Difference between revisions of "Determining Argon hardware failure"
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If [[Argon (servo drive)]] refuses to operate in any meaningful way, it is good to perform few tests for the hardware to identify possible hardware failures. | If [[Argon (servo drive)]] refuses to operate in any meaningful way, it is good to perform few tests for the hardware to identify possible hardware failures. | ||
| + | ==Verifying AC to HV DC circuity== | ||
| + | See [[Argon supply voltage troubleshooting]] | ||
==Testing power stage== | ==Testing power stage== | ||
Motor power stage and braking resistor output consists IGBT transistors that typically short circuit if they are damaged. Testing of such failure needs only a multimeter with resistance measurement function. | Motor power stage and braking resistor output consists IGBT transistors that typically short circuit if they are damaged. Testing of such failure needs only a multimeter with resistance measurement function. | ||
Revision as of 20:00, 31 March 2014
If Argon (servo drive) refuses to operate in any meaningful way, it is good to perform few tests for the hardware to identify possible hardware failures.
Verifying AC to HV DC circuity
See Argon supply voltage troubleshooting
Testing power stage
Motor power stage and braking resistor output consists IGBT transistors that typically short circuit if they are damaged. Testing of such failure needs only a multimeter with resistance measurement function.
- Unplug all connectors from the drive at least 30 minutes before testing as residue voltages may disturb this test and pose a danger. After 30 minutes fully disconnected, ensure that voltage has been safely discharged.
- Measure resistance between J4 pin VN against BR,U,V and W. A typical resistance is between 100 kΩ - 10 MΩ. If resistance is less than 10 kΩ, there may be a failed IGBT.
- Measure resistance between J4 pin VP against BR,U,V and W. A typical resistance is between 100 kΩ - 10 MΩ. If resistance is less than 10 kΩ, there may be a failed IGBT.
