3-18
Displaying running status
To display the running status in hexadecimal format, each state has been assigned to bit 0 to 15 as
listed in Table 3.7. Table 3.8 shows the relationship between each of the status assignments and the
LED monitor display. Table 3.9 gives the conversion table from 4-bit binary to hexadecimal.
Table 3.7 Running Status Bit Allocation
Bit Notation Content
Bit Notation Content
15
BUSY 1 when function code data is being
written.
7
VL
1 under voltage limiting control.
14
Always 0.
6
TL
Always 0.
13
WR
Always 0.
5
NUV
1 when the DC link circuit voltage
is higher than the undervoltage
level.
12
RL
1 when communication is effective
(when run commands and set
frequencies commands are issued
via communications).
4 BRK
Always
0.
11
ALM
1 when an alarm has occurred.
3
INT
1 when the inverter output is
stopped.
10
DEC
1 during deceleration.
2
EXT
1 during DC braking.
9
ACC
1 during acceleration.
1
REV
1 during running in the reverse
direction.
8
IL
1 under current limiting control.
0
FWD
1 during running in the forward
direction.
Table 3.8 Running Status Display
LED No.
LED4
LED3
LED2
LED1
Bit
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
Notation
BUSY WR RL
ALM DEC ACC
IL VL TL
NUV BRK INT
EXT
REV
FWD
Binary
1 0 0 0 0 0 1 1 0 0 1 0 0 0 0 1
Example
Hexa-
decimal
on the
LED
monitor
Summary of Contents for Jaguar CUB
Page 47: ...3 5 Figure 3 2 Alarm Mode Status Transition...
Page 77: ...5 4...
Page 78: ...5 5 E codes Extension Terminal Functions...
Page 80: ...5 7...
Page 81: ...5 8 C codes Control Functions of Frequency...
Page 84: ...5 11 y codes Link Functions...
Page 149: ...8 5 8 3 Common Specifications...
Page 150: ...8 6...
Page 153: ...8 9 8 5 External Dimensions 8 5 1 Standard Models...
Page 154: ...8 10...
Page 155: ...8 11 8 5 2 Models Available on Order EMC Filter Built in Type...
Page 156: ...8 12...