1 protective and diagnostic functions, 1 fault detection – Yaskawa G5HHP Drive User Manual

Troubleshooting

9.1.1 Fault Detection

9 - 2

9.1 Protective and Diagnostic Functions

9.1.1 Fault Detection

When the Inverter detects a fault, the fault code is displayed on the Digital Operator, the fault contact output

operates, and the Inverter output is shut OFF causing the motor to coast to a stop. (The stopping method can

be selected for some faults, and the selected stopping method will be used with these faults.)

D

When a fault has occurred, refer to the following table to identify and correct the cause of the fault.

D

Use one of the following methods to reset the fault after restarting the Inverter:

•

Turn ON the fault reset signal.
(A multi-function input (H1-01 to H1-06) must be set to 14 (Fault Reset).)

•

Press the RESET Key on the Digital Operator.

•

Turn the main circuit power supply off and then on again.

Table 9.1 Fault Displays and Processing

Fault Display

Meaning

Probable Causes

Corrective Actions

OC

Overcurrent

Overcurrent
The Inverter output current exceeded

the overcurrent detection level. (200%

of rated current)

S

A short-circuit or ground fault oc-

curred at the Inverter output. (A

short or ground fault can be caused

by motor burn damage, worn insula-

tion, or a damaged cable.)

S

The load is too large or the accelera-

tion/deceleration time is too short.

S

A special-purpose motor or motor

with a capacity too large for the In-

verter is being used.

S

A magnetic switch was switched at

the Inverter output.

Reset the fault after correcting its

cause.

GF

Ground Fault

Ground Fault
The ground fault current at the Invert-

er output exceeded approximately

50% of the Inverter rated output cur-

rent.

A ground fault occurred at the Inverter

output.

(A ground fault can be caused by mo-

tor burn damage, worn insulation, or a

damaged cable.)

Reset the fault after correcting its

cause.

PUF

DC Bus Fuse Open

Fuse Blown
The fuse in the main circuit is blown.

The output transistor has failed be-

cause of a short-circuit or ground fault

at the Inverter output.

Check whether there is a short-circuit

between the following terminals. A

short-circuit will damage the output

transistor:

B1 (¨3) ↔ U, V, W

©

↔ U, V, W

Replace the Inverter after correcting

the cause.

SC

Short Circuit

Load Short-circuit
The Inverter output or load was short-

circuited.

A short-circuit or ground fault oc-

curred at the Inverter output. (A short

or ground fault can be caused by mo-

tor burn damage, worn insulation, or a

damaged cable.)

Reset the fault after correcting its

cause.

OV

Overvoltage

Main Circuit Overvoltage
The main circuit DC voltage exceeded

the overvoltage detection level.

The deceleration time is too short and

the regenerative energy from the mo-

tor is too large.

Increase the deceleration time or con-

nect a Braking Resistor Unit.

Overvoltage

the overvoltage detection level.
400-V class: Approx. 800 V

575-V class: Approx. 990 V

The power supply voltage is too high.

Decrease the voltage so it’s within

specifications.

UV1

DC Bus Undervolt

Main Circuit Undervoltage
The main circuit DC voltage is below

the undervoltage detection level

(L2-05).
400-V class: Approx. 380 V

575-V class: Approx. 480 V

S

An open-phase occurred with the in-

put power supply.

S

A momentary power loss occurred.

S

The wiring terminals for the input

power supply are loose.

S

The voltage fluctuations in the input

power supply are too large.

Reset the fault after correcting its

cause.

UV2

CTL PS Undervolt

Control Power Fault
The control power supply voltage

dropped.

----

S

Try turning the power supply off and

on.

S

Replace the Inverter if the fault con-

tinues to occur.

9