Frecon FR500F Series User manual
FR500F Series Special Purpose Inverter
- 1 -
Contents
CONTENTS.................................................................................................................................. - 1 -
CHAPTER 1 PRODUCT INFORMATION...................................................................................... - 2 -
1.1 NAMEPLATE INFORMATION ..................................................................................................... - 2-
1.2 FR500F SPECIAL PURPOSE INVERTER MODEL SELECTION ....................................................... - 3-
1.3 CONFIGURATION,MOUNTING DIMENSIONS AND WEIGHT ........................................................... - 4-
1.4 PRODUCT TERMINALS CONFIGURATION................................................................................... - 6-
CHAPTER 2 DEBUGGING GUIDE............................................................................................. - 11 -
2.1 SPINNING CONTROL.............................................................................................................- 11 -
2.2 TWO CONTROL MODES ........................................................................................................- 11 -
2.3 POWER-OFF MEMORY FUNCTION ......................................................................................... - 13 -
CHAPTER 3 LIST OF PARAMETER .......................................................................................... - 14 -
3.1 FIVE LED (DIGITAL)DISPLAY INDICATORS............................................................................... - 15 -
3.2 STANDARD FUNCTION PARAMETERS ..................................................................................... - 15 -
3.3 H00 TEXTILE-SPECIFIC FUNCTION GROUP EXPLAINATION ......................................................... - 41 -
CHAPTER 4 MAINTENANCE AND TROUBLESHOOTING........................................................ - 47 -
FR500F Series Special Purpose Inverter
- 2 -
Chapter 1 Product Information
1.1 Nameplate Information
Figure 1-1 Nameplate Information
Model Instruction
Model numbers on nameplate consist of numbers, symbols, and letters, to express its respective
series, suitable power type, power level and other information.
FR500F-4T-4.0B
Products series Number
FR500F: Special Purpose
Inverter for Textile Machine
Input Voltage Level
2: 220V(-15%~+30%)
4: 380V(-15%~+30%)
Input Voltage Phase
S: Single Phase
T: Three Phase
Brake Unit:
Null: no built-in brake unit
B: built-in brake unit (standard
upto 30kw, optional for
37~75kw, no built-in from 90kw)
Adaptive motor power and type:
4.0G: 4.0W(general type)
Figure 1-2 Product Model Naming Rules
FR500F Series Special Purpose Inverter
- 3 -
1.2 FR500F Special Purpose Inverter Model Selection
Table 1-1 FR500F Series Product Model and Technical Data
Model No.
Power capacity
KVA
Rated
Input current
A
Rated output
current
A
Applicable motor
kW
HP
3-Phase:380V,50/60Hz Range:-15%~+30%
FR500F-4T-0.7B
1.5
3.4
2.5
0.75
1
FR500F-4T-1.5B
3
5.0
4.2
1.5
2
FR500F-4T-2.2B
4
5.8
5.5
2.2
3
FR500F-4T-4.0B
6
11
9.5
3.7, 4
5
FR500F-4T-5.5B
8.9
14.6
13
5.5
7.5
FR500F-4T-7.5B
11
20.5
17
7.5
10
FR500F-4T-011B
17
26
25
11
15
FR500F-4T-015B
21
35
32
15
20
FR500F-4T-018B
24
38.5
37
18.5
25
FR500F-4T-022B
30
46.5
45
22
30
FR500F-4T-030B
40
62
60
30
40
FR500F-4T-037(B)
57
76
75
37
50
FR500F-4T-045(B)
69
92
91
45
60
FR500F-4T-055(B)
85
113
112
55
70
FR500F-4T-075(B)
114
157
150
75
100
FR500F-4T-090(B)
134
186
176
90
125
FR500F-4T-110
160
220
210
110
150
FR500F-4T-132
192
260
253
132
175
FR500F-4T-160
231
310
304
160
210
FR500F-4T-185
240
355
350
185
250
FR500F-4T-200
250
382
377
200
260
FR500F-4T-220
280
430
426
220
300
FR500F-4T-250
355
475
470
250
330
FR500F-4T-280
396
535
520
280
370
FR500F-4T-315
445
610
600
315
420
FR500F-4T-355
500
665
650
355
470
FR500F-4T-400
565
690*
725
400
530
FR500F-4T-450
623
765*
800
450
600
FR500F Series Special Purpose Inverter
- 4 -
1.3 Configuration, Mounting Dimensions and Weight
◆0.7~2.2KW Dimensions and wall mounting dimensions:
Fig 1-3 0.7~2.2kW Wall installation diagram
◆4~22KW Dimensions and wall mounting dimensions:
W1
Fig 1-4 4~22kW Wall installation diagram
◆30~450kW Dimensions and wall mounting dimensions:
Fig 1-5 30~355KW Wall installation diagram
FR500F Series Special Purpose Inverter
- 5 -
Table 1-2 Configuration, mounting dimensions and weight
Model NO.
