Analog input channel number: 16CH.
Ambient temperature of 25 plus or minus 5 degrees C: plus or minus 0.1%.
Ambient temperature 0 ~ 55 degrees C:-.
Temperature coefficient: positive and negative 35ppm/.
Conversion speed: 10ms.
Insulation between channels: isolation transformer insulation.
Absolute maximum input: positive and negative 15V, 30mA.
External wiring connection: 40 pin connector two.
The analog input voltage: DC - 10 - 10V.
Digital output value: 32000 ~ 32000.
Analog input current: DC0 ~ 20mA.
Digital output value: 0 ~ 32000.
Strengthen the implementation of the interrupt function according to the alarm output flag, easy to carry out preventive maintenance.
The measured value and the change rate of the analog input signal exceed the upper and lower limits of the set,
Regardless of the procedure of the scan time, can be executed interrupt handling, quickly respond to abnormal conditions.
Analog input module for the external analog signal into the interface of the programmable controller.
Can choose the channel between the insulation, voltage input, current input, voltage / current mixed input, thermocouple input, temperature resistance (RTD) input for a variety of purposes, such as modules.
Filter high frequency interference.
Analog input module has been equipped with a first order lag filter.
The analog input signal with high frequency interference component can be obtained by using the first order lag filter.
Parameters can be set through the filter time constant, no program can be easy to use.
Operation control mode: stored procedure repeated operation.
Built in IE CC-Link.
Input / output points: 4096 points.
Program capacity: 80K.
Increase the speed of a constant cycle interrupt program.
Perform a minimum interval constant period interrupt program can be shortened to 50 s,
Programmable logic controller can read more high-speed signals MITSUBISHI R60AD16-G.
In addition, the interrupt routine can be set priority, and the interrupt program with high priority is executed when the interrupt processing is interrupted
R60AD16-G
Therefore, when the signal is read at a high speed, the program can read the signal from the constant cycle of the conventional input module +CPU module.
Data management using database functions MITSUBISHI R60AD16-G.
Data and production performance data through computer management in the past can be managed by database management of a built-in programmable controller.
Database can be created in the SD memory card, and can use the special instructions to easily add, update, retrieve, delete data.
In addition, the database can be imported and exported through the Unicode text file format,
Share data with spreadsheet software MITSUBISHI R60AD16-G. In particular, can be flexibly used in the production of many varieties of food and beverage production line and other fields,
Effectively carry out the change of formula data and the management of production performance R60AD16-G MITSUBISHI. Operation control mode: stored procedure repeated operation.
Input / output points: 4096 points.
Program capacity: 160K step.
Multi CPU system for high precision motion control
The high speed control can be realized by executing the parallel control program and the parallel processing of multi CPU high speed communication R60AD16-G MITSUBISHI.
The communication cycle between multi CPU has been synchronized with the motion control time, which can reduce the redundant control time R60AD16-G MITSUBISHI.
After installing the 3 motion CPU modules, the maximum of 96 axes can be used for servo control.
Program capacity of up to 1200K.
Multi CPU system for high precision motion control.
The built-in CPU module support 2 Gigabit Network port.
Database functions to facilitate data managgement R60AD16-G.
Extended SRAM card with built-in security function.
Can be carried out a variety of motion control (position, speed, torque, advanced synchronous control, etc.).
In line with the international safety standards (13849-1 PPL e ISO, IEC 61508 SIL 3) security CPU MITSUBISHI R60AD16-G.
The most suitable for C/C++ language programming from the computer / computer environment for transplantation.