Brand: MITSUBISHI
Name: Corresponding SSCNET positioning module
Model: QD75M4
"4 axes, SSCNET connection type.
2 axis /4 axis /3 axis linear interpolation.
2 axis interpolation.
Control unit: mm, inch, degree, pulse.
Location data: 600 data / axis.
40 pin connector.
Easy to achieve high speed, high precision positioning control.
Support for multiple types of positioning control,
Including 2 ~ 4 axis 2 axis linear interpolation, circular interpolation, speed control and speed / position control, path switching control, constant speed control etc..
In addition, can use the "Configurator-QP GX" and other software,
Easy to set, monitor and debug.
Saving wiring through SSCNET cable connections while simultaneously,
The length of the total cable distance up to 30m.
In addition, an absolute position system for determining the origin position is supported by the return data set operation of the origin.
No need for the near point block, such as wiring. "
For 32 point I/O. 0.5 square mm (AWG20).Output points: 32 points.
Output voltage and current: DC5~12V; 16mA/ point; 512mA/ common.
Response time: 0.5ms.
32 points and 1 common ends.
Leaky type.
40 pin connector.
With fuse.
Ultra high speed processing, production time is shortened, better performance MITSUBISHI QD75M4.
As applications become larger and more complex, it is necessary to shorten the system operation cycle time QD75M4
The operation period can be shortened by the super high basic operation speed 1.9ns.
In addition to achieve in the past with the control of single-chip high-speed control,
The system performance can be improved by reducing the total scan time,
To prevent any possible performance bias.
Convenient processing of large capacity data MITSUBISHI QD75M4.
In the past can not achieve the standard RAM and SRAM card file register area of continuous access,
The boundary of each area should be considered in programming.
The SRAM 8MB extension card is installed in the high speed universal QCPU,
Standard RAM can be used as a continuous file register,
Capacity up to 4736K words, thus simplifying the programming MITSUBISHI QD75M4.
Thus, even if the memory space of the soft element is insufficient,
Can also be installed by the expansion of SRAM card, easy to extend the file register area.
The address register is extended to 32 bits, which can be programmed to go beyond the traditional 32K word,
And to achieve the extension to the file register to all regions of the file register MITSUBISHI Corresponding SSCNET positioning module.
In addition, the processing speed of the index modification plays an important role in the efficient operation of structured data (array),
The speed has been improved MITSUBISHI Corresponding SSCNET positioning module.
When the index is used to modify the program repeatedly (e.g. from FOR to NEXT), the scan time can be reduced.
With the help of sample tracking function, the starting time is shortened
By using the sampling and tracking function, it is convenient to analyze the data when the fault occurs,
Testing procedures for the time, etc MITSUBISHI Corresponding SSCNET positioning module. , can shorten the time of failure analysis and start-up time.
In addition, the multi CPU system also helps to determine the datta transceiver time between the CPU module QD75M4.
Can be used to analyze the data collected by programming tools,
In the form of charts and trend charts, the data changes of the bit soft element and the word soft element can be easily diisplayed MITSUBISHI QD75M4.
And the sampling tracking results can be stored in LogViewer GX form CSV,
By recording data display and analysis tool LogViewer GX to display.
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