Siemens 6SL3210-1KE13-2AB2 G120 Drive with Filter for Precision Equipment 3.1A 1.1kW

The Siemens 6SL3210-1KE13-2AB2 G120 Drive, a robust solution for precision equipment, offers unparalleled control and efficiency. This variable frequency drive (VFD) excels in applications demanding precise speed regulation and smooth acceleration/deceleration. Its integrated filter enhances electromagnetic compatibility (EMC), crucial for sensitive industrial environments. With a 3.1A current rating and 1.1kW power output, the 6SL3210-1KE13-2AB2 is engineered for reliability and performance in demanding tasks.

Product Specifications

| Parameter             | Specification                                     |

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

| Product Type          | SINAMICS G120 Drive                               |

| Model Number          | 6SL3210-1KE13-2AB2                                |

| Rated Current (I2n)   | 3.1 A                                             |

| Rated Power (P2n)     | 1.1 kW (1.5 HP)                                   |

| Voltage Input Range   | 380-480 V, 3 Phase                                |

| Output Frequency      | 0-600 Hz                                          |

| Integrated Filter     | EMC Filter (Class A)                              |

| Protection Class      | IP20                                              |

| Dimensions (H x W x D)| 247 x 100 x 148 mm                                |

| Weight                | 1.9 kg                                            |

Core Features & Market Positioning

The Siemens 6SL3210-1KE13-2AB2 distinguishes itself through its advanced control algorithms, delivering highly accurate speed and torque management essential for precision machinery. Its integrated Class A EMC filter is a significant differentiator, reducing electromagnetic interference and ensuring seamless operation alongside other sensitive electronic equipment, a common challenge in modern industrial automation. This focus on electromagnetic compatibility positions the G120 drive as a premium choice for applications where signal integrity is paramount. The drive's modular design also allows for flexible configuration and expansion, further enhancing its market appeal for specialized industrial needs.

Key Application Scenarios

This Siemens G120 drive is ideally suited for a wide array of precision-driven applications. It finds extensive use in machine tools, such as CNC machines and lathes, where exact spindle speed control and rapid response are critical for achieving tight tolerances and high surface finishes. Textile machinery, printing equipment, and packaging lines also benefit immensely from the drive's smooth operation and precise motion control capabilities, minimizing product defects and maximizing throughput. Furthermore, its robust design and integrated filter make it an excellent choice for automated assembly systems and robotics, where predictable and reliable movement is fundamental to operational success.

Practical System Integration Guidance

Integrating the Siemens 6SL3210-1KE13-2AB2 into existing systems is streamlined due to its standardized communication interfaces. For initial setup, ensure proper power supply wiring adhering to the 380-480V, 3-phase requirement and local electrical codes. Connect motor leads to the drive's output terminals, observing correct phasing. Basic parameterization can be performed via the drive's control panel or using Siemens' STARTER commissioning software. For advanced control, integrate the drive with a PLC using industrial Ethernet protocols like PROFINET or PROFIBUS, configuring appropriate I/O signals for speed commands and status feedback.

Operation and Risk Mitigation

Safe operation of the Siemens 6SL3210-1KE13-2AB2 requires adherence to all safety guidelines, particularly regarding electrical isolation and proper grounding. Before performing any maintenance or wiring, always disconnect the main power supply and allow the drive's internal capacitors to discharge. Common operational issues can often be resolved by reviewing the drive's fault code directory. For instance, fault F7001 typically indicates an overcurrent condition, which may stem from motor overload or incorrect parameter settings. Addressing such faults promptly through parameter adjustments or load reduction is crucial for maintaining system integrity.

Scalability & Long-Term Value

The Siemens G120 platform, including the 6SL3210-1KE13-2AB2, offers significant scalability for future expansion. Its modular design permits easy upgrades or the addition of supplementary modules, such as communication options or I/O expansions, to meet evolving production demands. This drive is designed to integrate seamlessly with Siemens' broader automation portfolio, including SIMATIC PLCs and HMI panels, facilitating the development of sophisticated IIoT-ready solutions. By leveraging consistent technology across generations, Siemens ensures long-term investment protection and continuous access to advanced digital manufacturing capabilities.

Frequently Asked Questions

What is the maximum output frequency of the Siemens 6SL3210-1KE13-2AB2?

The Siemens 6SL3210-1KE13-2AB2 drive supports an output frequency range of 0 to 600 Hz. This broad range allows for precise speed control across various demanding applications. It enables both low-speed precision movements and high-speed operations.

This wide frequency capability is essential for applications requiring dynamic speed adjustments. It ensures that the motor can be precisely controlled to match process requirements.

Users can configure this parameter during commissioning to optimize motor performance and energy efficiency. Consult the technical documentation for specific motor compatibility.

How does the integrated EMC filter benefit the 6SL3210-1KE13-2AB2?

The integrated Class A EMC filter significantly reduces electromagnetic interference generated by the drive. This is vital for maintaining the integrity of nearby sensitive electronic equipment. It ensures compliance with industrial electromagnetic compatibility standards.