External and installation dimensions(mm)
Weight
(Kg)
W
W1
H
H1
D
Mounting
Hole
Diameter
3-Phase:380V,50/60Hz Range:-15%~+30%
FR500F-4T-0.7B
80
60
200
190
150
6
1.25
FR500F-4T-1.5B
FR500F-4T-2.2B
116.
6
106.6
186.6
176.6
175
4.5
2.5
FR500F-4T-4.0B
FR500F-4T-5.5B
FR500F-4T-7.5B
146
131
249
236
177
5.5
3.9
FR500F-4T-011B
FR500F-4T-015B
198
183
300
287
185
5.5
6.2
FR500F-4T-018B
FR500F-4T-022B
FR500F-4T-030B
245
200
410
391
200
7
11.8
FR500F-4T-037
300
200
485
466
226
7
15
FR500F-4T-045
FR500F-4T-055
FR500F-4T-075
310
200
620
601
262
9.5
26
FR500F-4T-090
FR500F-4T-110
310
200
650
620
350
11.5
45
FR500F-4T-132
FR500F-4T-160
400
300
750
724
300
11.5
68
FR500F-4T-185
500
300
855
822
320
12
112
FR500F-4T-200
FR500F-4T-220
FR500F-4T-250
540
340
924.5
896
380
12
120
FR500F-4T-280
FR500F-4T-315
620
400
996
963
390
12
133
FR500F-4T-355
FR500F-4T-400
700
500
1025.
5
988.5
390
14
FR500F-4T-450
FR500F Series Special Purpose Inverter
- 6 -
1.4 Product Terminals Configuration
1.4.1Main Circuit Terminals
◆0.7~2.2KW Main Circuit Terminals
Fig.1-6 0.7~2.2kW Schematic of main circuit terminals
◆4~5.5KW Main Circuit Terminals
(+) (-) RST U V
POWER
Fig.1-7 4~5.5kW Schematic of main circuit terminals
◆7.5~22KW Main Circuit Terminals
PB
(+) (-)
RFI
DC
Fig.1-8 7.5~22kW Schematic of main circuit terminals
FR500F Series Special Purpose Inverter
- 7 -
◆30~37KW Main Circuit Terminals
PB
(+) (-)
DC
Fig.1-9 30~37kW Schematic of main circuit terminals
◆45~90KW Main Circuit Terminals:
PB
(+) (-)
DC
Fig.1-10 45~90kW Schematic of main circuit terminals
◆110~132KW , 250~280KW ,315~450KW Main Circuit Terminals:
Fig.1-11 110~132KW , 250~280KW ,315~355KW Main Circuit Terminals
FR500F Series Special Purpose Inverter
- 8 -
◆160~220KW Main Circuit Terminals:
Fig.1-11 160~220KW Main Circuit Terminals
Main circuit terminal functions
Terminal marks
Designation and function of terminals.
