gsx600uk
Transcript of gsx600uk
HIGH PERFORMANCESIN SMALL DIMENSIONS
GSX600
I N V E RT E R
®®
CTÜ
V R
hein
land
Pro
duct
Saf
ety
BA
UA
RT
GEP
RÜ
FT
TYP
EA
PP
RO
VED
GSX6000.4-2.2 kW
GVX9000.2-4 kW
GVX20000.55-500 kW
LMS0.4-4 kW
POW
ER
IN M
OTIO
N
POW
ER
IN M
OTIO
N
COMPLETE AND
ADVANCED SOLUTIONS
IN POWER TRANSMISSION
FOR ANY INTELLIGENT
AND HIGH EFFICIENT APPLICATION
GSX6000.4-2.2 kW
GVX9000.2-4 kW
GVX20000.55-500 kW
LMS0.4-4 kW
POW
ER
IN M
OTIO
N
POW
ER
IN M
OTIO
N
COMPLETE AND
ADVANCED SOLUTIONS
IN POWER TRANSMISSION
FOR ANY INTELLIGENT
AND HIGH EFFICIENT APPLICATION
GSX6002 3
VARIATION
20
30
40
50
60
70
0 10 20 30 40 50 60
GSX600
Noi
se le
vel [
dB]
Frequency [Hz]
Serial communication (RS485)• Serial data communication conforming to RS485 through the optional personal computer interface card, which allows
the inverter to be applied to air conditioning or Factory Automation systems easily.
Other useful functions• Compliant with major world safety standards: UL, cUL, TÜV, CE, C-Tick.• Equipped with inrush current control circuit for protection from electric surge of power supply.• Records of accumulated operation time to show when to change parts (such as electrolytic capacitors) which require
periodic inspection.• Cooling fan stop operation to increase cooling fan life, reduce its air noise and save energy.
GREAT PERFORMANCE IN A COMPACT PACKAGEBONFIGLIOLI LOW-NOISE INVERTERS:
SPECIFICATIONS FOR THE NEW GENERATION
Environment-friendly features• Utilizes a low-noise control power supply system which
minimizes noise interference on peripheral devices such assensors.
• Minimal motor noise driving whether high carrier frequency(lower-noise) or low carrier frequency is selected.
• Equipped with terminals for connecting DC REACTOR forharmonics suppression.
PID control function: for fans and pumps• Equipped with a PID control function which can control the flow rate of fans and pumps in an optimal manner with
direct processing of signals coming from sensors.
Compact• Only 80mm wide and 120mm high (up to 0.75kW): can be installed easily in switchboards.• Mountable on 35mm DIN compliance rails using the optional rail mounting base MAC 9, up to 0.75kW.
Easy operation and simple, secure wiring• Equipped with a large dial (on the front of the inverter) which can set output frequencies easily.• Control through various input signals: from 0 to 10V DC, from 0 to 5V DC, and from 4 to 20 mA.• Separated main circuit input terminals and output terminals, arranged at the top and the bottom of the inverter for
easy wiring.
Torque characteristics
100% of output torque refers tothe rated torque of the motor
driver at 50Hz.
120
150
100
80
6550
230V/50Hz
0 3 20 50 100
Short time operation torque(high torque boost)
Continuous operationtorque
Out
put t
orqu
e [%
]
Input frequency [Hz]
0.40.751.52.2
Nominal applied
motors [kW]
Single-phase200V series
GSX600-0.4-SGSX600-0.75-SGSX600-1.5-SGSX600-2.2-S
Full array of functions packed into acompact body ideal for variable-speedsmall-capacity motors
GSX6002 3
VARIATION
20
30
40
50
60
70
0 10 20 30 40 50 60
GSX600
Noi
se le
vel [
dB]
Frequency [Hz]
Serial communication (RS485)• Serial data communication conforming to RS485 through the optional personal computer interface card, which allows
the inverter to be applied to air conditioning or Factory Automation systems easily.
Other useful functions• Compliant with major world safety standards: UL, cUL, TÜV, CE, C-Tick.• Equipped with inrush current control circuit for protection from electric surge of power supply.• Records of accumulated operation time to show when to change parts (such as electrolytic capacitors) which require
periodic inspection.• Cooling fan stop operation to increase cooling fan life, reduce its air noise and save energy.
GREAT PERFORMANCE IN A COMPACT PACKAGEBONFIGLIOLI LOW-NOISE INVERTERS:
SPECIFICATIONS FOR THE NEW GENERATION
Environment-friendly features• Utilizes a low-noise control power supply system which
minimizes noise interference on peripheral devices such assensors.
• Minimal motor noise driving whether high carrier frequency(lower-noise) or low carrier frequency is selected.
• Equipped with terminals for connecting DC REACTOR forharmonics suppression.
PID control function: for fans and pumps• Equipped with a PID control function which can control the flow rate of fans and pumps in an optimal manner with
direct processing of signals coming from sensors.
Compact• Only 80mm wide and 120mm high (up to 0.75kW): can be installed easily in switchboards.• Mountable on 35mm DIN compliance rails using the optional rail mounting base MAC 9, up to 0.75kW.
Easy operation and simple, secure wiring• Equipped with a large dial (on the front of the inverter) which can set output frequencies easily.• Control through various input signals: from 0 to 10V DC, from 0 to 5V DC, and from 4 to 20 mA.• Separated main circuit input terminals and output terminals, arranged at the top and the bottom of the inverter for
easy wiring.
Torque characteristics
100% of output torque refers tothe rated torque of the motor
driver at 50Hz.
120
150
100
80
6550
230V/50Hz
0 3 20 50 100
Short time operation torque(high torque boost)
Continuous operationtorque
Out
put t
orqu
e [%
]
Input frequency [Hz]
0.40.751.52.2
Nominal applied
motors [kW]
Single-phase200V series
GSX600-0.4-SGSX600-0.75-SGSX600-1.5-SGSX600-2.2-S
Full array of functions packed into acompact body ideal for variable-speedsmall-capacity motors
4
STANDARD SPECIFICATIONS
GSX600
COMMON SPECIFICATIONS
Single-phase 230V series
5
0.4Type GSX600- -S 0.75 1.5 2.2
Nominal applied motor kW
Rated capacity *1) kVA
Rated voltage *2) V
Rated current *3) A
Overload capability
Rated frequency Hz
Phase, Voltage, Frequency
Voltage / frequency variations
Momentary voltage dip capability
Rated (with DCR)
current *4) A (without DCR)
Required power
supply capacity *5) kVA
Torque (standard) *6)
DC injection braking
Enclosure (IEC 60529)
Cooling method
Standards
Mass kg
Out
put r
atin
gsIn
put r
atin
gs
Braking
0.4 0.75 1.5 2.2
0.95 1.5 2.6 3.8
3-phase, 230V
2.5 4.0 7.0 10.0
150% of rated current for 1 minute
50, 60Hz
1-phase, 200 to 240V , 50/60Hz
• Voltage: +10 to -10% • Frequency: +5 to -5%
When the input voltage is 165V or more, the inverter can be operated continuously.
When the input voltage drops below 165V from rated voltage, the inverter can be operated for
15ms. (less than 85% load of nominal applied motors)
3.5 6.5 11.8 17.7
6.4 11.4 19.8 28.5
0.7 1.3 2.4 3.6
100% 50% 30%
• Starting frequency: 3.0Hz (Fixed) • Braking time: 0.0 to 30.0s
• Braking level: 0 to 100% of rated current
IP 20
Natural cooling Fan cooling
• UL/cUL, Low Voltage Directive, EMC Directive
• IEC 61800-2 (Rating, specifications for low voltage adjustable frequency a.c. power drive systems)
• IEC 61800-3 (EMC product standard including specific test methods)
0.7 0.9 1.6 2.2
NOTES:*1) Inverter output capacity [kVA] at 220V.*2) Output voltage is proportional to the power supply voltage and can not exceed the power supply voltage.*3) Current derating may be required in case of low impedance loads such as high frequency motor.*4) This value is calculated using a manufacturer calculation method. (Refer to Technical Information)*5) When a power-factor correcting DC reactor is used.*6) With a nominal applied motor, this value is average torque when the motor decelerates and stops from 60Hz. (It may change according to motor loss.)
Setting Maximum frequency 50 to 120Hz (in 1Hz steps)
Base frequency 50 to 120Hz (in 1Hz steps)
Starting frequency 1 to 6Hz (in 1Hz steps)
Carrier frequency 0.75 to 15kHz
Accuracy (Stability) • Analog setting: ±1.0% of max. frequency (at 25˚ 10˚C)
• Digital setting: ±0.01% of max. frequency (at -10˚ to +50˚C)
Setting resolution • Analog setting: 1/256 of max. frequency ex.) 0.25Hz at 60Hz, 0.5Hz at 120Hz
• Digital setting: 0.1 Hz at max. frequency of up to 99.9 Hz (1Hz at max. frequency of 100Hz and above)
Control method Sinusoidal PWM control
Voltage / frequency (V/f) characteristic Maximum output voltage proportional to line input voltage (without AVR control)
Torque boost Manual: Code selection (0 to 31), including the save energy pattern for variable torque load
Item Explanation
Out
put f
requ
ency
Con
trol
Starting torque 150% (at 6Hz) (Torque boost code (F09) is 20 and above.)
Operation method • KEYPAD operation: key, key
• Digital input signal operation: FWD or REV command
• Link operation: RS485 (Option)
Frequency setting • KEYPAD operation: or key
• Built-in potentiometer: Potentiometer is standard equipment.
• Analog input: 0 to +10V DC (0 to +5V DC) 4 to 20mA DC
• Multistep frequency: 4 different frequencies can be selected by terminal (SS1) and (SS2).
• Link operation: RS485 (Option)
Running status signal • Relay output: Alarm output for any fault. (1SPDT)
• Analog output: Output frequency, Output current, PID feedback value, DC link circuit voltage
Acceleration time 0.0 to 60s (0.0 = 0.01s)
Deceleration time 0.1 to 60s
Frequency limiter High and Low limiter can be preset.
Bias frequency Bias frequency can be preset (-120 to 120Hz).
Gain for frequency setting 100% (For 0 to +10V DC) or 200% (For 0 to +5V DC)
Jump frequency control Jump frequency (3 points) and its common jump hysteresis width (0 to 30Hz) can be preset.
Auto-restart after momentary power failure Automatic restart is available after a momentary power failure (retry method).
PID control This function can control flowrate, pressure, etc. (with an analog feedback signal.)
