33
2. Ethernet Communication
2.5 CC-Link IE TSN
1
2
3
4
5
6
7
8
9
10
*1
These signals are set in the initial setting. Using
Pr.180 to Pr.183
, input signals assigned to the device numbers can be changed. Some signals
are not controllable via network depending on the settings of
Pr.338 and Pr.339
. For details of
Pr.180 to Pr.183, Pr.338, and Pr.339
, refer to the
FR-E800 Instruction Manual (Function).
*2
The signals are fixed. They cannot be changed using parameters.
*3
No signal is assigned in the initial setting. Use
Pr.184 to Pr.189
to assign signals to RY8, RYA, RYB, and RY1B to RY1D.
For details, refer to the description of
Pr.184 to Pr.189 (Input terminal function selection)
in the FR-E800 Instruction Manual (Function).
*4
While "1" is set in the frequency setting command (RYD), the set frequency (RWw1) is always applied.
*5
for operation conditions of inverter reset.
*6
Torque control cannot be performed with a PM motor.
RY2
High-speed operation command (terminal
RH function)
Functions assigned to terminals RH, RM, and RL are activated.
RY3
Middle-speed operation command
(terminal RM function)
RY4
Low-speed operation command (terminal
RL function)
RY5
JOG operation selection 2
JOG2 signal
RY6
Second function selection
RT signal
RY7
Current input selection
AU signal
RY8
— (terminal NET X1 function)
The function assigned to
Pr.185
is activated.
RY9
Output stop (terminal MRS function)
The function assigned to terminal MRS is activated.
RYA
— (terminal NET X2 function)
The function assigned to
Pr.186
is activated.
RYB
— (Function of terminal RES)
The function assigned to
Pr.184
is activated.
RYC
Monitor command
When "1" is set in RYC, the monitored value is set in the remote register
RWr0, 1, 4 to 7, and "1" is set in RXC (device for the Monitoring signal). While
"1" is set in RYC, the monitored data is always updated.
RYD
Frequency setting command / torque
command (RAM)
When "1" is set in RYD, the set frequency / torque command (RWw1) is
written to the RAM of the inverter.
After the writing completes, "1" is set in the frequency setting / torque
command completion (RXD). Under Real sensorless vector control, Vector
control, and PM sensorless vector control, the following value is also written
to RAM at the same time.
• During torque control
: Torque command value
• During speed control: Torque limit value
RYE
Frequency setting command / torque
command (RAM, EEPROM)
When "1" is set in RYE, the set frequency / torque command (RWw1) is
written to the RAM and EEPROM of the inverter. After the writing completes,
"1" is set in the frequency setting / torque command completion (RXE).
Under Real sensorless vector control, vector control, and PM sensorless
vector control, the following value is also written to RAM and EEPROM at the
same time.
• During torque control
: Torque command value
• During speed control: Torque limit value
To change the frequency consecutively, be sure to write data to the inverter
RAM.
RYF
Instruction code execution request
At the ON edge of RYF, processing corresponding to the instruction codes set
to RWw2, 10, 12, 14, 16, and 18 are executed. "1" is set in the instruction
code execution completed (RXF) after completion of instruction codes. When
an instruction code execution error occurs, a value other than "0" is set in the
reply code (RWr2, 10, 12, 14, 16, or 18).
RY1A
Error reset request flag
When "1" is set in RY1A at an inverter fault, the inverter is reset, and then "0"
is set in the error status flag (RX1A).
RY1B
— (terminal NET X3 function)
Functions assigned to
Pr.187 to Pr.189
are activated.
RY1C
— (terminal NET X4 function)
RY1D
— (terminal NET X5 function)
RY1E
User defined cyclic communication input
writing request
When "1" is set in RY1E, data set in RWw4 to RWw17 are written to the
corresponding parameters that have the index numbers specified using
Pr.1320 to Pr.1329
. While "1" is set in RY1E, the data is always updated. The
response time to write data is 100 ms at the most.
Device No.
Signal
Description
Summary of Contents for E820S
Page 5: ...4 ...
Page 177: ...176 2 Ethernet Communication 2 15 Ethernet communication parameters MEMO ...
Page 207: ...206 3 RS 485 Communication 3 5 MODBUS RTU MEMO ...
Page 211: ...210 4 Other Communication Options 4 2 Automatic connection with GOT MEMO ...
Page 212: ...211 CHAPTER 5 CHAPTER 5 4 5 6 7 8 9 10 Common Settings ...
Page 219: ...218 5 Common Settings MEMO ...
Page 220: ...219 CHAPTER 6 CHAPTER 6 4 5 6 7 8 9 10 Appendix 6 1 How to check specification changes 220 ...