Frame 4 fault descriptions and corrective actions – Rockwell Automation Liqui-Flo V2.0 AC Drive User Manual

208

Rockwell Automation Publication D2-3518-3 - May 2013

Chapter 10

Frame 4 Fault Descriptions and Corrective Actions

Table

describes drive faults and corrective actions for Frame 4 (firmware version

2.x only). It also indicates if the fault is:

1

Auto-resettable, and can also be reset using normal fault clearing mechanisms.

2

Non-resettable

3

User-configurable, and can be reset using normal fault clearing mechanisms.

4

Normal fault*

*The fault is resettable using normal fault clearing mechanisms on the drive
(Stop/Reset button, powercycling, etc.) or through VS Utilities.

Rctfr Over Cur R,S,T

211
212
213

4 Rectifier overcurrent.

See description of rectifier IOC Redir Time (300) and IOC
Redir Max (301) for discussion of alternative reporting of
rectifier instantaneous overcurrent (IOC) faults.

1. High line current can be caused by high load current. Verify that rectifier

overcurrent was not caused by sudden increase in motor (inverter) current.

2. Low input voltage can result in increased current load. Provide proper input

voltage to the drive.

3. AC line events such as short duration shorts in the nearby grid can cause

sudden line current increases. Verify that such events have not occurred.

4. Verify proper motor data is entered on inverter.
5. Reduce rectifier current limit using rectifier Current Limit parameter (105).

Rctfr Over Volt

224

4 The DC bus voltage is too high.

Monitor the AC line for high line voltage or transient conditions. Bus overvoltage
can also be caused by motor regeneration. Extend the decel time.

Rctfr Pwr Board

235

2 Drive rating information stored on the rectifier power

board is incompatible with rectifier application firmware,
or drive rating information stored on the rectifier power
board was corrupted or could not be read from rectifier
power board by rectifier firmware.

1. Check connections between rectifier control board and rectifier power interface

board. If this fixes the issue, then use rectifier Reset To Defaults (rectifier 197)
to reset the rectifier to its defaults, then reconfigure the drive as needed.

2. Load updated drive rating information onto rectifier.
3. Load updated rectifier application firmware.
4. Replace rectifier power board.

Reactor Temp

214

4 Temperature switch in reactor opened.

Check for proper temperature and fan operation.

Replaced MCB-PB

107

2 Inverter control board or inverter power board was

replaced.
This fault can be cleared by writing a nonzero value to
inverter Reset To Defaults parameter (197).

1. Restore inverter defaults (inverter parameter 197).
2. Reprogram parameters.

Ride Thru Abort

221

4 Input power loss timed out, rectifier Ride Through Ena

(rectifier 64) is set to Enabled.

1. Verify input power and connections.
2. Check Line Sync board.
3. Check AC Line I/O board.

Shear Pin

63

1

3

Programmed Current Lmt Val (148) has been exceeded.
Enabled/disable with inverter Fault Config 1 (238).

Check load requirements and Current Lmt Val (148) setting.

SW OverCurrent

36

1 The drive output current has exceeded the software

current limit.

Check for excess load, improper DC boost setting. DC brake volts set too high.

UnderVoltage

4

1

3

DC bus voltage fell below the minimum value of 305V DC.
Enable/disable with inverter Fault Config 1 (238).

Monitor the incoming AC line for low voltage or power interruption.

UserSet1 Chksum

101

2 The checksum read from the user set does not match the

checksum calculated.
These faults can be cleared by writing a nonzero value to
inverter Save To User Set (199).

Re-save user set using inverter Save To User Set (199).

UserSet2 Chksum

102

2

UserSet3 Chksum

103

2

Table 21 - Fault Descriptions and Corrective Actions (Frame 3) (Continued)

Fault

No

.

Ty

pe

Description

Action