• Reference signal (F01): • KEYPAD operation ( or key)
• Voltage input (Terminal 12)
• Current input (Terminal C1)
• Analog input (Built-in Potentiometer)
• Feedback signal (H21): • Terminal 12 (0 to 10V DC or 1 to 5V DC)
• Terminal C1 (4 to 20mA DC)
Operation mode (running or stopping) • Output Frequency, Output Current, PID reference value, PID feedback value
• Setting frequency
Program mode Function Code, Data Code
Trip mode Displays trip fault code as follows:
• OC1 (Overcurrent during acceleration)
• OC2 (Overcurrent during deceleration)
• OC3 (Overcurrent running at constant speed)
• OU1 (Overvoltage during acceleration)
• OU2 (Overvoltage during deceleration)
• OU3 (Overvoltage running at constant speed)
• LU (Low voltage)
Operation and Trip mode Trip history (passed/4 times)
Charge lamp (Red) When the DC link circuit voltage is higher than 50V, the charge lamp is ON.
Overload Protects the inverter by electronic thermal overload relay and detection of inverter temperature.
Overvoltage detection Detects DC link circuit voltage (400V), and stops the inverter.
Undervoltage Detects DC link circuit undervoltage (200V), and stops the inverter.
Input phase loss Phase loss protection for power line input
Overheating Protects the inverter by detection of inverter temperature.
Short-circuit Shor-circuit protection for inverter output circuit
Ground fault Ground fault protection for inverter output circuit (detection at starting)
Motor overload • Protects the motor after the inverter trips.
• Electronic thermal overload relay can be selected for standard motor or fan ventilated.
Stall prevention • Controls the output frequency to prevent (overcurrent) trip when the output current exceeds the limit value
during acceleration.
• Lowers the output frequency to hold almost constant torque when the output current exceeds the limit value during
operation at constant speed.
• Controls the output frequency to prevent (overvoltage) trip when the DC link circuit voltage exceeds the limit
value during deceleration.
Auto reset When the inverter is tripped, it resets automatically and restart. 5-times auto reset can be selected.
Installation location Free from a dusty location, corrosive gases, oil mist, and direct sunlight. Indoor use only.
Altitude 1000m or less. (Applicable to 3000m with power derating: -10% / 1000m)
Ambient temperature -10˚ to +50˚C
Ambient humidity 5 to 95% RH (non-condensing)
Vibration 3mm at 2 to 9Hz, 1m/s2 at 9 to 200Hz
• Temperature: -25˚ to +65˚C • Humidity: 5 to 95% RH
Item Explanation
• OH1 (Overheating at heatsink)
• OH2 (External thermal relay tripped)
• OL (Motor overload)
• OLU (Inverter unit overload)
• Er1 (Memory error)
• Er3 (CPU error)
• Er8 (RS485 error)
Con
trol
Indi
catio
nP
rote
ctio
nC
ondi
tion
(inst
alla
tion
and
oper
atio
n)
Storage conditions
4
STANDARD SPECIFICATIONS
GSX600
COMMON SPECIFICATIONS
Single-phase 230V series
5
0.4Type GSX600- -S 0.75 1.5 2.2
Nominal applied motor kW
Rated capacity *1) kVA
Rated voltage *2) V
Rated current *3) A
Overload capability
Rated frequency Hz
Phase, Voltage, Frequency
Voltage / frequency variations
Momentary voltage dip capability
Rated (with DCR)
current *4) A (without DCR)
Required power
supply capacity *5) kVA
Torque (standard) *6)
DC injection braking
Enclosure (IEC 60529)
Cooling method
Standards
Mass kg
Out
put r
atin
gsIn
put r
atin
gs
Braking
0.4 0.75 1.5 2.2
0.95 1.5 2.6 3.8
3-phase, 230V
2.5 4.0 7.0 10.0
150% of rated current for 1 minute
50, 60Hz
1-phase, 200 to 240V , 50/60Hz
• Voltage: +10 to -10% • Frequency: +5 to -5%
When the input voltage is 165V or more, the inverter can be operated continuously.
When the input voltage drops below 165V from rated voltage, the inverter can be operated for
15ms. (less than 85% load of nominal applied motors)
3.5 6.5 11.8 17.7
6.4 11.4 19.8 28.5
0.7 1.3 2.4 3.6
100% 50% 30%
• Starting frequency: 3.0Hz (Fixed) • Braking time: 0.0 to 30.0s
• Braking level: 0 to 100% of rated current
IP 20
Natural cooling Fan cooling
• UL/cUL, Low Voltage Directive, EMC Directive
• IEC 61800-2 (Rating, specifications for low voltage adjustable frequency a.c. power drive systems)
• IEC 61800-3 (EMC product standard including specific test methods)
0.7 0.9 1.6 2.2
NOTES:*1) Inverter output capacity [kVA] at 220V.*2) Output voltage is proportional to the power supply voltage and can not exceed the power supply voltage.*3) Current derating may be required in case of low impedance loads such as high frequency motor.*4) This value is calculated using a manufacturer calculation method. (Refer to Technical Information)*5) When a power-factor correcting DC reactor is used.*6) With a nominal applied motor, this value is average torque when the motor decelerates and stops from 60Hz. (It may change according to motor loss.)
Setting Maximum frequency 50 to 120Hz (in 1Hz steps)
Base frequency 50 to 120Hz (in 1Hz steps)
Starting frequency 1 to 6Hz (in 1Hz steps)
Carrier frequency 0.75 to 15kHz
Accuracy (Stability) • Analog setting: ±1.0% of max. frequency (at 25˚ 10˚C)
• Digital setting: ±0.01% of max. frequency (at -10˚ to +50˚C)
Setting resolution • Analog setting: 1/256 of max. frequency ex.) 0.25Hz at 60Hz, 0.5Hz at 120Hz
• Digital setting: 0.1 Hz at max. frequency of up to 99.9 Hz (1Hz at max. frequency of 100Hz and above)
Control method Sinusoidal PWM control
Voltage / frequency (V/f) characteristic Maximum output voltage proportional to line input voltage (without AVR control)
Torque boost Manual: Code selection (0 to 31), including the save energy pattern for variable torque load
Item Explanation
Out
put f
requ
ency
Con
trol
Starting torque 150% (at 6Hz) (Torque boost code (F09) is 20 and above.)
Operation method • KEYPAD operation: key, key
• Digital input signal operation: FWD or REV command
• Link operation: RS485 (Option)
Frequency setting • KEYPAD operation: or key
• Built-in potentiometer: Potentiometer is standard equipment.
• Analog input: 0 to +10V DC (0 to +5V DC) 4 to 20mA DC
• Multistep frequency: 4 different frequencies can be selected by terminal (SS1) and (SS2).
• Link operation: RS485 (Option)
Running status signal • Relay output: Alarm output for any fault. (1SPDT)
• Analog output: Output frequency, Output current, PID feedback value, DC link circuit voltage
Acceleration time 0.0 to 60s (0.0 = 0.01s)
Deceleration time 0.1 to 60s
Frequency limiter High and Low limiter can be preset.
Bias frequency Bias frequency can be preset (-120 to 120Hz).
Gain for frequency setting 100% (For 0 to +10V DC) or 200% (For 0 to +5V DC)
Jump frequency control Jump frequency (3 points) and its common jump hysteresis width (0 to 30Hz) can be preset.
Auto-restart after momentary power failure Automatic restart is available after a momentary power failure (retry method).
PID control This function can control flowrate, pressure, etc. (with an analog feedback signal.)
• Reference signal (F01): • KEYPAD operation ( or key)
• Voltage input (Terminal 12)
• Current input (Terminal C1)
• Analog input (Built-in Potentiometer)
• Feedback signal (H21): • Terminal 12 (0 to 10V DC or 1 to 5V DC)
• Terminal C1 (4 to 20mA DC)
Operation mode (running or stopping) • Output Frequency, Output Current, PID reference value, PID feedback value
• Setting frequency
Program mode Function Code, Data Code
Trip mode Displays trip fault code as follows:
• OC1 (Overcurrent during acceleration)
• OC2 (Overcurrent during deceleration)
• OC3 (Overcurrent running at constant speed)
• OU1 (Overvoltage during acceleration)
• OU2 (Overvoltage during deceleration)
• OU3 (Overvoltage running at constant speed)
• LU (Low voltage)
Operation and Trip mode Trip history (passed/4 times)
Charge lamp (Red) When the DC link circuit voltage is higher than 50V, the charge lamp is ON.
Overload Protects the inverter by electronic thermal overload relay and detection of inverter temperature.
Overvoltage detection Detects DC link circuit voltage (400V), and stops the inverter.
Undervoltage Detects DC link circuit undervoltage (200V), and stops the inverter.
Input phase loss Phase loss protection for power line input
Overheating Protects the inverter by detection of inverter temperature.
Short-circuit Shor-circuit protection for inverter output circuit
Ground fault Ground fault protection for inverter output circuit (detection at starting)
Motor overload • Protects the motor after the inverter trips.
• Electronic thermal overload relay can be selected for standard motor or fan ventilated.
Stall prevention • Controls the output frequency to prevent (overcurrent) trip when the output current exceeds the limit value
during acceleration.
• Lowers the output frequency to hold almost constant torque when the output current exceeds the limit value during
operation at constant speed.
• Controls the output frequency to prevent (overvoltage) trip when the DC link circuit voltage exceeds the limit
value during deceleration.
Auto reset When the inverter is tripped, it resets automatically and restart. 5-times auto reset can be selected.
Installation location Free from a dusty location, corrosive gases, oil mist, and direct sunlight. Indoor use only.
Altitude 1000m or less. (Applicable to 3000m with power derating: -10% / 1000m)
Ambient temperature -10˚ to +50˚C
Ambient humidity 5 to 95% RH (non-condensing)
Vibration 3mm at 2 to 9Hz, 1m/s2 at 9 to 200Hz
• Temperature: -25˚ to +65˚C • Humidity: 5 to 95% RH
Item Explanation
• OH1 (Overheating at heatsink)
• OH2 (External thermal relay tripped)
• OL (Motor overload)
• OLU (Inverter unit overload)
• Er1 (Memory error)
• Er3 (CPU error)
• Er8 (RS485 error)
Con
trol
Indi
catio
nP
rote
ctio
nC
ondi
tion
(inst
alla
tion
and
oper
atio
n)
Storage conditions
6 7
TERMINAL DESIGNATION
GSX600
Terminal functions
Terminal arrangement
Main circuit terminals
Input 1-phase
Output 3-phase
Control circuit terminals
G L1/L L2/L P1 P(+)
P(+) N(-) U V W G
30A 30B 30C FM X1 X2 X3 FWD REV P24 11 12 13 C1CM
L1/L, L2/N Power input Connect 1-phase 230V power supply. U, V, W Inverter output Connect 3-phase induction motor. P1, P(+) For DC REACTOR Connect the DC REACTOR (option) for power-factor
correcting or harmonics current reducing G Grounding Ground terminal for inverter chassis (housing).13 Potentiometer +10V DC power supply for setting POT (POT: 1 to 5kΩ).
power supply12 Voltage input 0 to +10V DC/0 to 100% (0 to +5V DC/0 to 100%)F01
(PID control) Used for PID control reference signal or feedback signal.C1 Current input 4 to 20mA DC/0 to 100%
(PID control) Used for PID control feedback signal or reference signal. 11 Common Common for analog signal FWD Forward operation FWD - P24/CM: ON .... The motor runs in the forward direction. command FWD - P24/CM: OFF..... The motor decelerates and stops.
