Savch S200 Series User manual
S200 Series Inverter
VF General Type
User Manual
User Manual
S200 Series Inverter
VF General Type
User Manual
File No. 520000201332
Vision No. V1.2
Filing time 2016-04-01
SAVCH electric provide a full range of technical support for our customers.
All users could contact with the nearest SAVCH office or service center,
also could contact with our headquarters directly.
SAVCH Electric reserves the copyrights and all rights,
Subject to change without further notice.
S200-4T7.5G~4T15P Diagram for removing and mounting the front cover
Remove the front cover according to the following steps:
Assemble the front cover according to the following steps:
CONTENT
PREFACE ......................................................................................................................................1
1. SAFETY INSTRUCTIONS ..........................................................................................................2
1.1 Notes for Operation ............................................................................................................2
1.2 Notes for Operation Environment .......................................................................................4
2. DESCRIPTIONS FOR SAVCH AND INSTALLATION .................................................................5
2.1 Operation Environment.......................................................................................................5
2.2 Model Description...............................................................................................................6
2.3 Product Specification..........................................................................................................7
2.4 Wiring...............................................................................................................................13
2.5 External Dimensions.........................................................................................................15
3. DESCRIPTION OF OPERATORS ............................................................................................17
3.1 Keyboard Description for IP03/IP05 Digital Operator ........................................................17
3.2 LED Monitor Descriptions.................................................................................................18
3.3 Preliminary Operation-Not Connecting With Motor ...........................................................19
4. LIST OF DESCRIPTIONS FOR FUNCTIONAL PARAMETERS ...............................................21
5. DESCRIPTION OF FUNCTIONAL PARAMETERS...................................................................28
0 System parameters .............................................................................................................28
1 Basic Parameters................................................................................................................29
2 External Terminal Parameters.............................................................................................34
3 Analog output / input function parameters ...........................................................................39
4 Multi-step Speed and Program Operation Parameters ........................................................41
5 Special Parameters.............................................................................................................41
6 Motor setting parameters.....................................................................................................45
7 Protection Parameters.........................................................................................................45
8 Communication Parameters ................................................................................................49
11 Special Parameters ...........................................................................................................56
12 Special Parameters ...........................................................................................................56
13 Special Parameters ...........................................................................................................57
14 Factory Parameters ...........................................................................................................58
6. TROUBLE SHOOTING.............................................................................................................59
6.1 Fault and Corrective Measures.........................................................................................59
6.2 Troubleshooting for Faults In General...............................................................................61
7. MAINTENANCE AND AMBIENT ELEMENTS...........................................................................62
1
PREFACE
Thank you for choosing SAVCH inverter! This instruction manual, which includes operation descriptions and
notes for maintenance, shall be delivered to the end-user.
For safety running and effective operation, this instruction manual shall be read thoroughly prior to use,
which shall also be preserved for later use. Provided problems occur and solution is not provided in this
instruction manual, contact your SAVCH ELECTRIC representative or contact with our company directly. Our
professional technicians will serve for you actively. And please continue to adopt products of SAVCH, give
valuable opinion and advice.
1. Reading Instructions
Symbols of” DANGER” and” CAUTION” in the manual indicates that, for safety running or maintenance of
inverters or other electrical products, attention shall be attached during delivering, installation, operation and
checks for the inverter. And these notes shall be applied for a better and safer operation.
DANGER
If not used correctly, personnel damage even death may be caused.
CAUTION
If not used correctly, serious damage to inverter or machine may be resulted.
DANGER
●Never connect wires while power on. Do not check components or signal for circuit board during operation.
●Do not dismantle or change inner wire, circuit or components unnecessarily.
●Make sure grounding terminals are correctly grounded. 220V level:rounding Ⅲ; 440V level:Special
Grounding
CAUTION
●Do not perform a withstand voltage test for components of inverter, it can cause semi-conductor components
to be damaged by high voltage.
