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| Title: FC-051PK37T4E20H3XXCXXXSXXX Digital High-Response Proportional Valve The FC-051PK37T4E20H3XXCXXXSXXX is a high-performance digital proportional valve engineered for applications demanding exceptional dynamic response and precise control.This advanced valve delivers 37 L/min flow capacity with 350 bar maximum operating pressure,featuring integrated CANopen safety protocol and high-precision LVDT feedback.With enhanced dynamic response characteristics and robust IP69K protection,this valve excels in mobile machinery,industrial robotics,and precision automation applications where rapid response,digital safety integration,and reliable performance are critical requirements. Product Parameters Parameter Name Parameter Value Manufacturer Product Series FC-051 Digital Proportional Valve Size Standard NG6(CETOP 3) Maximum Flow 37 L/min Maximum Pressure 350 bar Spool Type Proportional with High-Precision LVDT Communication CANopen with Safety Protocols Hysteresis<0.8% Response Time<15 ms Protection Rating IP69K Temperature Range-40°C to+100°C Weight 2.8 kg Product Features This digital proportional valve features advanced CANopen implementation with integrated safety protocols(CANopen Safety)for functional safety applications.The high-precision LVDT feedback system provides exceptional spool positioning accuracy with hysteresis typically below 0.8%.Enhanced dynamic response characteristics ensure rapid actuation for demanding motion control applications. The valve incorporates sophisticated thermal management with predictive temperature control and adaptive compensation algorithms.Robust construction with premium materials ensures reliable operation in challenging environments.Advanced diagnostic capabilities include real-time performance monitoring,predictive maintenance features,and comprehensive safety function monitoring. Advantages Exceptional dynamic response enables high-performance motion control applications.Integrated safety protocols support functional safety applications up to SIL 2.Superior control precision with minimal hysteresis ensures accurate positioning. Advanced thermal management maintains consistent performance across varying operating conditions.Comprehensive diagnostic capabilities support predictive maintenance strategies.Robust construction with IP69K protection ensures reliable operation in harsh environments. Application Scenarios This valve is ideal for high-dynamic mobile hydraulic systems in advanced construction and agricultural machinery.It serves industrial robotics and automation applications requiring precise motion control with safety integration.The valve operates in precision manufacturing equipment and process automation systems. Other applications include test bench systems requiring high dynamic response and safety compliance.It is used in aerospace and defense applications demanding reliable performance.The valve serves in medical equipment manufacturing and precision assembly systems. Usage Instructions Install the valve using specified mounting hardware and proper torque values.Connect hydraulic ports with appropriate seals and fittings rated for 350 bar operation.Wire the CANopen safety network using recommended shielded twisted-pair cables with proper termination. Configure valve parameters and safety functions using certified configuration tools.Perform comprehensive safety validation including function testing and performance verification.Conduct dynamic response testing and safety system validation before system commissioning. Precautions Ensure hydraulic fluid cleanliness meets ISO 4406 17/15/12 specifications.Verify CANopen safety network implementation meets applicable safety standards.Use only certified components for safety-related applications. Implement proper safety validation procedures and documentation.Avoid exposure to conditions beyond specified operational limits.Follow all safety protocols during installation,configuration,and maintenance activities. Frequently Asked Questions What safety protocols and certifications does this valve support? The FC-051PK37T4E20H3XXCXXXSXXX supports CANopen Safety according to EN 50325-5,enabling functional safety applications up to SIL 2.The valve incorporates redundant position sensing,cross-monitoring of critical parameters,and comprehensive diagnostic coverage to ensure safe operation.The safety functions include Safe Torque Off(STO),Safe Limited Position(SLP),Safe Maximum Speed(SMS),and Safe Direction control,all verifiable through the integrated diagnostic system. The valve maintains detailed safety logs and event records with timestamped safety-related events.All safety-critical parameters are stored in non-volatile memory with checksum protection and redundancy.The system supports safe communication through CRC-protected safety telegrams and includes built-in test patterns for periodic safety validation.These features make the valve suitable for applications requiring certified functional safety compliance according to international standards. How does the valve achieve its exceptional dynamic response characteristics? The valve achieves exceptional dynamic response through several advanced design features.The optimized spool and sleeve assembly minimizes moving mass while maintaining structural integrity,reducing inertia for faster acceleration.The proportional solenoid features an enhanced magnetic circuit with reduced inductance,enabling rapid current changes and faster force generation.The hydraulic design includes optimized flow paths and minimal dead volume to reduce fluid compression effects. The control electronics implement high-speed processing with advanced control algorithms that include predictive compensation and adaptive gain scheduling.The system operates with high update rates and minimal processing latency,ensuring rapid response to control commands.These features combine to achieve response times under 15 milliseconds while maintaining precise control,making the valve suitable for applications requiring both speed and accuracy. What are the commissioning requirements for safety-critical applications? Commissioning for safety-critical applications requires a systematic and documented approach.Begin with mechanical installation verification using certified torque values and alignment checks.Electrical installation must follow strict protocols for safety circuit implementation,with proper separation of safety and standard circuits.Network configuration requires specialized tools and certified software to ensure proper safety parameterization. Safety validation includes comprehensive testing of all safety functions with documented results.This includes verification of safe state behavior,response time measurements,failure mode testing,and emergency function validation.All commissioning activities must be documented in a safety