Schneider ATV630C13N4 High Performance Specific Application VFD 237A 132kW IP21
The Schneider Electric Altivar Process ATV630C13N4 is a high-performance variable frequency drive (VFD) engineered for demanding industrial applications, offering a robust solution for motor control with a rated current of 237A and a power output of 132kW. This specific application VFD boasts an IP21 enclosure, providing essential protection against solid objects larger than 12.5mm and vertically falling water droplets. Its advanced features are designed to optimize energy efficiency, enhance process control, and ensure operational reliability across various challenging environments.
Product Specifications
| Parameter | Value |
| :--------------------- | :----------------------------------- |
| Model | ATV630C13N4 |
| Rated Current (A) | 237A |
| Power Output (kW) | 132kW |
| Voltage Rating (3-Phase) | 380-415V |
| Enclosure | IP21 |
| Mounting | Wall-mounted, Floor-standing |
| Communication Protocols| Modbus RTU, Ethernet/IP, Profibus DP |
| Overload Capacity | 150% for 60 seconds, 120% for 300 seconds |
| Operating Temperature | -15°C to +50°C |
Core Features & Market Positioning
The ATV630C13N4 distinguishes itself with its "Process Performance" design, specifically catering to variable torque applications common in water, wastewater, oil and gas, and material handling industries. It integrates advanced functionalities such as built-in motor thermal protection, slip compensation, and a sophisticated process loop controller, enabling precise management of pump and fan speeds for optimal energy savings. This VFD's robust construction and extended thermal performance capabilities position it as a competitive and reliable choice for plant managers and engineers seeking to improve operational efficiency and reduce total cost of ownership in demanding industrial settings.
Key Application Scenarios
This VFD excels in variable torque applications, making it ideal for centrifugal pumps and fans, where precise flow and pressure control are paramount. Its advanced features are particularly beneficial in water and wastewater treatment plants for managing pump stations, ensuring consistent water levels, and reducing energy consumption during varying demand periods. In the oil and gas sector, it is employed for controlling fan systems in cooling towers and for variable speed drives in pumping applications, enhancing safety and efficiency. Material handling operations also benefit from the ATV630C13N4's ability to provide smooth acceleration and deceleration for conveyors and cranes, reducing mechanical stress and wear.
Practical System Integration Guidance
Integrating the Schneider ATV630C13N4 into existing industrial systems is facilitated by its comprehensive communication options, including Modbus RTU, Ethernet/IP, and Profibus DP, allowing for seamless integration with PLCs and SCADA systems. Proper wiring is crucial; ensure that power input terminals are connected to the correct voltage supply and that motor output terminals are securely fastened to prevent loose connections, which can lead to operational issues or safety hazards. Commissioning involves a systematic approach, starting with parameter configuration via the integrated keypad or software tools like SoMove. Key parameters to set include motor data, application type (e.g., pump, fan), and desired control mode to optimize performance and energy efficiency.
Operation and Risk Mitigation
Safe operation of the ATV630C13N4 hinges on adhering to installation guidelines and performing regular maintenance. Always ensure proper ventilation around the VFD to prevent overheating, as its IP21 rating does not protect against internal heat buildup. Familiarize yourself with critical fault codes displayed on the VFD's interface; for instance, an "Overcurrent" fault (e.g., FC01) typically indicates a load issue, motor short circuit, or rapid acceleration, requiring immediate investigation of the motor and connected load. Implementing emergency stop functionalities and ensuring proper grounding are essential safety measures to mitigate risks associated with electrical hazards and unexpected equipment behavior.
Scalability & Long-Term Value
The Altivar Process range, including the ATV630C13N4, is designed for integration within Schneider Electric's EcoStruxure™ platform, enabling advanced connectivity and digital services for IIoT environments. This facilitates remote monitoring, predictive maintenance, and data analytics, enhancing long-term operational value and system scalability. Compatibility with a wide array of Schneider Electric components and third-party automation systems ensures that the ATV630C13N4 can be a cornerstone of evolving industrial automation architectures, supporting future upgrades and expansions without necessitating a complete system overhaul.
Frequently Asked Questions
What is the primary function of the Schneider ATV630C13N4?
The Schneider ATV630C13N4 is a high-performance variable frequency drive (VFD) designed for precise motor control.
It optimizes motor speed based on process demand, significantly reducing energy consumption in applications like pumps and fans.
This VFD offers advanced features for enhanced process performance, reliability, and integration into industrial automation systems.
What are the key benefits of using the ATV630C13N4 in industrial applications?
It provides substantial energy savings by precisely matching motor speed to load requirements.
The VFD enhances process control accuracy, leading to improved product quality and reduced waste.
Its robust design and protective features ensure increased equipment lifespan and reduced maintenance costs.
How does the IP21 rating impact the installation environment for this VFD?
The IP21 rating means the enclosure protects against solid objects larger than 12.5mm and vertically falling water.
This VFD can be installed in environments where dust and dripping water are present but not in direct spray.
Adequate ventilation is still critical to manage internal heat, as IP21 does not imply complete sealing against moisture ingress.
Can the ATV630C13N4 be easily integrated with existing PLC systems?
Yes, it supports common industrial communication protocols like Modbus RTU and Ethernet/IP.
This allows for seamless data exchange and control integration with various PLC brands and SCADA systems.
Configuration tools and software facilitate straightforward integration and parameter setting for system compatibility.
What is the typical power range for applications suitable for the ATV630C13N4?
This VFD is rated for 132kW, making it suitable for medium to large industrial motor applications.
It is ideal for variable torque loads such as centrifugal pumps, fans, and compressors.
The 237A current rating indicates its capacity to handle significant motor power demands reliably.
Are there specific motor types recommended for use with the ATV630C13N4?
The VFD is designed to control standard three-phase induction motors efficiently.
It features advanced algorithms for slip compensation to optimize performance with varying motor loads.
Always ensure the motor's voltage and frequency ratings are compatible with the VFD's output capabilities.
What are the main communication protocols supported by this VFD?
The ATV630C13N4 supports Modbus RTU for serial communication and Ethernet/IP for industrial Ethernet networks.
It also offers Profibus DP compatibility, a widely used fieldbus for industrial automation.
These protocols enable robust and flexible integration into networked control systems.
How can the ATV630C13N4 help in reducing operational costs?
Significant energy savings are achieved through optimized motor speed control and reduced power consumption.
Predictive maintenance capabilities, when integrated with IIoT platforms, minimize downtime and repair expenses.
Extended equipment lifespan due to reduced mechanical stress also contributes to lower overall operational costs.
What troubleshooting steps are recommended for common faults on the ATV630C13N4?
Refer to the VFD's display for specific fault codes and consult the user manual for detailed explanations.
Common faults like overcurrent or undervoltage require checking the motor, wiring, and power supply stability.
Ensure proper parameter configuration and motor tuning for optimal performance and to prevent nuisance tripping.
Does Schneider Electric offer support or additional resources for the ATV630C13N4?
Yes, Schneider Electric provides extensive technical documentation, including manuals and application guides.
Their website offers support resources, software tools like SoMove for configuration, and access to technical expertise.
A network of certified service partners is available for installation, commissioning, and troubleshooting assistance.