●Never connect the output terminals U, V, W to AC power supply.
●IC of CMOS on control circuit of the inverter shall be damaged by electrostatic influence. Do not touch main
circuit board.
2. Products receiving
All products have been performed with strict test and inspection. After receiving the inverters, the following
checks shall be performed.
●To check that SAVCH inverter, an instruction manual and a cover is inside of the package
●To check whether model number correspond with model and capacity your purchase order.
●To check whether there are damaged parts during transportation and delivering. If there are, do not connect
with power supply.
If any of the above checkpoints are not satisfactory, contact your SAVCH ELECTRIC representative for a
quick resolution.
2
1. SAFETY INSTRUCTIONS
1.1 Notes for Operation
Before wiring
CAUTION
Specification of applying power supply shall correspond to input voltage of the inverter.
DANGER
Main circuit terminals must be correct, R/L1, S/L2 and T/L3 is input terminals and it’s forbidden to use mixing
with U/T1, V/T2 and W/T3. Failure to observe this may cause the inverter damaged.
CAUTION
When delivering the inverter, do not take the cover directly. Take the air fan seat to prevent the cover got off.
Inverters getting off which may cause damage to personal or machine shall be avoided.
Install the inverter on metal or other non-inflammable materials. Do not fix it on inflammable materials which
may cause a fire hazard.
In case of several inverters are installed together in one control panel, a fan shall be prepared to make sure
temperature lower than 40℃, thus over-heating or a fire hazard shall be avoided.
Operator shall be dismantled or refitted after power supply is off. Fixed operator shall be processed as
diagram shows to prevent operator fault or no display.
CAUTION
Make sure applied power supply comply with label showed on the right of the machine. Failure to observe this
may cause action failure.
During operation
DANGER
Never put in or take off the motor during operation, otherwise over-current even over burning the main circuit
of the inverter may happen.
Do not remove the cover while current is flowing. Failure to observe this may result in electrical shock to
personnel.
When auto-restart function is set, do not approach the machine since motor can be reset suddenly after being
stopped.
Since STOP button can be selected by function set, which is different from usage of emergency stop/on
switch, attention shall be given to the usage.
3
CAUTION
Never touch heat sink or discharging resistor since temperature may be very high.
Since it is easy to change running speed from low to a high speed, verify safe working range of motor and
machine before running.
Pay attention to relative settings before using the brake.
Do not check signals during running.
All parameters of the inverter have been preset at the factory according to line frequency. Do not change the
settings unnecessarily.
CAUTION
Do not perform dismantling or checks while power supply and charging indicator” CHARGE” are still on.
During check and maintenance
CAUTION
Ambient temperature for operating the inverter shall be -10 ℃ to + 40℃ and 90%RH non moistring
condensation.
CAUTION
After removing the dust-cover, ambient temperature for operating the inverter shall be -10℃ to + 50℃ and
95%RH non moistring condensation. However under this condition, the ambient environment must be without
drips of water or metal dust. If there are, the dust cover shall be refitted and check whether ambient
temperature is within -10℃ to + 40℃ simultaneously.
During rejection
CAUTION
Explosion may occur when burning the electrolytic capacitor of the main circuit and printing plate. Toxic gas
may be generated when burning control panel and other plastic fittings.
It shall be treated as Industrial waste.
4
1.2 Notes for Operation Environment
Direct sunlight Corrosive gas or fluids Oil
Radioactive materials Locations of inflammable
materials
Extreme low temperatures Extreme high ambient
temperatures (Above 40℃)
Large impelling
Salt or saline Rain, moisture Iron chips and dust
?
Electromagnetic waves
and ultra high-angle rays
(For example:locations of
welding machines and etc.)
