DANFOSS iC2-30FA1N02-09A6E20F0+ACXX 2.2kW 9.6A 1-Phase 240V F0 Drive

The DANFOSS iC2-30FA1N02-09A6E20F0+ACXX is a robust 2.2kW, 9.6A, 1-phase, 240V Variable Frequency Drive (VFD) designed for demanding industrial applications. This F0 drive offers exceptional motor control, energy efficiency, and advanced features, positioning it as a superior choice for HVAC, pump, and fan applications requiring precise speed regulation and reliability. Its compact design and user-friendly interface simplify integration and operation. Key advantages include its high power density, built-in safety functions, and flexible programming capabilities.

Product Specifications

| Parameter            | Value                                 |

| :------------------- | :------------------------------------ |

| Model Number         | iC2-30FA1N02-09A6E20F0+ACXX           |

| Power Rating         | 2.2 kW                                |

| Output Current       | 9.6 A                                 |

| Input Voltage        | 1-Phase, 240V                         |

| Drive Type           | F0 Drive                              |

| Enclosure Protection | IP20                                  |

| Harmonic Distortion  | < 10% (with optional filter)          |

| Operating Temperature| -10°C to +50°C (derating above 40°C) |

| Mounting             | Wall or DIN rail mounting             |

Core Features & Market Positioning

The DANFOSS iC2-30FA1N02-09A6E20F0+ACXX distinguishes itself through its advanced control algorithms, offering precise V/f (Volts per Hertz) and vector control for optimized motor performance and energy savings. Its integrated PID controller is a significant advantage for applications requiring closed-loop control without external controllers, such as maintaining pressure or temperature. The drive's market positioning is firmly rooted in its reliability and efficiency for HVAC, pumping, and fan systems, where consistent performance and reduced energy consumption are paramount. Competitive advantages include its robust build quality, comprehensive fault diagnostics, and compatibility with various motor types.

Key Application Scenarios

This VFD excels in building automation, particularly in HVAC systems for controlling fans and pumps, ensuring optimal air flow and water pressure while minimizing energy usage. It is an ideal solution for boosting stations, water treatment plants, and general industrial machinery requiring variable speed operation. The 1-phase 240V input makes it suitable for a wide range of commercial and light industrial settings where 3-phase power may not be readily available. Its ability to handle fluctuating loads efficiently makes it a versatile choice for applications like cooling towers and circulation pumps.

Practical System Integration Guidance

Integrating the DANFOSS iC2-30FA1N02-09A6E20F0+ACXX is streamlined by its user-friendly interface and clear wiring terminals. For optimal performance and safety, ensure the drive is installed in a clean, well-ventilated environment, away from excessive dust and moisture. Connect the 1-phase 240V supply to the designated input terminals, and the motor to the output terminals, adhering strictly to the wiring diagrams provided in the user manual. Grounding the drive and motor is crucial for electrical safety and noise reduction. Parameter programming for applications like fan or pump control typically involves setting motor data, ramp times, and PID setpoints.

Operation and Risk Mitigation

Safe operation of the DANFOSS iC2-30FA1N02-09A6E20F0+ACXX mandates adherence to local electrical codes and the manufacturer's safety guidelines. Always ensure the unit is de-energized before performing any wiring or maintenance. The drive incorporates built-in protection features, including overcurrent, overvoltage, and thermal overload protection, to safeguard the motor and the drive itself. Common fault codes, such as "Overcurrent" (F001) or "Motor Overload" (F002), typically indicate issues with motor wiring, load conditions, or ambient temperature. Proper parameter setup can help mitigate these occurrences.

Scalability & Long-Term Value

The DANFOSS iC2-30FA1N02-09A6E20F0+ACXX offers significant long-term value through its energy efficiency and durability. While this specific model is designed for 1-phase input, Danfoss provides a broad portfolio of drives that can seamlessly integrate into larger, multi-phase systems or IIoT platforms for advanced monitoring and control. Its robust construction ensures a long operational lifespan in industrial environments, reducing the total cost of ownership. Compatibility with standard communication protocols (if configured with optional communication modules) allows for integration into SCADA systems and other intelligent building management solutions.

Frequently Asked Questions (FAQs)

1. What are the main advantages of the Danfoss iC2-30FA1N02-09A6E20F0+ACXX?

It offers precise motor control and high energy efficiency. The integrated PID controller simplifies closed-loop applications. Its compact size and robust design ensure reliability.

The drive provides flexible programming options for various industrial needs. It is well-suited for HVAC, pump, and fan systems. Its advanced features reduce operational costs significantly.