REV Reverse operation REV - P24/CM: ON ..... The motor runs in the reverse direction. command REV - P24/CM: OFF..... The motor decelerates and stops. X1 Digital input 1
X2 Digital input 2 These terminals can be preset as follows. X3 Digital input 3
(SS1) Multistep freq. (SS1): 0, 1 different frequencies can be selectable.(SS2) select (SS1,SS2): 0 to 3 different frequencies can be selectable.(BX) Coast-to-stop (BX) - P24/CM: ON ..... Motor will coast-to-stop. command (No alarm signal will be output.)
(RST) Alarm reset (RST) - P24/CM: ON ..... Faults are reset.(This signal should be held for more than 0.1s.)
(THR) Trip comm. (Ex.fault) (THR) - P24/CM: OFF ..... "OH2 trip" occur and motor will coast-to-stop.(WE-KP) Write enable for Keypad (WE-KP) - P24/CM: ON..... The data will be changed by KEYPAD panel.- PID control (Hz/PID) - P24/CM: ON ..... The PID control is canceled, and (Hz/PID) cancel KEYPAD panel frequency setting ( or ) is effective.(LE) Link enable (RS485) (LE) - P24/CM: ON ..... The link operation is effective.P24 / CM P24: DC Voltage supply DC Voltage supply (+24V, max. 100mA)
CM: Common Common for digital signalFM Analog monitor • Output voltage(0 to 10V DC) is proportional to selected
function's value as follows. · Output frequency (0 to max. frequency) · Output current (0 to 200%)
· PID feedback value (0 to 100%) · DC link circuit voltage
11 (Common) • Bias value can be preset.30A, 30B, Alarm relay output Outputs a contact signal when protective function is activated.
30C Changeable exciting mode active or non-exciting mode activeby function No. F36.
Allowable maximum output current: 10mA
• Input impedance: 22kΩ• Allowable maximum input voltage: 15V DC• If input voltage is 10 to 15V DC, then the inverter estimates it at 10V DC .
• Input impedance: 250Ω• Allowable maximum input current: 30mA DC• If input current is 20 to 30mA DC, then the inverter estimates it at 20mA DC.
Same potential as CM.
When FWD and REV are simultaneously ON, themotor decelerates and stops.
* Sink type terminal specifications• ON state maximum input voltage: 2V(maximum source current: 6mA)• OFF state maximum terminal voltage: 24 to (allowablemaximum leakage current: 0.5mA) 27V0 frequency (All (SS1) and (SS2) signals are OFF.)is set by "F01".• The motor restarts from 0Hz by turning off BXwith the operation command(FWD or REV) ON.• Assigned to terminal X2 at factory setting.• During normal operating, this signal is ignored.• Assigned to terminal X3 at factory setting.This alarm signal is held internally.
For switch link operation to communication.DIPSW select: SW7Same potential as 11.Allowable maximum output current: 2mA
Contact rating:• 250V AC, 0.3A, cos ø=0.3 • 48V DC, 0.5A, non-inductive Applicable maximum voltage for CE marking (Low Voltage Directive)• 42V DC - Applicable maximum voltage for UL/cUL
Mai
n ci
rcui
t
Symbol Terminal name Function Remarks Func.Code
Ana
log
inpu
tD
igita
l inp
utR
elay
out
put
Ana
log
outp
ut
F01F01, H21
F01
F01, H21
F02
E01 toE03
C05 toC07
F00H20 toH25
F30, F31
F36
BASIC WIRING DIAGRAM
Keypad panel operationThe following diagram is for reference only. For detailed wiring diagrams, refer to the relevant instruction manual.
U
V
W
*Motor
M
13
12
11
C1
FWD
REV
X1
X2
P24/CM
X3
FM
P(+)
N(-)
GG
Alarm relay output
P1
P(+)
P1
P(+)
EWhen DCREACTOR is used
Analog meter
Analog monitor
To Terminal No. 11To G
Frequency setvoltage input(0 to 10V DC)
Frequency setcurrent input(4 to 20mA DC)
Forward operationcommandReverse operationcommand
*: Option
(*1)
30A
30B
30C30
32
1
L1/L
L2/N
Power supply
1-phase 200 to 240V50/60Hz
*MCCBor
ELCB
External operationThe following diagram is for reference only. For detailed wiring diagrams, refer to the relevant instruction manual.
U
V
W
*Motor
M
13
12
11
C1
FWD
REV
X1
X2
P24/CM
X3
FM
P(+)
N(-)
30A
30B
30C
G
*: Option
Alarm relay output
P1
P(+)
P1
P(+)
EWhen DCREACTOR is used
(*1)
G
30
L1/L
L2/N
Power supply
1-phase 200 to 240V50/60Hz
*MCCBor
ELCB
Connect the inverter to the power supply and the motor.Then, turn on the power to enable variable-speedoperation.Notes:1) To operate the inverter using the factory-settings,
proceed as follows:(1) Start/stop .................Press or key on
the keypad panel.(2) Setting frequency ....Use the frequency setting dial
(VR) on the keypad panel.2) To enable and keys for frequency setting,
select function code F01 and change the data from4 to 0. Change of the data code disables the VR(frequency setting dial).
3) Keep the control circuit wires at least 100 mm awayfrom the main circuit wires and put them in separateducts to prevent noise and resultant malfunctions.Where control wiring crosses the main wiring, ensurethat they cross each other at right angles.
4) For the wiring of the control circuit, use shielded ortwisted wires with the shortest possible length. (Whenusing shielded wires, connect one end of the shieldsto the inverter ground terminal and leave the otherend free.)
5) If there is a magnetic contactor or a solenoid closeto the inverter, mount a surge killer to the coil in aparallel connection. Keep the wiring length to aminimum.
*1 When connecting the optional DC reactor, remove thejumper wire from between P1 and P(+).
Notes:1) This wiring diagram shows the connection for stopping
the inverter or setting frequency through externalsignals. When “1” is set at F01, you can set afrequency by using input signal from 0 to 10V DC.When “2” is set at F01, you can set a frequency byusing an input signal between 4 and 20mA. In thiscase, set “1” at F02.
2) If there is a magnetic contactor or a solenoid closeto the inverter, mount a surge killer to the coil in aparallel connection. Keep the wiring length to aminimum.
3) To wire the control circuit, use shielded or twistedwires. When using shielded wires, connect the shieldsto G.
*1 When connecting the optional DC reactor, remove thejumper wire from between P1 and P(+).
6 7
TERMINAL DESIGNATION
GSX600
Terminal functions
Terminal arrangement
Main circuit terminals
Input 1-phase
Output 3-phase
Control circuit terminals
G L1/L L2/L P1 P(+)
P(+) N(-) U V W G
30A 30B 30C FM X1 X2 X3 FWD REV P24 11 12 13 C1CM
L1/L, L2/N Power input Connect 1-phase 230V power supply. U, V, W Inverter output Connect 3-phase induction motor. P1, P(+) For DC REACTOR Connect the DC REACTOR (option) for power-factor
correcting or harmonics current reducing G Grounding Ground terminal for inverter chassis (housing).13 Potentiometer +10V DC power supply for setting POT (POT: 1 to 5kΩ).
power supply12 Voltage input 0 to +10V DC/0 to 100% (0 to +5V DC/0 to 100%)F01
(PID control) Used for PID control reference signal or feedback signal.C1 Current input 4 to 20mA DC/0 to 100%
(PID control) Used for PID control feedback signal or reference signal. 11 Common Common for analog signal FWD Forward operation FWD - P24/CM: ON .... The motor runs in the forward direction. command FWD - P24/CM: OFF..... The motor decelerates and stops.
REV Reverse operation REV - P24/CM: ON ..... The motor runs in the reverse direction. command REV - P24/CM: OFF..... The motor decelerates and stops. X1 Digital input 1
X2 Digital input 2 These terminals can be preset as follows. X3 Digital input 3
(SS1) Multistep freq. (SS1): 0, 1 different frequencies can be selectable.(SS2) select (SS1,SS2): 0 to 3 different frequencies can be selectable.(BX) Coast-to-stop (BX) - P24/CM: ON ..... Motor will coast-to-stop. command (No alarm signal will be output.)
(RST) Alarm reset (RST) - P24/CM: ON ..... Faults are reset.(This signal should be held for more than 0.1s.)
(THR) Trip comm. (Ex.fault) (THR) - P24/CM: OFF ..... "OH2 trip" occur and motor will coast-to-stop.(WE-KP) Write enable for Keypad (WE-KP) - P24/CM: ON..... The data will be changed by KEYPAD panel.- PID control (Hz/PID) - P24/CM: ON ..... The PID control is canceled, and (Hz/PID) cancel KEYPAD panel frequency setting ( or ) is effective.(LE) Link enable (RS485) (LE) - P24/CM: ON ..... The link operation is effective.P24 / CM P24: DC Voltage supply DC Voltage supply (+24V, max. 100mA)
CM: Common Common for digital signalFM Analog monitor • Output voltage(0 to 10V DC) is proportional to selected
function's value as follows. · Output frequency (0 to max. frequency) · Output current (0 to 200%)
· PID feedback value (0 to 100%) · DC link circuit voltage
11 (Common) • Bias value can be preset.30A, 30B, Alarm relay output Outputs a contact signal when protective function is activated.
30C Changeable exciting mode active or non-exciting mode activeby function No. F36.
Allowable maximum output current: 10mA
• Input impedance: 22kΩ• Allowable maximum input voltage: 15V DC• If input voltage is 10 to 15V DC, then the inverter estimates it at 10V DC .
• Input impedance: 250Ω• Allowable maximum input current: 30mA DC• If input current is 20 to 30mA DC, then the inverter estimates it at 20mA DC.
Same potential as CM.