Oil
cool
Below 10 degrees Celsius
Force
Force
Force
Force
Force
Force
Salt
5
2. DESCRIPTIONS FOR SAVCH AND INSTALLATION
2.1 Operation Environment
Since operation environment can directly influence functions and operation life, to ensure proper
performance and long operation, follow the recommendations below when choosing allocation for installing
the inverter:
Use only with the ambient temperature range:-10℃ to + 40℃; -10℃ to + 50℃ applicable when dust cover is
removed.
Rain, moisture Direct sunlight.(Avoid using outdoors)
Corrosion of oil sprays or salt Corrosive fluid and methane
Dust or metallic particles in the air Radioactive materials and inflammable materials
Electromagnetic interference (Avoid using together with welding machine or dynamic machines.)
Vibration. (If inverter must be used in this environment, an anti vibration pad is necessary).
Attention shall be attached to clearance of inverters allocated closely. A fan shall be installed to make sure
temperature is lower than 40℃
INSIDE THE
CABINET
FALSE
AIR EXCHANGE FAN
INSIDE THE
CABINET
INSIDE THE
CABINET
CORRECT FALSECORRECT
INSIDE THE
CABINET
AIR EXCHANGE FAN
For cooling off, face shall be toward front and upper parts shall be upwards.
Clearance shall meet the following specifications:(If the inverter is installed inside the cabinet or environment is
allowable, dust cover shall be available to be removed for ventilating.)
(a)FRONT
SAVCH
DIRECTION
OF
INSTALLATION
12cm 12cm
12cm
12cm
5 cm
(b)SIDE
VENTILATION
-10-+40℃
6
2.2 Model Description
Model
Input power supply Spec
Output power supply Spec
Output frequency
TYPE: S200-4T3.7G
SOURCE: AC3PH 380~460V 50/60Hz
OUTPUT: 3PH 0~460V 6.3kVA 8.2A
FREQUENCY RANGE: 0.1~600Hz
S/N:
NJ3019380000037
SAVCH ELECTRIC CO.,LTD.
Designed by Savch Electric
S200 - 4T 3.7 G
0.75:0.75kW
1.5:1.5kW
2.2:2.2kW
3.7:3.7kW
5.5:5.5kW
7.5:7.5kW
11:11kW
15:15kW
G: Constant torque load
(For general use)
P: Variable torque load
4T: 440V
Three phase
Product
series
7
2.3 Product Specification
Individual Specification
■440V Three phase Series
■Standard Specification
Controlling Characteristics
Control mode
Adopting SVPWM modulating techniques
Output frequency range
0.01~600.00Hz
Frequency setting analyzing
degree
0.01 Hz
Output frequency analyzing
degree
0.01 Hz
PWM load wave frequency
Available to modulate from 2 to 15kHz.
Torque increase
Auto torque-increase and auto slip compensation,at 2Hz the starting
torque can reach 150% of rated torque.
Jump frequency
3 points can be set from 0.01 to 600.0Hz
Acceleration/deceleration
time
0.10 to 400seconds. (2 steps of accel/decel time can be set separately.)
Stall Prevention Level
According to the load characteristics of motor, it’s available to be set as 20
to 200% of rated current of the drive
DC braking
Available to be operated from 0.01 to 50.0Hz from STOP, braking 0 to
100% of the rated current. Starting time 0.0 to 5.0 sec. Stopping time 0.0
to 25.0 sec.
Braking torque
20%(125% shall be available if connected with purchased braking resistor
externally) (for 1 to 25HP, equipped within the electric crystals, for 30HP,
braking unit module shall be connected externally.)
Model S200-4T□□□G
0.75
1.5
2.2
3.7
4.0
5.5
7.5
11
15
Output
Max applicable motor output power(kW)
0.75
1.5
2.2
3.7
4.0
5.5
7.5
11
15
Max applicable motor output power(HP)
1
2
3
5
5.5
7.5
10
15
20
Output rated capacity(kVA)
2.3
3.2
4.2
6.3
7.4
9.9
13.7
18.3
24.4
Output rated current (A)
3.0
4.2
5.5
8.2
9.7
13
18
24
32
Output frequency range
0.01~600Hz
Over load capacity
150% of rated output current and run for 65sec.
