What causes Schneider Electric error SLF?

Broken, disconnected, or improperly wired RS-485 Modbus communication cable (e.g., A/B lines reversed or open).. Incorrect Modbus slave address (Parameter P5-01) or baud rate (Parameter P5-02) configured in the drive or Modbus master.. Missing or incorrectly placed 120 Ohm termination resistors at the physical ends of the Modbus bus segment.. Excessive electrical noise or electromagnetic interference (EMI) on the communication lines, corrupting data packets.. Modbus master controller experiencing a communication timeout or not actively polling the drive.

How do you fix Schneider Electric fault code SLF?

1. 1. Inspect the RS-485 Modbus communication cable for physical damage, loose connections, or incorrect wiring (e.g., A to A, B to B) at both the drive and master ends. 2. 2. Verify that the drive's Modbus slave address (Parameter P5-01) and baud rate (Parameter P5-02) match the configuration settings in the Modbus master controller. 3. 3. Check for the correct installation of 120 Ohm termination resistors at the two furthest physical ends of the Modbus bus segment. 4. 4. Measure the voltage differential between the Modbus A and B lines (should fluctuate between 0-5VDC during communication) using an oscilloscope or specialized Modbus tester. 5. 5. Ensure that no other device on the Modbus network is using the same slave address as the drive, causing address conflicts.

SLF

Modbus Fault

Schneider Electric · Altivar 312 Variable Frequency Drive

What does SLF mean?

This fault signals an interruption in communication on the Modbus bus, preventing the drive from exchanging data with a Modbus master or remote display terminal. Causes often include physical bus issues or a disconnected remote display terminal when HMI command is enabled. This results in a loss of external control, monitoring, or parameter access.

Common Causes

Broken, disconnected, or improperly wired RS-485 Modbus communication cable (e.g., A/B lines reversed or open).
Incorrect Modbus slave address (Parameter P5-01) or baud rate (Parameter P5-02) configured in the drive or Modbus master.
Missing or incorrectly placed 120 Ohm termination resistors at the physical ends of the Modbus bus segment.
Excessive electrical noise or electromagnetic interference (EMI) on the communication lines, corrupting data packets.
Modbus master controller experiencing a communication timeout or not actively polling the drive.

Repair Steps & Checklist

Click steps to track your progress.

1
1. Inspect the RS-485 Modbus communication cable for physical damage, loose connections, or incorrect wiring (e.g., A to A, B to B) at both the drive and master ends.
2
2. Verify that the drive's Modbus slave address (Parameter P5-01) and baud rate (Parameter P5-02) match the configuration settings in the Modbus master controller.
3
3. Check for the correct installation of 120 Ohm termination resistors at the two furthest physical ends of the Modbus bus segment.
4
4. Measure the voltage differential between the Modbus A and B lines (should fluctuate between 0-5VDC during communication) using an oscilloscope or specialized Modbus tester.
5
5. Ensure that no other device on the Modbus network is using the same slave address as the drive, causing address conflicts.

Browse all codes in this manual (31)

Modbus Fault

What does SLF mean?

Common Causes

Repair Steps & Checklist

Related Faults