no detection; 100.0%: % 200.0 ●
detection level
corresponding to the rated current of motor)
Overcurrent
F15.67 detection delay 0.00 ~ 600.00 s 0.00 ●
time
Power-frequency
F15.69 30.0 ~ 200.0 % 90.0 〇
load factor
0:universal model
1:water supply application
2:air compressor application
3:winding application
4:fan application
F16.00 Industry application 5:spindle application of machine tool 0 〇
6:extruder application
7:high-speed motor application
8:plastic extruding machine
9:EM100 comm macro
10: EM303B comm macro
1 ~ 65535 (F16.13=0)
0.1 ~ 6553.5 (F16.13=1)
F16.01 Set length m 1000 ●
0.01~ 655.35 (F16.13=2)
0.001 ~ 65.535 (F16.13=3)
Specified count
F16.04 1 ~ F16.03 1000 ●
value
Set time of regular
F16.05 0.0~ 6500.0, 0.0 is invalid min 0.0 ●
running
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User Manual of EM730 Series Inverter
Setting of
cumulative 0-65535; 0: disable the protection when the
F16.07 h 0 ●
power-on arrival power-on time is up
time
Setting of
0-65535; 0: disable the protection when the
F16.08 cumulative running h 0 ●
running time is up
arrival time
Analog output
percentage
F16.10 0.00 ~100.00 % 0.00 〇
corresponding to
the count value 0
Analog output
percentage
F16.11 0.00 ~100.00 % 100.00 〇
corresponding to
the set count value
0:1m
Set length 1:0.1m
F16.13 0 〇
resolution 2:0.01 m
3:0.001m
D7 D6 D5 D4 D3 D2 D1 D0
Virtual input VX8 VX7 VX6 VX5 VX4 VX3 VX2 VX1 000
F17.08 positive/negative 〇
0: positive logic, valid in the closed 00000
logic
state/invalid in the open state
1: negative logic, invalid in the closed
state/valid in the open state
D7 D6 D5 D4 D3 D2 D1 D0
VX1-VX8 status VX8 VX7 VX6 VX5 VX4 VX3 VX2 VX1 000
F17.09 〇
setting options 00000
0: the VXn status is the same as VYn output
status
1: status set by F17.10
D7 D6 D5 D4 D3 D2 D1 D0
F17.24 Reserved
F17.25 Reserved
F17.26 Reserved
D7 D6 D5 D4 D3 D2 D1 D0
Virtual output VY8 VY7 VY6 VY5 VY4 VY3 VY2 VY1
F17.27 positive/negative 00000 〇
logic 0: positive logic, valid in the closed
state/invalid in the open state
1: negative logic, invalid in the closed
state/valid in the open state
D7 D6 D5 D4 D3 D2 D1 D0
Control options of
F17.28 virtual output VY8 VY7 VY6 VY5 VY4 VY3 VY2 VY1 11111 〇
terminal 0: depending on the status of terminal X1-X5
(without VY6-8)
1: depending on the output function status
VY1 valid delay
F17.29 0.000~30.000 s 0.000 ●
time
VY1 invalid delay
F17.30 0.000~30.000 s 0.000 ●
time
VY2 valid delay
F17.31 0.000~30.000 s 0.000 ●
time
VY2 invalid delay
F17.32 0.000~30.000 s 0.000 ●
time
VY3 valid delay
F17.33 0.000~30.000 s 0.000 ●
time
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VY3 invalid delay
F17.34 0.000~30.000 s 0.000 ●
time
VY4 valid delay
F17.35 0.000~30.000 s 0.000 ●
time
VY4 invalid delay
F17.36 0.000~30.000 s 0.000 ●
time
Virtual output VY8 VY7 VY6 VY5 VY4 VY3 VY2 VY1
F17.38 00000 ×
terminal status 0: invalid
1: valid
Estimate feedback
F18.03 0.00 to upper frequency limit Hz XXX ×
frequency
Simple PLC
F18.10 0 ~ 10000 XXX ×
running times
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Simple PLC
F18.11 1 ~ 15 XXX ×
operation stage
PLC running time
F18.12 0.0 ~ 6000.0 XXX ×
at the current stage
UP/DOWN offset
F18.15 0.00 to 2 * Maximum frequency F00.16 Hz XXX ×
frequency
MW
F18.18 Power meter: MWh 0~65535 XXX ×
h
Watt-hour meter:
F18.19 0.0 ~ 999.9 kWh XXX ×
kWh
Output power
F18.21 -1.000 ~ 1.000 XXX ×
