User Manual
Rockwell Automation Publication 20B-UM002G-EN-P - July 2014 49
Programming and Parameters Chapter 1
UTILITY
Diagnostics
215 [Last Stop Source]
Displays the source that initiated the most recent
stop sequence. It will be cleared (set to 0) during
the next start sequence.
(1)
Options not listed are reserved for future use.
Default:
Options:
(1)
0
1-5
7
8
9
10
11
12
13
Read Only
“Pwr Removed”
“DPI Port 1-5”
“Digital In”
“Fault”
“Not Enabled”
“Sleep”
“Jo g”
“Autotune”
“Precharge”
361
362
363
364
365
366
216 [Dig In Status]
Status of the digital inputs.
Read Only 361
…
366
217 [Dig Out Status]
Status of the digital outputs.
Read Only 380
…
384
218 [Drive Temp]
Present operating temperature of the drive
power section.
Default:
Min/Max:
Units:
Read Only
0.0/100.0%
0.1%
219 [Drive OL Count]
Accumulated percentage of drive overload.
Continuously operating the drive over 100% of its
rating will increase this value to 100% and cause
a drive fault or foldback depending on the
setting of [Drive OL Mode].
Default:
Min/Max:
Units:
Read Only
0.0/100.0%
0.1%
150
220 [Motor OL Count]
Accumulated percentage of motor overload.
Continuously operating the motor over 100% of
the motor overload setting will increase this
value to 100% and cause a drive fault. Refer to
page 123
.
Default:
Min/Max:
Units:
Read Only
0.0/100.0%
0.1%
047
048
221 [Mtr OL Trip Time]
Amount of time before a Drive Overload fault
(F64) occurs if the load condition remains
constant. A value of 99999 means that the drive
is operating under the overload level.
Default:
Min/Max:
Units:
Read Only
0/99999
1
220
File
Group
No.
Parameter Name & Description
See page 16 for symbol descriptions
Values
Related
000000xx000000xx
10 01234567891112131415
1 = Input Present
0 = Input Not Present
x = Reserved
Bit #
Digital In1
Digital In2
Digital In3
Digital In4
Digital In5
Digital In6
In1 DLogRslt
(1)
In2 DLogRslt
(1)
In3 DLogRslt
(1)
In4 DLogRslt
(1)
In5 DLogRslt
(1)
In6 DLogRslt
(1)
(1)
Firmware 6.002 and later.
00x 0xxxxxxxxxxxx
10 01234567891112131415
1 = Output Energized
0 = Output De-energized
x = Reserved
Bit #
Digital Out1
Digital Out2
Digital Out3