Control axis: maximum 8 axes.
Greater flexibility.
PLC control and motion control using independent CPU, optimize the system configuration.
More than 4 CPU modules can be freely selected in multi CPU system.
MITSUBISHI SSCNET control function.
By using the high speed serial communication mode, we can easily construct the synchronization system of the servo motor Q172DCPU COMMON.
The motion controller and the servo amplifier can be quickly connected by a connector, and the connection is simplified
Q172DCPU
Each 1 CPU can control up to 32 axes at the same time.
Can control the small capacity from 10W to 55KW large capacity servo motor.
Through the use of digital oscilloscope function, can be used to control the power distance, speed, position and other motor information monitoring Q172DCPU COMMON. RS232 connector conversion cable (round connector, 9 pin D-sub connector).
Easy connection through the hub CPU.
By using an Ethernet hub, programming tools and multiple CPU can be connected simultaneously.
Through the programming tool can be searched and displayed in the list has been connected to the CPU.
Therefore, even if the IP CPU address is unknown, just choose from this list, you can easily connect Q172DCPU COMMON.
Seamless communication without network level constraints.
With the latest high-speed, large capacity IE CC-Link controller network and IE CC-Link field network,
Corresponding to the increasing amount of information.
Together with previous MELSECNET/H, Ethernet and CC-Link,
These networks can be across the network type or level of differences, to achieve seamless communication.
Programmable logic controller on the network through the programming tool of the Ethernet connection,
Monitoring and programming.Input and output points: 512 points.
Input / output data points: 8192 points.
Program capacity: 28k.
Basic command processing speed (LD command) S:0.075.
PLC in the program execution stage: according to the order of the user program order to store the order of each instruction,
After the corresponding operation and processing, the result is written to the ooutput status register,
The contents of the output status register are changed with the execution of the program Q172DCPU Programming Manual.
Output refresh phase: when all instructions are executed,
The output status register is sent to the ooutput latch in the output refresh stage,
And through a certain way (relay, transistor or transistor) output, drive the corresponding output equipment Q172DCPU Programming Manual.