Product Short Description
Product Overview
The SCP451-51 is a high-performance redundant central processing unit module for Yokogawa’s Centum VP distributed control system (DCS), serving as the primary real-time control core for continuous process industry plants including petrochemical, power generation, water treatment, and pharmaceutical manufacturing. It executes PID closed-loop control logic, sequential batch control, interlock protection algorithms, and communicates with field I/O modules, operator HMI stations, and upper-level plant management systems via dual redundant Vnet/IP industrial control networks. The -51 suffix denotes enhanced high-speed processing variant with expanded program memory and improved EMC industrial immunity.
Description
Core Technical Specifications
- Main Processor Core: 32-bit high-speed RISC industrial real-time processor
- User Control Program Memory: 64 MB flash non-volatile program storage
- Data Register Memory: 32 MB SRAM real-time process data storage (battery-backed for power failure retention)
- Control Loop Execution Speed: 0.05 ms per single PID control loop; max 1000 simultaneous PID loops per module
- Redundancy Architecture: Hot standby dual CPU redundant support (1:1 primary/backup seamless switchover within 10 ms)
- Network Interfaces: Dual redundant Vnet/IP gigabit Ethernet control network ports (primary + backup)
- Field Bus Compatibility: ESB bus communication to remote I/O node units, FIO field input/output modules
- Control Logic Languages: IEC 61131-3 standard (Function Block Diagram, Ladder Logic, Sequential Function Chart, Structured Text)
- Auxiliary Power Input: 24 V DC ±10% DCS cabinet power bus, 18 W maximum power consumption
- Operating Temperature Range: 0 °C to +60 °C control cabinet ambient
- EMC Compliance Standard: IEC 61000-6-2 industrial heavy interference immunity, CE certified
- Mounting Form Factor: Centum VP standard vertical slot plug-in module for control rack subracks
- Module Weight: 1.15 kg
Functional Features
- Seamless Hot Standby Redundancy: Primary and backup SCP451-51 modules synchronize all control logic, process data, and alarm status continuously; automatic fault switchover without process control interruption
- Integrated Advanced Process Control Library: Pre-programmed standard PID, feedforward control, ratio control, dead-time compensation, and anti-windup limit function blocks for rapid process loop configuration
- Comprehensive Plant Interlock Protection: Fast execution emergency shutdown (ESD) interlock logic with sub-millisecond response time for hazardous chemical process safety protection
- Historical Data Buffering: Onboard 32 MB SRAM buffers real-time process trending data for up to 72 hours during temporary upper HMI communication failure
- Built-in System Self-Diagnostic Suite: Continuous diagnostic testing of processor core, memory chips, network ports, backplane bus, and redundant synchronization link with detailed fault code logging
- Multi-Protocol External Communication Gateway: Supports Modbus TCP/IP, OPC UA, and PROFIBUS DP via optional add-on communication daughterboard modules
Material Composition
- Module Front Bezel: Black extruded aluminum alloy with silk-screened status LED labels and module model marking
- Internal Rack Chassis Frame: Galvanized steel anti-vibration support frame
- Main Control PCB: Multi-layer FR4 high-speed digital printed circuit board with tin-lead free solder plating
- Memory Components: Industrial-grade wide-temperature flash memory chips and lithium battery-backed SRAM modules
- Network Interface Chips: Gigabit Ethernet transceiver semiconductors with integrated isolation transformers
- Power Regulation Circuitry: High-efficiency DC-DC step-down converter modules with overvoltage and short-circuit protection
Structural Characteristics
- Vertical plug-in rack mounting design with rear gold-plated backplane connector for ESB bus and power supply interconnection
- Front panel layout includes multi-color LED status indicators (RUN, REDUNDANT, FAULT, VNET A, VNET B, ESB BUS) and manual redundant switch toggle button
- Separate front removable plastic dust cover to protect Ethernet communication ports when unused
- Internal layered PCB layout isolates high-speed digital processor circuits from analog power regulation circuits to minimize electrical noise crosstalk
- Mechanical anti-vibration locking clip secures module to rack slots to resist plant process pump and fan vibration fatigue
- Integrated passive aluminum heat sink bonded to processor chip for silent convection cooling without cooling fans
Working Principle
- 24 V DC rack power input converted via onboard DC-DC converters to multiple isolated low-voltage rails for processor, memory, and communication circuits
- Operator control setpoints, batch recipes, and plant operating parameters downloaded from HMI stations via Vnet/IP redundant Ethernet network to SCP451-51 flash program memory
- RISC processor executes cyclical real-time control scan cycles: read field I/O process values via ESB bus → calculate PID and interlock logic → write output control signals back to field I/O modules
- Primary CPU continuously mirrors all process data and control state to backup redundant CPU via dedicated high-speed synchronization link
- Onboard diagnostics monitor all hardware and communication links; upon primary CPU hardware failure, logic control instantly transfers to backup CPU within 10 ms with zero process bump
- Real-time trending data, alarm event logs, and batch operation records buffered to SRAM memory and periodically uploaded to central plant historian servers over Vnet/IP network
Application Scenarios
- Petrochemical refinery distillation, cracking, and reactor continuous process control
- Thermal power plant boiler, turbine, and flue gas desulfurization DCS control racks
- Municipal wastewater and potable water treatment full plant automation systems
- Pharmaceutical batch manufacturing sterile process control
- Natural gas pipeline compression station flow and pressure regulation control
- Cement plant kiln, raw mill, and clinker cooling process automation
Installation Requirements
- Install inside air-conditioned DCS control cabinet maintaining steady 20–30 °C ambient operating temperature
- Cabinet forced ventilation required if rack internal temperature exceeds 45 °C under full control loop load
- Vnet/IP network cabling must use Yokogawa specified Category 6 shielded twisted pair Ethernet cable with full metal shielding termination
- All rack power supply units must be dual redundant 24 V DC to maintain CPU operation during single power supply failure
- Maintain minimum 15 mm vertical spacing between adjacent rack modules for passive heat sink convection
- Avoid rack installation within 3 meters of high-current variable frequency drive equipment to reduce electromagnetic interference
Operation & Maintenance Precautions
- Replace onboard lithium backup SRAM battery every 5 years to prevent process data loss during full plant power outages
- Complete full CPU redundant switchover functional test semi-annually by activating manual standby switch
- Do not remove or insert SCP451-51 module while rack power is energized; live hot-swap damages gold-plated backplane connectors
- All control program modifications must be uploaded offline to backup CPU first before primary CPU activation to avoid process disturbance
- Clear fault log memory only after completing root-cause analysis of DCS alarm and diagnostic codes
- Prevent liquid chemical spillage or dust accumulation on front panel Ethernet ports to eliminate network communication intermittent faults







Reviews
There are no reviews yet.