Length: 5.0m.
Specification: TB-FX round cable. Max input / output points: 16 points.
Supply voltage: 100 - 240VAC.
Input points: 8 points.
Output points: 8 points.
Output type: Transistor (sinktype).
Power consumption: 30VA.
Weight (kg):0.6.
Size (WxHxD) mm:130x90x87.
Developed a range of special function modules to meet the needs of different - analog I/O, high speed counter FX3SA-14MR-CM PDF.
Positioning control to achieve the 16 axis, the pulse train output or for the J and K type thermocouple or Pt sensor developed the temperature module
FX3SA-14MR-CM
A total of 8 special function modules can be configured for each FX2n main unit.
Note recording function, Component annotation can be recorded in the program register FX3SA-14MR-CM PDF.
Online program editor, online change the program will not lose the working hours or stop production operation.
RUN/STOP switch, running on panel / stop switch easy to operate.
Remote maintenance, remote programming software can monitor, upload or uninstall programs and data via modem communications
Password protection, using a eight digit password to protect your program.
Clock function and hour meter function, all of the PLC FX2N has a real-time clock standard FX3SA-14MR-CM PDF.
Continuous scanning function, to define the operation cycle for the application of the continuous scan time.
Input filter adjustment function, you can use the input filter to smooth the input signal (in the basic unit x000 to x017). MITSUBISHI inverter FR-D720 series.
Voltage level: three phase 200V.
Frequency converter capacity: 0.1KW.
Vector control variable frequency speed control is the practice of the asynchronous motor in the three-phase coordinate system of the stator current Ia, Ib, Ic, through the three-phase to two-phase transformation,
The alternating current of Ia1Ib1 is equivalent to a two phase stationary coordinate system, and then is rotated by the rotor field oriented,
Equivalent to the DC current Im1, It1 (Im1 equivalent to DC motor excitation current in synchronous rotating coordinate system;
It1 equal to the armature current proportional to the torque, and then imitate the DC motor conttrol method, to obtain the DC motor control,
The control of asynchronous motor is realized through the corresponding inverse coordinate transformation FX3SA-14MR-CM datasheet FX3SA-14MR-CM datasheet.