factor
X5 X4 X3 X2 X1
Digital input
F18.22 XXX ×
terminal status 1
0/1 0/1 0/1 0/1 0/1
* AI2 AI1 * *
Digital input
F18.23 XXX ×
terminal status 2
* 0/1 0/1 * 0/1
* * R1 * Y1
Output terminal
F18.25 XXX ×
state
* * 0/1 * 0/1
High-frequency
F18.31 0.00~100.00 kHz XXX ×
pulse input
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frequency: kHz
High-frequency
F18.32 pulse input 0~65535 Hz XXX ×
frequency: Hz
Remaining time of
F18.35 0.0 ~ 6500.0 min XXX ×
regular running
Rotor position of
F18.36 0.0~359.9° XXX ×
synchronous motor
VF separation
F18.39 0 ~ 690 V XXX ×
target voltage
VF separation
F18.40 0 ~ 690 V XXX ×
output voltage
Output frequency
F18.46 0~65535 XXX ×
symbol
Inverter
F18.60 -40 to 200 ℃ 0 ×
temperature
0~
Saved electric
F18.67 cumulative energy saving MWH 655 MWh ×
energy (MWH)
35
0.0
Saved electric ~
F18.68 cumulative energy saving KWH kWh ×
energy (KWH) 999.
9
0~
Saved electric
F18.69 high cumulative cost saving (*1000) 655 ×
charge (1,000 yuan)
35
0.0
Saved electric ~
F18.70 low cumulative cost saving ×
charge (yuan) 999.
9
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Power-frequency 0~
F18.71 power consumption power-frequency power consumption MWH 655 MWh ×
MWh 35
0.0
Power-frequency
~
F18.72 power consumption power-frequency power consumption KWH kWh ×
999.
KWh
9
0: no protection
E01: output short circuit protection
E02: instantaneous overcurrent
E04: steady-state overcurrent
E05: overvoltage
E06: undervoltage
E07: input phase loss
E08: output phase loss
E09: inverter overload
E10: inverter overheat protection
E11: parameter setting conflict
E13: motor overload
E14: external protection
E15: inverter memory protection
E16: communication abnormality
Category of last E17: temperature sensor abnormality
F19.00 0 ×
protection E18: abnormal disconnection of soft start
relay
E19: current detection circuit abnormality
E20: stall protection
E21: PID feedback disconnection
E22: reserved
E24: parameter identification abnormality
E25: reserved
E26: load loss protection
E27: up to the cumulative power-on time
E28: up to the cumulative running time
E43: material cutoff protection
E44: cable protection
E57: overpressure in pipeline network
E58: under-pressure in pipeline network
E76: short-circuit protection to ground
Output frequency
F19.01 0.00 to upper frequency limit Hz 0.00 ×
in protection
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0.00 to 650.00 (rated power of motor: ≤ 75
Output current in
F19.02 kW) A 0.00 ×
protection
0.0 to 6500.0 (rated power of motor: > 75 kW)
Bus voltage in
F19.03 0 ~ 1200 V 0 ×
protection
0: not running
1: forward acceleration
2: reverse acceleration
Operating status in
F19.04 3: forward deceleration 0 ×
protection
4: reverse deceleration
5: constant speed in forward running
6: reverse constant speed in reverse running
Working time in
F19.05 h 0 ×
protection
Category of
F19.06 same as F19.00 parameter description 0 ×
previous protection
Output frequency
F19.07 Hz 0.00 ×
in protection
Output current in
F19.08 A 0.00 ×
protection
Bus voltage in
F19.09 V 0 ×
protection
Operating status in
F19.10 same as F19.04 parameter description 0 ×
protection
Working time in
F19.11 h 0 ×
protection
Category of two
F19.12 previous same as F19.00 parameter description 0 ×
protections
Output frequency
F19.13 Hz 0.00 ×
in protection
Output current in
F19.14 A 0.00 ×
protection