This VFD minimizes motor wear through soft starting and controlled acceleration. It offers advanced diagnostic capabilities for quick troubleshooting. Its reliability translates to reduced downtime.

2. Can this drive be used with any 1-phase motor?

Yes, it is designed for 1-phase 240V motors up to 2.2kW. Ensure motor nameplate data matches drive capabilities. Always verify motor compatibility for optimal performance.

It supports both V/f and basic vector control for enhanced motor performance. This allows for precise speed and torque regulation. Proper motor selection is key for efficiency.

Always consult the Danfoss manual for specific motor connection guidelines. Incorrect wiring can lead to damage or poor operation. Verify all connections before powering up.

3. What is the typical power consumption of the Danfoss iC2-30FA1N02-09A6E20F0+ACXX?

Actual consumption depends on the motor load and speed. The drive itself has low internal power loss. It significantly reduces energy use compared to direct-on-line starting.

At full load, the drive will draw approximately 9.6A from the 1-phase supply. When the motor runs at partial load, consumption will be lower. Efficiency gains are substantial.

The drive's high efficiency rating minimizes wasted energy as heat. This contributes to lower overall operating costs. Energy savings are a primary benefit of VFD technology.

4. How do I wire the Danfoss iC2-30FA1N02-09A6E20F0+ACXX?

Connect the 1-phase 240V AC supply to L1 and L2 terminals. Wire the motor to the U, V, and W terminals. Ensure proper grounding for safety and noise reduction.

Refer to the product manual for detailed wiring diagrams. Follow all local electrical codes and standards. Incorrect wiring can cause equipment damage.

Use appropriately sized conductors for power input and motor output. Ensure all connections are secure and insulated. Double-check wiring before energizing the drive.

5. What are common fault codes for this drive?

Common faults include overcurrent (F001) and motor overload (F002). Other codes may relate to under-voltage or communication errors. Consult the manual for specific codes.

Overcurrent faults can stem from excessive load or rapid acceleration. Motor overload often indicates the motor is drawing too much current for its rating. Check these parameters first.

Troubleshooting involves checking motor connections, load conditions, and ambient temperature. Resetting the drive after addressing the fault is standard procedure. Persistent faults require expert diagnosis.

6. Can this drive be used for pump applications?

Yes, it's ideal for variable speed pump control. Its PID function allows for precise pressure or flow regulation. This improves system efficiency and reduces water hammer.

The drive's soft start feature prevents sudden surges in pressure. It can operate pumps at lower speeds, saving significant energy. It integrates easily into building management systems.

Configuring the drive for pump applications involves setting up the PID loop and motor parameters. Ensure the pump's performance curve is considered. Proper setup ensures optimal system performance.

7. What is the IP rating of the Danfoss iC2-30FA1N02-09A6E20F0+ACXX?

The IP rating is IP20. This means it offers protection against solid objects larger than 12.5mm. It is not protected against water ingress.

Install this drive in a clean, dry environment. Avoid areas with excessive dust, moisture, or corrosive elements. Proper enclosure is vital for longevity.

An IP20 rating signifies basic protection. For harsh environments, consider an external enclosure or a drive with a higher IP rating. Always assess the installation site carefully.

8. Does this drive support communication protocols?

This specific model may require optional communication cards. Check the product configuration for built-in support. Common protocols include Modbus RTU.

Integration with SCADA or BMS systems is possible with the right module. This enables remote monitoring and control capabilities. It enhances system automation.

Verify the required communication protocol and order the appropriate add-on module if necessary. Ensure compatibility between the drive and the network. This allows for advanced system integration.

9. What is the maximum ambient temperature for operation?

The drive can operate up to 50°C. However, derating is required above 40°C. Consult the manual for specific derating curves.

High ambient temperatures can reduce the drive's lifespan. Ensure adequate ventilation around the drive. Do not install in direct sunlight or near heat sources.

Proper cooling is essential for VFD performance and reliability. If operating near the limit, consider forced ventilation or a larger enclosure. Monitor drive temperature during operation.

10. How can I optimize energy savings with this drive?

Set the drive to match the required motor speed, not full speed always. Utilize the V/f or vector control for efficiency. Reduce ramp times to avoid unnecessary energy use.

Ensure the motor is correctly sized for the application. Avoid oversizing, which leads to inefficiency. Regular maintenance of motors and drives is also key.

Implement smart control strategies, like PID loops for demand-based operation. This ensures power is only used when and where needed. Energy savings are maximized through intelligent application of the VFD.