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Q2ASCPU-S1 | MITSUBISHI CPU unit Q2ASCPU-S1

MITSUBISHI Q2ASCPU-S1 Manual And Instructions
Q2ASCPU-S1 datasheetPDF datasheet
Q2ASCPU-S1 HardwareUser's Manual
Q2ASCPU-S1 General Instruction Manual
Q2ASCPU-S1 User's Manual
Q2ASCPU-S1 HardwareUser's Manual
Q2ASCPU-S1 User's Manual
Q2ASCPU-S1 HardwareUser's Manual
Q2ASCPU-S1 HardwareUser's Manual
Q2ASCPU-S1 PID Control InstructionsProgramming Manual

MITSUBISHI Q2ASCPU-S1 Product information and technical parameters:
Brand: MITSUBISHI
Name: CPU unit
Model: Q2ASCPU-S1
Input and output points: 1024 points.
Input / output data points: 8192 points.
Program capacity: 60k.
Basic command processing speed (LD command) S:0.2.
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 output status register,
The contents of the output status register are changed with the execution of the program.
Output refresh phase: when all instructions are executed,
The output status register is sent to the output latch in the output refresh stage,
And through a certain way (relay, transistor or transistor) output, drive the corresponding output equipment.

SRAM memory card.
RAM capacity: 128KB. Data format: ASCII.
Data bits: 7.
A1SJ71UC24-R2-S2 and A1SJ71UC24-R4-S2 allow the Ans series PLC to be connected to the MODBUS network,
As the network from the station, and in accordance with the instructions of the main station of the CPU Ans user storage area for data reading / writing MITSUBISHI Q2ASCPU-S1.
In addition to supporting the MODBUS protocol, these components also support the standard dedicated communication protocol for A1SJ71UC24 components Q2ASCPU-S1
This feature makes the main station of the data acquisition and control with more flexibility.
Support MODBUS slave station protocol.
Supports 1 to 21 function code.
Two transmission modes: RTU or ASCII. Type of input: DC source MITSUBISHI Q2ASCPU-S1.
Input points: 16 points.
Input voltage: 12/24DC.
Input current: 3/7mA.
Connection mode: terminal row.
Common common point: 32.
Functional block diagram language is a kind of PLC programming language, which is similar to digital logic circuit.
The function module is used to represent the function of the module,
Different function modules have different functions.
Functional module figure programming language features: functional block diagram programming language is characterized by a functional module for the unit,
Analysis and understanding of the control scheme is simple and easy: function module is to use graphical form of expression,
Intuitive, for a digital logic circuit based on the design of the staff is very easy to master the programming;
Control system with complex scale and complex control logic,
Because the function module diagram can clearly express the function relation, the programming debugging time is greatly reduced MITSUBISHI Q2ASCPU-S1. Type of input: DC source.
Input points: 32 points.
Input voltage: DC12/24.
Input current: 3/7mA.
Connection mode: terminal row.
Common common point: 32.
Sequential function flow chart language is designed to satisfy the sequential logic control.
The process of sequential process action is divided into steps and transformation conditions,
According to the transfer condition, the control system is distributed in the function flow sequence,
Step by step according to the sequence of actions.
Each step represents a control function, represented by the box.
In the box, the ladder logic is used to complete the task of the corresponding control function.
This programming language makes the program structure clear and easy to read and maintain,
Greatly reduce the programming workload, shorten the programming and debugging time.
Used in the system of the size of the school, procedures for more complex occasions.
Sequence function flow chart programming language features: to function as the main line, in accordance with the functionaal flow of the order of distribution, clear, easy to understand the user program,
Avoid the defect of ladder diagram or other languages,
At the same time, the use of ladder language to avoid the use of ladder programming,
Due to the compllicated mechanical interlock, the structure of the user program is complex and difficult to understand,
User program scan time is also greatly reduced Q2ASCPU-S1 Q2ASCPU-S1.


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