DANFOSS FC-051P1K5S2E20HXBXCXXXSXXX 1.5kW 240V Single Phase VFD
The DANFOSS FC-051P1K5S2E20HXBXCXXXSXXX 1.5kW 240V Single Phase VFD is a robust Variable Frequency Drive engineered for precise motor control in demanding industrial environments. This unit delivers significant advantages, including enhanced energy efficiency, extended equipment lifespan, and improved process control. Its core features encompass a compact design, advanced cooling technology, and robust protection mechanisms. Key technical parameters include a power rating of 1.5kW, an input voltage of 240V single-phase, and advanced control algorithms for seamless operation.
Product Specifications
| Feature | Specification |
| :--------------- | :-------------------------------- |
| Model Number | FC-051P1K5S2E20HXBXCXXXSXXX |
| Power Rating | 1.5 kW |
| Input Voltage | 240V Single Phase |
| Output Voltage | 240V Three Phase (Typical) |
| Output Frequency | 0-400 Hz |
| Enclosure | IP20 |
| Control Type | V/f Control, Vector Control |
| Ambient Temp | -10°C to +40°C (Derating may apply) |
Core Features & Market Positioning
The DANFOSS FC-051P1K5S2E20HXBXCXXXSXXX stands out in the market due to its superior reliability and adaptable control options, positioning it as a preferred choice for applications demanding consistent performance. Its V/f control offers straightforward implementation, while the advanced vector control provides enhanced dynamic response and torque accuracy, crucial for applications with fluctuating loads. The drive's robust construction and thermal management ensure longevity even in challenging conditions, differentiating it from less durable competitors.
Key Application Scenarios
This 1.5kW VFD is exceptionally well-suited for a wide array of industrial applications. It excels in controlling pumps and fans in HVAC systems, providing precise flow and pressure regulation while minimizing energy consumption. In manufacturing, it finds utility in conveyor systems, mixers, and extruders, where accurate speed and torque control are paramount for product quality and throughput. Its single-phase input capability makes it ideal for installations where only single-phase power is readily available, such as in smaller workshops or remote facilities.
Practical System Integration Guidance
Integrating the DANFOSS FC-051P1K5S2E20HXBXCXXXSXXX into existing systems is streamlined through its straightforward wiring and programming interfaces. Ensure the input power supply matches the specified 240V single-phase. Connect the motor to the output terminals, adhering to appropriate wire gauges and insulation ratings. For commissioning, basic parameter setup, including motor data and desired operational limits, is essential. Advanced configuration for specific control modes or external I/O integration can be accessed via the intuitive keypad or optional remote control panels. Always consult the official user manual for detailed wiring diagrams and parameter descriptions to ensure safe and effective integration.
Operation and Risk Mitigation
Safe operation of the DANFOSS FC-051P1K5S2E20HXBXCXXXSXXX necessitates adherence to electrical safety standards and proper installation practices. Always ensure the drive is de-energized before performing any wiring or maintenance. Grounding according to local codes is critical for safety and electromagnetic compatibility. Common operational issues often stem from incorrect parameter settings; refer to the troubleshooting section of the manual for guidance on error codes such as "Overcurrent" (often indicating rapid acceleration or motor short) or "Overvoltage" (potentially related to regenerative braking or input supply issues). Promptly addressing these by adjusting parameters or investigating external factors will mitigate risks and ensure continuous operation.
Scalability & Long-Term Value
The DANFOSS FC-051P1K5S2E20HXBXCXXXSXXX offers significant long-term value through its compatibility and potential for integration into modern industrial control architectures. While this specific model is a standalone unit, Danfoss's broader product ecosystem allows for seamless integration with their other drives and control components in larger, more complex systems. This drive's energy-saving capabilities directly translate to reduced operational costs over its lifespan. Furthermore, its robust design minimizes maintenance requirements, contributing to a lower total cost of ownership and ensuring reliable performance for years to come.
Frequently Asked Questions
Q1: What is the maximum motor size this VFD can control?
This VFD is rated for 1.5kW, which typically corresponds to motors around 2 horsepower.
Always match the VFD's power and current ratings to the motor's nameplate data for optimal performance and longevity.
Exceeding these limits can lead to overheating, nuisance tripping, or premature component failure of the VFD.
Q2: Can this VFD be used with a standard single-phase motor?
No, this VFD is designed to control three-phase motors from a single-phase input.
The VFD electronically creates a three-phase output to run standard three-phase induction motors.
Using this VFD with a single-phase motor will result in motor damage and is not supported.
Q3: What kind of protection features does this DANFOSS VFD have?
It includes comprehensive protection against overcurrent, overvoltage, undervoltage, and motor thermal overload.
Additional protections cover input/output phase loss, short circuits, and external fault conditions.
These features safeguard both the VFD and the connected motor, minimizing downtime and repair costs.
Q4: How do I wire a 3-phase motor to this single-phase input VFD?
Connect the incoming 240V single-phase power to the L1 and L2 terminals of the VFD.
Wire the three leads of your 3-phase motor to the U, V, and W output terminals of the VFD.
Always follow the wiring diagram in the user manual and ensure proper grounding for safety.
Q5: What is the typical efficiency gain when using this VFD?
Efficiency gains vary significantly with the application and load profile.
For variable torque loads like fans and pumps, savings can range from 30-60% by matching speed to demand.
Even for constant torque loads, VFDs can offer slight improvements through optimized motor operation.
Q6: Does this VFD have built-in braking capabilities?
This specific model, FC-051P1K5S2E20HXBXCXXXSXXX, does not typically include built-in dynamic braking resistors.
External braking resistors can be connected if dynamic braking is required for rapid deceleration.
Consult the product manual for specifications on compatible braking resistor sizes and connections.
Q7: What is the IP rating of this VFD and where can it be installed?
The VFD has an IP20 rating, meaning it is protected against solid objects larger than 12.5mm.
It is designed for installation in clean, dry indoor environments free from excessive dust or moisture.
For harsher environments, an external enclosure or a VFD with a higher IP rating is necessary.
Q8: Can this VFD be controlled remotely?
Yes, this VFD supports remote control through digital inputs for start/stop and speed selection.
Optional control panels or communication modules can be used for more advanced remote operation and monitoring.
This allows for integration into automated systems and SCADA networks.
Q9: What are the operating temperature limits for this drive?
The drive is typically rated for operation between -10°C and +40°C ambient temperature.
Derating may be required at higher ambient temperatures to prevent overheating and ensure longevity.
Always ensure adequate ventilation around the drive for optimal heat dissipation.
Q10: How do I reset a fault on the DANFOSS FC-051P1K5S2E20HXBXCXXXSXXX?
Most faults can be reset via the keypad after the fault condition has been cleared.
Alternatively, power cycling the VFD (turning off and then on again) can often clear transient faults.
Consult the user manual's fault code list to understand the cause of the fault before resetting.