R, S, T
AC power input terminals for connecting to 3-phase
AC380V power supply.
U, V, W
AC output terminals of inverter for connecting to 3-phase
induction motor.
(+), (-)
Positive and negative terminals of internal DC bus.
PB
Positive and negative terminals of internal DC bus.
Connecting terminals of braking resistor. One end
connected to + and the other to PB.
Grounding terminal.
Remarks: No phase sequence requirements on wiring of the input side of inverter. Wiring
Precautions:
1)Power input terminals R/L1, S/L2 , T/L3
◆The cable connection on the input side of the AC drive has no phase sequence requirement.
2)DC bus (+), (-)
◆Terminals (+) and (-) of DC bus have residual voltage after the AC drive is switched off. After
indicator CHARGE goes off, wait at least 10 minutes before touching the equipment Otherwise, you
may get electric shock.
◆Do not connect the braking resistor directly to the DC bus. Otherwise, it may damage the AC drive
and even cause fire.
3)Braking resistor connection terminals (+), PB
◆The cable length of the braking resistor shall be less than 5 m. Otherwise, it may damage the AC
drive.
4)AC drive output terminals U/T1, V/T2, W/T3
◆The capacitor or surge absorber cannot be connected to the output side of the AC drive. Otherwise,
it may cause frequent AC drive fault or even damage the AC drive.
If the motor cable is too long, electrical resonance will be generated due to the impact of distributed
capacitance. This will damage the motor insulation or generate higher leakage current, causing the AC
drive to trip in overcurrent protection. If the motor cable is greater than 100 m long, an AC output
reactor must be installed close to the AC drive.
5)Terminal PE
◆This terminal must be reliably connected to the main earthing conductor. Otherwise, it may cause
electric shock, mal-function or even damage to the AC drive.
◆Do not connect the earthing terminal to the neutral conductor of the power supply.
FR500F Series Special Purpose Inverter
- 9 -
1.4.2 Control circuit terminals
DI1
+24V
DI2
PLC
DI3
COM
DI4
DI5
COM
DI6
Y1 Y2
+10V R1A R1B R1C
R2A R2B R2C
AO1
AI1
GND
AI2
485+
AI3
485-
PE
DI7/HI
AO2
GND
Figure 1-14 Control circuit terminals diagram
Table 1-4 FR500F Control circuit terminals functions
Type
Terminal
Marks
Name
Function Description
Power
supply
+10V-GN
D
+10V power
supply
Provide +10 V power supply to external unit.
Maximum output current: 10 mA
Generally, it provides power supply to external
potentiometer with resistance range of 1–5 kΩ.
+24V-CO
M
24V power supply
Provide +24 V power supply to external unit.
Generally, it provides power supply to DI/DO
terminals and external sensors.
Maximum output current: 200 mA
PLC
Input terminal of
external power
supply
Connect to +24 V by default.
When DI1-DI7 need to be driven by external
signal, PLC needs to be connected to external
power supply and be disconnected from +24 V.
Analog
input
AI1-GND
Analog input 1
Input range: DC 0~10V/0~20mA, selected by
toggle switches AI1、AI2 on control board
Input Impedance: 250 kΩ (voltage input), 250 Ω
(current input)
AI2-GND
Analog input 2
AI3-GND
Analog input 3
Input Voltage Range: DC -10~+10V
Input impedance: 250kΩ
Switch
input
DI1- COM
Switch input
terminals 1
Maximum input frequency: 200Hz
Impedance: 2.4kΩ
Voltage range for level input: 9V~30V
DI2- COM
Switch input
terminals 2
DI3- COM
Switch input
terminals 3
DI4- COM
Switch input
terminals 4
DI5- COM
Switch input
terminals 5
DI6- COM
Switch input
terminals 6
DI7/HI-CO
M
Switch input
terminals 7 or
high-speed pulse
input
Besides features of DI1–DI6, it can be used for
high-speed pulse input.