Max output voltage
Correspond to input power supply
Input
Phase number. Voltage. Frequency
Three phase·380-460V ·50/60Hz
Allowable variation range for Voltage.
Frequency
Voltage:±15% Frequency:±5%
Input current (A)
4.2
6.0
7.2
8.5
11.2
14
20.6
28
30
Cooling System
Forced air cooling
8
V/F curve
V/F curve available to be set
Operation Characteristics
Frequency
setting
signal
Digital Operator
Set by UP and DOWN
External
terminals
0-10VDC,4-20mADC,Serial Communication Board (RS485)
Running
operating
signal
Digital Operator
Available to be operated by RUN, STOP and JOG keys
External
terminals
2 wire style (Fwd/Stop, Rev/Stop, Run/Stop and Fwd/Rev)/ 3 wire
operation, JOG running, Serial Communication Board(RS485)
Intelligent Input Terminal
Switching of 7 step pre-set available speed; Switching of First/Second
acceleration/deceleration time; prohibiting acceleration/deceleration and
external interrupt input; Jog running UP/DOWN frequency terminal setting;
Count terminals
Intelligent Output Terminal
During running, frequency agreement output, non-zero,count agreement
output, over torque output, external interrupt reference, low voltage
detection, operation mode reference, fault output and external fault
interruption.
Analog signal output
Correspond to actual output frequency or output current.
Fault signal contact
Contact of ON at AC motor drive fault (Relay with one C contact or two
open collector output.)
Built-in Function
Setting max/min output frequency; momentary power off restarting; fault
restarting; setting of S curve acceleration/deceleration time; auto-voltage
stabilizing output modulation; digital frequency output signal; fault records;
parameters locking; reset to factory setting; inhibiting reverse run; over
current stalling prevention, over voltage stalling prevention, electrical
thermal relay.
Protection Function
Over current; over voltage, low voltage, external fault interruption input;
motor over load; GFF:grounding protection(For optional use); over load of
the drive and drive overheating
Digital operator
Consisting of 8 functional keys, 7 step LED in 5 digits; 5 status LED
indicators. Available to set frequency, display actual output frequency,
output current, self-determined unit parameter overview of users, modify
settings and for parameter locking, fault displaying. Available to perform
running, stop, reset, fwd/rev run and jog run.
Environment
Operational Environment
temperature
-10℃to +50℃(+40℃~+50℃ available when the dust cover is removed)
Storing temperature
-20℃ to +60℃
Operational Environment
dampness
Below 90%RH (No condensation)
Installation height
Lower than 1000m, without corrosive gas, fluid and dust.
Vibration
Below 20Hz 以下 9.80665m/s2(1g),20~50Hz 5.88m/s2(0.6g)
Enclosure
IP20(Determined by the installation environment of the end-users)
9
Applicable electromagnetic contactor and wiring specifications
Non-fuse breaker/Magnetic contactor
SAVCH ELECTRIC shall not be responsible for faults due to the following:
(1) Absence or inapplicable or over large non fuse breakers was put between the power supply and the inverter,
which results in the inverter fault
(2) Magnetic contactors or advance capacitor or Surge Absorber were connected in series between the inverter
and motor
● A three phase Squirrel-cage induction motor which corresponds with the capacity of the inverter shall be
adopted.
● If more than one motor were driven simultaneously by one inverter, the current of these motors when running
shall below capacity of the inverter. And each motor shall be prepared with a thermal relay in appropriate capacity.
● Phase advance capacitors and other capacity elements such as LC or RC shall not be fixed between the
inverter and motor.