Bus voltage in
F19.15 V 0 ×
protection
Operating status in
F19.16 same as F19.04 parameter description 0 ×
protection
Working time in
F19.17 h 0 ×
protection
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0: winding mode
1: unwinding mode
F27.00 Application macro 0 〇
2: wire drawing mode
3: straight wire drawing machine mode
0: feedforward gain * set source B
Feedforward gain
F27.01 1: feedforward gain * set source A 1 〇
action channel
2: feedforward gain * 10V
0: no change in feedforward gain
Feedforward gain 1: 0.00 to upper limit of feedforward gain
F27.02 1 〇
input mode 2: - upper limit of feedforward gain to + upper
limit of feedforward gain
Ones place: feedforward reset option
0: automatic reset
1: terminal reset
Tens place: feedforward power-off stop option
Feedforward 0: save after power failure
F27.03 10 〇
control 1: not save after power failure
Hundreds place: options of continuous
feedforward calculation
0: not calculate
1: calculate
Upper limit of
F27.04 0.00~500.00 % 500.00 〇
feedforward gain
Initial feedforward
F27.05 0.00~500.00 % 50.00 ●
gain
Feedforward gain
F27.06 0~1000 ms 0 ●
filter time
Feedforward range
F27.07 0.00 to feedforward range 1 % 4.00 ●
0
Feedforward range
F27.08 feedforward range 0 to feedforward range 2 % 12.00 ●
1
Feedforward range
F27.09 feedforward range 1 to feedforward range 3 % 23.00 ●
2
Feedforward range
F27.10 feedforward range 2 to feedforward range 4 % 37.00 ●
3
Feedforward range
F27.11 feedforward range 3 to feedforward range 5 % 52.00 ●
4
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Feedforward range
F27.12 feedforward range 4 to 100.00 % 72.00 ●
5
Feedforward
F27.14 0.00 ~ 50.00 %/S 0.11 ●
increment 1
Feedforward
F27.15 0.00 ~ 50.00 %/S 0.30 ●
increment 2
Feedforward
F27.16 0.00 ~ 50.00 %/S 0.75 ●
increment 3
Feedforward
F27.17 0.00 ~ 50.00 %/S 1.55 ●
increment 4
Feedforward
F27.18 0.00 ~ 50.00 %/S 4.00 ●
increment 5
Feedforward
F27.19 0.00 ~ 50.00 %/S 11.00 ●
increment 6
Ones place: disconnection detection mode
0: automatic detection
1: external signal
Tens place: material cutoff detection control
0: detect when the output is greater than the
lower limit of material cutoff detection
1: no detection
Hundreds place: material cutoff handling
mode
0: protection of terminal action only
1: delayed stop and trip protection
Material cutoff
F27.20 2: material cutoff protection 01201 〇
control mode
3: automatic reset after protection shutdown
4: material cutoff detection terminal output
only (straight wire drawing machine)
5: automatic reset of cutoff detection terminal
(straight wire drawing machine)
Thousands place: brake mode
0: mode 0
1: mode 1
Myriabit: reverse unwinding mode
0: no speed limit
1: reverse speed limit by F27.24
Material cutoff
F27.21 0.0~10.0 S 6.0 ●
detection delay
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User Manual of EM730 Series Inverter
Lower limit of
material cutoff
F27.22 0.00 ~ 60.00 Hz 5.00 ●
detection after
parking
Time of continuous
F27.23 running after 0.0 ~ 60.0 S 10.0 ●
material cutoff
Frequency of
F27.24 continuous running 0.00~Fmax Hz 5.00 ●
after material cutoff
Brake signal output
F27.25 0.00~FUP Hz 2.50 ●
frequency
Braking signal
F27.26 0.0~100.0 S 5.0 ●
duration
Minimum
F27.27 frequency of wiring 0.00~20.00 Hz 10.00 ●
detection
Judgment time for
F27.28 0.1 ~ 20.0 S 10.0 ●
invalid cable signal
Judgment time for
