Yokogawa NFCP501-W05 S2 Autonomous Controller CPU Module
Yokogawa NFCP501-W05 S2 Autonomous Controller CPU Module
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Brand:Yokogawa Electric Item No.:NFCP501-W05 S2 Product Origin:Japan Product Dimensions:65.8 x 130 x 149.3 mm Product Weight:0.9 kg Payment:T/T, Western Union, Credit Card Goods_stock:15 Shipping Port:Xiamen, China Lead Time:1-3 Days Condition:Brand New And Original Warranty:1 Year Certificate:COO
The Yokogawa NFCP501-W05 S2 is a high-reliability autonomous controller CPU module designed for FCN-500 STARDOM systems. It provides real-time processing, system coordination, and secure communication for distributed industrial automation environments.
With its redundant architecture and robust processing capability, it is widely deployed in critical infrastructure where continuous operation and fault tolerance are essential.
Technical Specifications
Parameter
Specification
Product Model
NFCP501-W05 S2
Product Type
Autonomous Controller CPU Module
System Platform
Yokogawa STARDOM FCN-500
Processor
Intel Atom E3815, 1.46 GHz
Memory
ECC RAM + onboard flash storage
Communication Ports
2 × Ethernet, 1 × RS-232-C
Redundancy
Dual-redundant CPU configuration
Operating System
Real-time OS
Power Supply
5 V DC ±5%
Operating Temperature
-20°C to 70°C
Dimensions (W × H × D)
65.8 × 130 × 149.3 mm
Weight
0.9 kg / 1.98 lb
Applications
The Yokogawa NFCP501-W05 S2 Autonomous Controller CPU Module is designed for high-performance distributed control systems requiring deterministic processing, redundancy, and continuous operation. It serves as the central processing unit within FCN-500/STARDOM architectures, managing control logic, I/O coordination, and industrial communication.
Typical applications include:
Oil & gas production and pipeline automation systems
Power generation plant distributed control and monitoring
Petrochemical and refinery process automation
Water treatment and utility infrastructure control systems
SCADA-integrated remote and unmanned installations
Large-scale industrial automation with redundant controller architecture
It is particularly effective in mission-critical environments where downtime is not acceptable and system continuity is essential.
Advantages
The NFCP501-W05 S2 delivers high computing performance combined with industrial-grade reliability and flexible system integration.
High-performance Intel Atom processor enables stable real-time control execution
Dual-redundant architecture supports continuous operation during hardware maintenance
ECC memory ensures data integrity in mission-critical environments
Dual Ethernet interfaces provide flexible and stable network connectivity
Hot-swappable design reduces downtime during system maintenance
Advanced diagnostics and RAS functions improve fault detection and system reliability
This module is widely used in high-availability automation systems where stability and uptime are top priorities.
Technical FAQs (10 Technical Questions)
Q1: What is the main function of NFCP501-W05 S2?
It acts as the main CPU for Yokogawa FCN-500/STARDOM autonomous controller systems.
Q2: Does it support redundancy?
Yes, it supports dual-redundant CPU configurations for high availability.
Q3: What processor is used in this module?
It uses an Intel Atom E3815 processor running at 1.46 GHz.
Q4: What communication interfaces are available?
It includes dual Gigabit Ethernet ports and RS-232 serial communication.
Q5: What is the memory configuration?
It typically includes ECC RAM, static RAM, and onboard flash storage for system reliability.
Q6: Can it operate in harsh environments?
Yes, it is designed for industrial temperature ranges and continuous operation.
Q7: What ensures data reliability?
ECC memory and system diagnostics reduce data corruption and improve stability.
Q8: Is hot swapping supported?
Yes, it supports module replacement without shutting down the system in redundant setups.
Q9: What industries commonly use it?
Oil & gas, power generation, chemical processing, and water treatment industries.
Q10: What is its role in STARDOM systems?
It executes control logic and coordinates communication between field I/O and supervisory systems.