List of applicable no-fuse breaker for S200 series
440V Series
S200- SERIES MODEL
Rated Input
Current(A)
Rated Output
Current(A)
Motor
Output(kW)
Non-fuse Switch Rated
Current(A)
S200-4T0.75G
4.2
3.0
0.75
5
S200-4T1.5G
5.8
4.2
1.5
10
S200-4T2.2G
7.2
5.5
2.2
15
S200-4T3.7G
8.5
8.2
3.7
20
S200-4T4.0G
11.2
9.7
4.0
20
S200-4T5.5G
14
13
5.5
20
S200-4T7.5G
20.6
18
7.5
30
S200-4T11G/P
28
24
11
50
S200-4T15G/P
30
32
15
60
10
Application and description for ambient equipments
Power supply:
●Make sure voltage class is correct, otherwise inverter may be damaged.
●A no fuse breaker (air circuit breaker) shall be provided between AC
supply and inverter.
No fuse Breaker:
●Circuit breaker which complies with rated voltage and current of inverter
shall be applied as ON/OFF control for inverter. And it shall also be
protective to the inverter.
●Never use circuit breaker as ON/OFF switch for inverter.
Leakage Breaker:
●A leakage breaker shall be installed to prevent mal-functioning and to
ensure the safety of operators; to prevent the mal-functions, those of which
the sensitivity current above 220mA and action time above 0.1 sec shall be
applied.
Magnetic Contactor:
●Inverters can be used without a magnetic contactor (MC) installed at the
power supply side. However, when used for external control or
automatically restart after power off, or when braking control is used, a
magnetic contactor shall be applied.
●Does not use the magnetic contactor as RUN/STOP switch for inverter.
Power Improving AC Electric Reactor:
●If power supply of large capacity (Above 600k VA) is used, an AC reactor
can be added to inverters which is below 220/440V 15Kw, thus the power of
power supply shall be improved.
Input side Noise Filter:
●The Input side Noise Filter must be applied if inverter has electronic
induction load around.
S200 Inverter:
●Input Power supply terminals R/L1, S/L2 and T/L3 can be connected
without phase sequence.
●Connect output terminals U/T1, V/T2 and W/T3 to U/T1, V/T2 and W/T3 of
motors, if the inverter is forward run reference, while motor reverse runs,
change any two of U/T1, V/T2 or W/T3.
●Never connect U, V, W to AC Power supply otherwise inverter may be
damaged.
●Grounding terminals shall be grounded correctly. Category Ⅲ Grounding:
below 100Ω,Special grounding: below 10Ω.
Zero Phase Noise Filter:
●If specialized noise filters are fit at inverter output side, radiation
interference and induction noise shall be decreased.
Input side Noise Filter
Inverter
No fuse Breaker
Power supply
Magnetic Contactor
Power Improving AC
Electric Reactor
Three Phase
Squirrel Cage
Motor
Grounding
Zero Phase Noise Filter
11
Wiring shall be checked whether correct or not. Peripheral wiring shall fulfill the following requirements.
(Do not use a buzzer of control circuit to check wiring)
(A)Wiring for control circuit Power supply must be isolated or far from other high voltage wirings or high
current power lines, thus electromagnetic interference can be avoided. See diagrams below:
●Individual power supply bridge for inverter
MCCB
Power
supply
S200 IM
●If inverter power supply circuit is used commonly
with other machines, inverter-specialized noise
filter or isolating transformer shall be added.
MCCB
Machine
MCCB
Power
supply
S200
Noise
filter
IM
MCCB
IM
S200
Machine
Isolated transformer
Power
suppy
●Good effect may not be received if general use
noise filters are applied
MCCB
Power
supply
IM
S200
Machine
Noise
filter in
general
use
MCCB
MCCB
Power
supply
IM
S200
Machine
Noise
filter in
general
use
MCCB
●Interference during transmission can be prohibited by adding an inverter-specialized noise filter at main
circuit output side. For preventing electromagnetic radiation, a metal tube shall be installed, and distance from
signal wiring of other control machines shall be 30cm at least
SIGNAL CABLE
IM
Above 30cm
Power
supply
MCCB FANEL
S200 Noise
filter
Noise
filter
Control
machine
12
● Voltage drop of wiring shall be considered providing that inverter and motor are with an excessive
distance.Voltage drop (V) =
3
× wiring resistance (Ω/km) × wire length (m) × current × 10-3, load wave frequency
shall be modified according to wiring prepared.