Maximum input frequency: 100 kHz
Analog
Output
AO1-GND
Analog Output 1
Output range: DC 0~10V/0~20mA, selected by
toggle switches AO1、AO2 on control board
Impedance requirements≥10kΩ
AO2-GND
Analog Output 2
Switch
Output
Y1-COM
Open collector
output 1
Voltage range: 0~24V
Current range: 0~50mA
Y2/HO-CO
M
Open collector
output 2 or
Besides features of Y1, it can be used for
high-speed pulse output channels.
FR500F Series Special Purpose Inverter
- 10 -
high-speed pulse
output
The maximum output frequency: 100kHz
Relay
Output
R1A-R1C
Normally open
terminal
Contact driving capacity:
AC250V, 3A, COSØ=0.4.
DC 30V, 1A
R1B-R1C
Normally close
terminal
R2A-R2C
Normally open
terminal
R2B-R2C
Normally close
terminal
485
communic
ation
485+-485-
485
communication
terminal
Rate: 4800/9600/19200/38400/57600/115200bps
Terminal matching resistor is set by the toggle
switch on control panel RS485
GND
485
Communication
shielded
ground
Shield
PE
Shield Ground
Ground terminal for shield
Use for terminal wirings shield grounding
Auxiliary
Interface
External operation
panel interface
Use standard network cable
Maximum communication distance is 50m for
connecting to operation panel, adopt standard
network cable (RJ45)
UP/DOWNL
OAD
Parameter copy
interface
FR500F Series Special Purpose Inverter
- 11 -
Chapter 2 Debugging Guide
2.1 Spinning Control
The Spinning Control application program is designed to run spinning bobbins in ring frame textile
machine. To achieve the best possible form for the doff, the spinning sequence should be ideal for a
traverse of the yarn. This is done by giving pre-set values for speed based on time elapsed. The
following figure shows the principle of spinning control.
Figure 2-1 Sinning Control Diagram
Wirings as below:
R
T
U
V
WM
DI1
Run
FR500F
S
Power
DI2
Stop
DI3
PLC Re-set
DI4
Fault Re-set
Running
Signal
COM
QF
Y1
Y2
PLC
Running
Finished
Signal
Figure 2-2 Spining Inverter External Wirings
2.2 Two Control Modes
FR500F series special purpose inverter for textile machine has Three control modes, users
can freely choose any mode by parameters setting, and details refer to parameter H00.34.
1. Linear Mode
Linear mode can set 16 multi-steps in total, and every step running speed can be set. First,
FR500F Series Special Purpose Inverter
- 12 -
when inverter running into any step, timer starts, and running to this step by acce/dece time,
after reach the step, inverter continue to run as this step until timing arrived at the time set by
this step, running figure as below:
0Hz
F0
T0
F1
F2
F3
F4 F5
T1 T2 T3 T4 T5 T6
Output
Frequency(Hz)
F6
F7
T7
F8
T8 T9
F9
F10
T10
F11
T11
F12
T12
F13
T13
F14
T14
F15
T15
50Hz
Acc
Time
Figure 2-3 linear mode running diagram
2. Gradual Mode
Gradual mode can set 16 multi-steps in total, also can set the time from current step to next
step. When running, inverter gradually change to next step from current step, total consuming
time is the set time. When PLC running finished, inverter will stop according to dece time, running
diagram as below:
0Hz
F0
T0
F1
F2
F3
F4
F5
T1 T2 T3 T4 T5 T6
Output
Frequency(Hz)
F6
