DANFOSS FC-301P1K1T4Z55H2XGCXXXSXXXXAXBXCXXXXDX 1.1kW IP55 480V Three Phase Automation Inverter
The DANFOSS FC-301P1K1T4Z55H2XGCXXXSXXXXAXBXCXXXXDX, a 1.1kW IP55 480V three-phase automation inverter, stands as a robust solution for demanding industrial applications, offering superior motor control, energy efficiency, and enhanced operational reliability. This inverter is engineered with advanced VLT® technology, providing precise speed regulation and torque control crucial for optimizing processes in sectors such as water treatment, HVAC, and general manufacturing. Its inherent IP55 rating ensures protection against dust ingress and low-pressure water jets, making it suitable for challenging environments. The 480V three-phase input accommodates standard industrial power grids, while the 1.1kW power rating is ideal for a wide array of medium-duty motor applications.
Product Specifications
| Parameter | Specification |
| :-------------------- | :------------------------------------------- |
| Model Number | FC-301P1K1T4Z55H2XGCXXXSXXXXAXBXCXXXXDX |
| Power Rating | 1.1 kW (1.5 HP) |
| Input Voltage | 480V Three Phase |
| Output Voltage | 480V Three Phase |
| Enclosure Rating | IP55 |
| Control Type | Advanced VLT® Technology |
| Frame Size | (Specific frame size not detailed in initial search results, but typically correlates with power rating) |
| Operating Temperature | (Specific range not detailed in initial search results, but generally robust for industrial use) |
| Dimensions (H x W x D)| (Specific dimensions not detailed in initial search results) |
Core Features & Market Positioning
The DANFOSS FC-301P1K1T4Z55H2XGCXXXSXXXXAXBXCXXXXDX distinguishes itself through its intelligent automation capabilities and energy-saving potential. Its advanced control algorithms, including precise torque and speed regulation, minimize energy consumption by precisely matching motor output to load requirements, leading to significant operational cost reductions. The inverter's robust design, evident in its IP55 enclosure, ensures longevity and consistent performance even in harsh industrial settings, reducing downtime and maintenance costs. Positioned as a premium, reliable solution, it competes effectively in markets where precision, efficiency, and durability are paramount, often favored over less sophisticated alternatives for critical applications.
Key Application Scenarios
This automation inverter is particularly well-suited for applications requiring precise motor control and energy optimization. In the water and wastewater industry, it excels in pump control, managing flow rates and pressure with exceptional accuracy, thereby preventing water hammer and optimizing energy usage during varying demand cycles. For HVAC systems, the FC-301P1K1T4Z55H2XGCXXXSXXXXAXBXCXXXXDX enables sophisticated fan and pump speed modulation, contributing to significant energy savings and improved climate control. Furthermore, its robust performance makes it a reliable choice for general manufacturing conveyor systems, mixers, and extruders where consistent speed and torque are essential for product quality and process efficiency.
Practical System Integration Guidance
Integrating the DANFOSS FC-301P1K1T4Z55H2XGCXXXSXXXXAXBXCXXXXDX into existing industrial systems is streamlined due to its standard input voltage and flexible communication options. For wiring, ensure compliance with local electrical codes, utilizing appropriately sized conductors for the 1.1kW rating and the 480V supply. Grounding is critical for safety and electromagnetic compatibility; connect the earth ground terminal securely. Commissioning typically involves parameter configuration via the integrated keypad or through a PC using Danfoss software, where motor data, control modes (e.g., V/f, flux vector control), and application-specific settings are defined. For advanced integration, utilizing built-in communication protocols like Modbus or Profibus allows seamless data exchange with PLCs and SCADA systems for remote monitoring and control.
Operation and Risk Mitigation
Safe operation of the DANFOSS FC-301P1K1T4Z55H2XGCXXXSXXXXAXBXCXXXXDX is paramount. Always ensure the inverter is de-energized and all capacitors have discharged before performing any maintenance or wiring. Familiarize yourself with the unit's error codes through the user manual; common fault codes often relate to overcurrent, undervoltage, or overtemperature conditions, typically indicating issues with the motor, load, or environmental factors. Proper ventilation around the inverter is crucial to prevent overheating, as the IP55 rating pertains to environmental ingress, not internal heat dissipation. Adhering to installation guidelines and performing regular visual inspections will mitigate risks and ensure optimal performance.
Scalability & Long-Term Value
The DANFOSS FC-301P1K1T4Z55H2XGCXXXSXXXXAXBXCXXXXDX offers significant long-term value through its inherent scalability and compatibility with modern industrial automation trends. Its advanced control capabilities provide a foundation for future system upgrades and process enhancements. The inverter's compatibility with various communication protocols facilitates integration into Industrial Internet of Things (IIoT) frameworks, enabling enhanced data acquisition, predictive maintenance, and remote diagnostics, which are critical for Industry 4.0 initiatives. Danfoss's commitment to innovation ensures that this product line remains relevant, offering firmware updates and support that maximize its lifespan and return on investment within evolving industrial landscapes.
Frequently Asked Questions
What is the power rating of the DANFOSS FC-301P1K1T4Z55H2XGCXXXSXXXXAXBXCXXXXDX inverter?
The DANFOSS FC-301P1K1T4Z55H2XGCXXXSXXXXAXBXCXXXXDX inverter has a power rating of 1.1 kW, which is equivalent to approximately 1.5 horsepower. This output capacity is suitable for a range of industrial motors in medium-duty applications.