Distance between inverter and motor wiring
Below 50M
Below 100M
Above 100M
Allowable load wave no.
Below 12kHz
Below 9kHz
Below 6kHz
Set value for parameter 01-17
4
2
1
(B)Wiring for control circuit shall be isolated or far from main circuit wiring or other high voltage/current
power lines, thus electromagnetic interference shall be avoided.
●For preventing electromagnetic interference and false sequence, shielding wiring shall be used for control
circuit. Shielding wiring shall connect grounding terminals.
Distance for wiring shall be 50m or less.
Armor
Shielding Layer
Never connect
Insulate these parts with
insulation tape
To ground terminal
(See filter Wiring Specification)
(C) Grounding terminal for inverters shall be grounded properly. Below 100Ω:Category Ⅲ; Below
10Ω:Special
●AWG shall be taken as standard for ground wire. Ground wire shall be as short as possible.
●Never ground simultaneously for Inverter ground wire with other large current load (such as welding machine
or large Power motors). They shall be grounded separately.
●Ground circuit shall be avoided when several inverters are grounded simultaneously.
(a) CORRECT (b) CORRECT (c) FALSE
(D)Cable line width for main circuit and control circuit shall be selected according to power line standard.
(E) After completing of grounding and wiring, check for the following items:wiring is proper; wire is not
broken and screws are securely tightened.
13
2.4 Wiring
◼Basic Wiring Diagram
Wiring of AC motor drive can be divided into two parts, the main circuit and control circuit. After removing the
cover of inverter, terminals of main circuit and control circuit shall be discovered. Users must connect
terminals as diagram shows.
Below is a standard wiring diagram for S200 series AC motor drive. If only digital control panel was used,
only main circuit terminal wiring applicable.
○Main circuit terminal
⊙Control circuit terminal
AC MOTOR ORIVE
N
( - )
Short
circuit pad
Multi-functional reference output contactor
Below AC 250V
Below DC 30V
RC
RA
RB
DC reactor
Braking resistor(optional)
P1 B2
B1
P
(+)
Grounding Ⅲ:
Grounding resistance shall
below 10Ω for 440V series
Grounding
MI2
Multi-input option 2 MI1
Multi-input option 1
MI3
Multi-input option 3
MI4
REV
FWD
TRG
Count Triggering signal input
DFM
Digital frequency meter
Digital signal Common terminal
DCM
0V
RS-485 serial connected
communication board
SG+
SG -
Signal + terminal
Signal - terminalComputer
S
L2/S
T
L3/T
R
L1/R MCCB Induction motor
U
V
W IM
Assisted power supply
+24V
Analog frequency/ flow meter
AFM
ACM
Analog signal terminal common
+10V
Analog voltage
frequency command AVI1(0~+10V)
Analog current
frequency command
AVI/ACI(0~+5V/4~20mA)
ACM
Multi-functional PHC output
terminal
48V below 50mA
MO1
MCM
Power supply
0~+10V
1kΩ~5kΩ
4~20mA
12
3
Rev run/ Stop (Rev/Fwd run)
Fwd run/Stop (Run/stop)
Multi-input option 4
NOTES:
1. In the diagram, “○”indicates the main circuit, and “⊙”indicates the control circuit;
2. ACI can be selected to input the voltage or current signals, which is switched by the position of J3 Jumper on
the control panel;
3. Included internal brake unit, it need to connect braking resistor between P(+)/B1,B2 when using the dynamic
braking.
