Remote I/O controller, coaxial cable.
How to choose MITSUBISHI PLC.
MITSUBISHI PLC options include the choice of MITSUBISHI PLC models, capacity, I/O module, power, etc..
MITSUBISHI PLC distribution I/O points and design MITSUBISHI PLC peripheral hardware circuit
Draw the I/O point of the PLC and the input / output device connection diagram or the corresponding table,
This part also can be carried out in second steps
HC-MFS053/KFS053
Design PLC peripheral hardware circuit.
Draw the electrical wiring diagram of the other parts of the system,
Including the main circuit and the control circuit does not enter the PLC, etc..
The electrical schematic diagram of the system composed of I/O PLC connection diagram and PLC peripheral electrical circuit diagram MITSUBISHI HC-MFS053/KFS053.
So far the system''s hardware electrical circuit has been determined. The use of A1STA32 can significantly reduce the wiring time I/O 32 type of connector assembly,
Neither welding, without thread stripping,
It only needs to cut a wire and insert the wire into the terminal hole of the A1STA32,
A1STA32 in the blade will cut wire insulation surface,
To make contact and hold a good conductor MITSUBISHI HC-MFS053/KFS053. Protective film for 5.7 inch screen.
Scrub, 5.
Applicable model: GT105. Power supply: 110mA DC5V (PLC internal power supply), 90mA DC24V (external power supply).
Analog input points: 4 points.
Voltage input: DC-10~10V.
Current input: DC-20~20mA, 4~20mA.
Weight: 0.2kg.
Dimensions: 55 x 90 x 87.
Voltage input and current input of 4 channels can be carried out,
Each channel can be specified as a current input or voltage input.
Built in digital filter function and peak hold function, etc.,
Achieved a high speed of 500 AD S/ch conversion.
FX3U-4AD can connect FX3GA/FX3G, FX3GE, FX3U series.
When connecting to FX3UC or FX3GC, you need FX2NC-CNV-IF or FX3UC-IPS-5V. Motor series: low inertia, small capacity.
Using a serial absolute / incremental encoder.
Rated output power: 0.05kw.
Rated speed: 3000rpm.
With the brake with brake.
Without GB.
Shaft end: straight shaft.
A servo motor is an engine that controls the operation of the mechanical components in the servo system.
Servo motor can make the control speed, position accuracy is very accurate, can be converted to torque and speed voltage signals to drive the control object.
Servo motor rotor speed is controlled by the input signal, and can quickly response,
In the automatic control system, used as actuators, and ellectromechanical timee constant, high linearity, initiating voltage characteristics,
The signal can be converted into a motor shaft on the angular displacement or angular velocity output HC-MFS053/KFS053.
Divided into DC and AC servo motor two major categories, the maain features are,
When the signal voltage is zero, there is no rotation,
The speed increases with the increase of the torque and the speed decreases HC-MFS053/KFS053.
HC-MFS053/KFS053 Operation manual/Instructions/Model selection sample download link:
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