When FWD and REV are simultaneously ON, themotor decelerates and stops.
* Sink type terminal specifications• ON state maximum input voltage: 2V(maximum source current: 6mA)• OFF state maximum terminal voltage: 24 to (allowablemaximum leakage current: 0.5mA) 27V0 frequency (All (SS1) and (SS2) signals are OFF.)is set by "F01".• The motor restarts from 0Hz by turning off BXwith the operation command(FWD or REV) ON.• Assigned to terminal X2 at factory setting.• During normal operating, this signal is ignored.• Assigned to terminal X3 at factory setting.This alarm signal is held internally.
For switch link operation to communication.DIPSW select: SW7Same potential as 11.Allowable maximum output current: 2mA
Contact rating:• 250V AC, 0.3A, cos ø=0.3 • 48V DC, 0.5A, non-inductive Applicable maximum voltage for CE marking (Low Voltage Directive)• 42V DC - Applicable maximum voltage for UL/cUL
Mai
n ci
rcui
t
Symbol Terminal name Function Remarks Func.Code
Ana
log
inpu
tD
igita
l inp
utR
elay
out
put
Ana
log
outp
ut
F01F01, H21
F01
F01, H21
F02
E01 toE03
C05 toC07
F00H20 toH25
F30, F31
F36
BASIC WIRING DIAGRAM
Keypad panel operationThe following diagram is for reference only. For detailed wiring diagrams, refer to the relevant instruction manual.
U
V
W
*Motor
M
13
12
11
C1
FWD
REV
X1
X2
P24/CM
X3
FM
P(+)
N(-)
GG
Alarm relay output
P1
P(+)
P1
P(+)
EWhen DCREACTOR is used
Analog meter
Analog monitor
To Terminal No. 11To G
Frequency setvoltage input(0 to 10V DC)
Frequency setcurrent input(4 to 20mA DC)
Forward operationcommandReverse operationcommand
*: Option
(*1)
30A
30B
30C30
32
1
L1/L
L2/N
Power supply
1-phase 200 to 240V50/60Hz
*MCCBor
ELCB
External operationThe following diagram is for reference only. For detailed wiring diagrams, refer to the relevant instruction manual.
U
V
W
*Motor
M
13
12
11
C1
FWD
REV
X1
X2
P24/CM
X3
FM
P(+)
N(-)
30A
30B
30C
G
*: Option
Alarm relay output
P1
P(+)
P1
P(+)
EWhen DCREACTOR is used
(*1)
G
30
L1/L
L2/N
Power supply
1-phase 200 to 240V50/60Hz
*MCCBor
ELCB
Connect the inverter to the power supply and the motor.Then, turn on the power to enable variable-speedoperation.Notes:1) To operate the inverter using the factory-settings,
proceed as follows:(1) Start/stop .................Press or key on
the keypad panel.(2) Setting frequency ....Use the frequency setting dial
(VR) on the keypad panel.2) To enable and keys for frequency setting,
select function code F01 and change the data from4 to 0. Change of the data code disables the VR(frequency setting dial).
3) Keep the control circuit wires at least 100 mm awayfrom the main circuit wires and put them in separateducts to prevent noise and resultant malfunctions.Where control wiring crosses the main wiring, ensurethat they cross each other at right angles.
4) For the wiring of the control circuit, use shielded ortwisted wires with the shortest possible length. (Whenusing shielded wires, connect one end of the shieldsto the inverter ground terminal and leave the otherend free.)
5) If there is a magnetic contactor or a solenoid closeto the inverter, mount a surge killer to the coil in aparallel connection. Keep the wiring length to aminimum.
*1 When connecting the optional DC reactor, remove thejumper wire from between P1 and P(+).
Notes:1) This wiring diagram shows the connection for stopping
the inverter or setting frequency through externalsignals. When “1” is set at F01, you can set afrequency by using input signal from 0 to 10V DC.When “2” is set at F01, you can set a frequency byusing an input signal between 4 and 20mA. In thiscase, set “1” at F02.
2) If there is a magnetic contactor or a solenoid closeto the inverter, mount a surge killer to the coil in aparallel connection. Keep the wiring length to aminimum.
3) To wire the control circuit, use shielded or twistedwires. When using shielded wires, connect the shieldsto G.
*1 When connecting the optional DC reactor, remove thejumper wire from between P1 and P(+).
8 9
GSX600
PRGRESET
FUNCDATA STOP
RUN
KEYPAD PANEL FUNCTIONES AND OPERATION
Digital monitor• In Operation mode: Displays output
frequency,*1 or output current.• In Stop mode: Displays the set frequency.*2
• In Program mode: Displays function codesand data codes.
• In Trip mode: Displays code indicatingthe cause of the trip.
Program/Reset key• Switches between operation mode and
program mode.• When tripped: Releases the trip-stop state
and changes to operation mode after thecause of trip has been removed.
Function/Data key• In Operation mode: Switches the display
between output frequency and outputcurrent.
• In Stop mode: Switches the displaybetween set frequency and set current.
• In Program mode: Sets data for functioncodes. Some function code data can bechanged during operation.
Up/Down keys• In Operation mode: Increases or
decreases frequency (motor speed).• In Program mode: Increases or
decreases function code number anddata set value.
Frequency setting dial• Increases or decreases the frequency.
Active only when the function code is set to (inverter built-in volume).
Stop key• Stops the inverter.
In Operation mode: Invalid when thefunction code is set to(external operation).
Run key• Starts the inverter.
In Stop mode: Inactive when the functioncode is set to (externaloperation).
Keypad panel
When you press the key, the inverter gradually increases the frequency until 60Hz is reached to rotate the motorclockwise according to the factory-settings. To stop the motor, press the key. To increase or decrease the operationfrequency, adjust the frequency setting dial.For wiring connections, refer to the basic wiring diagram on page 9.
2. Selecting function codes and changing data codes
To select the function code and change the data code, proceed as follows:1 Press the key to select the program mode.2 Pressing the key alternates the displayed data between the function code and its data.3 With data displayed, press the key to change the data code.4 Press the key to update the data for the selected function code.* In step 2, if the key is pressed when the function code is displayed, only the function code changes sequentially(see below).
( ......)
Keypad panel operation method1. Turn on the power supply. The monitor shows data as illustrated above.
The keypad panel modes are classified in the following 5 modes:
Monitor
Displays the set Displays the output Displays the tripDisplays the function Displays the function requency, output frequency, output content or alarm code or data code. code or data code. current, or PID current, or PID history. (Lighting) (Lighting) command value. feedback value. (Lighting)
(Blinking) (Lighting)
Switches to Switches to Releases the tripSwitches to stop Switches to program mode program mode and switches tomode. operation mode.
while stopped. during operation. stop mode.
Changes the display between functioncode and data code, stores data code, Switches the digital display. Invalidand updates then function code.
Selects the function Selects the functioncode, increases/ code, increases/ Increases/decreases the frequency to be set. Displays the alarmdecreases the data decreases the data history.code number. code number.
Invalid Invalid Switches to Invalid Invalidoperation mode.
Invalid Switches to program Invalid Switches to stop Invalidmode. mode.
Keys
ModeMonitor, keys
Program mode(operation stopped)
Program mode(during operation) Stop mode Operation mode Trip mode
(Ex. Changing data code from to by selecting function mode )
To select other function codes,press the keys, the same way
Stop mode Program mode Function code Data code Changed
Stop mode
Stored
Frequency changeable with keys (digital setting)
Procedure for selecting function codes and data codes
8 9
GSX600
PRGRESET
FUNCDATA STOP
RUN
KEYPAD PANEL FUNCTIONES AND OPERATION
Digital monitor• In Operation mode: Displays output
frequency,*1 or output current.• In Stop mode: Displays the set frequency.*2
• In Program mode: Displays function codesand data codes.
• In Trip mode: Displays code indicatingthe cause of the trip.
Program/Reset key• Switches between operation mode and
program mode.• When tripped: Releases the trip-stop state
and changes to operation mode after thecause of trip has been removed.
Function/Data key• In Operation mode: Switches the display
between output frequency and outputcurrent.
• In Stop mode: Switches the displaybetween set frequency and set current.
• In Program mode: Sets data for functioncodes. Some function code data can bechanged during operation.
Up/Down keys• In Operation mode: Increases or
decreases frequency (motor speed).• In Program mode: Increases or
decreases function code number anddata set value.
Frequency setting dial• Increases or decreases the frequency.
Active only when the function code is set to (inverter built-in volume).
Stop key• Stops the inverter.
In Operation mode: Invalid when thefunction code is set to(external operation).
Run key• Starts the inverter.
In Stop mode: Inactive when the functioncode is set to (externaloperation).
Keypad panel
When you press the key, the inverter gradually increases the frequency until 60Hz is reached to rotate the motorclockwise according to the factory-settings. To stop the motor, press the key. To increase or decrease the operationfrequency, adjust the frequency setting dial.For wiring connections, refer to the basic wiring diagram on page 9.
2. Selecting function codes and changing data codes
To select the function code and change the data code, proceed as follows:1 Press the key to select the program mode.2 Pressing the key alternates the displayed data between the function code and its data.3 With data displayed, press the key to change the data code.4 Press the key to update the data for the selected function code.* In step 2, if the key is pressed when the function code is displayed, only the function code changes sequentially(see below).
( ......)
Keypad panel operation method1. Turn on the power supply. The monitor shows data as illustrated above.
The keypad panel modes are classified in the following 5 modes:
Monitor
Displays the set Displays the output Displays the tripDisplays the function Displays the function requency, output frequency, output content or alarm code or data code. code or data code. current, or PID current, or PID history. (Lighting) (Lighting) command value. feedback value. (Lighting)
(Blinking) (Lighting)
Switches to Switches to Releases the tripSwitches to stop Switches to program mode program mode and switches tomode. operation mode.
while stopped. during operation. stop mode.
Changes the display between functioncode and data code, stores data code, Switches the digital display. Invalidand updates then function code.
Selects the function Selects the functioncode, increases/ code, increases/ Increases/decreases the frequency to be set. Displays the alarmdecreases the data decreases the data history.code number. code number.
Invalid Invalid Switches to Invalid Invalidoperation mode.
Invalid Switches to program Invalid Switches to stop Invalidmode. mode.
Keys
ModeMonitor, keys
Program mode(operation stopped)
Program mode(during operation) Stop mode Operation mode Trip mode
(Ex. Changing data code from to by selecting function mode )
To select other function codes,press the keys, the same way
Stop mode Program mode Function code Data code Changed
Stop mode
Stored
Frequency changeable with keys (digital setting)
Procedure for selecting function codes and data codes
10 11
GSX600
FUNCTION SETTINGS
The functions in the yellow boxes can be set while the inverter is running. Other functions must be set while the inverter is stopped.