4. Using control terminal block, refer parameters in "02-XX" .
14
Main circuit terminal descriptions
Description for S200 Series inverter terminals
Terminal symbols
Function
L1/R,L2/S,L3/T
Main circuit AC power supply input (For single phase input, connect to R and T.)
U/T1,V/T2,W/T3
Connect to motor
P/B1,B2
Braking resistor(optional) connecting terminal
P/B1,N
Connecting to braking module
For grounding (High voltage wave impact and noise interference shall be avoided.)
Terminal Symbol Description
S200-4T0.75G~5.5G
TB1
RA
RB
RC
+10V
AVI1
AVI
ACI
ACM
AFM
SG+
SG-
MI1
MI2
MI3
FWD
REV
TRG
DFM
DCM
MO1
MCM
+24V
Above S200-4T7.5G
TB1
RA
RB
RC
TB2
MI1
MI2
MI3
MI4
FWD
REV
TRG
DCM
DCM
MO1
MCM
+24V
AVI1
AVI
ACI
ACM
AFM
+10V
SG+
SG-
Relay output terminal RA, RB, RC wiring:
RB-RC:normally closed;RA-RC:normally opened
If it drives inductive load (such as electromagnetic relay, contactor), should be installed an absorbing circuit of
surge voltage; Such as:RC absorption circuit (notes:the leakage current should be less than the control contactor
and relay to maintain current), MOV or freewheel diode (used for DC electromagnetic circuit, Be sure to confirm
the polarity when installing).Absorption circuit components to be installed on both ends of relay or contactor coil.
Terminal symbols
Function of Terminal
Specification
RA-RC
Multifunctional reference signal output
contactor
See Description 2-12 for RELAY
CONTACTOR OUTPUT
RB-RC
15
Terminal symbols
Function of Terminal
Specification
MI1-DCM
Multifunctional input option 1
See Description 2-00~2-03
MI2-DCM
Multifunctional input option 2
MI3-DCM
Multifunctional input option 3
REV-DCM
Rev run/ Stop
Stop when OPEN and rev run when
CLOSED.
FWD-DCM
Fwd run/ Stop
Stop when OPEN and Fwd run when
CLOSED.
DFM-DCM
Digital frequency meter
Digital frequency output (0,+10V)
TRG-DCM
Count triggering input terminal
Count add 1 for operation from OPEN to
CLOSED:
MO1-MCM
Multifunctional output terminal 1
See description of 2-09 (Open collector
output)
+10V-ACM
Power supply for speed setting
Speed reference power supply (+10V)
AVI-ACM
Analog voltage frequency reference
0~+10V/ Max output frequency
ACI-ACM
Analog current frequency reference
4~20mA/ Max output frequency
AFM-ACM
Analog frequency/ current meter
0~+10V/ Max output frequency
SG+ -SG-
Serial connected communication board
RS485 Serial connected communication
connector
+24V -DCM
Assisted control power supply
DC 20V-24V(50mA Max.)
Pay attention to insulate the control signal wire with insulation tape.
Communication cable of RS485 shall be provided with double Null Modem cable.
2.5 External Dimensions
Model
W
W1
H
H1
D
C
Quantity (Kg)
Remarks
S200-4T0.75G
126.5
113.5
174
160
144.5
5.5
1.6
Use IP03
exerciser
S200-4T1.5G
S200-4T2.2G
S200-4T3.7G
132
119.5
236
205
171
5.5
3.7
Use IP05
S200-4T4.0G
S200-4T5.5G
S200-4T7.5G
202.2
186.2
320
300.6
196.1
6.5
6.0
S200-4T11G
6.4
S200-4T11P
S200-4T15P
16
Inverter Main body figure
◆Small power keypad(IP03) External dimensions
and Installation dimensions
◆Large power keypad(IP05) External dimensions and
Installation dimensions
This manual suits for next models
9
Table of contents
Other Savch Inverter manuals