validation report,and regular re-validation is required to maintain safety certification.Personnel involved in commissioning must have appropriate safety training and certification for the specific safety standards applicable to the application. How does the advanced diagnostic system support system reliability? The diagnostic system provides comprehensive monitoring of multiple performance and safety parameters.The system continuously tracks spool position accuracy,solenoid performance,temperature characteristics,and communication integrity.Advanced algorithms detect subtle changes in operating characteristics that may indicate developing issues,enabling proactive maintenance before performance is affected. The diagnostics include automated performance degradation tracking and trend analysis.The system monitors for specific failure modes and can differentiate between temporary anomalies and persistent issues.All diagnostic data is timestamped and stored with event context,providing valuable information for root cause analysis.The comprehensive diagnostic approach supports predictive maintenance strategies,helps optimize maintenance intervals,and enhances overall system reliability through early detection of potential issues. What installation practices are critical for maintaining safety certification? Installation for safety-certified applications requires strict adherence to specified procedures.Use only certified components and follow manufacturer-specified installation methods.The mounting surface must meet specified requirements for flatness,finish,and mechanical integrity.Hydraulic connections must use approved seals and fittings with proper torque application documented. Electrical installation requires careful attention to cable selection,routing,and termination.Safety circuits must be implemented with proper separation and redundancy according to safety standards.All installation work must be performed by qualified personnel with appropriate safety training.Comprehensive documentation of the installation process,including torque values,connection details,and verification tests,is essential for maintaining safety certification and supporting future audits. How does the thermal management system maintain performance under varying conditions? The advanced thermal management system incorporates multiple temperature sensors monitoring critical components including the solenoid coil,electronic circuits,and valve housing.The system uses predictive thermal modeling that anticipates temperature changes based on operating patterns,allowing proactive measures to maintain optimal operating temperatures.Adaptive control algorithms continuously adjust operating parameters based on temperature measurements,maintaining consistent performance across the operating range. The thermal protection includes graded response levels,beginning with subtle parameter adjustments as temperatures approach limits,progressing to controlled output reduction,and finally implementing safe shutdown if critical temperatures are reached.The system also includes compensation for changes in fluid viscosity and solenoid characteristics that occur with temperature variations,ensuring consistent performance regardless of environmental conditions. What technical support and certification documentation is available? provides comprehensive technical support specifically for safety-critical applications.This includes detailed safety manuals,certification reports,validation guides,and application notes for specific industry requirements.All safety documentation follows international standards and is regularly updated to reflect current requirements.Certification documents include SIL ratings,safety function descriptions,and validation reports. Technical support includes access to safety engineers with specific expertise in functional safety applications.Training programs are available covering safety principles,valve operation,maintenance procedures,and validation requirements.For complex applications, offers engineering services to support safety implementation and maintain certification compliance throughout the product lifecycle.Online resources including safety manuals,certification documents,and application examples are available through the website. How does this valve compare to standard proportional valves in dynamic applications? The FC-051PK37T4E20H3XXCXXXSXXX offers significant advantages over standard proportional valves in dynamic applications.The exceptional response time under 15 milliseconds provides superior performance in applications requiring rapid actuation.The integrated safety protocols enable use in safety-critical applications where standard valves would require additional external safety components.The enhanced precision with hysteresis below 0.8%ensures accurate control in precision motion applications. The advanced diagnostic capabilities provide maintenance advantages that are typically unavailable in standard proportional valves.The robust construction with IP69K protection ensures reliable operation in demanding environments.The combination of high dynamic performance,safety integration,and advanced features makes this valve particularly suitable for applications where reliability,safety,and performance are critical requirements. What maintenance procedures are required for safety-certified applications? Maintenance for safety-certified applications requires a rigorous,documented approach.Regular functional safety testing must be performed according to the safety validation plan,with all results documented.Preventive maintenance includes detailed inspection of all safety-critical components,verification of safety function performance,and comprehensive system testing.All maintenance activities must be performed by qualified personnel using certified procedures and tools. The maintenance schedule should include periodic replacement of safety-critical components based on both time and usage metrics.All modifications to safety parameters must follow strict change management procedures with full re-validation.Maintenance records must be maintained for the entire service life of the valve,demonstrating continuous compliance with safety requirements.Regular safety audits and functional testing are essential for maintaining safety certification. |
Beijing Zhongping Technology Co., Ltd. is a leading provider of industrial automation solutions, intelligent robotics, and advanced system integration services. With decades of expertise, the company has established long-term strategic partnerships with global industry leaders such as Siemens, ABB, Schneider Electric, KUKA, Yaskawa, and FANUC, leveraging their cutting-edge technologies to deliver innovative, tailored solutions across diverse sectors.Q1: What is the core business scope of Beijing Zhongping Technology Co., Ltd.?
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