*1 Typical value of a standard 4-pole motor.
Function
Basicfunctions
Fundamental functions
No. NameSetting range Unit Min.
unitFactorysetting
Data protection 0: Data change enable - -
1: Data protection
Frequency command 0: KEYPAD operation ( or key)
1: Voltage input (terminal 12) (0 to +10V DC, 0 to +5V DC)
2: Current input (terminal C1) (4 to 20mA DC) - -
3: Voltage and current input (terminals 12 and C1)
4: Analog input (Internal Potentiometer)
Operation method 0: KEYPAD operation ( or key) - -
1: FWD or REV command signal operation
2: KEYPAD operation (FWD)
3: KEYPAD operation (REV)
Maximum frequency 50 to 120Hz Hz 1
Base frequency 25 to 120Hz Hz 1
Rated voltage 0 (Free) (Fixed) - -
Maximum voltage 0 (Free) (Fixed)
Acceleration time 0.0 (0.01s), 0.1 to 60.0 s s 0.1
Deceleration time 0.1 to 60.0 s s 0.1
Torque boost 0,1: for variable torque load - 1
2 to 31: for constant torque load
Electroni (Select) 0: Inactive
thermal overload relay 1: Active (for 4-pole standard motor) - -
2: Active (for 4-pole inverter motor)
(Level) Approx. 20 to 135% of rated current A 0.01
(Thermal time constant) 0.5 to 10.0 min min 0.1
Restart mode after 0: Inactive (Trip and alarm when power failure occurs.)
momentary power failure 1: Inactive (Trip and alarm when power recovers.)
2: Active (Momentarily stops and restarts at output - -
frequency from before power failure.)
3: Active (Momentarily stops and restarts at starting frequency.)
Frequenc (High) 0 to 120Hz Hz 1
limite (Low) Hz 1
Gain (for frequency 0: For 0 to +10V DC - -
setting signal) 1: For 0 to +5V DC
Bias frequency -120 to 120Hz Hz 1
(Starting freq.) 3Hz (Fixed) Hz -
DC brake (Braking level) 0 to 100% % 1
(Braking time) 0.0 (DC brake inactive), 0.1 to 30.0s s 0.1
Starting frequency (Freq.) 1 to 6Hz Hz 1
(Holding time) 0.0 (Fixed) - -
Stop frequency 1 to 6Hz Hz 1
Motor sound (Carrier freq.) 0 (0.75kHz), 1 to 15kHz kHz 1
(Sound tone) 0: Level 0
1: Level 1 - -
2: Level 2
3: Level 3
FM (Voltage adjust) 0 to 200% % 1
(Function) 0: Output frequency
1: Output current - -
2: PID feedback value
3: DC link circuit voltage
30RY operation mode 0: The relay (30) excites on trip mode - -
1: The relay (30) excites on normal mode
0
4
2
50
50
0
0
6.0
6.0
13
1
*1
5.0
0
70
0
0
0
3.0
50
0.0
1
0.0
1
15
0
100
0
0
The functions in the yellow boxes can be set while the inverter is running.Other functions must be set while the inverter is stopped.
Extension terminal functions
X1-X3Terminal
FunctionNo. Name
Setting range Unit Min.unit
Factorysetting
X1 terminal function Selects from the following items. - - 0X2 terminal function - - 2X3 terminal function - - 3
0: Multistep frequency select 1 [SS1]1: Multistep frequency select 2 SS2]2: Coast-to-stop command [BX]3: Alarm reset [RST]4: Trip command (External fault) [THR]5: Write enable for KEYPAD [WE-KP]6: PID control cancel [Hz/PID]7: Link enable (RS485: Option) [LE]
Control functions of frequency
Multi-HzControl
FunctionNo. Name
Setting range Unit Min.unit
Factorysetting
Jump HzControl
Jump (Jump freq. 1) 0 to 120Hz Hz 1 0 frequency (Jump freq. 2) Hz 1 0
(Jump freq. 3) Hz 1 0(Hysteresis) 0 to 30Hz Hz 1 3
Multistep (Freq. 1) 0.0 to 120Hz Hz 0.1 0.0frequency (Freq. 2) Hz 0.1 0.0setting (Freq. 3) Hz 0.1 0.0
Motor parameters
FunctionNo. Name
Setting range Unit Min.unit
Factorysetting
Motor Motor characteristics 0 to 10 - - 0
High Performance Functions
PID Control
FunctionNo. Name
Setting range Unit Min.unit
Factorysetting
HighPerformance
Functions
Operation time Display the inverter accumulated operation time 100hr 1 0Trip history Display trip history (passed/4 times) - - -Data initializing 0: Manual set value - - 0(Data reset) 1:Return to factory set valueAuto-reset (Times) 0: Inactive - 1 0
1: Active (5 times fixed)Fan stop operation 0: Inactive - - 0
1: Active (Fan stops at low temperature mode (up to 1.5kW))PID control(Mode select) 0: Inactive - - 0
1: Active (PID output: Normal operation mode)2: Active (PID output: Inverse operation mode)
(Feedback signal) 0: Terminal 12 (0 to 10V) - - 11: Terminal C1 (4 to 20mA)2: Terminal 12 (1 to 5V)
(P-gain) 0.01 to 10.0 p.u. 0.01 0.01(I-gain) 0.0: Inactive s 0.1 0.0
0.1 to 999s(D-gain) 0.0: Inactive s 0.01 0.00
0.01 to 10.0s(Feedback filter) 0.0 to 60.0s s 0.1 0.5
10 11
GSX600
FUNCTION SETTINGS
The functions in the yellow boxes can be set while the inverter is running. Other functions must be set while the inverter is stopped.
*1 Typical value of a standard 4-pole motor.
Function
Basicfunctions
Fundamental functions
No. NameSetting range Unit Min.
unitFactorysetting
Data protection 0: Data change enable - -
1: Data protection
Frequency command 0: KEYPAD operation ( or key)
1: Voltage input (terminal 12) (0 to +10V DC, 0 to +5V DC)
2: Current input (terminal C1) (4 to 20mA DC) - -
3: Voltage and current input (terminals 12 and C1)
4: Analog input (Internal Potentiometer)
Operation method 0: KEYPAD operation ( or key) - -
1: FWD or REV command signal operation
2: KEYPAD operation (FWD)
3: KEYPAD operation (REV)
Maximum frequency 50 to 120Hz Hz 1
Base frequency 25 to 120Hz Hz 1
Rated voltage 0 (Free) (Fixed) - -
Maximum voltage 0 (Free) (Fixed)
Acceleration time 0.0 (0.01s), 0.1 to 60.0 s s 0.1
Deceleration time 0.1 to 60.0 s s 0.1
Torque boost 0,1: for variable torque load - 1
2 to 31: for constant torque load
Electroni (Select) 0: Inactive
thermal overload relay 1: Active (for 4-pole standard motor) - -
2: Active (for 4-pole inverter motor)
(Level) Approx. 20 to 135% of rated current A 0.01
(Thermal time constant) 0.5 to 10.0 min min 0.1
Restart mode after 0: Inactive (Trip and alarm when power failure occurs.)
momentary power failure 1: Inactive (Trip and alarm when power recovers.)
2: Active (Momentarily stops and restarts at output - -
frequency from before power failure.)
3: Active (Momentarily stops and restarts at starting frequency.)
Frequenc (High) 0 to 120Hz Hz 1
limite (Low) Hz 1
Gain (for frequency 0: For 0 to +10V DC - -
setting signal) 1: For 0 to +5V DC
Bias frequency -120 to 120Hz Hz 1
(Starting freq.) 3Hz (Fixed) Hz -
DC brake (Braking level) 0 to 100% % 1
(Braking time) 0.0 (DC brake inactive), 0.1 to 30.0s s 0.1
Starting frequency (Freq.) 1 to 6Hz Hz 1
(Holding time) 0.0 (Fixed) - -
Stop frequency 1 to 6Hz Hz 1
Motor sound (Carrier freq.) 0 (0.75kHz), 1 to 15kHz kHz 1
(Sound tone) 0: Level 0
1: Level 1 - -
2: Level 2
3: Level 3
FM (Voltage adjust) 0 to 200% % 1
(Function) 0: Output frequency
1: Output current - -
2: PID feedback value
3: DC link circuit voltage
30RY operation mode 0: The relay (30) excites on trip mode - -
1: The relay (30) excites on normal mode
0
4
2
50
50
0
0
6.0
6.0
13
1
*1
5.0
0
70
0
0
0
3.0
50
0.0
1
0.0
1
15
0
100
0
0
The functions in the yellow boxes can be set while the inverter is running.Other functions must be set while the inverter is stopped.
Extension terminal functions
X1-X3Terminal
FunctionNo. Name
Setting range Unit Min.unit
Factorysetting
X1 terminal function Selects from the following items. - - 0X2 terminal function - - 2X3 terminal function - - 3
0: Multistep frequency select 1 [SS1]1: Multistep frequency select 2 SS2]2: Coast-to-stop command [BX]3: Alarm reset [RST]4: Trip command (External fault) [THR]5: Write enable for KEYPAD [WE-KP]6: PID control cancel [Hz/PID]7: Link enable (RS485: Option) [LE]
Control functions of frequency
Multi-HzControl
FunctionNo. Name
Setting range Unit Min.unit
Factorysetting
Jump HzControl
Jump (Jump freq. 1) 0 to 120Hz Hz 1 0 frequency (Jump freq. 2) Hz 1 0
(Jump freq. 3) Hz 1 0(Hysteresis) 0 to 30Hz Hz 1 3
Multistep (Freq. 1) 0.0 to 120Hz Hz 0.1 0.0frequency (Freq. 2) Hz 0.1 0.0setting (Freq. 3) Hz 0.1 0.0
Motor parameters
FunctionNo. Name
Setting range Unit Min.unit
Factorysetting
Motor Motor characteristics 0 to 10 - - 0
High Performance Functions
PID Control
FunctionNo. Name
Setting range Unit Min.unit
Factorysetting
HighPerformance
Functions
Operation time Display the inverter accumulated operation time 100hr 1 0Trip history Display trip history (passed/4 times) - - -Data initializing 0: Manual set value - - 0(Data reset) 1:Return to factory set valueAuto-reset (Times) 0: Inactive - 1 0
1: Active (5 times fixed)Fan stop operation 0: Inactive - - 0
1: Active (Fan stops at low temperature mode (up to 1.5kW))PID control(Mode select) 0: Inactive - - 0
1: Active (PID output: Normal operation mode)2: Active (PID output: Inverse operation mode)
(Feedback signal) 0: Terminal 12 (0 to 10V) - - 11: Terminal C1 (4 to 20mA)2: Terminal 12 (1 to 5V)
(P-gain) 0.01 to 10.0 p.u. 0.01 0.01(I-gain) 0.0: Inactive s 0.1 0.0
0.1 to 999s(D-gain) 0.0: Inactive s 0.01 0.00
0.01 to 10.0s(Feedback filter) 0.0 to 60.0s s 0.1 0.5
12 13
GSX600
PROTECTIVE FUNCTIONS
Function Description Digital monitor Operation
Overcurrent • The inverter stops when a short circuit During • Inverter output stops.
protection or an overcurrent due to an overload acceleration • The motor coasts to a stop.
occurs occurs on inverter output side. During • An alarm signal (1SPDT) is output.
