Toshiba TOSVERT VF-S15 Schnellstartanleitung Seite 44

UL61800-5-1 require publishing the standard Type E combination motor controller power rating since this is a basic UL61800-5-1 require publishing the standard Type E combination motor controller power rating since this is a basic
identification marking of type E devices. identification marking of type E devices.
However, when applied as an input overcurrent protective device for a drive, the rated current of the Type E However, when applied as an input overcurrent protective device for a drive, the rated current of the Type E
combination motor controller, not the rated power, is the key parameter for dimensioning. combination motor controller, not the rated power, is the key parameter for dimensioning.
GV GV P Type E combination motor controllers are adjustable, their current range is shown on the adjustment dial and P Type E combination motor controllers are adjustable, their current range is shown on the adjustment dial and
□ □
their selection is based on the input current and not the power rating of the drive. their selection is based on the input current and not the power rating of the drive.
(*5) Reactor is RLW series of "MTE corporation" or from "Schneider Electric", do not substitute. (*5) Reactor is RLW series of "MTE corporation" or from "Schneider Electric", do not substitute.
Reactor selection must be satisfied to the line inductance minimum values in the table. Reactor selection must be satisfied to the line inductance minimum values in the table.
(*6) Although SCCR is 5 kA, the thermal design is for 1 kA. For applying SCCR up to 5 kA, reduce the load or install the line (*6) Although SCCR is 5 kA, the thermal design is for 1 kA. For applying SCCR up to 5 kA, reduce the load or install the line
inductance not to exceed the rated input current. inductance not to exceed the rated input current.
Main and control circuit terminals Main and control circuit terminals
This diagram shows an example of wiring of the main and control circuit (in case of sink logic). This diagram shows an example of wiring of the main and control circuit (in case of sink logic).
Main circuit power supply Main circuit power supply
3ph-240V class: three-phase 200-240V 3ph-240V class: three-phase 200-240V
-50/60Hz -50/60Hz
1ph-240V class: single-phase 200-240V 1ph-240V class: single-phase 200-240V
-50/60Hz -50/60Hz
3ph-500V class: three-phase 380-480V 3ph-500V class: three-phase 380-480V
-50/60Hz -50/60Hz
3ph-600V class: three-phase 525-600V 3ph-600V class: three-phase 525-600V
-50/60Hz -50/60Hz
Single Single
MCCB(2P) MCCB(2P)
phase phase
R/L1 R/L1
power power
S/L2/N S/L2/N
supply supply
*1: The T/L3 terminal is not provided for *1: The T/L3 terminal is not provided for
single-phase models. single-phase models.
Use the R/L1 and S/L2/N terminals as input Use the R/L1 and S/L2/N terminals as input
terminals. terminals.
*2: The inverter is supplied with the PO and the *2: The inverter is supplied with the PO and the
PA/+ terminals shorted by means of a PA/+ terminals shorted by means of a
shorting bar. shorting bar.
Before installing the DC reactor (DCL), Before installing the DC reactor (DCL),
remove the bar. remove the bar.
*3: When using the OUT output terminal in sink *3: When using the OUT output terminal in sink
logic mode, short the NO and CC terminals. logic mode, short the NO and CC terminals.
*4: When VIA or VIB terminal is used as logic *4: When VIA or VIB terminal is used as logic
input terminal, refer to section 7.2.1. input terminal, refer to section 7.2.1.
*5: When backing up the control power supply, *5: When backing up the control power supply,
an external DC24V power supply is required. an external DC24V power supply is required.
When using a communication option with the When using a communication option with the
external DC24V power supply, add a diode external DC24V power supply, add a diode
between the external DC24V power supply between the external DC24V power supply
and +SU terminal. (Diode rating: 400V – 1.5A and +SU terminal. (Diode rating: 400V – 1.5A
or more) or more)
Refer to section 2.3.2. Refer to section 2.3.2.
*6: Set the slide switch SW1 to SINK side. *6: Set the slide switch SW1 to SINK side.
Refer to section 2.3.2 for details. Refer to section 2.3.2 for details.
Default setting is SINK side for Japan model, Default setting is SINK side for Japan model,
PLC side for -W1 model. PLC side for -W1 model.
*7: When STO terminal is used as compliance *7: When STO terminal is used as compliance
with safety standards, refer to Safety function with safety standards, refer to Safety function
manual (E6581860). manual (E6581860).
*8: Calibration is needed before using the meter. *8: Calibration is needed before using the meter.
Refer to section 5.1. Refer to section 5.1.
*9: When using 600V class, be sure to connect *9: When using 600V class, be sure to connect
an input reactor (ACL). an input reactor (ACL).
*10: 600V class have no built-in noise filter. *10: 600V class have no built-in noise filter.
For sections, For sections,
refer to the instruction manual refer to the instruction manual
E6581610(Japanese), E6581612(Japanese) or E6581610(Japanese), E6581612(Japanese) or
E6582175(English) E6582175(English)
Standard connection diagram – SINK (Negative) (common: CC) Standard connection diagram – SINK (Negative) (common: CC)
DC reactor (DCL) DC reactor (DCL)
*2 (option) *2 (option)
Fuse Fuse
*1, *9 *1, *9
*10 *10
MCCB MCCB
R/L1 R/L1
S/L2 S/L2 Noise Noise
filter filter
T/L3 T/L3
STO STO
*7 *7
Control power Control power
+SU +SU
supply supply
*5 *5
VF-S15 VF-S15
FLA FLA
Protective Protective
function function
FLB FLB
activation activation
output output
FLC FLC
RY RY
Low-speed Low-speed
signal output signal output RC RC
FM FM CC CC
*8 *8
Meter Meter
Frequency Frequency
meter meter
(ammeter) (ammeter)
1mA 1mA
(or 0(4)-20mA/0-10V) (or 0(4)-20mA/0-10V)
External potentiometer (1k-10kΩ) External potentiometer (1k-10kΩ)
(or voltage signal between VIA and CC: 0-10V) (or voltage signal between VIA and CC: 0-10V)
P0 P0 PA/+ PA/+ PB PB PC/- PC/-
Power circuit Power circuit
F F
Control Control
R R
circuit circuit
RES RES
S1 S1
S2 S2
S3 S3
Operation panel Operation panel CC CC
P24 P24
SW1 *6 SW1 *6
SINK SINK SOURCE SOURCE
OUT OUT
PLC PLC
NO NO
RS485 RS485
connector connector
SW2 SW2
CC CC
S4 S4
VIB VIB
PTC PTC S3 S3
*4 *4 *4 *4
VIC VIB VIC VIB VIA VIA PP PP
43
8 8
E6582383
E6582383 E6582383
Braking resistor (Option) Braking resistor (Option)
Motor Motor
U/T1 U/T1
V/T2 V/T2
M M
W/T3 W/T3
Forward run command Forward run command
Reverse run command Reverse run command
Reset Reset
Preset-speed command 1 Preset-speed command 1
Preset-speed command 2 Preset-speed command 2
Preset-speed command 3 Preset-speed command 3
Common Common
Speed reach Speed reach
Signal output Signal output
Ry Ry
*3 *3
Current signal: 4(0)-20mA Current signal: 4(0)-20mA
Voltage signal: 0-+10V Voltage signal: 0-+10V
(or -10-+10V) (or -10-+10V)