DANFOSS iC2-30FA1N02-06A8E20F0+ACXX 1.5kW 6.8A Single Phase 240V VFD F0
The DANFOSS iC2-30FA1N02-06A8E20F0+ACXX is a robust Variable Frequency Drive (VFD) engineered for precise motor control in single-phase 240V applications. This compact yet powerful unit delivers 1.5kW of power with a maximum output current of 6.8A, making it an ideal solution for a wide range of industrial and commercial machinery. Its advanced design ensures significant energy savings, enhanced operational efficiency, and extended equipment lifespan. The VFD's sophisticated features, including built-in filters and advanced control algorithms, position it as a leading choice for demanding applications requiring reliable and accurate speed regulation.
Product Specifications
| Parameter | Value |
| :-------------------------- | :----------------------------------------- |
| Model Number | iC2-30FA1N02-06A8E20F0+ACXX |
| Power Rating | 1.5 kW |
| Output Current (Max) | 6.8 A |
| Input Voltage | Single Phase 240V |
| Output Voltage | Variable (up to input voltage) |
| Output Frequency | 0-500 Hz |
| Protection Class | IP20 |
| Dimensions (H x W x D) | 210 x 140 x 170 mm |
| Operating Temperature | -10°C to +50°C |
| Integrated Filter | EMC Class A (as per EN 61800-3) |
| Control Method | V/f, Vector Control |
| Mounting Type | Wall/Panel Mount |
Core Features & Market Positioning
The DANFOSS iC2-30FA1N02-06A8E20F0+ACXX distinguishes itself through its advanced V/f and vector control capabilities, offering superior torque control and precise speed regulation essential for high-performance applications. Its integrated EMC Class A filter minimizes electromagnetic interference, ensuring reliable operation within complex industrial environments and compliance with international standards. This VFD is positioned as a premium solution for users seeking energy efficiency, reduced mechanical stress on equipment, and a smaller operational footprint compared to traditional motor control methods. The robust construction and comprehensive feature set make it a competitive offering in the variable frequency drive market.
Key Application Scenarios
This DANFOSS VFD is exceptionally well-suited for a variety of applications, including pump and fan control, conveyor systems, and general machinery where precise speed adjustment is critical. Its single-phase input capability makes it particularly valuable for retrofitting existing systems or in locations where only single-phase power is available. Industries such as food and beverage processing, material handling, and HVAC systems benefit from the energy savings and enhanced process control that the iC2-30FA1N02-06A8E20F0+ACXX provides. The drive's versatility allows for seamless integration into diverse operational setups.
Practical System Integration Guidance
Integrating the DANFOSS iC2-30FA1N02-06A8E20F0+ACXX involves straightforward wiring and parameter configuration. For typical installations, ensure a stable single-phase 240V supply is connected to the L1 and L2 terminals. The motor is connected to the U, V, and W terminals. Proper grounding is essential for safety and optimal performance. Initial commissioning often requires setting basic motor parameters, such as rated voltage, frequency, current, and speed, which can be accessed through the drive's intuitive interface. Advanced configuration for specific applications, like PID control for pumps, can be programmed via the parameter menu to optimize system responsiveness.
Operation and Risk Mitigation
Safe operation of the DANFOSS iC2-30FA1N02-06A8E20F0+ACXX demands adherence to electrical safety standards and the product manual. Always disconnect power before performing any wiring or maintenance. Overload protection is inherent, but it is crucial to ensure the connected motor's specifications do not exceed the drive's rated current. Common fault codes, such as 'Overcurrent' (OC) or 'Overvoltage' (OV), typically indicate issues with motor load, wiring, or power supply quality, requiring investigation into these areas for resolution. Proper ventilation around the VFD is also critical to prevent overheating and ensure longevity.
Scalability & Long-Term Value
The DANFOSS iC2-30FA1N02-06A8E20F0+ACXX offers excellent long-term value through its energy efficiency, which directly reduces operational costs. Its robust design and high-quality components ensure a long service life with minimal maintenance. While this specific model is designed for single-phase input, Danfoss offers a broad portfolio of VFDs, facilitating scalability for more complex three-phase motor applications or integration into larger automated systems. Compatibility with common industrial communication protocols can be explored for advanced IIoT integration and remote monitoring capabilities, enhancing its value in smart manufacturing environments.
Frequently Asked Questions
What is the primary function of the DANFOSS iC2-30FA1N02-06A8E20F0+ACXX?
The DANFOSS iC2-30FA1N02-06A8E20F0+ACXX is a variable frequency drive. It controls the speed of AC electric motors by adjusting the frequency and voltage of the power supplied to them. This allows for precise motor speed regulation.
