Fault definitions – Rockwell Automation 1560E SMC Flex Smart Motor Controller User Manual

7-4

Diagnostics

1560E-UM050B-EN-P - June 2013

Fault Definitions

Table 7.B shows the fault definition for the SMC-Flex.

Table 7.B – Fault Definitions

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Fault

Description

Line Loss

The SMC-Flex can determine if a line connection has been lost, and will indicate this accordingly.

Shorted SCR

Shorted SCRs will be detected and starting will be prohibited by the SMC-Flex.

Open Gate

Open gate indicates that an abnormal condition that causes faulty firing (e.g., open SCR gate or faulty gate

driver) has been sensed during the start sequence. The SMC-Flex controller will attempt to start the motor a

total of three times before the controller shuts down.

Power Pole PTC

Overtemperature

The power pole temperature in each phase is monitored. If the temperature rises above the predetermined

level, the unit will fault to protect the power pole. A reset can be performed once the temperature falls below

this level. This fault may also represent loss of gate driver power during gating.

Motor PTC

A motor PTC can be connected to terminals 23 and 24. If the PTC parameter is enabled and the PTC trips,

the SMC-Flex will trip and indicate a Motor PTC fault.

Open Bypass

Power Pole bypass contacts are monitored for proper operation. In the event of a contact failure, the

SMC-Flex will indicate an Open Bypass fault.

No Load

The SMC-Flex can determine if a load connection has been lost, and No Load fault will be indicated.

Line Unbalance u

Voltage unbalance is detected by monitoring the three phase supply voltages. The formula used to calculate

the percentage voltage unbalance is as follows:

V

u

= 100 (V

d

/ V

a

)

V

u

: Percent voltage unbalance

V

d

: Maximum voltage deviation from the average voltage

V

a

: Average voltage

The controller will shut down when the calculated voltage unbalance reaches the user-programmed trip

percentages.

Overvoltage and

Undervoltage Protection u

Overvoltage and undervoltage protection are user-defined as a percentage of the programmed line voltage.

The SMC-Flex controller continuously monitors the three supply phases. The calculated average is then

compared to the programmed trip level.

Underload v

Underload protection is available for undercurrent monitoring. The controller will shut down when the motor

current drops below the trip level. This trip level, a percentage of the motor’s full load current rating, can be

programmed.

Overload Protection

Overload protection is enabled in the Motor Protection group by programming the:

• Overload class

• Overload reset

• Motor FLC

• Service factor

Refer to Chapter 5 for more information on Motor Protection.

Phase Reversal

Phase reversal is indicated when the incoming power to the SMC-Flex controller is in any sequence other

than ABC. This pre-start protective feature can be disabled.

Coms Loss

The SMC-Flex controller disables control through the serial communication port as the factory default. To

enable control, the Logic Mask found in the Communication programming group must be set to “4.” With

Series B human interface modules, this can also be accomplished by enabling control logic through the

Control Status programming group.

If a Bulletin 20-HIM Human interface module or Bulletin 1203 communication module is disconnected from

the SMC-Flex controller when control is enabled, a Comm Fault will occur.

Network

Network faults are faults generated on the network external to the SMC-Flex, and are annunciated on the

LCD display.

Ground Fault

Ground faults are based on feedback from the user supplied 825 CT detecting ground fault currents. Ground

fault parameters of level and time delay must be programmed for proper operation.

Excess Starts/Hour

Excess starts/hour is displayed when the number of starts in a one hour period exceeds the value

programmed.

Power Loss

Power loss indicates that an input power phase is not present. The controller’s LCD display will identify the

missing phase.

If all three phases are absent when a start command is issued, the LCD will display “Starting” without motor rotation.

u

Phase loss, overvoltage and undervoltage protection are disabled during braking operation.

v

Jam detection and underload protection are disabled during slow speed and braking operation.

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Additional details regarding fault definitions can be found in Chapter 1 – Product Overview.