Section 5
Troubleshooting
Safety Notice | Be sure to read and understand all notices, warning and caution statements in Section 1 | |
| of this manual. If you have any questions about the safe operation of this equipment, | |
| please contact your Baldor representative before you proceed. | |
Preliminary Checks | In the event of trouble, disconnect all input power to the control and perform these | |
| preliminary checks. | |
Power Off Checks |
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| 1. | Check all connections for tightness and signs of overheating. |
| 2. | Check for cracked or damaged insulators and terminal blocks. |
| 3. | Ensure the correct setting of the overload relay. |
| 4. | Check the 115VAC input power. |
| 5. | If one or more SCR’s should be replaced, contact Baldor. |
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| Table |
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| This menu is used to view the last five fault trip conditions. Additional information about | ||
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| fault trips may be found in the troubleshooting section of this manual. | ||
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| Note: The control is shipped with five fault messages in the log | ||
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| message is “External Trip”. There is no software method to clear the fault log. |
Block Title |
| Parameter |
| Description |
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Trips |
| 1 16 External Trip |
| Use the “⇑ ” and “⇓ ” keys to scroll through the fault trip list. In this example, |
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| 1 = the most recent trip (5 would indicate oldest). Parameters P73 to P77. |
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| 16 = the code for the fault trip. |
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| External Trip = the text message for the fault trip. |
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| 16 error conditions that cause a fault trip to occur are: (E1 – E16) |
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| 1 – Phase loss. This is a |
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| AC input. This error can also indicate phase unbalance or undervoltage (low voltage). |
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| 2 – Too Hot. Heat sink temperature exceeded limit. Possible causes are overload, frequent |
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| starting, poor ventilation, excessive dirty on heat sink, high ambient temperature or high |
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| humidity. |
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| 3 – SCR Signal. Excessive electrical noise on input power lines. |
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| 4 – SCR Firing. SCR’s are not responding to firing commands. May be a result of a failed |
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| control board, voltage spikes on power lines, noise, loose connections or SCR failure. |
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| 5 – SCR Signal. Excessive electrical noise on input power lines. |
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| 6 – SCR Signal. Excessive electrical noise on input power lines. |
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| 7 – SCR Sensing. Loss of the sensing signal from an SCR. May be a result of a failed SCR, |
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| loss of phase current when running, undervoltage or phase unbalance when running. |
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| 8 – SCR Sensing. Loss of the sensing signal from an SCR. May be a result of a failed SCR, |
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| loss of phase current when running, undervoltage or phase unbalance when running. |
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| 9 – SCR Sensing. Loss of the sensing signal from an SCR. May be a result of a failed SCR, |
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| loss of phase current when running, undervoltage or phase unbalance when running. |
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| 10 – SCR Shorted. Shorted SCR is detected. If not using input contactor, it is recommended |
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| that you map this fault to an output relay to trip the circuit breaker if the error occurs. When |
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| one phase is shorted, motor can be stopped. However, when two or three phases are |
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| shorted, the motor cannot be stopped without the input contactor. |
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| 11 – Low Current. Motor current is less than full load current level (broken belt or coupling). |
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| 12 – C/L Timeout. Motor current exceeded current limit value. Voltage was reduced to limit |
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| output current but it still exceeded limit for longer than allowed. |
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| 13 – Overload. Provides overload protection for SCR’s. (Not for motor thermal overload). |
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| The value of the overload current trip detection was exceeded. |
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| 14 – Shearpin. The value of the high current Shearpin trip detection has been exceeded. |
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| 15 – Thermistor. Optional with I/O expansion board. Refer to MN851 for information. |
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| 16 – External Trip. Optional with I/O expansion board. Refer to MN851 for information. |
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MN850 | Troubleshooting |