• The inverter stops when a ground fault deceleration • The alarm remains until RESET
on the output side is detected at While running at command is issued. *1
startup. constant speed
Undervoltage • When the DC link circuit voltage drops below the undervoltage • Inverter output stops.
protection level, the inverter stops. • An alarm signal is output at power
recovery.*2
• The alarm remains until RESET
command is issued.*1, *2
Overvoltage • When the DC link circuit voltage During • Inverter output stops.
protection reaches the overvoltage level, the acceleration • The motor coasts to a stop.
inverter stops. During • An alarm signal (1SPDT) is output.
deceleration • The alarm remains until RESET
While running at command is issued. *1, *2
constant speed
Heat sink overheating • When an abnormal temperature rise is detected in the heat sink,
protection the inverter stops.
Electronic thermal • The inverter stops when internal electronic thermal overload
overload relay protection detected an overload in:
• the motor (4-pole standard or 4-pole forced air cooled inverter
motor) or the inverter itself.
External alarm input • The inverter stops on receiving external alarm signal.
Memory error • The inverter stops in the event of a memory error.
CPU error • The inverter stops in the event of a CPU error.
RS485 communication • The inverter stops in the event of a RS485 communication error.
error
*1 If the inverter power supply is cut off while an internal alarm signal is being output, the alarm signal cannot be retained.*2 No alarm signal is output when automatic restart function has been selected.
Notes:1) To issue RESET command, press the key on the keypad panel or connect terminals RST and P24/CM to clear
the trip condition after removing the cause of trip.2) Fault history data is stored for the past four trips. Select and press key to review the data.
EXTERNAL DIMENSIONS
FREQ.SET
GSX600
WARNING
CAUTION
511
0
120
5
4-5 6ELONGATED HOLE
STOP
17.2 D3TERMINAL 2
(M3.5) 9.7
D2
D2
D1
9.7
26.6
TERMINAL 3(M3.5)
TERMINAL 1(M2.5)
80676.5 6.5
1.5
D4
8
37.6
GSX600-0.4-SGSX600-0.75-S
GSX600-0.4-S 2.5 115 103.5 42.2 25 58.2GSX600-0.75-S 4.0 140 128.5 67.2 50 83.2
RatedType current D D1 D2 D3 D4
[A]
STOP
GSX600
WARNING
CAUTION
FREQ.SET
168
180
6
140
1286 62- 5
5 6
TERMINAL 3(M4)
TERMINAL 1(M2.5)
TERMINAL 2 (M4)
137(D)217.2 72
1239
.612
89.2
125.5
1282- 5
168
105.
2
6
6.8
66.3
Mounting hole positions
5
GSX600-2.2-S
GSX600
FREQ.SET
WARNING
CAUTION
STOP
TERMINAL 3 (M3.5)
TERMINAL 1(M2.5)
TERMINAL 2 (M3.5)
110986 6
63.5
2- 5
2- 5
5
6
8
118
118
130
149 (D)217.2 64
10.7
31.6
10.781.2
137.5
98
97.2
66
Mounting hole positions5
GSX600-1.5-S
12 13
GSX600
PROTECTIVE FUNCTIONS
Function Description Digital monitor Operation
Overcurrent • The inverter stops when a short circuit During • Inverter output stops.
protection or an overcurrent due to an overload acceleration • The motor coasts to a stop.
occurs occurs on inverter output side. During • An alarm signal (1SPDT) is output.
• The inverter stops when a ground fault deceleration • The alarm remains until RESET
on the output side is detected at While running at command is issued. *1
startup. constant speed
Undervoltage • When the DC link circuit voltage drops below the undervoltage • Inverter output stops.
protection level, the inverter stops. • An alarm signal is output at power
recovery.*2
• The alarm remains until RESET
command is issued.*1, *2
Overvoltage • When the DC link circuit voltage During • Inverter output stops.
protection reaches the overvoltage level, the acceleration • The motor coasts to a stop.
inverter stops. During • An alarm signal (1SPDT) is output.
deceleration • The alarm remains until RESET
While running at command is issued. *1, *2
constant speed
Heat sink overheating • When an abnormal temperature rise is detected in the heat sink,
protection the inverter stops.
Electronic thermal • The inverter stops when internal electronic thermal overload
overload relay protection detected an overload in:
• the motor (4-pole standard or 4-pole forced air cooled inverter
motor) or the inverter itself.
External alarm input • The inverter stops on receiving external alarm signal.
Memory error • The inverter stops in the event of a memory error.
CPU error • The inverter stops in the event of a CPU error.
RS485 communication • The inverter stops in the event of a RS485 communication error.
error
*1 If the inverter power supply is cut off while an internal alarm signal is being output, the alarm signal cannot be retained.*2 No alarm signal is output when automatic restart function has been selected.
Notes:1) To issue RESET command, press the key on the keypad panel or connect terminals RST and P24/CM to clear
the trip condition after removing the cause of trip.2) Fault history data is stored for the past four trips. Select and press key to review the data.
EXTERNAL DIMENSIONS
FREQ.SET
GSX600
WARNING
CAUTION
511
0
120
5
4-5 6ELONGATED HOLE
STOP
17.2 D3TERMINAL 2
(M3.5) 9.7
D2
D2
D1
9.7
26.6
TERMINAL 3(M3.5)
TERMINAL 1(M2.5)
80676.5 6.5
1.5
D4
8
37.6
GSX600-0.4-SGSX600-0.75-S
GSX600-0.4-S 2.5 115 103.5 42.2 25 58.2GSX600-0.75-S 4.0 140 128.5 67.2 50 83.2
RatedType current D D1 D2 D3 D4
[A]
STOP
GSX600
WARNING
CAUTION
FREQ.SET
168
180
6
140
1286 62- 5
5 6
TERMINAL 3(M4)
TERMINAL 1(M2.5)
TERMINAL 2 (M4)
137(D)217.2 72
1239
.612
89.2
125.5
1282- 5
168
105.
2
6
6.8
66.3
Mounting hole positions
5
GSX600-2.2-S
GSX600
FREQ.SET
WARNING
CAUTION
STOP
TERMINAL 3 (M3.5)
TERMINAL 1(M2.5)
TERMINAL 2 (M3.5)
110986 6
63.5
2- 5
2- 5
5
6
8
118
118
130
149 (D)217.2 64
10.7
31.6
10.781.2
137.5
98
97.2
66
Mounting hole positions5
GSX600-1.5-S
15
GSX60014
(DCR: induttanza CC)
OPTIONS
StandardsAccordance with directives and their amendments:• EMC Directive 89/336/EEC (Electromagnetic Compatibility)• Low Voltage Directive 73/23/EEC (LVD)
For assessment of conformity the following standards have been taken into consideration: EN 61800-3 : 1997 EN 50178 : 1997
Serial communication and other accessories
Name (type)
RS485 communication is optional on the GSX600.An optional card must be mounted on this control board.Three types of option card: OPC-C11S-RSA, OPC-C11S-RSB,and OPC-C11S-RSC, are available depending on the applicableinverter.The following operations are possible from personalcomputers, PLCs and similar host controllers through RS485communication.• Frequency setting, forward rotation, backward rotation, stop, free-
run, alarm cancel, and other running operations• Monitoring output frequency, output amperage, operating
conditions, alarm content, etc.• Setting function codesUp to 31 inverters can be connected to one line andcontrolled by one host controller.Easy host controller program development for transmission framesfixed at 16 bytes of character data.Refer to the dimensions in RS option dimensions chat on page 17.
Serial transmission protocol
Items SpecificationsPhysical level EIA RS-485 standard (Two-phase)No. of linked inverters 1 host, 31 inverters (station addresses: 1 to 31)Transmission rate 19200, 9600, 4800, 2400, 1200 BPSSynchronization Start-stop systemTransmission system Half duplexTransmission protocol Polling/selecting, broadcastCharacter set ASCII 7 bitCharacter length 8 bit, 7 bit selection possibleElectrical separation Maximum 500 mStop bit length 1 bit, 2 bit selection possibleFrame length Standard frame:
16 byte fixed; compressed frame: 8 or 12 byteParity None, even, odd selection possibleError check system Checksum, parity, framing error
Personal computerinterface card
(OPC-C11S-RS)
EMC Filters
Invertertype
GSX600-0.4-S
GSX600-0.75-S
GSX600-1.5-S
GSX600-2.2-S
Filter Ratedcurrent
Ratedvoltage
DimensionsLxWxH[mm]
MountingdimensionsYxX [mm]
CableL1 [mm]
Mass+
[kg]
Inverterfixing
EFL-0.75C11-7
EFL-1.5C11-7
EFL-2.2C11-7
12A
20A
29A
1ph
240Vac
180x86x38
190x117x46
240x148x46
155,5x60
165x89
216x118
125
140
150
0,7
1,2
1,5
M4x12 (4)
M4x16 (4)
M4x16 (4)
Wiring Equipment
Single-phase230V
Powersupplyvoltage
GSX600-0.4-SGSX600-0.75-SGSX600-1.5-SGSX600-2.2-S
Nominalappliedmotors
[kW]
Invertertype
Molded-case circuit breaker (MCCB)Earth leakage circuit breaker (ELCB)
Rated current [A]
0.40.751.52.2
Magnetic contactor (MC)
Input circuit
Recommended wire size [mm2] (Refer to notes)
WithDCR
Withoutreactor
WithDCR
OutputcircuitWithout
reactor
Input circuit [R, S, T]
WithDCR
Withoutreactor
Outputcircuit
[U, V, W,]
DCRcircuit
[P1, P(+)]
Controlwiring
6101520
10152030
6101520
2.0 (2.0)
3.5 (2.0)
2.0 (2.0)
- (2.0)
5.5 (2.0)
2.0 (2.0)
2.0 (2.0)
2.0 (2.0)
3.5 (2.0)
0.5
Accessories
For correct use and availability, contact Silectron Sistemi. Suppresses induced lightning surges from power source, thusprotecting all equipment connected to the power source.