This specific power output makes it a versatile choice for many standard industrial processes that do not require extremely high torque or continuous peak loads. It is designed to efficiently drive motors within this specified power range, optimizing energy consumption.
The 1.1kW rating ensures that the inverter can handle typical motor demands for applications like small pumps, fans, conveyors, and general machinery without being oversized, thus promoting energy efficiency and cost-effectiveness.
Can this inverter be used with a single-phase motor?
No, the DANFOSS FC-301P1K1T4Z55H2XGCXXXSXXXXAXBXCXXXXDX is designed for three-phase motors only. It requires a three-phase power supply input of 480V.
Using this inverter with a single-phase motor would result in improper operation, potential damage to the motor, and is not supported by the manufacturer. Always match the motor type to the inverter's capabilities.
For single-phase motor applications, a different type of variable frequency drive designed specifically for single-phase motors would be necessary. This inverter is engineered for the balanced power delivery of three-phase systems.
What does the IP55 rating signify for this DANFOSS inverter?
The IP55 rating indicates that the DANFOSS FC-301P1K1T4Z55H2XGCXXXSXXXXAXBXCXXXXDX offers protection against dust ingress (the '5' in IP55) and against low-pressure water jets from any direction (the second '5').
This rating means the inverter can withstand dusty environments common in industrial settings and can tolerate splashes or light spraying of water without sustaining damage to its internal components. It is not designed for submersion.
The IP55 enclosure ensures increased reliability and a longer operational life in moderately harsh or wet industrial locations, reducing the risk of equipment failure due to environmental contaminants.
How do I connect the motor to the DANFOSS FC-301P1K1T4Z55H2XGCXXXSXXXXAXBXCXXXXDX?
Motor connection involves wiring the three-phase output terminals (U, V, W) of the inverter to the corresponding motor terminals. Ensure proper grounding of both the inverter and the motor.
Always refer to the specific wiring diagrams in the DANFOSS FC-301P1K1T4Z55H2XGCXXXSXXXXAXBXCXXXXDX manual for the exact terminal designations and recommended cable types. Correct wiring is crucial for safety and performance.
Before connecting, verify that the motor's nameplate specifications (voltage, current, power) are compatible with the inverter's output capabilities. Secure all connections to prevent loosening due to vibration.
What are the primary advantages of using this automation inverter over a standard motor starter?
Key advantages include precise speed control, significant energy savings through optimized motor performance, and reduced mechanical stress on equipment due to soft starting capabilities.
Unlike fixed-speed motor starters, this inverter allows for variable speed operation, adapting motor output to the exact needs of the application, leading to improved process efficiency and reduced energy consumption.
The inverter also provides advanced diagnostic features, motor protection, and communication capabilities, offering a more intelligent and integrated solution compared to basic motor starters, which improves uptime and maintenance.
What is the input voltage requirement for this inverter model?
The input voltage requirement for the DANFOSS FC-301P1K1T4Z55H2XGCXXXSXXXXAXBXCXXXXDX is 480V, three-phase. This is a standard industrial voltage in many regions.
Ensure your power supply is stable and meets the specified voltage and phase requirements to prevent damage to the inverter during operation or commissioning. Incorrect input voltage can cause system failure.
The inverter is designed to operate within a certain voltage tolerance around the 480V nominal rating, but consistent operation within these parameters is essential for optimal performance and longevity.
How does this inverter contribute to energy efficiency?
The inverter achieves energy efficiency by precisely controlling motor speed to match the load demand, avoiding energy waste associated with running motors at full speed unnecessarily.
Advanced algorithms within the inverter optimize motor torque and flux, further reducing power consumption, especially during periods of partial load, which is common in many industrial applications.
By enabling soft starting and stopping, it also reduces peak current draw and mechanical shock, contributing to overall energy savings and reduced wear on connected equipment.
What communication protocols does this DANFOSS inverter typically support for system integration?
While specific protocols depend on optional modules, Danfoss inverters of this series commonly support industry-standard protocols such as Modbus RTU/TCP, Profibus DP, and EtherNet/IP for seamless integration into automation systems.
These protocols enable real-time data exchange between the inverter and Programmable Logic Controllers (PLCs) or Supervisory Control and Data Acquisition (SCADA) systems, facilitating remote control, monitoring, and diagnostics.
Integration with these protocols allows for advanced automation strategies, including predictive maintenance, performance analysis, and centralized control of multiple drive units within a plant.
What are common fault codes associated with this type of inverter and what might they indicate?
Common fault codes often include overcurrent faults (e.g., F001), overvoltage (e.g., F002), undervoltage (e.g., F003), and motor overload (e.g., F004). These indicate issues with the power supply, motor, or load.
An overcurrent fault might suggest a short circuit, a motor that is too heavily loaded, or incorrect acceleration settings, while an overvoltage fault could point to regenerative energy feedback or a high input voltage.
Troubleshooting these faults typically involves checking the motor, power supply, cabling, and inverter parameters. Consulting the product manual for specific fault code explanations is essential for accurate diagnosis.
How does the IP55 rating affect where this inverter can be installed?
The IP55 rating allows for installation in environments where dust is present and where equipment might be exposed to water jets, such as near washdown areas or in outdoor enclosures not exposed to direct rain.
It is suitable for many manufacturing floors, processing plants, and water treatment facilities that do not require a higher level of protection like submersion resistance (IP67/68) or complete dust sealing (IP6X).
However, the rating does not imply protection against corrosive atmospheres or extreme temperatures; therefore, the specific operating environment must still be evaluated for suitability.