F7
T7
F8
T8 T9
F9
F10
T10
F11
T11
F12
T12
F13
T13
F14
T14
F15
T15
50Hz
Figure 2-4 gradual mode running diagram
3: Length Mode
Frequency gradually changed from current speed to next setting speed, total consuming
length is set length(Length is calculated according to current frequency or to pulse input). When
PLC running finished, inverter stops according to the deceleration time, running diagram as
below:
FR500F Series Special Purpose Inverter
- 13 -
0Hz
F1
L0
F2
F3
F4
F5
F6
L1 L2 L3 L4 L5 L6
Output
Frequency(Hz)
F7
F8
L7
F9
L8 L9
F10
F11
L10
F12
L11
F13
L12
F14
L13
F15
L14
F16
L15
50Hz
F0
Figure 2-5 Length mode running diagram
2.3 Power-off Memory Function
FR500F series special purpose inverter for textile machine has power-off memory function, details
refer to the function code H00.33. When power-off function selection valid, inverter can remember the
step running before power-off, and already finished running time during this step, when starts again,
inverter can finish the remaining step and time, details as below:
0Hz
F0
T0
F1
F2
F3
T1 T2
T3=T3.1+T3.2
Output
Frequency(Hz)
50Hz
F4
F5
T4
Fault
Or
Power
down
T3.1 T3.2
Figure 2-6 power-off memory function diagram
FR500F Series Special Purpose Inverter
- 14 -
Chapter 3 List of Parameter
Group F00~F17 are standard function parameters. Group U00 is status monitoring
parameters. Group U01 is fault record parameters.
The symbols in the function code table are described as follows:
"" means the value of this parameter can be modified in stop and running status of drive;
"×" means the value of this parameter cannot be modified when drive is running;
"⊙" means this parameter is a measured value that cannot be modified;
Default: The value when restored to factory default. Neither measured parameter value nor
recorded value will be restored.
Setting Range: the scope of setting and display of parameters
FR500F parameter groups are listed below:
Category
Parameter Group
System Parameters
F00: System Parameters
Basic Parameters
F01: Frequency Command
F02: Start/Stop Control Start/Stop Control
F03: Accelerate/Decelerate Parameters
Input & Output Terminals
F04: Digital Input
F05: Digital Output
F06: Analog and Pulse Input
F07: Analog and Pulse Output
Motor and Control Parameters
F08: Parameters of Motor 1
F09: V/f Control Parameters of Motor 1
F10: Vector Control Parameters of Motor 1
Protection Parameters
F11: Protection Parameters
Application Parameters
F12: Multi-Reference and Simple PLC Function
F13: Process PID
F14: Swing Frequency, Fixed Length , Count and
Wakeup
Communication Parameters
F15: Communication Parameters
Keys and Display of Keypad
Parameters
F16:Keys and Display of Keypad Parameters
User-defined Display Parameters
F17:User-defined Display Parameters
Monitoring Parameters
U00:Status monitoring
U01:Fault record
FR500F Series Special Purpose Inverter
- 15 -
3.1 Five LED (digital) display indicators
Hz V A %
Ten thousand’s
place
Thousand’s place Hundred’s place
Unit’s place
Ten’s place
Fig.3-1 LED indicators
3.2 Standard Function Parameters
Table 3-1 Standard Function Parameters
Param.