Name (Type) Function
Arrester, surge absorber,surge killer
Connected to the output circuit of low-noise inverter (carrier frequency range: 8 to 15kHz), this filter has the following functions:1 Suppressing fluctuation of motor terminal voltage.
Protects the motor insulation from being damaged by surge voltage.2 Suppressing leak current from output side wiring.
Reduces the leak current caused when several motors are operated in parallel or connected with long wiring.3 Suppressing radial noise or inductive noise from output side wiring.Note: When connecting this filter, be sure to set the carrier frequency (F26) to 8kHz or over
Output circuit filter(OFL- - )
DC Reactor (DCR)(DCR2- )
The inverter input power factor is lowered because of harmonics in input waveform. For power factor correction, a DCreactor can be used in the DC intermediate inverter circuit, connected to P1 and P(+) terminals.
Others Copy parameter unit and rail mounting base (used to mount the inverter on IEC compliance 35mm rall (up to 0.75 kW))are also available.
Rail Mounting
Base
(MAC 9)
72.4 9.8 5.5
120
1.6
External dimensions
[Unit: mm]
Rail mounting base
G L’ N’
GL N
X
W
L’
H
Y L
Filters external dimensions
15
GSX60014
(DCR: induttanza CC)
OPTIONS
StandardsAccordance with directives and their amendments:• EMC Directive 89/336/EEC (Electromagnetic Compatibility)• Low Voltage Directive 73/23/EEC (LVD)
For assessment of conformity the following standards have been taken into consideration: EN 61800-3 : 1997 EN 50178 : 1997
Serial communication and other accessories
Name (type)
RS485 communication is optional on the GSX600.An optional card must be mounted on this control board.Three types of option card: OPC-C11S-RSA, OPC-C11S-RSB,and OPC-C11S-RSC, are available depending on the applicableinverter.The following operations are possible from personalcomputers, PLCs and similar host controllers through RS485communication.• Frequency setting, forward rotation, backward rotation, stop, free-
run, alarm cancel, and other running operations• Monitoring output frequency, output amperage, operating
conditions, alarm content, etc.• Setting function codesUp to 31 inverters can be connected to one line andcontrolled by one host controller.Easy host controller program development for transmission framesfixed at 16 bytes of character data.Refer to the dimensions in RS option dimensions chat on page 17.
Serial transmission protocol
Items SpecificationsPhysical level EIA RS-485 standard (Two-phase)No. of linked inverters 1 host, 31 inverters (station addresses: 1 to 31)Transmission rate 19200, 9600, 4800, 2400, 1200 BPSSynchronization Start-stop systemTransmission system Half duplexTransmission protocol Polling/selecting, broadcastCharacter set ASCII 7 bitCharacter length 8 bit, 7 bit selection possibleElectrical separation Maximum 500 mStop bit length 1 bit, 2 bit selection possibleFrame length Standard frame:
16 byte fixed; compressed frame: 8 or 12 byteParity None, even, odd selection possibleError check system Checksum, parity, framing error
Personal computerinterface card
(OPC-C11S-RS)
EMC Filters
Invertertype
GSX600-0.4-S
GSX600-0.75-S
GSX600-1.5-S
GSX600-2.2-S
Filter Ratedcurrent
Ratedvoltage
DimensionsLxWxH[mm]
MountingdimensionsYxX [mm]
CableL1 [mm]
Mass+
[kg]
Inverterfixing
EFL-0.75C11-7
EFL-1.5C11-7
EFL-2.2C11-7
12A
20A
29A
1ph
240Vac
180x86x38
190x117x46
240x148x46
155,5x60
165x89
216x118
125
140
150
0,7
1,2
1,5
M4x12 (4)
M4x16 (4)
M4x16 (4)
Wiring Equipment
Single-phase230V
Powersupplyvoltage
GSX600-0.4-SGSX600-0.75-SGSX600-1.5-SGSX600-2.2-S
Nominalappliedmotors
[kW]
Invertertype
Molded-case circuit breaker (MCCB)Earth leakage circuit breaker (ELCB)
Rated current [A]
0.40.751.52.2
Magnetic contactor (MC)
Input circuit
Recommended wire size [mm2] (Refer to notes)
WithDCR
Withoutreactor
WithDCR
OutputcircuitWithout
reactor
Input circuit [R, S, T]
WithDCR
Withoutreactor
Outputcircuit
[U, V, W,]
DCRcircuit
[P1, P(+)]
Controlwiring
6101520
10152030
6101520
2.0 (2.0)
3.5 (2.0)
2.0 (2.0)
- (2.0)
5.5 (2.0)
2.0 (2.0)
2.0 (2.0)
2.0 (2.0)
3.5 (2.0)
0.5
Accessories
For correct use and availability, contact Silectron Sistemi. Suppresses induced lightning surges from power source, thusprotecting all equipment connected to the power source.
Name (Type) Function
Arrester, surge absorber,surge killer
Connected to the output circuit of low-noise inverter (carrier frequency range: 8 to 15kHz), this filter has the following functions:1 Suppressing fluctuation of motor terminal voltage.
Protects the motor insulation from being damaged by surge voltage.2 Suppressing leak current from output side wiring.
Reduces the leak current caused when several motors are operated in parallel or connected with long wiring.3 Suppressing radial noise or inductive noise from output side wiring.Note: When connecting this filter, be sure to set the carrier frequency (F26) to 8kHz or over
Output circuit filter(OFL- - )
DC Reactor (DCR)(DCR2- )
The inverter input power factor is lowered because of harmonics in input waveform. For power factor correction, a DCreactor can be used in the DC intermediate inverter circuit, connected to P1 and P(+) terminals.
Others Copy parameter unit and rail mounting base (used to mount the inverter on IEC compliance 35mm rall (up to 0.75 kW))are also available.
Rail Mounting
Base
(MAC 9)
72.4 9.8 5.5
120
1.6
External dimensions
[Unit: mm]
Rail mounting base
G L’ N’
GL N
X
W
L’
H
Y L
Filters external dimensions
1716
BONFIGLIOLI GROUP SERIES GSX600 INVERTERSCAN BE USED FOR ALMOST ALL INDUSTRIAL PLANT AND EQUIPMENT AREAS
Fans
• Air-conditioning system (for factory, building, office,hospital, clean room, shop, and cattle barn)
• Dryer• Boiler fan• Fans for controlling furnace temperature• Roof fans controlled as a group• Refrigerator• Compressor• Built-in blower in a film-manufacturing machine• Cooling-tower fans• Ventilating fans• Air-conditioning equipment
Food processing machines• Food mixing machine• Food slicer• Grain milling machine (bread,
cake, noodles)• Tea making machine• Rice cleaning machine
Paper making/textile machinery• Spinning machine• Knitting machine• Textile printing machine• Industrial sawing machine• Synthetic fiber manufacturing plant
Other machinery• Automated feed/medicine mixer• Commercial-use washing machine• Offset printing press• Book-binding machine• Car-washing machine• Shredder• Dishwasher• Test equipment• Crusher
Electric pumps• Tankless water supply system• Submersible motor pump• Vacuum pump• Fountain pump• Cooling water pump• Circulating hot water pump• Well pump• Agricultural storage pump• Water treatment system• Constant-flow pump• Sludge pump
Packaging machinery
• Individual packaging/inner- packaging machine• Packing machine• Outer-packaging machine
Machine tools• Grinding machine• Sanding machine• Milling machine• Lathe• Drilling machine• Turntable• Work positioning machine• PC board drilling machine• Winding machine• Press
Chemical machinery/woodworking machines
• Fluid mixing machine• Extruder• Vibrator• Centrifugal separator• Coating machine• Take-up roller• Routing machine• Sanding machine• Planing machine
Application to standard motors
• Torque characteristics and temperature riseWhen the inverter is used to operate a standardmotor, the temperature rises a little higher thanduring operation by a commercial power supply.The cooling effect decreases in the low-speedrange, reducing the allowable output torque. (If aconstant torque is required in the low-speed range,use a motor equipped with a separately ventilatingfan).
• VibrationUse of an inverter does not increase vibration ofa standard motor, but when the motor is mountedto a machine, resonance may be caused by thenatural frequencies including the natural frequencyof the machine system. * We recommend thatyou use rubber coupling or anti-vibration rubber.* We also recommend that you use the inverterjump frequency control function to avoid resonancepoint in the motor operation.Note that operation of a 2-pole motor at 60Hz orover may cause abnormal vibration.
• NoiseWhen an inverter drives a standard motor, themotor noise level increases compared with beingdriven by a commercial power supply.To reduce noise, set the inverter carrier frequencyat a high level. High-speed operation at 60Hz orover can result in more noise.
Application to special motors
• Explosion-proof motorsWhen driving an explosion-proof motor with aninverter, use a combination of a motor and aninverter that has been approved in advance. Suchapproved products are available in our specialproduct series. Contact Silectron Sistemi.
• Submersible motors and pumpsThese motors have a larger rated current thanstandard motors. Select the inverter capacity sothat these motors can run within the inverter-ratedcurrent.These motors differ from standard motors inthermal characteristics. Set a small value accordingto the motor’s thermal time constant for settingelectronic thermal relay function.
• Brake motorsFor motors with parallel-connection brakes, obtainthe brake power from the primary circuit(commercial power supply). If you connect thebrake power to the inverter power output circuitby mistake, problems may occur.Do not use inverters for driving motors equippedwith series-connection brakes.
• Geared motorsWhen the power transmission mechanism usesan o i l - l ub r i ca ted gearbox o r speedchanger/reducer, continuous motor operation atlow speed may cause poor lubrication.
• Synchronous motorsIt is necessary to use software suitable for themotor type.Contact Silectron Sistemi for details.
• Single-phase motorsSingle-phase motors are not suitable for inverter-driven variable speed operation.Use a three-phase motor.* Even if a single-phase power supply is available,use a three-phase motor, because the inverterprovides three-phase output.
Combination with peripheral device
• Installation locationUse the inverter in an ambient temperature rangebetween -10˚ and 50˚C.Install an inverter on non-flammable material.The inverter and braking resistor surfaces becomehot under certain operating conditions.
• Installing Auto Breaker (MCCB)Install Silectron Sistemi Auto Breaker (MCCB) orearth-leakage circuit breaker in the primary circuitof the inverter to protect wires.
