Max input / output points: 128 points.
Power supply voltage: DC24V.
Input points: 64 points.
Output points: 64 points.
Output type: relay.
Power consumption: 100VA.
Weight (kg):1.8.
Size (WxHxD) mm:350x90x87.
Since the FX2n series have the following features: the maximum range of inclusive of the standard features, program execution faster, the full complement of communication function, suitable for different countries in the world, and the power to meet a large number of special function modules of individual needs,
It can provide maximum flexibility and control capability for your factory automation applications
L6ADP-R4-CM
Control 16~256 point MITSUBISHI L6ADP-R4-CM.
Built in 8K capacity of the RAM memory, the maximum can be extended to 16K .
CPU arithmetic processing speed of 0.08 S/ basic instructions.
On the right side of the FX2N series can be connected to the input and output expansion modules and special function modules.
The basic unit is built in the 2 axis independent maximum 20kHz positioning function (transistor output type) MITSUBISHI L6ADP-R4-CM.
Quick disconnect the terminal block, which adopts excellent maintainability to quickly disconnect the terminal blocks, even if the cable is then replaced by the cable . Type: HC-PQ type.
Output power: 0.05kw.
Rated speed: 3000r/min.
Electromagnetic brake: No.
Key axis: straight shaft.
Motor aspects: the material, structure and processing technology of the servo motor is much higher than that of AC motor,
That is when the driver output current, voltage, frequency change is fast power supply,
The servo motor can change according to the change of the response of the power supply,
Response characteristics and anti overload capacity is much higher than the AC motor drive,
Motor aspects of the serious differences between the two are fundamentally different performance.
That is not the inverter output can not change so fast power signal,
But the motor itself can not react,
So in the frequency of the internal algorithm set to protect the motor to do the corresponding overload.
Of course, even without the ability to set the output of the inverter is limited,
Some of the excellent performance of the inverter can be directly driven servo motor. SI/QSI/H-PCF/ wide range H-PCF fiber optic cable.
Double loop.
PC inter network (management station / station) / remote I/O network (remote control station).
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 stteps .
Design PLLC peripheral hardware circuit L6ADP-R4-CM.
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 compooseed of I/O PLC connection diagram and PLC peripheral electrical circuit diagram L6ADP-R4-CM.
So far the system''s hardware electrical circuit has been determined.
L6ADP-R4-CM Operation manual/Instructions/Model selection sample download link:
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