Motor series: medium inertia, medium capacity.
Using a serial absolute / incremental encoder.
Rated output power: 2.0kw.
Rated speed: 1000rpm.
With a brake band.
Shaft end: straight shaft.
The structure of the AC servo motor stator is basically similar to the capacitor split phase single-phase induction motor MITSUBISHI Q173NCCPU-S01.
The stator is provided with two positions of 90 degrees of mutual difference of the winding, one is the excitation winding Rf, it is always connected to the AC voltage Uf;
The other is to control the winding L, which is connected to the control signal voltage Uc
Q173NCCPU-S01
So the AC servo motor, also known as the two servo motor MITSUBISHI Q173NCCPU-S01. MITSUBISHI PLC hardware implementation
Hardware implementation is mainly for the control cabinet and other hardware design and field construction .
Design control cabinet and the operating table and other parts of the electrical wiring diagram and wiring diagram.
Electrical interconnection diagram of each part of the design system.
According to the construction drawings of the site wiring, and carry out a detailed inspection MITSUBISHI Q173NCCPU-S01.
Because the program design and hardware implementation can be carried out at the same time,
So the design cycle of the MITSUBISHI PLC control system can be greatly reduced . A set of 5 (LOGO removable, man-machine interface provides one).
Applicable model: A985GOT (-V). DC input points: 32 points.
Input voltage and current: 3/7mA, DC12/24V.
Response time: 10ms.
Positive pole sharing.
16 point /1 a public side.
Output points: 24 points.
Output voltage and current: DC12/24V, 0.5A/1 point, 3.2A/1 common end.
Response time: 2ms.
8 point /1 a public end, 4 point /1 a public end.
Output form: transistor output, leakage type.
36 point terminal table * 2.
Number of stations: 8 stops.
Compact remote I/O unit.
According to the control requirements of the system, using the appropriate design method to design MITSUBISHI PLC program.
Procedures to meet the requirements of system control as the main line,
Write one by one to achieve the control function or the sub task of the program,
Gradually improve the functions specified by the system.
MITSUBISHI PLC detection, fault diagnosis and display and other procedures.
These procedures are relatively independent, generally in the basic completion of the program design and then add.
Hardware simulation method is to use a number of hardware equipment to simulate the generation of the signal,
The signals are connected to the input end of the PLC system in a haard wired way, andd the timeliness is strong Q173NCCPU-S01.
Software simulation method is in the MITSUBISHI PLC in the preparation of a set of simulation program,
The simulation provides the field signal, which is simple and easy to operate, but it is not easy too gguarantee the timeliness Q173NCCPU-S01.
Simulation of the process of debugging, debugging method can be used to segment, and the monitoring function of programmer.
Q173NCCPU-S01 Operation manual/Instructions/Model selection sample download link:
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