Parameter Name
Setting Range
Default
Att
r
Group F00: System Parameters
F00.00
Setting of User
Password
0~65535
0
×
F00.01
Display of Parameters
0: Display all parameters
1
×
1: Only display F00.00, F00.01 and
user-defined parameters
F17.00~F17.29
2: Only display A0-00, A0-01, and
the parameters different with
factory default
F00.02
Parameter Protection
0: All parameter programmable
0
×
1: Only F00.02 and this parameter
programmable
F00.03
G/P type display
0: G type (constant torque load)
0
×
1: P type (variable torque load
e.g. fan and pump)
F00.04
Parameter Initialization
0: No operation
0
×
1: Restore all parameters to factory
default (excluding motor
parameters)
2: Clear fault record
3: Back up current user parameters
4: Restore user backup parameters
5: Restore factory default(include
motor parameter)
6: Power consumption zero
clearing(U00.35)
F00.05
Copy of Parameters
0: No operation
0
×
1: Upload parameter
2: Download parameter (excluding
motor parameters)
3: Download parameter (including
motor parameters)
F00.06
Parameter
editing mode
0:Editable via keypad and
RS485
0
×
1: Editable via keypad
FR500F Series Special Purpose Inverter
- 16 -
2: Editable via RS485
F00.08
Motor 1 control mode
0: Voltage/Frequency (V/F)
control
1
×
1:Sensor-less vector control 1
2: Sensor-less vector control 2
F00.09
DI7/HI input mode
0: Digital input terminal 7
0
×
1: Pulse input
F00.10
AI1\AI2\AI3 input mode
Unit's place: AI1
000
×
0: Analog input
1: Digital input
Ten’s place: AI2 (same as AI1)
Hundred’s place: AI3 (same as AI1)
F00.11
Y2/HO input mode
0: Digital 0utput terminal 2
0
×
1: Pulse output
F00.12
PWM optimization
Unit's place: PWM modulation
mode
0: Fixed carrier
1: Random carrier
2: Derating of fixed carrier
3: Derating of random carrier
000
×
Ten’s place: PWM modulation
mode
0: Seven-segment mode
1: Five-segment mode
2: Five-segment and
seven-segment automatic
switchover
Hundred’s place: over-modulation
coefficient
0: Invalid
1~9: 1.01~1.09 times of
over-modulation
F00.13
Carrier frequency
0.700~16.000kHz
Model
defined
F00.14
Upper carrier
frequency
0.700~16.000kHz
8.000kHz
×
F00.15
Lower carrier
frequency
0.700~16.000kHz
2.000kHz
×
F00.16
Output voltage
5.0~150.0%
100.0%
×
F00.17
AVR
0: Disabled
0
×
1: Enabled
2: AVR is disabled if the DC
bus voltage > the rated
voltage of DC bus, and it will be
enabled if the DC bus voltage≤the
rated voltage of DC bus.
F00.18
Fan control
0: Run at power-on
1
×
1: Fan working during running
F00.19
Factory password
0~65535
0
×
F00.20
Inverter rated power
0.2~710.0kW
Model
defined
⊙
F00.21
Inverter rated voltage
60~660V
Model
defined
⊙
F00.22
Inverter rated current
0.1~1500.0A
Model
defined
⊙
F00.23
Software version
0.00~655.35
Model
⊙
FR500F Series Special Purpose Inverter
- 17 -
defined
F00.24
Dealer password
0~65535
0
×
F00.25
Setting operation time
0~65535h(0: Invaild)
0h
×
Group F00: Frequency Command
F01.00
Frequency source
selection
0: Master frequency source
0
×
1: Auxiliary frequency source
2: Master +Auxiliary
3: Master - Auxiliary
4: MAX{Master, Auxiliary }
5: MIN {Master, Auxiliary }
6: AI1( Master + Auxiliary)
7: AI2( Master +Auxiliary)
F01.01
Master Frequency
Command Source
0:Master digital setting (F01.02)
1
×
1: keypad potentiometer
2: Analog input AI1
3: Communication
4: Multi-reference
5: PLC
