Register Bit Function Bank Mask Adjustment Range Multiplier
14
word
Post-compensation output
frequency
0 FFFF 0000 ∼ 9C40
(0.00 ∼ 400.00 Hz)
0.01
15
word
Torque current monitor 0 FFFF (Note 2) 0.01
16 low
byte
Excitation current monitor 0 00FF 00 ∼ FF (0 ~ 255%) 1
high
byte
Reserved
17
word
PID feedback value 0 FFFF (Note 2) 0.02
18
word
Motor overload ratio 0 FFFF 0 ~ 65535 100/65535
19
word
Inverter overload ratio 0 FFFF 0 ~ 65535 100/65535
1A
word
DBR overload ratio 0 FFFF 0 ~ 65535 100/65535
1B
word
Input power (%) 0 FFFF 0 ~ 6553.5 0.1
1C
word
Input power (kW) 0 FFFF (Note 3)
1D
word
Output power (%) 0 FFFF (Note 2) 0.1
1E
word
Output power (kW) 0 FFFF (Note 2, Note 3)
1F
word
RR input 0 FFFF 0 ~ 65535 100/65535
20
word
CPU version number 2 FFFF
21
word
External ROM version
number
3 FFFF
22
word
EEPROM version number 1 FFFF
23 low
byte
Inverter typeform monitor 0 00FF Refer to Table 4 (page 26)
8 Input / output power units 0 0100 0: 0.01kW
1: 0.1kW
9,A Command mode status 0 0600 00: terminal
01: panel
10: option
11: RS232C
B,C Frequency mode selection
status
0 1800 00: terminal
01: panel
10: option
11: RS232C
D,E,
F
Reserved
24 low
byte
Modbus Interface card
software revision
high
byte
Modbus Interface card
software version
25
word
Output current (amps) FFFF 0.0 ~ 6553.5 A 0.1
(Note 1) These monitor voltage units are not affected by the setting of VOLTAGE UNITS SELECTION in
GROUP:UTILITY PARAMETERS; they are always in units of %.
(Note 2) These registers use signed data (data values larger than 7FFFH are negative). If the register data is
8000H or larger, the actual value can be obtained by: actual value = - [FFFFH - (register data) + 1].
(Note 3) If the input / output power units data is 0, the monitored data is in 0.01kW units, and the multiplier is
0.01. If the input / output power units data is 1, the monitored data is in 0.1kW units, and the multiplier is
0.1. These values are automatically set according to the inverter’s capacity.
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