Difference between revisions of "Servo motor torque mode test"
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** Pay special attention to encoder operating voltage (VCC) and GND wiring. Wiring VCC and GND erroneously may damage the encoder. | ** Pay special attention to encoder operating voltage (VCC) and GND wiring. Wiring VCC and GND erroneously may damage the encoder. | ||
* The motor is free to move/rotate, and no harm nor damages can happen from a long continuous movement. | * The motor is free to move/rotate, and no harm nor damages can happen from a long continuous movement. | ||
| + | * You have read and understood [[Servo tuning basics | servo tuning basics]]. | ||
{{damage|Don't use [http://en.wikipedia.org/wiki/Ethernet_crossover_cable crossover] cables in SimpleMotion V2 system}} | {{damage|Don't use [http://en.wikipedia.org/wiki/Ethernet_crossover_cable crossover] cables in SimpleMotion V2 system}} | ||
== Steps == | == Steps == | ||
| − | + | {{machine|During this test, motor may spin at maximim speed. Ensure that motor is free to run, or if not, ensure that no damage occurs if it hits to mechanical limit.}} | |
| − | # Set the drive in Torque mode from [[Granity | Granity]]. | + | # Set the drive in Torque mode from [[Granity | Granity]]/Goals tab. |
| − | + | # Go to Granity/Testing tab. | |
| − | + | # Make sure that the setpoint is zero and the drive is enabled and ready. | |
| − | + | # Set the {{param|TSP1}} Target setpoint 1 to 500. | |
| − | + | # Increase the target setpoint slowly by clicking the "Increment by TSP1" button and checking whether the motor moves of not. | |
| − | + | #*When setpoint reaches 16384 or greater, the maximum current is being delivered to motor. So further increase of setpoint will not have any effect. | |
| − | + | #*If drive stops into overvelocity fault, it typically means that system works properly. However, you may increase {{param|FVT}} enough to complete the test without overvelocity fault. | |
| − | ## If the motor moves in a continuous manner, all parameters and wiring are correct. | + | # If the motor moves in a continuous manner, all parameters and wiring are correct. |
| + | #* If the motor halts, click the "Set zero setpoint" button and follow the troubleshooting instructions below. | ||
== Troubleshooting == | == Troubleshooting == | ||
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* Check wiring, especially logic and motor voltages, Enable, and STO. | * Check wiring, especially logic and motor voltages, Enable, and STO. | ||
| − | * Check FBI Invert feedback direction checkbox in Granity/Machine tab, and repeat the steps above. | + | * Check [FBI] Invert feedback direction checkbox in Granity/Machine tab, and repeat the steps above. |
** This inverts the encoder direction without the need for rewiring. | ** This inverts the encoder direction without the need for rewiring. | ||
* Check the motor pole count and encoder resolution from their datasheets. | * Check the motor pole count and encoder resolution from their datasheets. | ||
* Move the motor by known angle/distance, and check the position feedback reading from Granity/Testing tab. | * Move the motor by known angle/distance, and check the position feedback reading from Granity/Testing tab. | ||
| − | ** The | + | ** The Position feedback value in Granity/Testing tab is always in CPR (counts per revolution). From this, the correct PPR can be calculated for one revolution (PPR = CPR/4). |
== Further reading == | == Further reading == | ||
| Line 40: | Line 42: | ||
* For stepping motors, please refer to [[Using stepping motor with IONI|stepping motor configuration instructions]]. | * For stepping motors, please refer to [[Using stepping motor with IONI|stepping motor configuration instructions]]. | ||
| − | [[Category: | + | [[Category:Application]] |
| + | [[Category:Motor_drives]] | ||
| + | [[Category:Setup_guides]] | ||
| + | [[Category:Troubleshooting]] | ||
Latest revision as of 13:07, 11 November 2021
Main idea[edit | edit source]
The servo motor torque mode test is a method to verify that basic parameters and wiring are correct. The target is to rotate/move the motor in torque mode in a continuous manner.
Assumptions[edit | edit source]
- All wiring are triple checked and torque tuning is done properly.
- Refer to the product user guidebook for detailed wiring instructions.
- Pay special attention to encoder operating voltage (VCC) and GND wiring. Wiring VCC and GND erroneously may damage the encoder.
- The motor is free to move/rotate, and no harm nor damages can happen from a long continuous movement.
- You have read and understood servo tuning basics.
 | Don't use crossover cables in SimpleMotion V2 system |
Steps[edit | edit source]
 | During this test, motor may spin at maximim speed. Ensure that motor is free to run, or if not, ensure that no damage occurs if it hits to mechanical limit. |
- Set the drive in Torque mode from Granity/Goals tab.
- Go to Granity/Testing tab.
- Make sure that the setpoint is zero and the drive is enabled and ready.
- Set the Target setpoint 1TSP1 Target setpoint 1 to 500.
- Increase the target setpoint slowly by clicking the "Increment by TSP1" button and checking whether the motor moves of not.
- When setpoint reaches 16384 or greater, the maximum current is being delivered to motor. So further increase of setpoint will not have any effect.
- If drive stops into overvelocity fault, it typically means that system works properly. However, you may increase Velocity tracking error thresholdFVT enough to complete the test without overvelocity fault.
- If the motor moves in a continuous manner, all parameters and wiring are correct.
- If the motor halts, click the "Set zero setpoint" button and follow the troubleshooting instructions below.
Troubleshooting[edit | edit source]
In most cases, the motor halts after a short movement if the feedback resolution is incorrect, or if it's direction is reversed.
- Check wiring, especially logic and motor voltages, Enable, and STO.
- Check [FBI] Invert feedback direction checkbox in Granity/Machine tab, and repeat the steps above.
- This inverts the encoder direction without the need for rewiring.
- Check the motor pole count and encoder resolution from their datasheets.
- Move the motor by known angle/distance, and check the position feedback reading from Granity/Testing tab.
- The Position feedback value in Granity/Testing tab is always in CPR (counts per revolution). From this, the correct PPR can be calculated for one revolution (PPR = CPR/4).
Further reading[edit | edit source]
After the torque mode is configured and the motor can be controlled in torque mode properly, velocity and/or position modes can be tuned. Please refer to their respective instruction pages for further details.
Other motor types[edit | edit source]
- For linear motors, please refer to linear motor configuration instructions.
- For stepping motors, please refer to stepping motor configuration instructions.