6: Process PID output
7: X7/HI pulse input
8:AI2
9:AI3
F01.02
Digital Setting of Master
Frequency
0.00~Fmax
0.00Hz
F01.03
Auxiliary Frequency
Command Source
0: Auxiliary digital setting
(F01.04)
0
×
1: keypad potentiometer
2: Analog input AI1
3: Communication
4: Multi-reference
5: PLC
6: Process PID output
7: X7/HI pulse input
8: Analog input AI2
9: Analog input AI3
F01.04
Digital setting of
auxiliary frequency
0.00~Fmax
0.00Hz
F01.05
Range of auxiliary
frequency
0: Relative to maximum frequency
0
×
1: Relative to master frequency
F01.06
Coeff of auxiliary
frequency
0.0~150.0%
100.0%
F01.07
Jog frequency
0.00~Fmax
5.00Hz
F01.08
Maximum frequency
20.00~600.00Hz
50.00Hz
×
F01.09
Upper limit frequency
Fdown~Fmax
Lower limit frequency~maximum
frequency
50.00Hz
×
F01.10
Lower limit frequency
0.00~Fup
0.00Hz
×
F01.11
Operation when command
frequency lower than lower
limit frequency
0: Run at lower limit frequency
0
×
1: Run at 0 Hz would be activated
after the time delay set by F01.12
F01.12
Lower limit frequency
running time
0.0~6000.0s
60.0s
×
F01.13
Up to this frequency, start
frequency compensation
0.00~600.00Hz
50.00Hz
△
FR500F Series Special Purpose Inverter
- 18 -
F01.14
Frequency compensation
per 50Hz
0.00~50.00Hz
0.00Hz
△
Group F02: Start/Stop Control
F02.00
Run command
0: Keypad control (LED off)
0
×
1: Terminal control (LED on)
2: Communication control (LED
blinking)
F02.01
Running direction
0: Forward
0
1: Reverse
F02.02
Reverse-proof action
0: Reverse enabled
0
×
1: Reverse disabled
F02.03
Dead time between
forward and reverse
0.0~6000.0s
0.0s
×
F02.04
Start mode
Unit’s place: Start Mode
0:Start directly
1:Rotational speed track and
restart
00000
×
Ten’s place: short-circuit detection
function
0:Ungrounded short-circuit
detection
1:Grounding short-circuit
detection before the first starts
2:Grounding short-circuit
detection before each starts
Hundred’s place: Speed tracking
0:Track from zero speed
1:Track from max frequency
Thousand’s place: Select if Jog
function takes the priority
0:Disable
1:Enable
Ten thousand’s place: Tracking
direction
0: Last direction when stop
1: Positive direction
2: Negative direction
3: Starting direction
F02.05
Start frequency
0.00~10.00Hz
0.00Hz
×
F02.06
Startup frequency holding
time
0.0~100.0s
0.0s
×
F02.07
Startup DC brakin current
0.0~150.0%
0.0%
×
F02.08
DC braking time at start
0.0~100.0s
0.0s
×
F02.09
Speed search current
0.0~180.0%
100.0%
F02.10
Sped search decel time
0.0~10.0s
1.0s
×
F02.11
Sped search coefficient
0.01~5.00
0.30
F02.12
Stop mode
0: Ramp to stop
0
×
1: Coast to stop
F02.13
Initial frequency of stop DC
braking
0.01~50.00Hz
2.00Hz
×
F02.14
Stop DC braking current
0.0~150.0%
0.0%
×
F02.15
Waiting time of stop DC
braking
0.0~30.0s
0.0s
×
F02.16
Stop DC braking time
0.0~30.0s
0.0s
×
F02.17
Dynamic brake
0: Disabled
0
×
1: Enabled
FR500F Series Special Purpose Inverter
- 19 -
2: Enabled at running
3: Enabled at deceleration
F02.18
Dynamic Brake
Voltage
90.0~150.0%
128.0%
×
F02.19
Brake use ratio
5.0~100.0%
100.0%
×
F02.20
0Hz output selection
0:No voltage output
0
×
1:Voltage output
F02.21
Auto-start of power-on
again
0: Invalid
0
△
1: Valid
F02.22
Waiting time between
auto-start and power-on
again
0.0~10.0s
0.5s
△
Group F03: Accel/Decel Parameters
F03.00
Accel time 1
0.0~6000.0s
15.0s