This feature simplifies installation in environments with high electromagnetic sensitivity. It often eliminates the need for external filtering components, saving space and cost.

By mitigating noise, the filter contributes to more stable operation of the controlled machinery. This leads to improved product quality and reduced risk of process interruptions.

What are typical applications for the Siemens 6SL3210-1KE13-2AB2 G120 Drive?

This drive is ideal for precision equipment such as CNC machines and automated manufacturing systems. Its accurate speed and torque control are crucial for high-tolerance operations. It is also well-suited for packaging and printing machinery.

Applications requiring smooth acceleration and deceleration profiles benefit greatly. This includes robotics, conveyor systems, and textile machinery. The drive ensures consistent and reliable motion.

The integrated filter makes it suitable for environments where electromagnetic disturbances must be minimized. This includes laboratory equipment and sensitive electronic assembly lines.

What is the power rating of the Siemens 6SL3210-1KE13-2AB2?

The Siemens 6SL3210-1KE13-2AB2 drive has a rated power of 1.1 kW, which is equivalent to approximately 1.5 horsepower. This makes it suitable for motors within this power range. It provides robust performance for its class.

This power rating is appropriate for many standard industrial automation tasks. It offers a good balance of performance and energy efficiency for typical loads. Ensure your motor's power requirement is within this specification.

When selecting a drive, consider both continuous and peak power demands. This drive is designed to handle the operational requirements of many precision-oriented machines.

What is the input voltage range for this G120 drive?

The 6SL3210-1KE13-2AB2 operates on a 3-phase input voltage range of 380 to 480 Volts AC. It is crucial to connect the drive to a power source within this specified range. Incorrect voltage can damage the drive.

This voltage range is common in many industrial power grids worldwide. Always verify your local power supply specifications before installation. Proper voltage supply ensures optimal performance.

Adhering to the specified input voltage range is a fundamental safety and operational requirement. Consult the product manual for detailed wiring diagrams and electrical connection guidelines.

Can the Siemens 6SL3210-1KE13-2AB2 be used with single-phase motors?

No, the Siemens 6SL3210-1KE13-2AB2 G120 drive is designed for operation with three-phase motors. It requires a three-phase input power supply to function correctly. Using it with a single-phase motor is not supported and could cause damage.

This drive converts the incoming three-phase power into a variable frequency and voltage output for the motor. Three-phase motors are standard in industrial applications for their efficiency and power delivery.

If you need to control a single-phase motor with a VFD, you would require a different type of drive specifically designed for single-phase motors. Always check the drive's specifications for motor compatibility.

What is the IP protection rating of the 6SL3210-1KE13-2AB2?

The Siemens 6SL3210-1KE13-2AB2 drive features an IP20 protection rating. This means it is protected against solid objects greater than 12.5 mm in size. It offers limited protection against dust and no protection against water ingress.

Therefore, this drive is intended for installation in control cabinets or protected environments. It should not be exposed to direct moisture, dust, or corrosive substances. Proper enclosure is essential.

Ensure the installation location meets the environmental requirements specified for IP20 rated equipment. This will safeguard the drive from potential damage and ensure reliable operation.

How do I commission the Siemens 6SL3210-1KE13-2AB2 for a new application?

Commissioning begins with connecting the motor and power supply according to the manual. Basic parameters like motor data, ramp times, and control modes are set via the control panel or software. The Siemens STARTER software provides a guided commissioning process.

Advanced commissioning involves configuring communication interfaces, safety functions, and specific application parameters. This may include PID control loops, positioning functions, or multi-step speed settings. Thorough testing is recommended.

Always ensure the motor is correctly identified by the drive through auto-tuning or manual data entry. Proper parameterization is critical for optimal performance, energy efficiency, and longevity of both the drive and the motor.

What are the communication options for this G120 drive?

While the base unit of the 6SL3210-1KE13-2AB2 may have basic I/O, full communication capabilities are typically achieved with optional communication modules. These modules can include PROFINET, PROFIBUS, DeviceNet, and EtherNet/IP. This allows for integration into various industrial networks.

These communication modules enable seamless data exchange between the drive and higher-level control systems like PLCs. You can monitor drive status, adjust parameters remotely, and receive diagnostic information. This is key for smart manufacturing.

Selecting the appropriate communication module depends on your existing network infrastructure and control architecture. Refer to the SINAMICS G120 system documentation for available modules and their specific features.

What is the maximum ambient temperature for operating the 6SL3210-1KE13-2AB2?

The Siemens 6SL3210-1KE13-2AB2 is typically rated for operation in ambient temperatures up to 50°C (122°F). However, continuous operation at the upper end of this range may require derating the drive's current output. This ensures longevity.

It is crucial to ensure adequate ventilation around the drive, especially when installed in an enclosure. Overheating can lead to reduced performance, nuisance tripping, or permanent damage to the drive's components.

Always consult the product's technical data sheet for precise operating temperature limits and any specific cooling or derating requirements based on your installation environment and load conditions. Proper thermal management is key.