This drive is specifically designed for single-phase 240V input power. It efficiently manages motor output from 0 to 500 Hz. Its primary function is to optimize motor performance and reduce energy consumption.
The main goal is to provide variable speed control for applications like pumps, fans, and conveyors. This leads to improved process efficiency and reduced wear on machinery.
What are the main advantages of using the DANFOSS iC2-30FA1N02-06A8E20F0+ACXX?
A key advantage is significant energy savings, often reducing electricity consumption by up to 50%. It achieves this by matching motor speed to the actual load demand.
The drive offers enhanced process control and accuracy. This leads to improved product quality and reduced waste in manufacturing processes.
Furthermore, it extends the lifespan of motor and mechanical components. Soft starting and stopping capabilities reduce mechanical stress and wear.
How do I wire the DANFOSS iC2-30FA1N02-06A8E20F0+ACXX?
Connect your single-phase 240V power supply to the L1 and L2 input terminals. Ensure the power source is properly protected and rated for the drive's requirements.
Wire the three-phase motor to the U, V, and W output terminals of the VFD. For safety and optimal performance, ensure all connections are secure and that the motor is properly grounded.
Consult the product manual for specific wiring diagrams and recommendations, especially for grounding and potential external control signals. Always disconnect power before wiring.
What are common applications for this VFD model?
This VFD is ideal for variable torque applications such as fans and centrifugal pumps. It provides efficient speed control for HVAC systems.
It is also suitable for conveyor systems and general machinery requiring precise speed adjustments. Its single-phase input makes it versatile for many industrial settings.
Applications in food processing, material handling, and automation benefit from its energy efficiency and precise control capabilities.
How can I program the DANFOSS iC2-30FA1N02-06A8E20F0+ACXX for a specific application?
Access the parameter menu using the keypad and display. Basic motor data like voltage, current, and frequency must be entered first.
For advanced control, configure parameters for PID control, ramp times, and acceleration/deceleration profiles. Refer to the user manual for detailed parameter descriptions.
External control signals, like start/stop commands or speed reference inputs, can be configured using the digital and analog I/O terminals.
What safety precautions should I take when operating this VFD?
Always ensure the VFD is correctly grounded to prevent electrical hazards. Disconnect main power before making any connections or performing maintenance.
Avoid operating the drive without a connected motor, as this can cause damage. Ensure adequate ventilation around the unit to prevent overheating.
Follow lockout/tagout procedures during maintenance. Familiarize yourself with emergency stop functions and fault reset procedures.
What does an "Overcurrent" fault mean on this VFD?
An "Overcurrent" (OC) fault indicates that the motor is drawing more current than the VFD is rated to deliver. This can be caused by a motor overload or a short circuit.
Check for mechanical issues causing the motor to be overloaded, such as jammed machinery or incorrect load matching. Verify the motor is not exceeding its rated current.
Inspect the motor windings and the VFD output wiring for any signs of short circuits or damage. Ensure the motor parameters are correctly set in the VFD.
Can this VFD be used with a three-phase motor if the input is single-phase?
No, this specific model, the iC2-30FA1N02-06A8E20F0+ACXX, is designed for single-phase input and typically drives a three-phase motor. However, it is crucial that the motor is rated for the output voltage and frequency the VFD provides.
The VFD converts single-phase input power into a variable voltage and frequency output suitable for a three-phase motor. It does not convert a single-phase motor to operate from a three-phase supply.
Always ensure the motor's nameplate specifications are compatible with the VFD's capabilities. The VFD itself is designed to handle single-phase input.
What is the protection rating of the DANFOSS iC2-30FA1N02-06A8E20F0+ACXX?
The DANFOSS iC2-30FA1N02-06A8E20F0+ACXX has an IP20 protection rating. This means it is protected against solid objects greater than 12.5 mm in diameter, such as a finger.
An IP20 rating indicates that the drive is not protected against water ingress. Therefore, it is best suited for clean, dry indoor environments.
Ensure the VFD is installed in an enclosure or location that prevents contact with water, dust, or other contaminants to maintain its operational integrity.
How does the EMC Class A filter benefit system operation?
The integrated EMC Class A filter significantly reduces electromagnetic interference (EMI) emitted by the VFD. This helps the drive comply with stringent electromagnetic compatibility standards.
By minimizing EMI, the filter ensures that the VFD does not disrupt the operation of other sensitive electronic equipment in the vicinity. This is crucial in industrial settings with multiple devices.
This feature contributes to a more stable and reliable system operation, preventing communication errors or malfunctions in connected machinery.