• Magnetic contactor in the secondary circuitIf a magnetic contactor is mounted in thesecondary circuit for switching to the motoroperation by commercial power supply or for anyother purposes, ensure that the inverter and themotor are stopped before you turn on or off thecontactor.
• Magnetic contactor in the primary circuitDo not open or close the magnetic contactor inthe primary circuit more than once an hour.If frequent starts and stops are required duringmotor operation, send FWD and REV signals toand from the control terminal.
• Protecting the motorWhen you drive a motor with an inverter, the motorcan be protected with an electronic thermal relayfunction of the inverter.
In addition to the operation level, set the motortype (standard motor, inverter motor). For high-speed motors or water-cooled motors, set a smallvalue as the thermal time constant and protectthe motor in combination with the cooling systemOFF signal.
When driving several motors with an inverter,connect a thermal overload relay to each motorand turn on the inverter’s electronic thermal relay.
If you connect the motor thermal relay to the motorwith a long cable, high-frequency current mayflow into the wiring floating capacity. This maycause the relay to trip at a current lower than theset value for the thermal relay. If this happens,lower the carrier frequency or use the output circuitfilter (OFL).
• Power-factor correcting capacitorDo not mount the power-factor correcting capacitorin the inverter primary circuit. (Use the DC reactorto improve the inverter power factor.)Do not use the power-factor correcting capacitorin the inverter secondary circuit. Overcurrent tripwill occur, disabling motor operation.
Reducing noiseUse of filter and shielded wires are typicalmeasures against noise that meets EMCDirectives. For details, refer to the operationprocedure manual.
• Measures against surge currentIf OV trip occurs while the inverter is stopped oroperated under a light load, it is assumed that thesurge current is generated by open/close of thephase-advancing capacitor in the power system.* Connect a DC reactor to the inverter.
• Megger testWhen checking insulation resistance of the inverter,use a 500V megger and follow the instructionsdescribed in the instruction manual.
Wiring
• Control circuit wiring lengthWhen conducting a remote control, limit the wiringlength between the inverter and the operator boxto 20m or less and use twisted shield cable.
• Wiring length between inverter and motorIf long wiring is used between the inverter andthe motor, the inverter will overheat or trip becauseof overcurrent (under the influence of high-frequency current flowing into the floating capacity)in the wires connected to the phases. Ensure thatthe wiring is shorter than 50m.If 50m must be exceeded, lower the carrierfrequency or mount an output circuit filter (OFL).
• Wiring sizeSelect a cable with a sufficient capacity by referringto the current value or recommended wire size.
• GroundingSecurely ground the inverter using the groundingterminal.
Selecting inverter capacity
• Driving standard motorSelect an inverter from the capacity range ofnominal applied motors shown in the inverterstandard specifications table. When large startingtorque is required or acceleration or decelerationis required in a short time, select an inverter witha capacity one class greater than the standard.
• Driving special motorSelect an inverter that meets the followingcondition:Inverter rated current > Motor rated current
Transportation, storage inverters
When transporting or storing inverters, select theprocedures and places that meet theenvironmental conditions given in the inverterspecifications.Ensure the above environmental conditions aremet also when transporting an inverter mountedto a machine.
NOTES
GSX600
1716
BONFIGLIOLI GROUP SERIES GSX600 INVERTERSCAN BE USED FOR ALMOST ALL INDUSTRIAL PLANT AND EQUIPMENT AREAS
Fans
• Air-conditioning system (for factory, building, office,hospital, clean room, shop, and cattle barn)
• Dryer• Boiler fan• Fans for controlling furnace temperature• Roof fans controlled as a group• Refrigerator• Compressor• Built-in blower in a film-manufacturing machine• Cooling-tower fans• Ventilating fans• Air-conditioning equipment
Food processing machines• Food mixing machine• Food slicer• Grain milling machine (bread,
cake, noodles)• Tea making machine• Rice cleaning machine
Paper making/textile machinery• Spinning machine• Knitting machine• Textile printing machine• Industrial sawing machine• Synthetic fiber manufacturing plant
Other machinery• Automated feed/medicine mixer• Commercial-use washing machine• Offset printing press• Book-binding machine• Car-washing machine• Shredder• Dishwasher• Test equipment• Crusher
Electric pumps• Tankless water supply system• Submersible motor pump• Vacuum pump• Fountain pump• Cooling water pump• Circulating hot water pump• Well pump• Agricultural storage pump• Water treatment system• Constant-flow pump• Sludge pump
Packaging machinery
• Individual packaging/inner- packaging machine• Packing machine• Outer-packaging machine
Machine tools• Grinding machine• Sanding machine• Milling machine• Lathe• Drilling machine• Turntable• Work positioning machine• PC board drilling machine• Winding machine• Press
Chemical machinery/woodworking machines
• Fluid mixing machine• Extruder• Vibrator• Centrifugal separator• Coating machine• Take-up roller• Routing machine• Sanding machine• Planing machine
Application to standard motors
• Torque characteristics and temperature riseWhen the inverter is used to operate a standardmotor, the temperature rises a little higher thanduring operation by a commercial power supply.The cooling effect decreases in the low-speedrange, reducing the allowable output torque. (If aconstant torque is required in the low-speed range,use a motor equipped with a separately ventilatingfan).
• VibrationUse of an inverter does not increase vibration ofa standard motor, but when the motor is mountedto a machine, resonance may be caused by thenatural frequencies including the natural frequencyof the machine system. * We recommend thatyou use rubber coupling or anti-vibration rubber.* We also recommend that you use the inverterjump frequency control function to avoid resonancepoint in the motor operation.Note that operation of a 2-pole motor at 60Hz orover may cause abnormal vibration.
• NoiseWhen an inverter drives a standard motor, themotor noise level increases compared with beingdriven by a commercial power supply.To reduce noise, set the inverter carrier frequencyat a high level. High-speed operation at 60Hz orover can result in more noise.
Application to special motors
• Explosion-proof motorsWhen driving an explosion-proof motor with aninverter, use a combination of a motor and aninverter that has been approved in advance. Suchapproved products are available in our specialproduct series. Contact Silectron Sistemi.
• Submersible motors and pumpsThese motors have a larger rated current thanstandard motors. Select the inverter capacity sothat these motors can run within the inverter-ratedcurrent.These motors differ from standard motors inthermal characteristics. Set a small value accordingto the motor’s thermal time constant for settingelectronic thermal relay function.
• Brake motorsFor motors with parallel-connection brakes, obtainthe brake power from the primary circuit(commercial power supply). If you connect thebrake power to the inverter power output circuitby mistake, problems may occur.Do not use inverters for driving motors equippedwith series-connection brakes.
• Geared motorsWhen the power transmission mechanism usesan o i l - l ub r i ca ted gearbox o r speedchanger/reducer, continuous motor operation atlow speed may cause poor lubrication.
• Synchronous motorsIt is necessary to use software suitable for themotor type.Contact Silectron Sistemi for details.
• Single-phase motorsSingle-phase motors are not suitable for inverter-driven variable speed operation.Use a three-phase motor.* Even if a single-phase power supply is available,use a three-phase motor, because the inverterprovides three-phase output.
Combination with peripheral device
• Installation locationUse the inverter in an ambient temperature rangebetween -10˚ and 50˚C.Install an inverter on non-flammable material.The inverter and braking resistor surfaces becomehot under certain operating conditions.
• Installing Auto Breaker (MCCB)Install Silectron Sistemi Auto Breaker (MCCB) orearth-leakage circuit breaker in the primary circuitof the inverter to protect wires.
• Magnetic contactor in the secondary circuitIf a magnetic contactor is mounted in thesecondary circuit for switching to the motoroperation by commercial power supply or for anyother purposes, ensure that the inverter and themotor are stopped before you turn on or off thecontactor.
• Magnetic contactor in the primary circuitDo not open or close the magnetic contactor inthe primary circuit more than once an hour.If frequent starts and stops are required duringmotor operation, send FWD and REV signals toand from the control terminal.
• Protecting the motorWhen you drive a motor with an inverter, the motorcan be protected with an electronic thermal relayfunction of the inverter.
In addition to the operation level, set the motortype (standard motor, inverter motor). For high-speed motors or water-cooled motors, set a smallvalue as the thermal time constant and protectthe motor in combination with the cooling systemOFF signal.
When driving several motors with an inverter,connect a thermal overload relay to each motorand turn on the inverter’s electronic thermal relay.
If you connect the motor thermal relay to the motorwith a long cable, high-frequency current mayflow into the wiring floating capacity. This maycause the relay to trip at a current lower than theset value for the thermal relay. If this happens,lower the carrier frequency or use the output circuitfilter (OFL).
• Power-factor correcting capacitorDo not mount the power-factor correcting capacitorin the inverter primary circuit. (Use the DC reactorto improve the inverter power factor.)Do not use the power-factor correcting capacitorin the inverter secondary circuit. Overcurrent tripwill occur, disabling motor operation.
Reducing noiseUse of filter and shielded wires are typicalmeasures against noise that meets EMCDirectives. For details, refer to the operationprocedure manual.
• Measures against surge currentIf OV trip occurs while the inverter is stopped oroperated under a light load, it is assumed that thesurge current is generated by open/close of thephase-advancing capacitor in the power system.* Connect a DC reactor to the inverter.
• Megger testWhen checking insulation resistance of the inverter,use a 500V megger and follow the instructionsdescribed in the instruction manual.
Wiring
• Control circuit wiring lengthWhen conducting a remote control, limit the wiringlength between the inverter and the operator boxto 20m or less and use twisted shield cable.
• Wiring length between inverter and motorIf long wiring is used between the inverter andthe motor, the inverter will overheat or trip becauseof overcurrent (under the influence of high-frequency current flowing into the floating capacity)in the wires connected to the phases. Ensure thatthe wiring is shorter than 50m.If 50m must be exceeded, lower the carrierfrequency or mount an output circuit filter (OFL).
• Wiring sizeSelect a cable with a sufficient capacity by referringto the current value or recommended wire size.
• GroundingSecurely ground the inverter using the groundingterminal.
Selecting inverter capacity
• Driving standard motorSelect an inverter from the capacity range ofnominal applied motors shown in the inverterstandard specifications table. When large startingtorque is required or acceleration or decelerationis required in a short time, select an inverter witha capacity one class greater than the standard.
• Driving special motorSelect an inverter that meets the followingcondition:Inverter rated current > Motor rated current
Transportation, storage inverters
When transporting or storing inverters, select theprocedures and places that meet theenvironmental conditions given in the inverterspecifications.Ensure the above environmental conditions aremet also when transporting an inverter mountedto a machine.
NOTES
GSX600