F03.01
Decel time 1
0.0~6000.0s
15.0s
F03.02
Accel time 2
0.0~6000.0s
15.0s
F03.03
Decel time 2
0.0~6000.0s
15.0s
F03.04
Accel time 3
0.0~6000.0s
15.0s
F03.05
Decel time 3
0.0~6000.0s
15.0s
F03.06
Accel time 4
0.0~6000.0s
15.0s
F03.07
Decel time 4
0.0~6000.0s
15.0s
F03.08
Jog accel time
0.0~6000.0s
15.0s
F03.09
Jog decel time
0.0~6000.0s
15.0s
F03.10
Accel/Decele curve
0: Linear Accel/Decel
0
×
1: S-curve Accel/Decel
F03.11
Initial segment time of
acceleration of S curve
0.0~6000.0s
0.0s
×
F03.13
Frequency switchover
point
between acceleration time
1 and acceleration time 2
0.00~Fmax
0.00Hz
×
F03.14
Frequency switchover
point
between deceleration time
1 and deceleration time 2
0.00~Fmax
0.00Hz
×
F03.15
End segment time of
acceleration of S curve
0.0~6000.0s
0.0s
×
F03.16
Initial segment time of
deceleration of S curve
0.0~6000.0s
0.0s
×
F03.17
End segment time of
deceleration of S curve
0.0~6000.0s
0.0s
×
Group F04 Digital Input
F04.00
Function of terminal DI1
0: No function
1
×
F04.01
Function of terminal DI2
1: Running forward (FWD)
2
×
F04.02
Function of terminal DI3
2: Running reverse (REV)
7
×
F04.03
Function of terminal DI4
3: Three-wire control
13
×
F04.04
Function of terminal DI5
4: JOG forward
0
×
F04.05
Function of terminal DI6
5: JOG reverse
0
×
F04.06
Function of terminal DI7
6: Coast to stop
0
×
F04.07
Function of terminal AI1
7: Fault reset (RESET)
0
×
F04.08
Function of terminal AI2
8: Running suspended
0
×
F04.09
Function of terminal AI3
9: External fault input
0
×
10: Terminal UP
11: Terminal DOWN
12: UP/DOWN (including ∧/∨
FR500F Series Special Purpose Inverter
- 20 -
key) adjustment clear
13: Multi-step frequency terminal 1
14: Multi-step frequency terminal 2
15: Multi-step frequency terminal 3
16: Multi-step frequency terminal 4
17: Accel/Decel time determinant 1
18: Accel/Decel time determinant 1
19: Accel/Decel disabled(ramp
stop not inclusive)
20: Switch to auxiliary speed
setting
21: PLC status reset
22: Simple PLC paused
23: Simple PLC paused
24: PID adjustment direction
25: PID integration paused
26: PID parameter switch
27: Swing frequency pause(output
the currentfrequency)
28: Swing frequency reset(output
the central frequency)
29: Run command switched to
keypad contro
30: Run command switched to
terminal control
31: Run command switched to
communication control
32: Count input
33: Count clear
34: Length count
35: Length clear
36: DC brake input command at
Stop
37: Speed/torque control switch
38: No reverse
39: No forward
F04.10
Filtering time of digital
input terminal
0.000~1.000s
0.010s
F04.11
Delay time before terminal
DI1 is valid
0.0~300.0s
0.0s
F04.12
Delay time before terminal
DI2 is valid
0.0~300.0s
0.0s
F04.13
Terminal DI1~DI5
positive/negative logic
DI5、DI4、DI3、DI2、DI1
00000
×
0: Positive logic(Terminals are on
at 0V/off at 24V)
1: Negative Logic (Terminals are
off at 0V/on at 24V)
F04.14
Terminal DI6~AI3
positive/negative logic
AI3、AI2、AI1、DI7、DI6
00000
×
0: Positive logic
1: Negative Logic
F04.15
FWD/REV terminal
control mode
0: Two-wire mode 1
0
×
1: Two-wire mode 2
2: Three-wire mode 1
3: Three-wire mode 2
F04.16
Terminal UP/DOWN
frequency adjustment
Unit's place: action when stop
001
×
0: Clear
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28
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