Page 898 - MiSUMi 2025
P. 898
Economy series Motor Wiring Diagram Motor Wiring Diagram Economy series
Conveyors
Conveyors
Conveyors
P.11-007 Outline and Installation Diagram of JSCC Panel Speed Controller JSCC A Series Inverter
Features Precautions
Flat Belt Pulleys / Flat Belts 60 85.5 2-M4 Screw 2-φ4.5 Hole or 2-M4 1. The motor features low temperature rise, energy 1. Do not use in explosive environments, flammable gas
efficiency, and low noise.
areas, corrosive environments, or locations prone to water
exposure or near combustible materials.
electromagnetic braking motor allow easy control
P.11-071 73.5 2. The built-in control ports and menus for the 2. Avoid continuous vibration and excessive shock.
of the motor.
3. Be sure to ground the earthing terminal.
Urethane Molded Rollers / Urethane Molded Bearings / Guide Rollers 102 90 81.5 3. PLC with high speed pulse module 0~1 KHz can 4. The product must be installed, connected and inspected by
professional technicians.
be used to directly control the inverter output
5. Operating environment: ambient temperature: -10°C~+45°C (no freezing),
frequency and regulate the motor speed.
ensures low temperature rise, high reliability, and
P.11-085 53.5 4. The optimized design of a large radiator structure Outline Drawing ambient humidity: below 85% (no condensation).
long service life.
Ball Rollers / Cam Followers Panel Cutout Dimension 72 φ4.8 107
57
Model & Parameters
P.11-097 Wiring Diagram of JSCC Panel Speed Controller Series Model Input Power Main Parameters 131 117
Silicon Bearings / Bearings with Screw / Roller Carriers REV K2 Reverse Rotation Operate panel buttons to External switches K1 and K2. A Series A025 Single-phase 220V 0.25kW Three-phase 220V
Motor Power Range Motor Voltage
(1) Switches K1 and K2 must
control motor operation
50Hz
(1) No need to install switches
be installed.
K1 and K2.
For operation control mode
P.11-119 FWD K1 Forward Rotation (2) Menu setting: (2) Menu setting: A-Series Inverter Wiring Diagram High Power Circuit Parameter Table
F-03, select "2" or "3" to
For operation control mode
OV
Placon Rollers / Free Rollers / Sprocket Rollers S2 Blue S2 control by operating panel switches. Menu setting: Operation SB1 Button Multi-function Input Port 1.4A 2A 1 mm 2
F-03, select "T" or "4" to
control by external
Wiring and Setting Method of Operation/Stop Mode
Inverter Model Motor Power Motor Current QF Circuit Breaker Conductor Cross Section
Select 2 for
buttons.
FWD
A025
0.25kW
F1.00
SB2 Button
Stop
REV
Single-phase
P.11-125 JSCC Panel Speed Controller S1 Blue S1 Speedometer Figure 1 OV (The figure shows factory default settings)
QF
220V Power Supply
Circuit Breaker
11 Z2 White Z2 Primary Winding Secondary Winding The power of the YT Please check whether the Wiring Method for Emergency Stop L N L N PE High-Power Circuit U W V Three-phase 22
Normally Closed Mode
variable-speed motor must
power indicated on the model
Emergency Stop
Red U2
Conveyors / Flat Belts / Rollers / Cam Followers U1 Black U1 YT Variable Speed Motor FWD, REV, M1 and M2 control ports PE
match the applicable motor
label of the speed controller
SB Button
Normally Closed
U2
M ( )
power of the speed controller.
matches with the motor power.
OV
Figure 2
PE
are controlled by PLC.
Note:
Do not install switches or
FWD
K2
Reverse Rotation
QF Circuit Breaker
REV
the power voltage specification
Multi-function Relay R
relays in the connecting The cable voltage must match Current Specifications List of PLC output mode: NPN or sinking transistor output. Forward Rotation K1 FWD R RA Multi-function Output Port
RB
AC250V 0.5A or Less
PLC
K3
Multi-stage Speed Command 1
QF Current
cable between speed N Power of the speed controller. The QF Power Voltage Motor Power Specifications REV Multi-stage Speed Command 2 K4 M1 Control Circuit RC (Default: Fault)
controller U1/U2/Z2 and QF Supply is a short circuit breaker, which 220V 6~90W 1A M1 M2
motor U1/U2/Z2. L protects the speed controller and 220V 120~200W 2A NPN OV
variable speed motor in the output M2
event of a short circuit.
OV
PLC FWD and REV are controlled Menu setting: Figure 3
by PLC. For operation control mode Main speed frequency is controlled by M1 Analog Input Port
REV PLC output mode: F-03, select "2" or "3" to (0~1kHz corresponds to 0~maximum frequency) High speed 10V (Output 50mA)
5KΩ
NPN or sinking transistor control by external switches. Menu PIC transistor output Speed Control AD1 (0~10V Input)
setting:
FWD output. Select 5 (NPN mode) Potentiometer Low Speed
for F0.08 or M1 OV
OV F0.09 OV 485
A
Figure 4 RS-485 Communication
B (Twisted-pair cables must be used)
Digital display panel outputs 0~10V analog signal
to inverter for motor speed display and control
Menu setting:
Select 2 for F0.08 or F0.09
Figure 6
FWD and REV are controlled Menu setting: DF48/DF50 ACC 10V
by sensors such as proximity For operation control mode Digital AFM AD1 Wiring Diagram of Inverter Controlling Power-off Electromagnetic Braking Motor:
REV switches and photoelectric F-03, select "2" or "3" to Display Menu setting: Select 4 for F2.00 Multi-function relay must be set to activate its output
when the electromagnetic braking frequency reaches a certain threshold value.
Sensor switches. Switch output mode: control by external switches. Panel OV OV
FWD three-wire system or NPN How to control the inverter digital display panel: Power Supply of Power-off
DC24V
Sensor transistor output. Output 0~10V analog signal to the analog input port AD1 of the Power Supply Electromagnetic Brake PE
(refer to the motor label
OV Power Supply inverter via the digital display panel to control the inverter Multi-function Relay Intermediate Relay for voltage) U
(10A)
R
output frequency and motor speed. The start or stop of a motor
DC 10~24V can be controlled by activating or deactivating the analog RA W V Electromagnetic Braking Motor
output using the OUT key on the digital display panel, and can
also be controlled by the FWD or REV input port of the inverter. R RB KA B1
The above control method can be used in conjunction with the RC B2 Brake
inverter menu F0.04 and the digital display panel menu F-05 to Power-off Electromagnetic
control the motor flexibly.
Figure 5 Figure 7
11-015 11-016