F27.29 0.1 ~ 20.0 S 2.0 ●
valid cable signal
Filtering time for
F27.30 material cutoff 1~100 ms 5 ●
detection
Current value of
F27.36 -500.0~500.0 % ×
feedforward gain
Modbus
0:invalid
F45.00 communication - 0 ●
1:valid
mapping
Destination address
F45.02 0~65535 - 0 ●
1
Mapping
F45.03 0.00~100.00 - 1.00 ●
coefficient 1
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Destination address
F45.05 0~65535 - 0 ●
2
Mapping
F45.06 0.00~100.00 - 1.00 ●
coefficient 2
Destination address
F45.08 0~65535 - 0 ●
3
Mapping
F45.09 0.00~100.00 - 1.00 ●
coefficient 3
Destination address
F45.11 0~65535 - 0 ●
4
Mapping
F45.12 0.00~100.00 - 1.00 ●
coefficient 4
Destination address
F45.14 0~65535 - 0 ●
5
Mapping
F45.15 0.00~100.00 - 1.00 ●
coefficient 5
Destination address
F45.17 0~65535 - 0 ●
6
Mapping
F45.18 0.00~100.00 - 1.00 ●
coefficient 6
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Destination address
F45.20 0~65535 - 0 ●
7
Mapping
F45.21 0.00~100.00 - 1.00 ●
coefficient 7
Destination address
F45.23 0~65535 - 0 ●
8
Mapping
F45.24 0.00~100.00 - 1.00 ●
coefficient 8
Destination address
F45.26 0~65535 - 0 ●
9
Mapping
F45.27 0.00~100.00 - 1.00 ●
coefficient 9
Destination address
F45.29 0~65535 - 0 ●
10
Mapping
F45.30 0.00~100.00 - 1.00 ●
coefficient 10
Destination address
F45.32 0~65535 - 0 ●
11
Mapping
F45.33 0.00~100.00 - 1.00 ●
coefficient 11
Destination address
F45.35 0~65535 - 0 ●
12
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Mapping
F45.36 0.00~100.00 - 1.00 ●
coefficient 12
Destination address
F45.38 0~65535 - 0 ●
13
Mapping
F45.39 0.00~100.00 - 1.00 ●
coefficient 13
Destination address
F45.41 0~65535 - 0 ●
14
Mapping
F45.42 0.00~100.00 - 1.00 ●
coefficient 14
Destination address
F45.44 0~65535 - 0 ●
15
Mapping
F45.45 0.00~100.00 - 1.00 ●
coefficient 15
Destination address
F45.47 0~65535 - 0 ●
16
Mapping
F45.48 0.00~100.00 - 1.00 ●
coefficient 16
Destination address
F45.50 0~65535 - 0 ●
17
Mapping
F45.51 0.00~100.00 - 1.00 ●
coefficient 17
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Destination address
F45.53 0~65535 - 0 ●
18
Mapping
F45.54 0.00~100.00 - 1.00 ●
coefficient 18
Destination address
F45.56 0~65535 - 0 ●
19
Mapping
F45.57 0.00~100.00 - 1.00 ●
coefficient 19
Destination address
F45.59 0~65535 - 0 ●
20
Mapping
F45.60 0.00~100.00 - 1.00 ●
coefficient 20
Destination address
F45.62 0~65535 - 0 ●
21
Mapping
F45.63 0.00~100.00 - 1.00 ●
coefficient 21
Destination address
F45.65 0~65535 - 0 ●
22
Mapping
F45.66 0.00~100.00 - 1.00 ●
coefficient 22
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Destination address
F45.68 0~65535 - 0 ●
23
Mapping
F45.69 0.00~100.00 - 1.00 ●
coefficient 23
Destination address
F45.71 0~65535 - 0 ●
24
Mapping
F45.72 0.00~100.00 - 1.00 ●
coefficient 24
Destination address
F45.74 0~65535 - 0 ●
25
Mapping
F45.75 0.00~100.00 - 1.00 ●
coefficient 25
Destination address
F45.77 0~65535 - 0 ●
26
Mapping
F45.78 0.00~100.00 - 1.00 ●
coefficient 26
Destination address
F45.80 0~65535 - 0 ●
27
Mapping
F45.81 0.00~100.00 - 1.00 ●
coefficient 27
Destination address
F45.83 0~65535 - 0 ●
28
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Mapping
F45.84 0.00~100.00 - 1.00 ●
coefficient 28
Destination address
F45.86 0~65535 - 0 ●
29
Mapping
F45.87 0.00~100.00 - 1.00 ●
coefficient 29
Destination address
F45.89 0~65535 - 0 ●
30
Mapping
F45.90 0.00~100.00 - 1.00 ●
coefficient 30
137