Mitsubishi Electric 800 Series Instruction Manual page 26

Communication

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Device No.

Frequency setting / torque command

RXD

completed (RAM)

Frequency setting / torque command

RXE

completed (RAM, EEPROM)

RXF

Instruction code execution completed

RX16

— (terminal NET Y3 function)

RX17

— (terminal NET Y4 function)

RX1A

Error status flag

RX1B

Remote station ready

These signals are set in the initial setting. Using Pr.190 to Pr.192, output signals assigned to the device numbers can be changed.

For details of Pr.190 to Pr.192, refer to the FR-E800 Instruction Manual (Function).

The signals are fixed. They cannot be changed using parameters.

No signal is assigned in the initial setting. Use Pr.313 to Pr.315 to assign signals to RX9 to RXB.

For details, refer to the description of Pr.190 to Pr.196 (Output terminal function selection) in the FR-E800 Instruction Manual (Function).

No signal is assigned in the initial setting. Use Pr.193 to Pr.196 to assign signals to RX5, RX8, RX16, and RX17.

For details, refer to the description of Pr.193 to Pr.196 (Output terminal function selection) in the FR-E800 Instruction Manual (Function).

 Details of the remote register

 Remote register (from the master module to the inverter)

• Remote register description

Device No.

Signal

RWw0

Monitor code 1, 2

*1*2

RWw1

Set frequency

Link parameter extended

RWw2

setting / instruction code

RWw3

Data to be written

RWw4

Monitor code 3

RWw5

Monitor code 4

RWw6

Monitor code 5

RWw7

Monitor code 6

RWw8

Fault history No.

RWw9

PID set point

RWwA

PID measured value

RWwB

PID deviation

Signal

After "1" is set in the frequency setting command / torque command (RYD),

and the frequency setting / torque command is written to the RAM of the

inverter, "1" is set for this signal. When "0" is set in the frequency setting

command / torque command (RYD), "0" is set for this signal.

After "1" is set in the frequency setting command / torque command (RYE),

and the frequency setting / torque command is written to the RAM and

EEPROM of the inverter, "1" is set for this signal. When "0" is set in the

frequency setting command / torque command (RYE), "0" is set for this

signal.

After "1" is set in the instruction code execution request (RYF) and the

processes corresponding to the instruction codes (RWw2, 10, 12, 14, 16 and

18) are executed, "1" is set for this signal. When "0" is set in the instruction

code execution request (RYF), "0" is set for this signal.

Functions assigned to Pr.195 and Pr.196 are activated.

When an inverter error occurs (protective function is activated), "1" is set for

this signal.

When the inverter is ready for communication upon completion of initial

setting after power-ON or a hardware reset, "1" is set for this signal.

When an inverter error occurs (protective function is activated), "0" is set for

this signal.

Set the monitor code to be monitored (refer to

specified monitor items will be stored in RWr0/RWr1.

Specify the set frequency or rotations per minute (machine speed). At this time, whether to

write to the RAM or EEPROM is decided with the RYD and RYE settings. After setting the set

frequency in this register, set "1" in RYD or RYE to write the frequency. After writing of

frequency is completed, "1" is set in RXD or RXE in response to the input command.

The setting range is 0 to 590.00 Hz (0.01 Hz increments). Write "59000" when setting 590.00

Hz.

Set an instruction code (refer to

parameter read/write, error reference, and error clear. Set "1" in RYF to execute the

corresponding instruction after completing the register setting. "1" is set in RXF after

completing the execution of the instruction. The upper 8 bits are used for the link parameter

extended setting.

Example) When reading Pr.160, instruction code is H0200.

Set data for the instruction code set in RWw2 (when required).

Set "1" in RYF after setting RWw2 and this register. Set "0" when the write code is not

required.

Set the monitor code to be monitored. By setting "1" in RYC after setting, the specified monitor

data is stored in RWr4 to RWr7.

Set the individual fault number of the fault history that you want to read. Up to the 8th previous

fault can be read. (The value in the lower 8 bits are fixed to H00.)

Upper 8 bits: H00 (latest fault) to H07 (eighth latest fault)

When H08 to HFF is set to the lower 8 bits, the fault record becomes an undetermined value.

Set the PID action set point.

Setting range: 0 to 100.00%

Set the PID measured value.

Setting range: 0 to 100.00%

Set the PID deviation.

Setting range: -100.00% to

100.00%

Description

page

29). When "1" is set in RYC, data of

page

27) for an operation such as operation mode switching,

• Input a value 100 times greater than the value to be set.

For example, enter "10000" when setting 100.00%.

• For details of PID control, refer to the FR-E800

Instruction Manual (Function).

2. Ethernet Communication

2.5 CC-Link IE TSN

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Mitsubishi Electric 800 Series Instruction Manual page 26

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