Invt Che100-1r5g-s2 Manual [exclusive]
Features up to 25 fault protection mechanisms, including over-current, over-voltage, under-voltage, and overload. Manual & Documentation Resources
is a sensorless vector control inverter designed for high-performance applications in the 1.5kW power range. It is widely used for industrial automation tasks, such as driving fans and pumps, due to its ability to provide high torque at low frequencies and accurate speed control.
The INVT Che100-1R5G-S2 inverter is a high-performance solution for industrial motor control applications. With its advanced features, compact design, and reliable operation, this inverter offers a comprehensive solution for a wide range of industries. By following the guidelines outlined in this article and referring to the INVT Che100-1R5G-S2 manual, users can ensure safe and reliable operation, optimal performance, and extended lifespan of the inverter. Invt Che100-1r5g-s2 Manual
Includes sections on wiring diagrams, parameter settings, and troubleshooting. A copy is available on Scribd or via the Efe Otomasyon Archive .
However, even the most sophisticated drive is useless without proper setup. That’s where the becomes indispensable. This article serves as an extended guide, consolidating information from the official manual, providing practical usage tips, and answering common user questions. Whether you are an electrician, maintenance engineer, or hobbyist, this guide will help you master your INVT CHE100 drive. Features up to 25 fault protection mechanisms, including
If you are using a new motor, the manual walks you through . This allows the VFD to measure the motor's internal resistance and inductance, ensuring perfect torque control. Skip this step, and your motor might run rough or trip on overcurrent.
A: Disconnect the motor wires from U, V, W. Then try to run the drive. If it still trips SC, the drive’s IGBT is shorted. If it runs without fault, the motor or its cable is shorted. including its manual
| Param | Description | Setting for 1R5G-S2 | Notes | | :--- | :--- | :--- | :--- | | | Control mode | 1 (Sensorless Vector Control) | Best for torque at low speed. Use 0 (V/F) for multiple motors. | | P00.01 | Run command source | 0 (Keypad), 1 (Terminals), 2 (Modbus) | Choose your preferred control method. | | P00.02 | Frequency source | 0 (Keypad), 1 (Analog AI), 2 (Potentiometer) | Set how you adjust motor speed. | | P00.03 | Max output frequency | 50.00 or 60.00 Hz | Match motor nameplate. | | P00.04 | Upper limit frequency | 50.00 (or less) | Often same as P00.03. | | P00.08 | Acceleration time | 5.0 seconds | Adjust for smooth starts. Longer for high inertia. | | P00.09 | Deceleration time | 5.0 seconds | Longer to avoid overvoltage faults. | | P01.01 | Motor rated power | 1.5 kW | Critical for vector control autotuning. | | P01.02 | Motor rated current | See motor plate | e.g., 7.2 A for 1.5kW/230V. Do not guess. | | P01.03 | Motor rated speed | See motor plate | e.g., 1420 RPM for 4-pole motor. | | P01.04 | Motor rated voltage | 220 V | Output voltage matches input voltage. | | P03.19 | Restart after power failure | 0 (Disable) | Safety: Prevents automatic restart after power returns. | | P07.00 | Fault reset attempts | 0 | Disables auto-reset for safety-critical applications. |
For more information on the INVT Che100-1R5G-S2 inverter, including its manual, datasheet, and other resources, please visit the INVT website or contact an authorized distributor.
Disclaimer: Always refer to the official INVT documentation for your specific hardware revision.
Never connect input power to the U/V/W output terminals. Double-check the wiring diagram on Page 2-5 (depending on the revision).